JP3971207B2 - Compressor - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a compressor that compresses a gas such as air, and particularly relates to a compressor in which a storage tank and a compression unit are integrally provided.
[0002]
[Prior art]
Generally, a compressor includes a compression unit that compresses a gas such as air, and the gas compressed by the compression unit is supplied to a storage tank and stored in the storage tank. In recent years, pneumatic equipment is used in various work sites. For example, in a construction site, a pneumatic nailing machine or the like is used to improve workability. For this reason, a tank-integrated compressor that can be easily transported by integrally assembling a storage tank, a compression unit, a drive motor, and the like has been manufactured. This tank-integrated compressor is known, for example, from Japanese Patent Laid-Open Nos. 10-246185 and 11-218080.
[0003]
Here, the storage tank is arranged in the horizontal direction so that the bottom portion is on the lower side, and an annular screw seat having an internal thread engraved on the inner peripheral side is fixed to the upper portion by welding. A pipe joint is screwed onto the screw seat, and a metal pipe extending from the pipe joint to the vicinity of the bottom of the storage tank is welded to the lower side of the pipe joint.
[0004]
And by attaching a drain cock on the upper side of the pipe joint, when the drain cock is opened, the pressure of the compressed air stored in the storage tank is used, and the drain accumulated on the bottom side of the tank is metal pipe, It is discharged to the outside through the pipe joint and drain cock.
[0005]
In addition, there is a compressor in which two storage tanks are arranged to form a pair, and a screw seat welded to one of the two storage tanks connected to the compression portion is welded. A pipe joint with a metal pipe attached thereto is provided, and the other storage tank is provided with a pipe joint with a metal pipe attached to a welded screw seat and a single pipe joint. And, a pipe joint in which a metal pipe is attached in one storage tank and a single pipe joint in the other storage tank are connected using a communication pipe, and a pipe joint in which a metal pipe is attached in the other storage tank The drain cock is installed.
[0006]
Thereby, the compressed gas supplied from the compression part to one storage tank is also supplied to the other storage tank through the metal pipe and the communication pipe. In addition, when draining, the drain cock provided in the other storage tank is opened, so that the drain in one storage tank is put together with the compressed air through the metal pipe and the communication pipe. And is discharged to the outside through a metal pipe and a drain cock provided in the other storage tank.
[0007]
[Problems to be solved by the invention]
By the way, the compressor by the prior art mentioned above attaches a screw seat to the upper part of a storage tank, and screws and attaches a pipe joint to this screw seat. In addition, a metal pipe extending from the pipe joint to the vicinity of the bottom of the storage tank is attached to the pipe joint.
[0008]
Here, the internal thread formed in the screw seat fixed to the upper part of the storage tank and the external thread formed in the pipe joint are each formed as a taper thread for a pipe. When the male screw of the pipe joint is screwed onto the female screw of the screw seat, the male screw is screwed in a state where a seal tape is wound around the male screw.
[0009]
Therefore, even when the length of the metal pipe welded to the pipe joint is accurately formed according to the distance from the bottom of the pipe joint to the bottom of the storage tank, the force applied when the pipe joint is screwed into the screw seat is adjusted. The threading depth of the pipe joint with respect to the screw seat varies depending on the number of windings of the seal tape, the processing tolerance of the screw, and the like. For this reason, even when the pipe joint is screwed in most deeply, the length of the metal pipe must be set short so that the tip does not contact the bottom of the storage tank. As a result, there is a problem that the tip of the metal tube is separated from the bottom of the storage tank, and the drainage in the storage tank cannot be discharged in its entirety.
[0010]
Further, since the storage tank is thin and cannot be directly screwed into the pipe joint, a separate screw seat is fixed by welding, which increases the manufacturing cost. In particular, in recent years, because aluminum material is used for the storage tank and screw seat for weight reduction, it is easy to flow the molten metal at the time of welding, so it is necessary to perform overlay welding several times, There is a problem that a great deal of labor is required.
[0011]
The present invention has been made in view of the above-described problems of the prior art, and the object of the present invention is to reliably discharge the drain in the storage tank without being affected by force adjustment when machining the pipe joint, processing tolerances, and the like. It is to provide a compressor that can be used.
[0012]
[Means for Solving the Problems]
The compressor according to the first aspect of the present invention includes two storage tanks that are arranged in a horizontal direction so that a bottom portion is on the lower side and stores compressed gas, and a compression unit that compresses and supplies gas to the two storage tanks And.
[0013]
Then, in order to solve the above problems, characteristic of the structure of the invention of claim 1 is employed, the one reservoir tank connected to the compressed portion of the two storage tanks, located on top a screw hole having a Flip ne provided, the said screw holes, the mounting screwed the first tube joint, to the other storage tank, two screw holes with a screw located in the upper portion In these two screw holes, the second and third pipe joints are screwed and attached, and the two pipe joints are interposed between the first pipe joint and the second pipe joint. of provided between the storage tank and connect the communication pipe communicating, wherein the first tube joint from the pipe joint of the flexible length greater dimension than the distance to reach the bottom of the storage tank of the one provided by connecting the outlet tube, said third tube joint attached to the storage tank of the other, the pipe joint In that a structure in which Ru is provided by connecting a flexible outflow tube of greater length dimension than the distance to reach the bottom of the other storage tank from.
[0014]
By such a configuration, first, when the third pipe joint is screwed into the screw hole of the storage tank, the force acceleration at this time, regardless of the machining tolerances of each outflow tube tip of each Abutting on the bottom of the storage tank, the entire outflow tube is curved. As a result, the tip of the outflow tube can be opened obliquely at a position in contact with the bottom of the storage tank. For example, by opening a drain cock attached to the third pipe joint, The entire amount of drain can be discharged.
That is, by opening the tip of each outflow tube obliquely at a position in contact with the bottom of the storage tank, the compressed gas supplied to one of the storage tanks is supplied to the outflow tube, the first fitting, and the communication piping. To the other storage tank. Also, most of the drain in one storage tank can be transferred to the other storage tank via the outflow tube, the first pipe joint, and the communication pipe.
Further, for example, a drain cock is attached to the third pipe joint of the other storage tank, and the drain cock is opened to collect in the other storage tank via the outflow tube, the third pipe joint, and the drain cock. The drain and the drain transferred from one storage tank can be discharged to the outside.
[0015]
According to the invention of claim 2, the third pipe joint is configured to be attached with a drain cock made of another member for discharging the drain accumulated in the other storage tank.
[0016]
With this configuration, when the drain cock is opened, the drain in the storage tank can be discharged to the outside via the outflow tube, the third pipe joint, and the drain cock.
[0017]
According to the invention of claim 3, the third pipe joint, de Len cock for draining accumulated in the other inside the storage tank is configured as integrally attached to the pipe joint with drain cock.
[0018]
With this configuration, when the drain cock of the pipe joint with a drain cock is opened, the drain in the storage tank can be discharged to the outside via the outflow tube and the pipe joint with the drain cock. Further, since the number of parts is reduced, it can be easily assembled.
[0024]
According to the invention of claim 4 , the two storage tanks are arranged in parallel to the left and right, and extend in the front and rear directions, and the upper part of the tank is thick in the front and rear directions of the tank. A joint mounting seat is provided, and each screw hole is formed in the joint mounting seat.
[0025]
With this configuration, the pipe joint can be easily attached to the storage tank simply by screwing the pipe joint into the screw hole provided in the joint attachment seat.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a case in which the compressor according to the embodiment of the present invention is used in a tank-integrated compressor will be described as an example and described with reference to the accompanying drawings. Here, FIG. 1 to FIG. 7 show a first embodiment of the present invention.
[0027]
Reference numeral 1 denotes a tank-integrated compressor, and the compressor 1 is roughly configured by storage tanks 2 and 4, a compression unit 12, a drive motor 13, and the like, which will be described later, as shown in FIGS. 1 and 2.
[0028]
Reference numeral 2 denotes one (left side) storage tank positioned below the compression unit 12 described below and extending in the front and rear directions. The one storage tank 2 receives compressed air supplied from the compression unit 12 described later. In order to reduce the weight, it is formed as a substantially cylindrical sealed container using, for example, an aluminum material. And the storage tank 2 is arrange | positioned in the horizontal direction, and the lower side becomes the bottom part 2A.
[0029]
Here, on one storage tank 2, a joint mounting seat 2 </ b> B called a spacer made of a rectangular plate material thicker than the storage tank 2, for example, is integrally formed extending in the front and rear directions. In the middle of the joint mounting seat 2B in the length direction, a screw hole 2C having a female screw made of a pipe taper screw is provided on the inner circumference, and the outer circumference of the screw hole 2C is a pipe taper screw. A pipe joint 3 to be described later is attached by screwing.
[0030]
3 in the first pipe joint mounted in screwed into the screw hole 2C of the storage tank 2, the first tube joint 3 includes a joint main body 3A having a male thread made of pipe taper thread on the outer periphery,該継hand A lower connecting pipe 3B extending downward from the main body 3A and a nut 3C for fixing the below-described communication pipe 8 also to the joint main body 3A.
[0031]
4 is the other (right side) storage tank arranged in parallel with the storage tank 2 in the front and rear directions. The other storage tank 4 is also made of, for example, an aluminum material in the same manner as the storage tank 2. And is formed as a cylindrical sealed container, and the lower side is the bottom 4A. The storage tank 4 is integrally connected to the storage tank 2 by connecting stays 5, 5,.
[0032]
Here, on the upper part of the other storage tank 4, for example, a joint mounting seat 4 </ b> B called a spacer made of a rectangular plate material thicker than the storage tank 2 extends in the front and rear directions and is integrally formed. A screw hole 4C having a female screw made of a pipe taper screw is provided on the inner periphery in the middle in the length direction of the joint mounting seat 4B, and a pipe joint 6 is screwed and attached to the screw hole 4C. . Further, similarly to the screw holes 2C and 4C, another screw hole 4D having a female screw made of a pipe taper screw is provided on the rear side of the joint mounting seat 4B.
[0033]
6 is a second tube joint attached by screwed into the screw hole 4C of the storage tank 4, the second tube joint 6, the joint body 6A having an external thread made of pipe taper thread on the outside, the nut 6B etc. It is constituted by.
[0034]
Reference numeral 7 denotes one outflow tube provided on the connection pipe 3B of the pipe joint 3. The outflow tube 7 extends downward from the pipe joint 3 and is formed as a resin tube made of a flexible resin material or the like. ing. The total length of the outflow tube 7 is set to be larger than the distance L1 (see FIG. 5) from the pipe joint 3 to the bottom 2A of the storage tank 2.
[0035]
One outflow tube 7 is inserted into the connection pipe 3B of the pipe joint 3 at the upper end side, and the lower end side is smoothly curved and hits the bottom 2A of the storage tank 2. For this reason, since the lower end side opening 7A of the outflow tube 7 can be opened obliquely to the bottom 2A of the storage tank 2, all the drainage accumulated in the storage tank 2 is discharged without leaving the storage tank 2. It can flow out from the tube 7 to the storage tank 4 side via a connecting pipe 8 described later.
[0036]
A communication pipe 8 communicates between one storage tank 2 and the other storage tank 4, and the communication pipe 8 is formed as a pipe bent in a substantially U shape (trapezoidal shape). The communication pipe 8 is connected to the pipe joint 3 and the pipe joint 6, and guides the compressed air flowing into the storage tank 2 into the storage tank 4. Further, the drain accumulated in the storage tank 2 together with the flow of the compressed air is also guided into the storage tank 4.
[0037]
9 in the other storage tank 4 of the threaded hole 4D third attached rear side of the pipe joint, and the joint body 9A the third pipe joint 9 having an external thread made of pipe taper thread on the outer periphery,該継hand The lower connecting pipe 9B extends downward from the main body 9A, and an upper connecting port 9C into which a drain cock 11 described later is screwed.
[0038]
The other outflow tube 10 is provided on the connecting pipe 9B of the pipe joint 9. The outflow tube 10 is formed as a resin tube made of a flexible resin material or the like. The total length of the outflow tube 10 is larger than the distance L2 (see FIG. 7) from the pipe joint 9 to the bottom 4A of the storage tank 4.
[0039]
The other outflow tube 10 is inserted into a connecting pipe 9B of a pipe joint 9 to be described later at the upper end side, and the lower end side is smoothly curved and hits the bottom 4A of the storage tank 4. For this reason, the lower end side opening 10A of the outflow tube 10 opens to the bottom 4A, and all the drain in the storage tank 4 is guided to the outflow tube 10 by the air pressure in the storage tank 4 and is discharged from the outflow tube 10 to the drain described later. It flows out into the tube 11D.
[0040]
11 is a drain cock provided in the pipe joint 9 of the right storage tank 4, and the drain cock 11 is attached to the cock main body 11 </ b> A and the lower end side of the cock main body 11 </ b> A and is screwed to the connection port 9 </ b> C of the pipe joint 9. The male thread portion 11B, the knob 11C provided on the upper side of the cock main body 11A, and the drain tube 11D provided on the cock main body 11A are roughly configured. And the drain cock 11 discharges | drains with the compressed air in the storage tank 4 which accumulated in the storage tank 4 by moving the knob 11C.
[0041]
Further, 12 is a compression part attached to the rear side between the two storage tanks 2 and 4, and the compression part 12 is arranged on the crankcase 12A and the low pressure side disposed at the relative position of the crankcase 12A. It is configured as a so-called horizontally opposed two-stage air compressor composed of a compression mechanism 12B and a compression mechanism 12C on the high pressure side. The compression unit 12 is driven by a drive motor 13, and the air sequentially compressed by the compression mechanisms 12 </ b> B and 12 </ b> C is supplied into the storage tank 2 from the compression mechanism 12 </ b> C through the inlet 14.
[0042]
Reference numeral 15 denotes an attachment port to which the low-pressure side upper quick joint 16 and the low-pressure side lower quick joint 17 are attached. Reference numeral 18 denotes a mounting port to which the high-pressure side upper quick joint 19 and the high-pressure side lower quick joint 20 are attached. Further, 21, 21,... Are legs attached to both front and rear ends of the storage tanks 2, 4, and 22, 22 are handles for transportation. Further, reference numeral 23 denotes a cover that is detachably mounted on the storage tanks 2 and 4.
[0043]
The tank-integrated compressor 1 according to the present embodiment has the above-described configuration. Next, the operation thereof will be described.
[0044]
First, when power is supplied to the drive motor 13 and a drive shaft (not shown) is driven to rotate, the compression unit 12 sucks and compresses the outside air and stores the compressed air in the storage tanks 2 and 4. For example, a plurality of nailer-side hoses (not shown) and the like are connected to the compressor 1, and an operator performs the operation of driving nails using these nailers.
[0045]
By the way, since the compressed air is stored in the two storage tanks 2 and 4, the drain contained in the compressed air is stored in each of the storage tanks 2 and 4. For this reason, the drain accumulated in each of the storage tanks 2 and 4 needs to be discharged to the outside.
[0046]
Therefore, in the present embodiment, the storage tanks 2 and 4 are connected to each other by the communication pipe 8, the outflow tube 7 is connected to the pipe joint 3 that connects the communication pipe 8 to the storage tank 2, and the storage tank 4 is connected to the storage tank 4. The attached tube joint 9 is configured to connect an outflow tube 10 and a drain cock 11.
[0047]
For this reason, when the drain cock 11 is opened, the drain stored in one storage tank 2 moves into the other storage tank 4 through the communication pipe 8 together with the compressed air in the storage tank 2, and the storage Together with the drain stored in the tank 4 in advance, it is discharged from the drain cock 11 through the drain tube 11D.
[0048]
Here, in the present embodiment, the outflow tube 7 is formed by a flexible hose, and the outflow tube 7 has a length dimension larger than the distance L1 from the pipe joint 3 to the bottom 2A of the storage tank 2. Forming. Therefore, the lower end side opening 7A of one outflow tube 7 can be brought into contact with the bottom 2A of the storage tank 2, and all the drain accumulated in the storage tank 2 is not left in the storage tank 2 but via the connecting pipe 8. And can flow out into the storage tank 4.
[0049]
In the present embodiment, the other outflow tube 10 is also formed by a flexible hose, and the outflow tube 10 has a length longer than the distance L2 reaching the bottom 4A of the storage tank 4 from the pipe joint 9. It is formed with dimensions. Therefore, the lower end side opening 10A of the outflow tube 10 can be applied to the bottom 4A of the storage tank 4, and the drain accumulated in the storage tank 4 is discharged from the drain cock 11 to the outside without remaining in the storage tank 4. be able to.
[0050]
Thus, in the present embodiment, the drain accumulated in the two storage tanks 2 and 4 can be discharged to the outside through the outflow tubes 7 and 10 without remaining in the respective storage tanks 2 and 4. it can. As a result, as described in the prior art, the drain in the storage tank can be surely discharged without being affected by the force when the pipe joint is screwed in, the processing tolerance, and the like.
[0051]
Further, since the outflow tubes 7 and 10 are made of a resin resin tube having flexibility instead of the metallic pipe described in the prior art, the cost of the outflow tubes 7 and 10 is reduced to a metallic level. It can reduce compared with piping.
[0052]
Next, FIG. 8 shows a second embodiment of the present invention. The feature of this embodiment is that a pipe joint is attached to the upper part of the storage tank, and the drain cock is integrally provided with the drain cock. This is because it is configured as a pipe joint. In the present embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.
[0053]
31 is a pipe joint with a drain cock according to the present embodiment. The pipe joint 31 with a drain cock is attached by fitting a fitting main body 32 having a male thread made of a taper pipe pipe on the outer periphery and an outflow tube 10. The connection port 33 and the drain cock 34 are configured.
[0054]
Here, the drain cock 34 is roughly constituted by a cock main body 34A and a knob 34B provided on the upper side of the cock main body 34A, as in the drain cock 11 described in the first embodiment.
[0055]
Thus, in the present embodiment configured as described above, it is possible to obtain substantially the same function and effect as in the first embodiment. In particular, in the present embodiment, since the pipe joint is the pipe cock-attached pipe joint 31 provided with the drain cock 34, the number of parts can be reduced and assembly work can be easily performed.
[0057]
In the embodiment, the compression unit 12 that forms a horizontally opposed two-stage air compressor is described as an example of the compression unit. However, the present invention is not limited to this, and, for example, one stage or three or more stages The air compressor may be used as the compression unit, and the arrangement of the cylinders may be other forms such as a V type.
[0058]
On the other hand, the present invention is not limited to an air compressor, and may be used to compress various gases such as nitrogen gas and refrigerant gas.
[0059]
【The invention's effect】
As described in detail above, according to the invention of claim 1, the one reservoir tank connected to the compressed portion of the two storage tanks, the have a female thread on the inner periphery positioned thereon 1 pipe joint is screwed by providing the attached ball screw holes of the mounting to the other storage tank, the second has an internal thread on the inner periphery located in its upper part, and a third pipe joint screwed The two storage tanks are provided between the first pipe joint attached to the one storage tank and the second pipe joint attached to the other storage tank. provided by connecting the communicating pipe that communicates between, wherein the first tube joint, a flexible outflow tube of greater length dimension than the distance to reach the bottom of the one of the storage tank from the pipe joint The third pipe joint attached to the other storage tank is connected to the pipe joint. Since a structure in which Ru is provided by connecting a flexible outflow tube of greater length dimension than the distance to reach the bottom of the other storage tank from the first, third tube joint of each storage tank when screwed into the screw hole, the force acceleration at this time, regardless of the machining tolerances, the leading end of each outflow tube is brought into contact with the bottom of each of the storage tank, it is possible to bend the whole of the outflow tube .
[0060]
Thus, the tip of each outflow tube, because it is possible to open obliquely in contact with a position on the bottom of each of the storage tank, by opening the drain cock mounted, for example, the third pipe joint, each reservoir Almost all of the drain accumulated in the bottom of the tank can be discharged. In addition, the pipe joint and the outflow tube can be attached without using welding work as in the prior art, and the assemblability can be improved and the manufacturing cost can be reduced.
That is, since the tip of each outflow tube is opened obliquely at a position in contact with the bottom of each storage tank, the compressed gas supplied to one storage tank is converted into the outflow tube and the first tube. It can supply also to the other storage tank via a joint and communication piping.
Further, most of the drain in one storage tank can be transferred to the other storage tank via the outflow tube, the first pipe joint, and the communication pipe. Further, for example, a drain cock is attached to the third pipe joint of the other storage tank, and the drain cock is opened to open the drain pipe, the third pipe joint, and the drain cock into the other storage tank. The accumulated drain and the drain transferred from one storage tank can be discharged to the outside.
[0061]
According to invention of Claim 2, since it is set as the structure which attaches the drain cock which consists of another member for discharging | emitting the drain accumulated in the other storage tank to the 3rd pipe joint, When opening a drain cock The drain in the other storage tank can be discharged to the outside through the outflow tube, the third pipe joint, and the drain cock. Further, the drain cock can be easily replaced in maintenance work or the like.
[0062]
According to the invention of claim 3, the third pipe joint, de Len cock for draining accumulated in the other inside the storage tank is configured as integrally attached to the pipe joint with drain cock . Therefore, when the drain cock of the pipe joint with a drain cock is opened, the drain in the storage tank can be discharged to the outside through the outflow tube and the pipe joint with the drain cock. Moreover, by using the pipe joint with a drain cock, the number of parts can be reduced and assembly work can be easily performed.
[0066]
According to the invention of claim 4 , the two storage tanks are arranged in parallel to the left and right and extend in the front and rear directions, and the upper part of the tank is thick in the front and rear directions of the tank. Since each screw hole is formed in the joint mounting seat, the pipe joint can be easily attached to the storage tank simply by screwing the pipe joint into the screw hole provided in the joint mounting seat. It is possible to improve the assemblability and reduce the manufacturing cost.
[Brief description of the drawings]
FIG. 1 is an external perspective view showing a tank-integrated compressor according to a first embodiment of the present invention.
FIG. 2 is an external perspective view showing a tank-integrated compressor with a cover removed.
FIG. 3 is a front view showing the tank-integrated compressor with a cover removed.
FIG. 4 is an external perspective view showing an enlarged view of a storage tank, pipe joint, communication pipe, and drain cock.
5 is a transverse cross-sectional view showing a storage tank, a pipe joint, an outflow tube, and a communication pipe in an enlarged manner from the direction of arrows V-V in FIG. 3;
6 is an enlarged vertical cross-sectional view of a main part showing one storage tank, a pipe joint, and an outflow tube in the direction of arrows VI-VI in FIG. 5; FIG.
FIG. 7 is an enlarged vertical cross-sectional view of a main part showing an enlarged view of the other storage tank, pipe joint, outflow tube, and drain cock.
FIG. 8 is an enlarged longitudinal sectional view of a main part of the pipe joint with a drain cock according to the second embodiment of the present invention, viewed from the same position as in FIG. 7 together with the other storage tank and the outflow tube.
[Explanation of symbols]
1 Compressor 2, 4 Storage tank 2 A, 4 A Bottom 2 B, 4 B Joint mounting seat 2 C, 4 C, 4 D Screw hole 7, 10 Outflow tube 7 A, 10 A Lower end opening 11, 34 Drain cock 11 D Drain tube 12 Compressor 13 Drive Motor 31 Fitting with drain cock

Claims (4)

In a compressor comprising two storage tanks that are horizontally arranged so that the bottom part is on the lower side and stores compressed gas, and a compression unit that compresses and supplies gas to the two storage tanks,
One storage tank connected to the compressed portion of the two storage tanks, provided with screw holes having Flip I located thereon,
A first pipe joint is screwed and attached to the screw hole,
The other storage tank is provided with two screw holes with screws located at the top,
In these two screw holes, the second and third pipe joints are screwed together,
Between the first pipe joint and the second pipe joint, a communication pipe communicating between the two storage tanks is connected and provided,
Wherein the first pipe joint, provided in connection with a flexible outflow tube of greater length dimension than the distance to reach the bottom of the one of the storage tank from the pipe joint,
Connected to the third pipe joint attached to the other storage tank is a flexible outlet tube having a length larger than the distance from the pipe joint to the bottom of the other storage tank. compressor, characterized in that provided Ru configuration and the. 2. The compressor according to claim 1, wherein the third pipe joint is configured to be attached with a drain cock made of another member for discharging the drain accumulated in the other storage tank. The third pipe joint, the compression of Claim 1, de Len cock for draining accumulated in the other inside the storage tank is configured as integrally attached to the pipe joint with drain cock Machine. The two storage tanks are arranged in parallel on the left and right, and extend in the front and rear directions. The upper part of the tank is provided with a thick joint mounting seat in the front and rear directions of the tank , The compressor according to claim 1, 2 or 3 , wherein each screw hole is formed in the joint mounting seat.

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