CN213443333U - Bagging device is used in calcium carbonate production - Google Patents

Abstract

The utility model discloses a bagging apparatus is used in calcium carbonate production, store mechanism and activity storehouse including base, production, the support frame is installed to the both sides of base, and the top of support frame is fixed with the production and stores the mechanism, the bottom intercommunication that the mechanism was stored in the production has the unloading pipe, and the one end of unloading pipe outer wall installs first device storehouse. This sack filling device is used in calcium carbonate production, through two sets of third racks respectively with the sliding connection in third device storehouse, be connected with the meshing of the second gear that corresponds, when making operating personnel extrude the slip to the direction extrusion of keeping away from the centre through stepping on the extruded article with two sets of third racks, can drive two sets of pivots and the supporting rod on it rotates and removes the laminating with the unloading pipe, it can fix the sack to loosen the extruded article on the unloading pipe with the sack cover, convenient and fast, and can be when the sack is about to fill with the automatic shutdown unloading, and can reduce the wearing and tearing of sack bottom.

Description

Bagging device is used in calcium carbonate production

Technical Field

The utility model relates to a calcium carbonate production technical field specifically is a bagging apparatus is used in calcium carbonate production.

Background

Calcium carbonate is an inorganic compound, has wide use in the building industry and industrial production, and along with the continuous development of society, the scale of the building industry and industrial production is also continuously increased, so that the market demand of calcium carbonate is also continuously increased, calcium carbonate needs to go through a plurality of processes in the production process, and needs to be bagged by using a special bag after the production is finished, so that the subsequent storage or transportation is convenient, and a bagging device for calcium carbonate production is needed, and the traditional bagging device for calcium carbonate production can basically meet the use requirements of people, but still has certain problems, and the specific problems are as follows:

1. when the conventional bagging device for producing calcium carbonate is used, a cloth bag is generally required to be installed at a feed opening by using structures such as a hoop, but the operation process is troublesome, so that the overall working efficiency of operators is influenced;

2. when the conventional bagging device for producing calcium carbonate is used, an operator is generally required to check the residual capacity of a bag nearby at any time so as to stop continuously feeding and seal and collect the bag when the bag is full, which is troublesome;

3. present sack filling device for calcium carbonate production is when using, and operating personnel receives the hindrance of feed opening itself when the sack that will fill with calcium carbonate is taken away from feed opening part, is not convenient for mention whole sack, can only drag the sack to leave the position department under the feed opening and just can mention, and is great to the bottom wearing and tearing of sack.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a sack filling device is used in calcium carbonate production to the current sack filling device is used in calcium carbonate production who proposes in solving above-mentioned background art is comparatively troublesome when fixing with the sack, needs operating personnel to look over constantly, and to the sack when collecting the great problem of bottom wearing and tearing of sack.

In order to achieve the above object, the utility model provides a following technical scheme: a bagging device for calcium carbonate production comprises a base, a production storage mechanism and a movable bin, wherein support frames are installed on two sides of the base, the production storage mechanism is fixed at the top of each support frame, the bottom of the production storage mechanism is communicated with a blanking pipe, a first device bin is installed at one end of the outer wall of the blanking pipe, a second device bin is fixed at the top of the first device bin, a spherical butterfly valve penetrates through the interior of the blanking pipe and extends into the first device bin, a coil spring is connected between the spherical butterfly valve and the blanking pipe, a limiting rod is installed on the outer side, close to one end of the first device bin, of the blanking pipe, a fixed shaft is fixed at the middle position of two ends of the interior of the second device bin, a first gear is sleeved on the outer side of the fixed shaft, a first rack penetrates through one end, close to the blanking pipe, of the bottom of the interior of the second device bin, and extends into the first device bin, a first spring is connected between the first rack and the second device bin, a second rack penetrates through one end of the top part in the second device bin, which is far away from the blanking pipe, a third device bin is installed at the middle position of the top part of the base, an extrusion part penetrates through one end of the top part in the third device bin, which is far away from the first device bin, a second spring is connected between the extrusion part and the third device bin, third racks are arranged on both sides of the top part in the third device bin, which is close to one end of the extrusion part, a third spring is connected between the third racks and the third device bin, rotating shafts are arranged on the bottoms of both ends in the third device bin in a bearing manner, a second gear is fixedly sleeved on the outer side of one end of the rotating shafts, a clamping rod is installed at the middle position outside the rotating shafts, penetrates through the third device bin, a movable bin penetrates through the top part of the third device bin, and the movable bin extends to the inside of the third device bin, one end of the top of the movable bin, which is far away from the extrusion part, is provided with an L-shaped extrusion rod, a fourth spring is connected between the movable bin and the third device bin, a bearing plate is arranged inside the movable bin, and a fifth spring is connected between the bearing plate and the movable bin.

Preferably, the bottom of the first rack is arranged in a bevel edge mode, the first rack is in meshed connection with the first gear, and the first rack and the second device bin form a relative sliding structure.

Preferably, the second rack is in meshed connection with the first gear, and the second rack and the second device bin form a relative sliding structure.

Preferably, one end of the third rack close to the extrusion piece is arranged in a bevel edge mode, and the third rack and the third device bin form a relative sliding structure.

Preferably, the central axis of the second gear is coincident with the central axis of the rotating shaft, and the second gear is in meshed connection with the third rack.

Preferably, the cross-sectional shape of the bearing plate is an inverted T shape, and the bearing plate and the fourth spring form a relative sliding structure.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the two groups of third racks are respectively connected with the third device bin in a sliding manner and are meshed with the corresponding second gears, so that when an operator pushes and slides the two groups of third racks in a direction far away from the middle by stepping on the extrusion piece, the two groups of rotating shafts and the clamping rods on the rotating shafts can be driven to rotate to remove the joint with the blanking pipe, the cloth bag is sleeved on the blanking pipe, and the extrusion piece is loosened to fix the cloth bag conveniently and quickly;

2. through the sliding of the movable bin and the third device bin and the elasticity of the fourth spring, the second rack and the first rack are respectively meshed and connected with the first gear, so that when the raw materials in the cloth bag reach the specified weight and the L-shaped extrusion rod extrudes the second rack, the first rack can slide upwards along with the second rack to release the limit of the spherical butterfly valve, and the spherical butterfly valve is rotated and closed under the elastic action of the coil spring, so that the device can automatically stop blanking when the cloth bag is about to be filled;

3. through the sliding connection of loading board and activity storehouse to and the elasticity of fifth spring, make operating personnel prick the back with the sack that fills with the raw materials, can drag the sack and drive the loading board and slide to the outside in activity storehouse, mention the sack behind leaving the unloading pipe under, thereby can reduce the wearing and tearing of sack bottom.

Drawings

FIG. 1 is a schematic sectional view of the front view of the present invention;

fig. 2 is an enlarged schematic view of a portion a of fig. 1 according to the present invention;

FIG. 3 is a schematic view of the structure of the present invention;

FIG. 4 is a schematic side sectional view of the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4B according to the present invention;

fig. 6 is a schematic top view of the movable cabin of the present invention;

fig. 7 is a schematic view of a rear sectional structure of the first device chamber of the present invention.

In the figure: 1. a base; 2. a support frame; 3. a production storage mechanism; 4. a discharging pipe; 5. a first device bin; 6. a second device bin; 7. a spherical butterfly valve; 8. a coil spring; 9. a limiting rod; 10. a fixed shaft; 11. a first gear; 12. a first rack; 13. a first spring; 14. a second rack; 15. a third device bin; 16. an extrusion; 17. a second spring; 18. a third rack; 19. a third spring; 20. a rotating shaft; 21. a second gear; 22. a clamping rod; 23. a movable bin; 24. a fourth spring; 25. a carrier plate; 26. a fifth spring; 27. an L-shaped extrusion rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a bagging device for calcium carbonate production comprises a base 1, a production storage mechanism 3 and a movable bin 23, wherein support frames 2 are installed on two sides of the base 1, the top of each support frame 2 is fixedly provided with the production storage mechanism 3, the bottom of the production storage mechanism 3 is communicated with a blanking pipe 4, one end of the outer wall of the blanking pipe 4 is provided with a first device bin 5, the top of the first device bin 5 is fixedly provided with a second device bin 6, a spherical butterfly valve 7 penetrates through the inner part of the blanking pipe 4, the spherical butterfly valve 7 extends into the first device bin 5, a coil spring 8 is connected between the spherical butterfly valve 7 and the blanking pipe 4, a limiting rod 9 is installed on the outer side of one end, close to the first device bin 5, of the blanking pipe 4, a fixed shaft 10 is fixed at the middle position of two ends inside the second device bin 6, a first gear 11 is sleeved on the outer side of the fixed shaft 10, a first rack 12 penetrates through one end, close to the blanking pipe 4, of the, the first rack 12 extends into the first device bin 5, a first spring 13 is connected between the first rack 12 and the second device bin 6, the bottom of the first rack 12 is arranged in a bevel edge mode, the first rack 12 is meshed with the first gear 11, and the first rack 12 and the second device bin 6 form a relative sliding structure, so that when the spherical butterfly valve 7 is rotated clockwise, the bevel edge of the first rack 12 can be extruded by the limiting rod 9, the limiting rod 9 can cross the first rack 12 and form mutual limiting with the first rack 12, and the spherical butterfly valve 7 can be fixed at a continuous blanking position;

a second rack 14 penetrates through one end, far away from the discharging pipe 4, of the top inside the second device bin 6, the second rack 14 is in meshed connection with the first gear 11, and the second rack 14 and the second device bin 6 form a relative sliding structure, so that when the L-shaped extrusion rod 27 extrudes the second rack 14, the second rack 14 can drive the first gear 11 to rotate, the first rack 12 slides upwards along with the first rack to release mutual limiting with the limiting rod 9, and the spherical butterfly valve 7 can automatically rotate and close under the elastic action of the coil spring 8;

a third device bin 15 is arranged in the middle of the top of the base 1, an extrusion part 16 penetrates through one end, far away from the first device bin 5, of the top inside the third device bin 15, a second spring 17 is connected between the extrusion part 16 and the third device bin 15, third racks 18 are arranged on two sides, close to one end of the extrusion part 16, of the top inside the third device bin 15, a third spring 19 is connected between the third racks 18 and the third device bin 15, one end, close to the extrusion part 16, of each third rack 18 is arranged in a bevel edge mode, and the third racks 18 and the third device bin 15 form a relative sliding structure, so that when the extrusion part 16 is stepped downwards, the two groups of the third racks 18 can be extruded in the direction far away from the middle;

the bottoms of two ends in the third device bin 15 are respectively provided with a rotating shaft 20 in a bearing manner, a second gear 21 is fixedly sleeved on the outer side of one end of the rotating shaft 20 close to the extrusion piece 16, a clamping rod 22 is arranged in the middle of the outer side of the rotating shaft 20, the clamping rod 22 penetrates through the third device bin 15, the central axis of the second gear 21 is superposed with the central axis of the rotating shaft 20, and the second gear 21 is meshed with the third racks 18, so that when the two groups of third racks 18 slide towards the direction far away from the middle, the rotating shaft 20 and the clamping rods 22 thereon can be driven to rotate to remove the tight fit with the blanking tube 4, and an operator can conveniently connect or disconnect the cloth bag and the blanking tube 4;

the top in third device storehouse 15 runs through there is movable bin 23, and movable bin 23 extends to the inside in third device storehouse 15, L type stripper bar 27 is installed to the one end that extruded article 16 was kept away from at movable bin 23 top, be connected with fourth spring 24 between movable bin 23 and the third device storehouse 15, the inside in movable bin 23 is provided with loading board 25, and be connected with fifth spring 26 between loading board 25 and the movable bin 23, the cross-sectional shape of loading board 25 is "T" shape, and loading board 25 and fourth spring 24 constitute relative sliding structure, when making operating personnel drag the sack that fills up the raw materials, loading board 25 can slide thereupon, thereby reduce the wearing and tearing of sack bottom.

The working principle is as follows: when the bagging device for calcium carbonate production is used, the extrusion part 16 is downwards stepped through the sliding connection between the extrusion part 16 and the third device bin 15 and the elasticity of the second spring 17, so that the extrusion part 16 extrudes the inclined edges of the two groups of third racks 18, the two groups of rotating shafts 20 can rotate along with the third racks 18 and the third device bin 15 through the sliding connection between the third racks 18 and the third device bin 15 and the elasticity of the third spring 19, so that the two groups of third racks 18 can slide in the direction away from the middle, the third racks 18 are respectively meshed and connected with the corresponding second gears 21, the rotating shafts 20 drive the clamping rods 22 to rotate to release the tight fit with the blanking pipe 4, the cloth bag is sleeved on the blanking pipe 4, the extrusion part 16 is released to release the extrusion on the third racks 18, the third racks 18 slide to the initial position under the elastic action of the third spring 19, and further drive the clamping rods 22 to rotate again to the position tightly fit with the blanking pipe 4, thereby clamping and fixing the blanking pipe 4 and the cloth bag to complete connection;

after the cloth bag is connected, the spherical butterfly valve 7 is connected with the blanking pipe 4 in a rotating mode through the spherical butterfly valve 7 and the elasticity of the coil spring 8, the spherical butterfly valve 7 is rotated clockwise, the limiting rod 9 is driven to extrude the bevel edge of the first rack 12, the first rack 12 is connected with the second device bin 6 in a sliding mode through the first rack 12 and the elasticity of the first spring 13, the first rack 12 can slide upwards, the limiting rod 9 can cross the first rack 12, the spherical butterfly valve 7 is loosened at the moment, the first rack 12 slides downwards under the elastic action of the first spring 13 to form mutual limiting with the limiting rod 9, the spherical butterfly valve 7 is fixed at the adjusted position, holes in the spherical butterfly valve 7 are in a vertical state at the moment, blanking can be carried out, the raw materials in the cloth bag reach the designated weight through the sliding connection of the movable bin 23 and the third device bin 15 and the elasticity of the fourth spring 24, the movable bin 23 can descend to a designated position to drive the L-shaped extrusion rod 27 to extrude the second rack 14, so that the second rack 14 slides downwards, the first gear 11 rotates along with the second rack 14 through the meshed connection of the second rack 14 and the first gear 11, the first rack 12 is meshed with the first gear 11 through the first rack 12, so that the first rack 12 slides downwards along with the first rack, the mutual limit between the first rack and the limiting rod 9 is released, the spherical butterfly valve 7 rotates and closes under the elastic action of the coil spring 8, the blanking is automatically stopped, after the cloth bag is released from the connection with the blanking tube 4, the cloth bag is dragged to a position far away from the position right below the blanking tube 4, the bearing plate 25 is connected with the movable bin 23 in a sliding manner through the bearing plate 25 and the elasticity of the fifth spring 26, the bearing plate 25 can slide towards the position far away from the inner part of the movable bin 23 along with the cloth bag, and the cloth bag is lifted and collected after the cloth bag, thereby reducing the abrasion of the bottom when the cloth bag is dragged.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a calcium carbonate production is with sack filling device, includes base (1), production storage mechanism (3) and activity storehouse (23), its characterized in that: the device is characterized in that support frames (2) are installed on two sides of a base (1), a production storage mechanism (3) is fixed to the top of each support frame (2), a blanking pipe (4) is communicated with the bottom of each production storage mechanism (3), a first device bin (5) is installed at one end of the outer wall of the blanking pipe (4), a second device bin (6) is fixed to the top of the first device bin (5), a spherical butterfly valve (7) penetrates through the blanking pipe (4), the spherical butterfly valve (7) extends into the first device bin (5), a coil spring (8) is connected between the spherical butterfly valve (7) and the blanking pipe (4), a limiting rod (9) is installed on the outer side, close to one end of the first device bin (5), of the blanking pipe (4), fixing shafts (10) are fixed to middle positions of two ends inside the second device bin (6), and first gears (11) are sleeved on the outer sides of the fixing shafts (10), a first rack (12) penetrates through one end, close to the discharging pipe (4), of the bottom inside the second device bin (6), the first rack (12) extends into the first device bin (5), a first spring (13) is connected between the first rack (12) and the second device bin (6), a second rack (14) penetrates through one end, far away from the discharging pipe (4), of the top inside the second device bin (6), a third device bin (15) is installed in the middle of the top of the base (1), an extrusion piece (16) penetrates through one end, far away from the first device bin (5), of the top inside the third device bin (15), a second spring (17) is connected between the extrusion piece (16) and the third device bin (15), third racks (18) are arranged on two sides, close to one end of the extrusion piece (16), of the top inside the third device bin (15), and a third spring (19) is connected between the third racks (18) and the third device bin (15), the bottoms of the two ends in the third device bin (15) are provided with rotating shafts (20) through bearings, a second gear (21) is sleeved and fixed on the outer side of one end of the rotating shaft (20) close to the extrusion piece (16), a clamping rod (22) is arranged in the middle of the outer side of the rotating shaft (20), the clamping rod (22) penetrates through the third device bin (15), the top of the third device bin (15) penetrates through the movable bin (23), and the movable bin (23) extends to the interior of the third device bin (15), one end of the top of the movable bin (23) far away from the extrusion piece (16) is provided with an L-shaped extrusion rod (27), a fourth spring (24) is connected between the movable bin (23) and the third device bin (15), a bearing plate (25) is arranged inside the movable bin (23), and a fifth spring (26) is connected between the bearing plate (25) and the movable bin (23).

2. The bagging apparatus for producing calcium carbonate according to claim 1, wherein: the bottom of the first rack (12) is arranged in a bevel edge mode, the first rack (12) is in meshed connection with the first gear (11), and the first rack (12) and the second device bin (6) form a relative sliding structure.

3. The bagging apparatus for producing calcium carbonate according to claim 1, wherein: the second rack (14) is in meshed connection with the first gear (11), and the second rack (14) and the second device bin (6) form a relative sliding structure.

4. The bagging apparatus for producing calcium carbonate according to claim 1, wherein: one end of the third rack (18) close to the extrusion piece (16) is arranged as a bevel edge, and the third rack (18) and the third device bin (15) form a relative sliding structure.

5. The bagging apparatus for producing calcium carbonate according to claim 1, wherein: the central axis of the second gear (21) is coincident with the central axis of the rotating shaft (20), and the second gear (21) is meshed with the third rack (18).

6. The bagging apparatus for producing calcium carbonate according to claim 1, wherein: the cross section of the bearing plate (25) is in an inverted T shape, and the bearing plate (25) and the fourth spring (24) form a relative sliding structure.

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