CN219358603U - Hardware component assembly equipment - Google Patents

Abstract

The application relates to the field of hardware equipment, in particular to hardware part assembly equipment. The key points of the technical scheme are as follows: comprises a first pushing mechanism; a second pushing mechanism; the first pushing mechanism and the second pushing mechanism are respectively adjacent to the pressing mechanism, and the pressing mechanism is provided with a pressing station; the sheet feeding mechanism is used for sequentially feeding the sheets to the first pushing mechanism, and the first pushing mechanism is used for pushing the sheets into the press-in station; the sleeve feeding mechanism is used for sequentially feeding the sleeves to the second pushing mechanism, and the second pushing mechanism is used for pushing the sleeves into the pressing-in station and enabling the sleeves to be opposite to the embedded holes on the sheet body; the pressing mechanism is used for pressing the sheet body positioned at the pressing station and the sleeve; and a discharging mechanism for taking out the pressed workpiece from the pressing station, the application has the function of improving the assembly efficiency of the hardware part.

Description

Hardware component assembly equipment

Technical Field

The application relates to the field of hardware equipment, in particular to hardware part assembly equipment.

Background

The hardware part is an industrial product, is an indispensable industrial link in modern industrial production, is widely applied to the fields of vehicle-mounted, aviation, electronic appliances and medical equipment, and has an indispensable position in industrial production.

The hardware part comprises a sheet body and a sleeve, wherein the sheet body is provided with a bayonet for embedding the sleeve, the sleeve is embedded into the sheet body to obtain a hardware structure with a complex structure, and the hardware structure is generally used as a structural member in the corresponding field.

However, in the process of combining the hardware parts, the steps of material operation, pressing and the like are generally involved, and in the related art, the assembly between the two parts is generally realized manually or by means of a manual punching machine in a semi-automatic mode, etc., so that the overall production efficiency of the hardware parts is limited, and a large room for improvement is provided.

Disclosure of Invention

In order to improve hardware assembly efficiency, the application provides hardware assembly equipment.

The application provides a hardware component assembly equipment adopts following technical scheme:

a hardware component assembly device comprises a first pushing mechanism; a second pushing mechanism; the first pushing mechanism and the second pushing mechanism are respectively adjacent to the pressing mechanism, and the pressing mechanism is provided with a pressing station; the sheet feeding mechanism is used for sequentially feeding the sheets to the first pushing mechanism, and the first pushing mechanism is used for pushing the sheets into the press-in station; the sleeve feeding mechanism is used for sequentially feeding the sleeves to the second pushing mechanism, and the second pushing mechanism is used for pushing the sleeves into the pressing-in station and enabling the sleeves to be opposite to the embedded holes on the sheet body; the pressing mechanism is used for pressing the sheet body positioned at the pressing station and the sleeve; and the discharging mechanism is used for taking out the pressed workpiece from the pressing station.

Through adopting above-mentioned technical scheme, lamellar body pay-off and sleeve pipe feeding mechanism realize lamellar body and sheathed tube automatic feeding, under the promotion of first pushing equipment and second pushing equipment this moment, lamellar body and sleeve pipe are automatic to be got into to the station department of impressing, later under the drive of impressing the mechanism, impress the sleeve pipe to lamellar body department, realize the assembly, finally realize the automatic ejection of compact of work piece under the effect of discharge mechanism, in-process such as material loading, pressfitting and ejection of compact, all realize the processing action through machinery, degree of automation is higher, and cooperation is smooth between each mechanism, holistic machining efficiency obtains promoting.

Preferably, the pressing mechanism comprises a pressing seat, and the pressing station is positioned on the pressing seat; the pressing-in cylinder is positioned above the pressing-in seat; and the pressing-in block is fixedly arranged on the telescopic rod of the pressing-in air cylinder, and the pressing-in air cylinder is used for driving the pressing-in block to press the sheet body and the sleeve from top to bottom.

Through adopting above-mentioned technical scheme, press into the seat and can supply sleeve pipe and lamellar body to place, under the order about of the cylinder of impressing, can drive the piece of impressing and carry out the pressfitting action to in making the sleeve pipe can impress the lamellar body, rational in infrastructure.

Preferably, the first pushing mechanism comprises a first pushing cylinder; the first pushing block is fixedly arranged on the telescopic rod of the first pushing cylinder; and the first pushing seat is provided with a first pushing channel, the first pushing channel is communicated with the sheet feeding mechanism, one end of the first pushing channel faces towards the pressing-in station, the first pushing channel can accommodate the sheet, and the first pushing cylinder is used for driving the first pushing block to push the sheet positioned in the first pushing channel to the pressing-in station.

Through adopting above-mentioned technical scheme, first pushing seat plays the effect of transfer to place the lamellar body temporarily, later under the effect of first pushing cylinder and first pushing block, can make the lamellar body push to the station of impressing in suitable opportunity, realize the feeding of lamellar body, rational in infrastructure.

Preferably, the second pushing mechanism comprises a second pushing cylinder; the second pushing block is fixedly arranged on the telescopic rod of the second pushing cylinder; and the second pushing seat is provided with a second pushing channel, the second pushing channel is communicated with the sleeve feeding mechanism, one end of the second pushing channel faces the pressing-in station, the second pushing channel can accommodate the sleeve, and the second pushing cylinder is used for driving the second pushing block to push the sleeve positioned in the second pushing channel to the pressing-in station.

Through adopting above-mentioned technical scheme, the second pushes away the effect that the material seat can play the well commentaries on classics to place the sleeve pipe temporarily, later under the effect of second pushing away material cylinder and second pushing away the material piece, can make the sleeve pipe push to the station of impressing in suitable opportunity, realize sheathed tube feeding, rational in infrastructure.

Preferably, the sheet feeding mechanism comprises a sheet vibration feeding tray; and one end of the sheet conveying rail is connected with the sheet vibration feeding disc, and the other end of the sheet conveying rail is communicated with the first pushing mechanism.

Through adopting above-mentioned technical scheme, lamellar body vibrations charging tray can play the effect of sending out the lamellar body ordering, can reach first pushing equipment department in proper order under lamellar body transportation orbital direction.

Preferably, the sleeve feeding mechanism comprises a sleeve vibration feeding disc; and one end of the sleeve conveying rail is connected with the sleeve vibration feeding disc, and the other end of the sleeve conveying rail is communicated with the second pushing mechanism.

Through adopting above-mentioned technical scheme, sleeve pipe vibrations charging tray can play the effect of sending out the sleeve pipe ordering, can reach second pushing equipment department in proper order under the guide of sleeve pipe transportation track.

Preferably, the discharging mechanism comprises a traversing assembly; the clamping assembly is arranged on the transverse moving assembly and is used for taking and placing the workpiece; and the transverse moving assembly is used for driving the clamping assembly to move the workpiece from the pressing station to the discharging guide rail, and the discharging guide rail is used for conveying the workpiece out.

Through adopting above-mentioned technical scheme, sideslip subassembly can order about the clamping component to remove, and then makes the clamping component shift work piece to ejection of compact guide rail department and realize the ejection of compact, and the action is swift and high-efficient.

Preferably, the device further comprises a pressing mechanism, wherein the pressing mechanism is positioned between the discharging guide rail and the pressing mechanism, the transverse moving assembly is used for driving the clamping assembly to pass through the pressing mechanism before reaching the discharging guide rail, and the pressing mechanism is used for pressing the sheet body and the sleeve.

By adopting the technical scheme, the press-fit mechanism can further press-fit the sheet body and the sleeve, so that the assembly position is trimmed, and the press-fit precision is further improved.

Preferably, the clamping assembly comprises a first clamping part and a second clamping part which are simultaneously arranged at the transverse moving assembly, the first clamping part is used for grabbing a workpiece from the pressing station to the pressing mechanism, and the second clamping part is used for synchronously grabbing the workpiece from the pressing mechanism to the discharging guide rail.

Through adopting above-mentioned technical scheme, sideslip mechanism can order about first clamping part and second clamping part synchronous movement, and at this in-process, first clamping part and second clamping part can carry out two sections centre gripping actions respectively, make two work pieces realize shifting, and the transfer efficiency of work piece obtains promoting.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the sheet body and the sleeve are mechanically processed in the processes of feeding, pressing, discharging and the like, so that the degree of automation is high, the mechanisms are smoothly matched, and the overall processing efficiency is improved;

2. the press-fit mechanism can further press-fit the sheet body and the sleeve, so that the assembly precision of the sheet body and the sleeve is further improved;

3. the first clamping part and the second clamping part realize two-section clamping action, and the transfer efficiency and the discharging efficiency of the workpiece are obviously improved.

Drawings

Fig. 1 is a schematic structural view of an assembling apparatus according to a preferred embodiment of the present application.

Fig. 2 is a schematic structural diagram of a first pushing mechanism, a second pushing mechanism, a pressing mechanism, a sheet feeding mechanism and a sleeve feeding mechanism according to a preferred embodiment of the present disclosure.

Fig. 3 is a schematic structural view of a first pushing cylinder and a first pushing block according to a preferred embodiment of the present application.

Fig. 4 is a schematic structural view of a second pushing cylinder and a second pushing block according to a preferred embodiment of the present application.

Fig. 5 is a schematic structural diagram of the discharging mechanism and the pressing mechanism in a preferred embodiment of the present application.

Reference numerals illustrate:

1. a frame;

2. a first pushing mechanism; 21. a first pusher block; 22. the first pushing cylinder; 23. a first pushing seat; 231. a first pushing channel;

3. a second pushing mechanism; 31. a second pusher block; 32. the second pushing cylinder; 33. a second pushing seat; 331. a second pushing channel;

4. a press-in mechanism; 41. pressing into a seat; 411. a press-in station; 42. pressing in a cylinder; 43. a press-in block;

5. a sheet feeding mechanism; 51. vibrating the feeding disc by the sheet body; 52. sheet transport rails;

6. a sleeve feeding mechanism; 61. sleeve vibration feeding disc; 62. a casing transport rail;

7. a discharging mechanism; 71. a traversing assembly; 72. a clamping assembly; 721. a first clamping part; 722. a second clamping portion; 73. a discharging guide rail;

8. a pressing mechanism; 81. a pressing seat; 82. a pressing cylinder; 83. and pressing the blocks.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses hardware component assembly equipment.

Referring to fig. 1, the device comprises a frame 1, a first pushing mechanism 2, a second pushing mechanism 3, a pressing mechanism 4, a sheet feeding mechanism 5, a sleeve feeding mechanism 6, a discharging mechanism 7 and a pressing mechanism 8, wherein the first pushing mechanism 2, the second pushing mechanism 3, the pressing mechanism 4, the sheet feeding mechanism 5, the sleeve feeding mechanism 6, the discharging mechanism 7 and the pressing mechanism 8 are all arranged on the frame 1.

With reference to fig. 1 and 2, the first pushing mechanism 2 and the second pushing mechanism 3 are respectively located at two adjacent sides of the pressing mechanism 4, the sheet feeding mechanism 5 is used for sequentially feeding sheets to the first pushing mechanism 2, and meanwhile, the sleeve feeding mechanism 6 is used for sequentially feeding sleeves to the second pushing mechanism 3.

At this time, the first pushing mechanism 2 pushes the sheet body into the pressing mechanism 4, and the second pushing mechanism 3 pushes the sleeve into the pressing mechanism 4, so that the sleeve and the sheet body are overlapped, the sleeve is opposite to the embedding opening of the sheet body, and the sleeve is pressed into the embedding opening of the sheet body under the action of the pressing mechanism 4 to form a workpiece.

And then, the workpiece is transferred to the pressing mechanism 8 by the discharging mechanism 7 for further pressing so as to meet the machining precision requirement of the workpiece, a finished product is obtained, and finally, the finished product is sent out of the equipment under the action of the discharging mechanism 7, and the actions of feeding, pressing, running, discharging and the like are all automatically operated, so that the machining efficiency is remarkably improved.

With continued reference to fig. 2, in order to implement the feeding action of the sheet workpiece, specifically, the sheet feeding mechanism 5 includes a sheet feeding mechanism 5 including a sheet vibration feeding tray 51 and a sheet conveying rail 52, where the sheet vibration feeding tray 51 is fixedly installed on the frame 1, one end of the sheet conveying rail 52 is fixedly connected with the sheet vibration feeding tray 51, and the sheet conveying rail 52 is communicated with a discharge port of the sheet vibration feeding tray 51; meanwhile, the other end of the sheet conveying rail 52 extends toward the upper side of the first pushing mechanism 2, and the sheet conveying rail 52 communicates with the first pushing mechanism 2.

At this time, under the driving of the sheet vibration feeding tray 51, the sheets can sequentially enter the sheet conveying rail 52, and then under the guiding of the sheet conveying rail 52, the sheets are driven to enter the first pushing mechanism 2.

Referring to fig. 2 and 3, the first pushing mechanism 2 mainly plays a role of transferring the sheet body to control the feeding rhythm of the sheet body. Specifically, the first pushing mechanism 2 includes a first pushing block 21, a first pushing cylinder 22, and a first pushing seat 23, where the first pushing seat 23 is fixedly installed at the frame 1 and adjacent to the pressing mechanism 4, a first pushing channel 231 is disposed on the first pushing seat 23 along a horizontal direction in a penetrating manner, and the first pushing channel 231 may be a hole structure or a slot structure, which is not described herein; the first pushing channel 231 penetrates through two opposite sides of the first pushing seat 23, one end of the first pushing channel 231 faces towards the pressing mechanism 4, the first pushing channel 231 is communicated with the sheet conveying rail 52, and the sheet can enter the first pushing channel 231 of the first pushing mechanism 2 through the sheet conveying rail 52, and the first pushing mechanism 2 accommodates the sheet at the moment.

In addition, the first pushing block 21 is fixedly installed on the telescopic rod of the first pushing cylinder 22, and the first pushing cylinder 22 is fixedly installed on the first pushing seat 23, at this time, the first pushing block 21 is located in the first pushing channel 231, the first pushing cylinder 22 is started, the first pushing cylinder 22 can drive the first pushing block 21 to reciprocate, and then the sheet body located in the first pushing channel 231 is pushed to the press-in mechanism 4, so that automatic feeding of the sheet body is realized.

Referring to fig. 2 and 4, at the same time, the sleeve is fed in a manner similar to a sheet. Specifically, the sleeve feeding mechanism 6 includes a sleeve vibration loading tray 61 and a sleeve transport rail 62. Wherein, sleeve pipe vibrations charging tray 61 fixed mounting is in frame 1, sleeve pipe transportation track 62's one end and sleeve pipe vibrations charging tray 61 fixed connection to sleeve pipe transportation track 62's one end and sleeve pipe vibrations charging tray 61 intercommunication, sleeve pipe transportation track 62's the other end then is connected and the intercommunication with second pushing equipment 3, at this moment, under sleeve pipe vibrations charging tray 61's order of driving, can make the sleeve pipe order get into sleeve pipe transportation track 62 in proper order, realizes automatic sequencing action.

At the same time, the second pushing mechanism 3 also plays a role in transferring, for controllably feeding the sleeve into the pressing mechanism 4 according to the feeding timing after receiving the sleeve. Specifically, the second pushing mechanism 3 includes a second pushing cylinder 32, a second pushing block 31, and a second pushing seat 33.

The second pushing seat 33 is fixedly arranged at the frame 1 and adjacent to the pressing mechanism 4, a second pushing channel 331 is arranged on the second pushing seat 33, and one end of the second pushing channel 331 faces the pressing mechanism 4; the second pushing block 31 is fixedly mounted on the telescopic rod of the second pushing cylinder 32, and the second pushing cylinder 32 is fixedly mounted on the second pushing seat 33, and the second pushing block 31 is located in the second pushing channel 331. At this time, the second pushing cylinder 32 is started, and the second pushing cylinder 32 can drive the second pushing block 31 to reciprocate, so that the sleeve in the second pushing channel 331 is pushed to the pressing mechanism 4, and automatic feeding of the sheet body is realized.

With continued reference to fig. 2, when both the blade and sleeve are transferred to the press-in mechanism, the press-in mechanism 4 presses the sleeve into the pocket of the blade. Specifically, the press-in mechanism 4 includes a press-in seat 41, a press-in cylinder 42, and a press-in block 43. The press-in seat 41 is fixedly mounted on the frame 1, and a groove for placing the sleeve and the sheet body can be formed in the press-in seat 41, and the position of the groove is defined as a press-in station 411. One ends of the first pushing channel 231 and the second pushing channel 331 face the pressing station 411, and the pressing station 411 is respectively communicated with the first pushing channel 231 and the second pushing channel 331, and the sheet body and the sleeve can be stacked at the pressing station 411.

Meanwhile, the pressing cylinder 42 is fixedly arranged on the frame 1, is positioned right above the pressing seat 41 and is opposite to the pressing station 411; the telescopic rod of the pressing-in air cylinder 42 is vertically arranged downwards, and the pressing-in block 43 is fixedly arranged at the telescopic rod of the pressing-in air cylinder 42; here, by activating the press-in cylinder 42, the press-in cylinder 42 can drive the press-in block 43 to move from top to bottom, thereby pressing the sheet body and the sleeve, and enabling the sleeve to be embedded into the embedding opening of the sheet body.

Referring to fig. 5, after the sleeve is pressed into the sheet, the mutual position between the sheet and the sleeve generally has a certain precision requirement, and at this time, the secondary pressing is implemented by the pressing mechanism 8, so as to meet the forming precision of the workpiece.

Specifically, the pressing mechanism 8 is arranged adjacent to the pressing mechanism 4, and the pressing mechanism 8 specifically comprises a pressing seat 81, a pressing cylinder 82 and a pressing block 83, wherein the pressing seat 81 is fixedly arranged at the frame 1, a groove for placing a workpiece can be formed in the top of the pressing seat 81, and at the moment, the workpiece is placed at the pressing seat 81, so that the workpiece is positioned. Meanwhile, the pressing cylinder 82 is fixedly mounted at the frame 1, the pressing block 83 is fixedly mounted on the telescopic rod of the pressing cylinder 82, the pressing cylinder 82 is located right above the pressing seat 81, and the telescopic rod of the pressing cylinder 82 is opposite to the pressing seat 81 from top to bottom. At this time, after the workpiece is placed on the pressing seat 81, the pressing block 83 further presses the sheet body and the sleeve under the pushing of the pressing cylinder 82, so that the assembly accuracy of the workpiece is improved.

It should be noted that, the transfer and discharging actions of the workpiece are mainly realized through the discharging mechanism 7, the discharging mechanism 7 is located at one side of the pressing mechanism 4 and the pressing mechanism 8, and the efficient operation and automatic discharging of the workpiece are realized through the discharging mechanism 7. However, in order to ensure the pressing precision in the conventional state, the size of the pressing mechanism 8 is usually larger, which may cause a distance between the pressing seat 81 and the discharging mechanism 7 to be further unfavorable for loading and unloading, and at this time, in order to meet the requirement of the size space, the pressing seat 81 may be set to be in a slidable form, and a driving source is firstly set on the frame 1 and connected with the pressing seat 81, and the driving source may be a cylinder or a linear module, under the action of the driving source, the pressing seat 81 may be close to the discharging mechanism 7, so as to facilitate the loading of the workpiece.

With continued reference to fig. 5, for realizing efficient operation and automatic discharging of the workpiece, the discharging mechanism 7 includes a traversing assembly 71, a clamping assembly 72 and a discharging guide rail 73, where the traversing assembly 71 is disposed on the frame 1, and the traversing assembly 71 may be a linear module in the form of a cylinder, and a sliding table sliding along a horizontal direction is disposed on the linear module, and a specific structure of the traversing assembly 71 is not described herein. The traverse assembly 71 is fixedly mounted on the frame 1, and the clamping assembly 72 is arranged at a sliding table of the traverse assembly 71, and the clamping assembly 72 is used for picking and placing workpieces.

In the present embodiment, the clamping assembly 72 includes a first clamping portion 721 and a second clamping portion 722 that are simultaneously disposed at the traverse assembly 71. The first clamping portion 721 and the second clamping portion 722 may have the same structure, and in this embodiment, the first clamping portion includes a telescopic cylinder and a clamping cylinder, the telescopic cylinder is fixedly mounted on a sliding table of the traversing assembly 71, a telescopic rod of the telescopic cylinder faces the pressing mechanism 4 or the pressing mechanism 8, and meanwhile, the clamping cylinder is fixedly mounted on the telescopic rod of the telescopic cylinder, and the clamping cylinder can clamp a workpiece, so that the workpiece can be fetched and placed. In addition, in other embodiments, a lifting cylinder can be additionally arranged between the telescopic cylinder and the sliding table to drive the clamping cylinder to do lifting motion, so that the flexible degree of freedom of the structure is improved, and at the moment, the workpiece can be taken and placed under the driving of the telescopic cylinder by driving the clamping cylinder to displace.

The first clamping portion 721 and the second clamping portion 722 are provided on the slide table at intervals in the horizontal direction, and here, the discharge rail 73 is fixedly mounted on the frame 1, and the discharge rail 73 is provided on the side of the pressing mechanism 8 facing away from the press-fitting mechanism 4, and at this time, the pressing mechanism 8 is located between the discharge rail 73 and the press-fitting mechanism 4. The traversing assembly 71 may drive the clamping assembly 72 through the press mechanism 8 before reaching the outfeed rail 73.

Based on this, in the process of sequentially reciprocating the sliding table of the traverse assembly 71, the first clamping portion 721 can reciprocate between the press-in mechanism 4 and the press-in mechanism 8 to perform the first stage operation on the workpiece, and at the same time, the second clamping portion 722 can reciprocate at the press-in mechanism 8 and the discharge rail 73 to perform the second stage operation on the workpiece. In this process, the first clamping portion 721 can grab the workpiece from the pressing station 411 to the pressing mechanism 8, and the second clamping portion 722 synchronously grabs the workpiece from the pressing mechanism 8 to the discharging guide rail 73, so that two sections of operations are synchronously completed, and finally, the workpiece is discharged, and the transfer efficiency and the discharging efficiency of the material are improved.

In other embodiments, the pressing mechanism 8 may be omitted according to the processing requirement, and only one group of clamping portions may be provided at this time, and the workpiece may be moved from the pressing station 411 to the discharging rail 73 to complete the discharging operation.

The implementation principle of the hardware part assembly equipment provided by the embodiment of the application is as follows: firstly, the first pushing mechanism 2 pushes the sheet body to the pressing-in station 411, and the sleeve feeding mechanism 6 pushes the sleeve to the pressing-in station 411, so that the sleeve and the sheet body are mutually overlapped; then the press-in mechanism 4 presses the sheet body and the sleeve at the press-in station 411 to enable the sleeve to be embedded into the sheet body, so that preliminary assembly is realized; then the discharging mechanism 7 takes out the pressed workpiece from the pressing station 411 and transfers the workpiece to the pressing mechanism 8 for further pressing so as to meet the machining precision of the structure; and finally, the workpiece at the pressing mechanism 8 is transferred to the discharging guide rail 73 by the discharging mechanism 7, so that discharging, feeding, pressing and discharging are realized, the processing actions are smoothly completed, and the processing efficiency of the workpiece is improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. Hardware component assembly equipment, its characterized in that: comprising

A first pushing mechanism (2);

a second pushing mechanism (3);

the first pushing mechanism (2) and the second pushing mechanism (3) are respectively adjacent to the pushing mechanism (4), and the pushing mechanism (4) is provided with a pushing station (411);

the sheet feeding mechanism (5) is used for sequentially feeding the sheets to the first pushing mechanism (2), and the first pushing mechanism (2) is used for pushing the sheets into the press-in station (411);

the sleeve feeding mechanism (6) is used for sequentially feeding the sleeves to the second pushing mechanism (3), and the second pushing mechanism (3) is used for pushing the sleeves into the pressing-in station (411) and enabling the sleeves to face the embedded holes on the sheet body;

the pressing mechanism (4) is used for pressing the sheet body positioned at the pressing station (411) and the sleeve;

and a discharging mechanism (7) for taking out the pressed workpiece from the pressing station (411).

2. The hardware fitting assembly device of claim 1, wherein: the pressing mechanism (4) comprises

-a press-in seat (41), said press-in station (411) being located at said press-in seat (41);

a press-in cylinder (42) located above the press-in seat (41);

and the pressing-in block (43) is fixedly arranged on the telescopic rod of the pressing-in air cylinder (42), and the pressing-in air cylinder (42) is used for driving the pressing-in block (43) to press the sheet body and the sleeve from top to bottom.

3. The hardware fitting assembly device of claim 1, wherein: the first pushing mechanism (2) comprises

A first pushing cylinder (22);

the first pushing block (21) is fixedly arranged on the telescopic rod of the first pushing cylinder (22);

and a first pushing seat (23) having a first pushing channel (231), wherein the first pushing channel (231) is communicated with the sheet feeding mechanism (5) and one end faces towards the pressing station (411), the first pushing channel (231) can accommodate the sheet, and the first pushing cylinder (22) is used for driving the first pushing block (21) to push the sheet positioned in the first pushing channel (231) to the pressing station (411).

4. The hardware fitting assembly device of claim 1, wherein: the second pushing mechanism (3) comprises

A second pushing cylinder (32);

the second pushing block (31) is fixedly arranged on the telescopic rod of the second pushing cylinder (32);

and a second pushing seat (33) having a second pushing channel (331), wherein the second pushing channel (331) is communicated with the sleeve feeding mechanism (6), one end of the second pushing channel faces the pressing station (411), the second pushing channel (331) can accommodate a sleeve, and the second pushing cylinder (32) is used for driving the second pushing block (31) to push the sleeve positioned in the second pushing channel (331) to the pressing station (411).

5. The hardware fitting assembly device of claim 1, wherein: the sheet feeding mechanism (5) comprises

A sheet vibration loading tray (51);

and a sheet conveying rail (52), one end of which is connected with the sheet vibration feeding tray (51), and the other end of which is communicated with the first pushing mechanism (2).

6. The hardware fitting assembly device of claim 1, wherein: the sleeve feeding mechanism (6) comprises

A sleeve vibration feeding disc (61);

and one end of the sleeve conveying rail (62) is connected with the sleeve vibration feeding disc (61), and the other end of the sleeve conveying rail is communicated with the second pushing mechanism (3).

7. The hardware fitting assembly device of claim 1, wherein: the discharging mechanism (7) comprises

A traversing assembly (71);

the clamping assembly (72) is arranged on the transverse moving assembly (71) and is used for taking and placing the workpiece;

and a discharge guide rail (73), wherein the transverse moving assembly (71) is used for driving the clamping assembly (72) to move the workpiece from the pressing station (411) into the discharge guide rail (73), and the discharge guide rail (73) is used for conveying the workpiece out.

8. The hardware fitting assembly device of claim 7, wherein: still include pressing mechanism (8), pressing mechanism (8) are located between ejection of compact guide rail (73) and pressing mechanism (4), sideslip subassembly (71) are used for driving clamping assembly (72) before reaching ejection of compact guide rail (73), through pressing mechanism (8), pressing mechanism (8) are used for pressing lamellar body and sleeve pipe.

9. The hardware fitting assembly device of claim 8, wherein: the clamping assembly (72) comprises a first clamping part (721) and a second clamping part (722) which are arranged at the transverse moving assembly (71) at the same time, the first clamping part (721) is used for grabbing a workpiece from the pressing station (411) to the pressing mechanism (8), and the second clamping part (722) is used for synchronously grabbing the workpiece from the pressing mechanism (8) to the discharging guide rail (73).