JP6932301B2 - Lubrication device for machine tool parts that can be expanded and contracted by handheld - Google Patents

Description

The present invention relates to the field of maintenance technology for machine tool parts, and specifically is a handheld type self-expandable machine tool parts lubricator.

When a machine tool operates, it causes some wear on each part, and conventional parts maintenance requires manual lubrication of the parts, but some parts are located in the back, so Conventional spray coating cannot lubricate the parts at the back of the machine tool, the number of lubricants required varies depending on the parts, and conventional spray coating can be wasted due to operator mistakes. Therefore, in order to solve the above problems, a handheld type self-expandable machine tool component lubricator is required, and the present invention has improved these drawbacks.

Chinese Patent Application Publication No. 103551956

The technical problem solved by the present invention overcomes the above problem by providing a lubrication device for handheld automatic telescopic machine tool parts.

To solve the above problems, the present invention employs the following technical plan: a work box and an upwardly open liquid storage space provided in the work box, in which the liquid storage space contains: A lubricant is filled, and a hinge plate located on the upper side of the liquid storage space is connected to the upper end surface of the work box by a hinge, and a first space located on the left side of the liquid storage space is inside the work box. Is fixedly provided, and a locking device is provided in the first space, in which the locking device closes the upper opening of the liquid storage space to the hinge plate when the work box is activated, and the work. A lubrication space located below the liquid storage space is fixedly provided in the box, the lubrication space and the liquid storage space are communicated by a through hole, and a slide plate slides in the lubrication space. A second space, which is possibly provided and is located below the lubrication space and is open to the left, is fixedly provided in the work box, and a reagent box slides in the second space. Possible to be provided, the lubrication space is communicated with the reagent box by a liquid discharge hose, and the slide plate can push the lubricant in the lubrication space into the reagent box, and the lubricant box can be pushed into the reagent box. A lubricating rod penetrates the left end surface, and the lubricant in the reagent box enters the lubricating rod to lubricate the machine tool parts, and a telescopic device is fixedly attached to the right end surface of the reagent box. Provided, the telescopic device can supply power to the reagent box and control the sliding distance of the reagent box to the left.

Further technical plan, a push rod is fixedly provided on the right end surface of the slide plate, the right end surface of the slide plate and the right wall of the lubrication space are connected by a first spring, and the right side of the work box. A pull ring that opens to the left is fixedly provided at the lower end of the slide plate, the pull ring and the right end surface of the slide plate are connected by a first tension rope, and the slide plate is pulled to the right by pulling the pull ring. Slide towards to increase the volume of the lubrication space and control the amount of lubricant as needed for each lubrication.

As a preferential technical plan, a third space located on the left side of the liquid storage space and open downward is fixedly provided in the work box, and the third space communicates with the lubrication space. A closing plate is slidably provided in the third space, and the upper end surface of the closing plate and the wall at the upper end of the third space are connected by a second spring, and the upper end surface of the closing plate and the said The upper end surfaces of the slide plates are connected by a second tension rope, and when the slide plate slides to the left, the second tension rope is pulled to slide the closing plate upward, and the opening on the left side of the lubrication space. Is opened, and the lubricant in the lubricating space is allowed to enter the reagent box through the liquid discharge hose.

As a preferential technical plan, a slide groove located on the upper side of the fourth space is fixedly formed in the work box, and an electric magnet is fixedly provided on the right wall of the slide groove to form the slide groove. A magnetic slider located on the left side of the electromagnet is fixedly provided inside, the left end surface of the magnetic slider and the left wall of the slide groove are connected by a third spring, and a motor is mounted on the upper end surface of the magnetic slider. A fifth space located above the slide groove is fixedly provided in the work box, a motor shaft is rotatably provided on the upper end surface of the motor, and the motor shaft extends upward. A first bevel gear located in the fifth space is fixedly provided at the upper end of the motor shaft extending into the fifth space, and the telescopic device is a lower wall of the fifth space. A first rotating shaft is rotatably provided in the fixed block, and the first rotating shaft includes a second umbrella that meshes with the first gear. A gear is fixedly provided, and a screw rod is fixedly provided on the left end surface of the first rotating shaft, and the screw rod extends to the left and extends into the second space of the screw rod. A screw sleeve located in the second space is connected to the outer wall by a screw thread, the left end surface of the screw sleeve is fixedly connected to the right end surface of the reagent box, and the outer end surface of the screw sleeve is connected to the screw sleeve. A rectangular position limiting block that abuts on the wall around the second space is fixedly provided, and the rectangular position limiting block can control the screw sleeve and slide left and right in the second space.

As a preferential technical plan, a sixth space located on the right side of the lubricating space is fixedly provided in the work box, and the push rod extends to the right and extends into the sixth space. A slider is slidably provided on the bottom wall of the sixth space, and the left end surface of the slider is connected to the left wall of the sixth space by a fourth spring and opens upward in the slider. A rotating space is provided, a second rotating shaft is rotatably provided in the rotating space, and a cam located on the right side of the push rod is fixedly provided on the second rotating shaft, and the cam is provided. When rotated, the push rod slides to the left and right, a third rotating shaft is rotatably provided on the right wall of the fifth space, and a third bevel gear is fixedly provided on the third rotating shaft. A fourth rotating shaft is rotatably provided on the upper inner wall of the work box, and the fourth rotating shaft extends downward through the sixth space and extends into the fifth space. A fourth umbrella gear, which is located in the fifth space and meshes with the third umbrella gear, is fixedly provided on the rotating shaft, and the fourth rotating shaft is formed by the second rotating shaft and the first pulley. Connected, the first pulley is an elastic pulley, and when the magnetic slider slides to the right until it abuts on the left end surface of the electromagnet, the first bevel gear meshes with the third bevel gear.

As a preferred technical plan, the locking device includes a fifth rotating shaft rotatably connected to the left wall of the first space, and a suction box is fixedly provided on the upper end wall of the fifth rotating shaft. The suction box is provided vertically symmetrically, a suction space that opens upward is provided in the suction box, and a first magnet is slidably provided in the suction space, and the bottom surface of the first magnet is provided. Is connected to the bottom wall of the suction space by a fifth spring, and a fifth umbrella gear located on the right side of the suction box is fixedly provided on the fifth rotation shaft, and the suction is contained in the hinge plate. A seventh space located on the upper side of the box and opening downward is provided fixedly, and a second magnet is slidably provided in the seventh space, and the upper end surface of the second magnet and the seventh space are provided. The upper wall is connected by a sixth spring, a sixth rotating shaft is rotatably provided on the upper and lower inner walls of the first space, and the sixth rotating shaft has a sixth umbrella gear that meshes with the fifth umbrella gear. It is fixedly provided, and the sixth rotation shaft and the fourth rotation shaft are connected so as to be transmitted by a second pulley, and when the sixth rotation shaft rotates, the fifth rotation shaft rotates, and the fifth rotation shaft rotates. One magnet is thrown out of the suction space, the first magnet attracts the second magnet and slides downward, locks the hinge plate, and the lubricant in the liquid storage space spills during operation. To prevent.

According to the present invention, the volume of the lubricating space can be changed according to the demand amount of each component for the lubricant, and the expansion / contraction device of the present invention can secure sufficient lubrication of each component and at the same time do not generate waste. The length of extension of the telescopic device can be adjusted based on the position of each part in the machine tool, and in the traditional lubrication process, the problem that some machine tools cannot lubricate parts with narrow positions. Was solved.

In order to explain the invention of the present application in detail with reference to FIGS. 1 to 3 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic diagram of the overall configuration of a lubricator for a handheld type automatically expandable and contractable machine tool part of the present invention. FIG. 2 is a schematic configuration diagram of part A in FIG. FIG. 3 is a schematic configuration diagram of part B in FIG.

Here, referring to FIGS. 1 to 3, the lubrication device for the handheld type automatically expandable and contractable machine tool parts of the present invention includes a work box 10 and a liquid storage space 24 that opens upward and is provided in the work box 10. The liquid storage space 24 is filled with a lubricant, and a hinge plate 23 located on the upper side of the liquid storage space 24 is connected to the upper end surface of the work box 10 by a hinge. A first space 22 located on the left side of the liquid storage space 24 is fixedly provided in the inside, a lock device 70 is provided in the first space 22, and the lock device 70 is the work box 10. Closes the upper opening of the liquid storage space 24 in the hinge plate 23, and a lubrication space 12 located below the liquid storage space 24 is fixedly provided in the work box 10. The lubrication space 12 and the liquid storage space 24 are communicated with each other by a through hole 21, a slide plate 50 is slidably provided in the lubrication space 12, and the lubrication space 12 is contained in the work box 10. A second space 49 located on the lower side and open to the left is fixedly provided, a reagent box 48 is slidably provided in the second space 49, and the lubrication space 12 is the reagent box. The slide plate 50 communicates with 48 by a liquid discharge hose 11, and the lubricant in the lubrication space 12 can be pushed into the reagent box 48, and a lubrication rod is attached to the left end surface of the reagent box 48. 47 penetrates through, and the lubricant in the reagent box 48 enters the lubricating rod 47 to lubricate the machine tool parts, and a telescopic device 71 is fixedly provided on the right end surface of the reagent box 48. The telescopic device 71 can supply power to the reagent box 48 and control the sliding distance of the reagent box 48 to the left.

Preferably, a push rod 43 is fixedly provided on the right end surface of the slide plate 50, and the right end surface of the slide plate 50 and the right wall of the lubrication space 12 are connected by a first spring 42, and the work is performed. A pull ring 39 opened to the left is fixedly provided at the lower end on the right side of the box 10, and the pull ring 39 and the right end surface of the slide plate 50 are connected by a first tension rope 37 to connect the pull ring 39. By pulling, the slide plate 50 is slid to the right, the volume of the lubrication space 12 is increased, and the amount of the lubricant is controlled as needed for each lubrication.

Preferably, a third space 14 located on the left side of the liquid storage space 24 and open downward is fixedly provided in the work box 10, and the third space 14 communicates with the lubrication space 12. A closing plate 13 is slidably provided in the third space 14, and the upper end surface of the closing plate 13 and the upper end wall of the third space 14 are connected by a second spring 15. The upper end surface of the closing plate 13 and the upper end surface of the slide plate 50 are connected by a second tension rope 20, and when the slide plate 50 slides to the left, the second tension rope 20 is pulled to pull the closing plate 13. The lubrication space 12 is slid upward to open the left opening of the lubrication space 12, and the lubricant in the lubrication space 12 is allowed to enter the reagent box 48 through the liquid discharge hose 11.

Preferably, a slide groove 35 located on the upper side of the fourth space 38 is fixedly formed in the work box 10, and an electric magnet 34 is fixedly provided on the right wall of the slide groove 35. A magnetic slider 36 located on the left side of the electromagnet 34 is fixedly provided in the groove 35, and the left end surface of the magnetic slider 36 and the left wall of the slide groove 35 are connected by a third spring 40 to form the magnetic. A motor 33 is provided on the upper end surface of the slider 36, a fifth space 31 located above the slide groove 35 is fixedly provided in the work box 10, and a motor shaft is provided on the upper end surface of the motor 33. 32 is rotatably provided, the motor shaft 32 extends upward and extends into the fifth space 31, and a first umbrella located in the fifth space 31 at the upper end of the motor shaft 32. A gear 55 is fixedly provided, the telescopic device 71 includes a fixed block 44 fixedly connected to the lower wall of the fifth space 31, and a first rotating shaft 53 is contained in the fixed block 44. A second umbrella gear 54 that is rotatably provided and meshes with the first umbrella gear 55 is fixedly provided on the first rotating shaft 53, and a screw rod 45 is provided on the left end surface of the first rotating shaft 53. Fixedly provided, the screw rod 45 extends to the left and extends into the second space 49, and a screw sleeve 46 located in the second space 49 is provided on the outer wall of the screw rod 45. It is connected by a screw thread, the left end surface of the screw sleeve 46 is fixedly connected to the right end surface of the reagent box 48, and the outer end surface of the screw sleeve 46 is a rectangle that abuts on the wall around the second space 49. The position limiting block 69 is fixedly provided, and the rectangular position limiting block 69 can control the screw sleeve 46 and slide left and right in the second space 49.

Preferably, a sixth space 25 located on the right side of the lubrication space 12 is fixedly provided in the work box 10, and the push rod 43 extends to the right in the sixth space 25. A slider 65 is slidably provided on the bottom wall of the sixth space 25, and the left end surface of the slider 65 is connected to the left wall of the sixth space 25 by a fourth spring 68. A rotating space 66 opened upward is provided therein, a second rotating shaft 51 is rotatably provided in the rotating space 66, and the second rotating shaft 51 is provided on the right side of the push rod 43. A cam 52 located is fixedly provided, and when the cam 52 rotates, the push rod 43 slides to the left and right, and a third rotation shaft 29 is rotatably provided on the right wall of the fifth space 31. A third umbrella gear 30 is fixedly provided on the third rotating shaft 29, a fourth rotating shaft 27 is rotatably provided on the upper inner wall of the work box 10, and the fourth rotating shaft 27 faces downward. It penetrates the sixth space 25 and extends into the fifth space 31, is located in the fifth space 31 on the fourth rotating shaft 27, and meshes with the third umbrella gear 30. The fourth umbrella gear 28 is fixedly provided, the fourth rotating shaft 27 is connected to the second rotating shaft 51 by the first pulley 26, the first pulley 26 is an elastic pulley, and the magnetic slider 36. Slides to the right until it comes into contact with the left end surface of the electromagnet 34, the first cap gear 55 meshes with the third cap gear 30.

Preferably, the locking device 70 includes a fifth rotating shaft 61 rotatably connected to the left wall of the first space 22, and a suction box 60 is fixedly provided on the upper end wall of the fifth rotating shaft 61. The suction box 60 is provided vertically symmetrically, a suction space 59 that opens upward is provided in the suction box 60, and a first magnet 63 is slidably provided in the suction space 59. The bottom surface of the first magnet 63 is connected to the bottom wall of the suction space 59 by a fifth spring 62, and a fifth umbrella gear 64 located on the right side of the suction box 60 is fixed to the fifth rotation shaft 61. In the hinge plate 23, a seventh space 58 located above the suction box 60 and opening downward is fixedly provided, and in the seventh space 58, a second magnet 56 is provided. The upper end surface of the second magnet 56 and the upper wall of the seventh space 58 are connected by a sixth spring 57, and the sixth rotating shaft 17 is rotatable on the upper and lower inner walls of the first space 22. A sixth rotating shaft 17 is fixedly provided with a sixth umbrella gear 19 that meshes with the fifth umbrella gear 64, and the sixth rotating shaft 17 and the fourth rotating shaft 27 are a second pulley 18. When the sixth rotating shaft 17 rotates, the fifth rotating shaft 61 rotates, the first magnet 63 is thrown out of the suction space 59, and the first magnet 63 is said. The second magnet 56 is attracted and slid downward to lock the hinge plate 23 and prevent the lubricant in the liquid storage space 24 from spilling during operation.

Order of mechanical operation of the entire device:
In the initial state of the present invention, the electromagnet 34 is not energized, the third spring 40 is in a relaxed state, the first cap gear 55 is engaged with the second cap gear 54, the cam 52 is in contact with the push rod 43, and the cam 52 is in contact with the push rod 43. The second tension rope 20 is in a relaxed state, the second spring 15 is in a relaxed state, the closing plate 13 is located in the lubrication space 12, closes the right opening of the lubrication space 12, and the fifth spring 62. Is in a relaxed state, the first magnet 63 is in the attraction space 59, the sixth spring 57 is in the relaxed state, and the second magnet 56 is located in the seventh space 58.

1. 1. When it is necessary to lubricate a part using the present invention, the pull ring 39 is pulled to the left, the pull ring 39 is pulled to pull the first tension rope 37, and the first tension rope 37 is pulled to slide. The plate 50 is slid to the right to increase the volume of the lubrication space 12, and the lubricant in the liquid storage space 24 enters the lubrication space 12 through the through hole 21.

2. When the motor 33 is started, the motor 33 rotates the motor shaft 32, and the rotation of the motor shaft 32 causes the first cap gear 55 to rotate, and the first cap gear 55 and the second cap gear 54 are in mesh with each other. The cap gear 55 rotates to rotate the second cap gear 54, the rotation of the second cap gear 54 causes the first rotating shaft 53 to rotate, and the rotation of the first rotating shaft 53 causes the screw rod 45 to rotate. The rotation of 45 causes the screw sleeve 46 to slide to the left by the rectangular position limiting block 69, the screw sleeve 46 to slide to the left, the reagent box 48 to slide to the left, and the reagent box 48 to slide to the left. In order to slide the lubrication rod 47 to the left, the lubrication rod 47 is arranged in front of the lubrication waiting component.

3. 3. The electromagnet 34 is energized, the magnetic slider 36 is attracted and slid to the right until it comes into contact with the electromagnet 34, the magnetic slider 36 slides to the right and the motor 33 is slid to the right, and the first bevel gear 55 The first bevel gear 55 and the third bevel gear 30 are disengaged from the meshing with the second bevel gear 54, the pull ring 39 is released, the first tension rope 37 is loosened, and the first spring 42 is returned. Then, the first spring 42 returns and slides the slide plate 50 to the left to the initial position.

4. The rotation of the first umbrella gear 55 rotates the third umbrella gear 30, and the third umbrella gear 30 and the fourth umbrella gear 28 are in mesh with each other. Therefore, the rotation of the third umbrella gear 30 causes the fourth umbrella gear 28 to rotate. Then, the fourth bevel gear 28 rotates to rotate the fourth rotation shaft 27, and the fourth rotation shaft 27 and the second rotation shaft 51 are movably connected by the first pulley 26, so that the fourth rotation The shaft 27 rotates to rotate the second rotating shaft 51, the second rotating shaft 51 rotates to rotate the cam 52, the cam 52 rotates to slide the push rod 43 to the left, and the push rod 43 rotates. Slide to the left to slide the slide plate 50 to the left, the slide plate 50 to slide to the left to pull the second tension rope 20, and the second tension rope 20 to slide the closing plate 13 upward to lubricate. The opening on the right side of the space 12 is opened, and the lubricant in the lubrication space 12 enters the reagent box 48 by the liquid discharge hose 11, enters the lubricating rod 47 from the reagent box 48, and lubricates the parts.

5. Since the fourth rotating shaft 27 and the sixth rotating shaft 17 are connected by the second pulley 18, the sixth rotating shaft 17 rotates to rotate the sixth bevel gear 19, and the sixth bevel gear 19 and the sixth are made. Since the five-capsule gear 64 is meshed, the fifth capsule gear 64 is rotated by the rotation of the sixth capsule gear 19, the fifth capsule gear 64 is rotated to rotate the fifth rotating shaft 61, and the fifth rotating shaft 61 is rotated. Rotates, the first magnet 63 slides out of the attraction space 59, and the attraction space 59 attracts the second magnet 56 and slides the second magnet 56 downward into the first space 22, so that the present invention operates. When so, the hinge plate 23 is locked to prevent the lubricant in the liquid storage space 24 from leaking.

According to the above method, those skilled in the art can make various modifications according to the operating conditions within the scope of the present invention.

Claims (6)

A work box and an upwardly open liquid storage space provided in the work box are included, the liquid storage space is filled with a lubricant, and the upper end surface of the work box is a liquid storage space of the liquid storage space. A hinge plate located on the upper side is connected by a hinge, a first space located on the left side of the liquid storage space is fixedly provided in the work box, and a locking device is provided in the first space. The locking device closes the upper opening of the liquid storage space to the hinge plate when the work box is activated, and a lubrication space located below the liquid storage space is fixed in the work box. The lubrication space and the liquid storage space are communicated with each other by a through hole, a slide plate is slidably provided in the lubrication space, and a slide plate is slidably provided in the work box on the lower side of the lubrication space. A second space that is located and opens to the left is fixedly provided, a reagent box is slidably provided in the second space, and the lubrication space is communicated with the reagent box by a liquid discharge hose. The slide plate can push the lubricant in the lubricating space into the reagent box, and a lubricating rod penetrates the left end surface of the reagent box to lubricate the inside of the reagent box. The agent enters the lubricating rod, lubricates the machine tool parts, and a telescopic device is fixedly provided on the right end surface of the reagent box, and the telescopic device supplies power to the reagent box to supply power to the reagent box. Lubrication device for handheld automatic telescopic machine parts, which is characterized by being able to control the sliding distance to the left. A push rod is fixedly provided on the right end surface of the slide plate, the right end surface of the slide plate and the right wall of the lubrication space are connected by a first spring, and the left end on the right lower end of the work box. A pull ring that opens in the direction is fixedly provided, and the pull ring and the right end surface of the slide plate are connected by a first tension rope, and the slide plate is slid to the right by pulling the pull ring. The lubrication device for a handheld automatic telescopic machine element according to claim 1, wherein the volume of the lubrication space is increased and the amount of the lubricant is controlled according to the need for each lubrication. In the work box, a third space located on the left side of the liquid storage space and open downward is fixedly provided, and the third space communicates with the lubrication space, and the third space is communicated with the lubrication space. A closing plate is slidably provided inside, and the upper end surface of the closing plate and the upper end wall of the third space are connected by a second spring, and the upper end surface of the closing plate and the upper end surface of the slide plate are connected to each other. When connected by a second tension rope and the slide plate slides to the left, the second tension rope is pulled to slide the closing plate upward to open an opening on the left side of the lubrication space, and the lubrication space is opened. The lubricator for a handheld, automatically expandable and contractable machine tool component according to claim 1, wherein the lubricant in the lubricator is allowed to enter the reagent box through the liquid discharge hose. A slide groove located on the upper side of the fourth space is fixedly formed in the work box, an electric magnet is fixedly provided on the right wall of the slide groove, and the electric magnet of the electric magnet is provided in the slide groove. A magnetic slider located on the left side is fixedly provided, the left end surface of the magnetic slider and the left wall of the slide groove are connected by a third spring, and a motor is located on the upper end surface of the magnetic slider. A fifth space located above the slide groove is fixedly provided inside, a motor shaft is rotatably provided on the upper end surface of the motor, and the motor shaft extends upward to form the fifth space. A first capscrew, which extends inside and is located in the fifth space, is fixedly provided at the upper end of the motor shaft, and the telescopic device is fixedly connected to the lower wall of the fifth space. The first rotating shaft is rotatably provided in the fixed block, and the first rotating shaft is fixedly provided with the second bevel gear that meshes with the first bead gear. A screw rod is fixedly provided on the left end surface of the first rotation shaft, the screw rod extends to the left and extends into the second space, and the second is on the outer wall of the screw rod. A screw sleeve located in the space is connected by a thread, the left end surface of the screw sleeve is fixedly connected to the right end surface of the reagent box, and the outer end surface of the screw sleeve is around the second space. 3. The third aspect of the present invention is that a rectangular position limiting block that abuts on a wall is fixedly provided, and the rectangular position limiting block can control the screw sleeve and slide left and right in the second space. Lubricating device for handheld automatic telescopic machine parts as described in. In the work box, a sixth space located on the right side of the lubrication space is fixedly provided, and the push rod extends to the right and extends into the sixth space, and the sixth space. A slider is slidably provided on the bottom wall of the slider, the left end surface of the slider is connected to the left wall of the sixth space by a fourth spring, and a rotating space opened upward is provided in the slider. A second rotation shaft is rotatably provided in the rotation space, a cam located on the right side of the push rod is fixedly provided on the second rotation shaft, and when the cam rotates, the push rod is moved. Sliding to the left and right, a third rotating shaft is rotatably provided on the right wall of the fifth space, and a third bevel gear is fixedly provided on the third rotating shaft, which is above the work box. A fourth rotation axis is rotatably provided on the inner wall, the fourth rotation axis extends downward through the sixth space and extends into the fifth space, and the fourth rotation axis has the fourth rotation axis. A fourth bevel gear, which is located in the five spaces and meshes with the third bevel gear, is fixedly provided, and the fourth rotation shaft is connected to the second rotation shaft by a first pulley, and the first The fourth aspect of claim 4, wherein the pulley is an elastic pulley, and when the magnetic slider slides to the right until it comes into contact with the left end surface of the electromagnet, the first bevel gear meshes with the third bevel gear. Handheld automatic telescopic machine parts lubricator. The locking device includes a fifth rotating shaft rotatably connected to the left wall of the first space, and a suction box is fixedly provided on the upper end wall of the fifth rotation shaft, and the suction box is vertically symmetrical. A suction space that opens upward is provided in the suction box, a first magnet is slidably provided in the suction space, and the bottom surface of the first magnet is the bottom of the suction space. It is connected to the wall by a fifth spring, and a fifth umbrella gear located on the right side of the suction box is fixedly provided on the fifth rotation shaft, and is located above the suction box in the hinge plate. A seventh space that opens downward is fixedly provided, a second magnet is slidably provided in the seventh space, and the upper end surface of the second magnet and the upper wall of the seventh space are the sixth. A sixth rotating shaft is rotatably provided on the upper and lower inner walls of the first space, which is connected by a spring, and a sixth umbrella gear that meshes with the fifth umbrella gear is fixedly provided on the sixth rotating shaft. The sixth rotation shaft and the fourth rotation shaft are connected so as to be transmitted by a second pulley, and when the sixth rotation shaft rotates, the fifth rotation shaft rotates and the first magnet moves into the attraction space. It is characterized in that the first magnet attracts the second magnet and slides downward to lock the hinge plate and prevent the lubricant in the liquid storage space from spilling during operation. The handheld type automatic telescopic machine parts lubricator according to claim 1.

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