CN219254021U - Nail pressing machine - Google Patents

Abstract

The utility model discloses a nailing machine which comprises a rack, wherein a bracket is arranged on the rack, and a servo press and an upper pressing head arranged at the output end of the servo press are arranged on the bracket. Still including setting up the transfer chain in servo press below, be arranged in carrying out the climbing mechanism of climbing in the transfer chain, set up in the frame with last pressure head correspond down the pressure head, set up in frame up end a transfer chain be located No. two transfer chains of transfer chain below, set up in the frame be used for with the tray transfer from No. one transfer chain one end to No. two transfer chain one end a lift conveying mechanism, set up in the frame be used for with the tray transfer from No. two transfer chain other ends to No. two lift conveying mechanism, the transfer chain is including setting up No. two mounting brackets in the frame and setting up two conveyer belts on No. two mounting brackets, down the pressure head setting is in the frame between two conveyer belts. The advantages are that: effectively improves the riveting efficiency.

Description

Nail pressing machine

Technical Field

The utility model relates to the field of nail pressing equipment, in particular to a nail pressing machine.

Background

In machining, various sheet metal parts are required to be riveted according to actual application conditions, so that the sheet metal parts are connected. When the prior nailing machine is in actual use, a tray or a carrier is required to be placed on the lower pressing head, and after riveting is completed on a product, the tray is removed from the riveting station. This design makes the riveting inefficient.

For example, chinese patent publication No. CN104057009B discloses a vertical hydraulic riveting machine, which comprises a machine body, a riveting hydraulic mechanism, a carrying trolley and a hydraulic pump station, wherein the hydraulic pump station is connected with a hydraulic riveting structure arranged on the machine body through a hydraulic pipeline; the riveting mechanism comprises an upper riveting hydraulic mechanism and a lower riveting hydraulic mechanism, the upper riveting hydraulic mechanism comprises an upper oil cylinder, the upper oil cylinder comprises a cylinder body and an upper piston rod arranged in the cylinder body, the upper piston rod is a double-shaft extending piston rod, the upper end part of the double-shaft extending piston rod is provided with an anti-rotation plate, the center of the double-shaft extending piston rod is provided with a trapezoid internal thread through hole along the length direction of the double-shaft extending piston rod, the trapezoid internal thread through hole is internally threaded and connected with a trapezoid screw rod, one end of the trapezoid screw rod is connected with a riveting rod, the lower end part of the riveting rod is provided with an upper riveting head, and one end of the trapezoid screw rod, which is provided with a flat key, is inserted into an inner hole of the speed reducing motor; the lower riveting hydraulic mechanism comprises a lower oil cylinder and a lower piston rod arranged in the lower oil cylinder, and the upper end part of the lower piston rod is connected with a lower rivet.

When the vertical hydraulic riveting machine is in actual use, backflow of the carrier cannot be realized, so that riveting efficiency is low.

In view of this, it is necessary to provide a nailer.

Disclosure of Invention

The utility model provides a riveting machine, which effectively solves the problem of low riveting efficiency of the conventional riveting equipment.

The technical scheme adopted by the utility model is as follows: the utility model provides a press nail machine, includes the frame, be provided with the support in the frame, be provided with servo press and set up the last pressure head at servo press output on the support. Still including setting up the transfer chain in servo press below, be arranged in carrying out the climbing mechanism of climbing in the transfer chain, set up in the frame with last pressure head correspond down the pressure head, set up in frame up end a transfer chain be located No. two transfer chains of transfer chain below, set up in the frame be used for with the tray transfer from No. one transfer chain one end to No. two transfer chain one end a lift conveying mechanism, set up in the frame be used for with the tray transfer from No. two transfer chain other ends to No. two lift conveying mechanism, the transfer chain is including setting up No. two mounting brackets in the frame and setting up two conveyer belts on No. two mounting brackets, down the pressure head setting is in the frame between two conveyer belts.

Further is: the lifting conveying mechanism is identical to the lifting conveying mechanism in structure, and comprises a mounting plate arranged on a frame, a linear guide rail vertically arranged on the mounting plate, a lifting plate arranged on the linear guide rail in a sliding manner, a linear module fixedly arranged on the mounting plate and used for driving the lifting plate to lift, a third mounting frame fixedly arranged on the mounting plate and a third belt conveying line arranged on the third mounting frame and used for conveying a tray.

Further is: the second conveyor line comprises a second mounting frame arranged on the frame and a second belt conveyor line arranged on the second mounting frame, and the first conveyor line comprises a first mounting frame arranged on the frame and a first belt conveyor line arranged on the first mounting frame.

Further is: the first streamline stop assembly is arranged on the first conveying line, and the second streamline stop assembly is arranged on the second conveying line.

Further is: the jacking mechanism comprises a second plate arranged on the frame, a plurality of linear bearings arranged on the second plate, a guide pillar sleeved on the linear shaft, two symmetrical cylinders fixedly arranged on the second plate and a connecting plate arranged at the output end of the cylinders, wherein two ends of the guide pillar are fixedly connected with the connecting plate and the transfer conveying line respectively.

The utility model has the beneficial effects that: can effectually carry out backward flow to the tray, effectual improvement work efficiency.

Drawings

Fig. 1 is an overall schematic view of a nailing machine provided in an embodiment of the present application.

Fig. 2 is a schematic diagram of a transfer line, a lower ram and a jacking mechanism of the nailing machine according to the embodiments of the present application.

Fig. 3 is a schematic view of a first lifting conveying mechanism of the nailing machine according to the embodiment of the present application.

Fig. 4 is a schematic diagram of a first conveying line and a second conveying line of the nailing machine according to the embodiment of the present application.

Marked in the figure as: 1. a frame; 2. a bracket; 3. a servo press; 4. an upper pressure head; 5. a transfer conveyor line; 6. a jacking mechanism; 7. a lower pressure head; 8. a first conveying line; 9. a second conveying line; 10. a first lifting conveying mechanism; 11. a lifting conveying mechanism II; 51. a second mounting rack; 52. a conveyor belt; 101. a mounting plate; 102. a linear guide rail; 103. a lifting plate; 104. a linear module; 105. a third mounting rack; 106. a belt conveyor line No. three; 91. a second mounting rack; 92. a second belt conveyor line; 81. a first mounting rack; 82. a first belt conveyor line; 83. a first streamline stop assembly; 93. a second streamline stop assembly; 62. a second plate; 63. a linear bearing; 64. a guide post; 65. a cylinder; 66. and (5) connecting a plate.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings.

As shown in fig. 1 and 2, the nailing machine provided by the embodiment of the application includes a frame 1, a support 2 is provided on the frame 1, a servo press 3 and an upper pressing head 4 disposed at an output end of the servo press 3 are provided on the support 2, the nailing machine further includes a transfer conveying line 5 disposed below the servo press 3, a lifting mechanism 6 for lifting the transfer conveying line 5, a lower pressing head 7 disposed on the frame 1 and corresponding to the upper pressing head 4, a second conveying line 9 disposed on an upper end surface of the frame 1 and below the first conveying line 8, a first lifting conveying mechanism 10 disposed on the frame 1 and used for transferring a tray from one end of the first conveying line 8 to one end of the second conveying line 9, a second lifting conveying mechanism 11 disposed on the frame 1 and used for transferring the tray from the other end of the second conveying line 9, the transfer conveying line 5 includes a second mounting frame 9151 disposed on the frame 1 and two conveying belts 52 disposed on the second mounting frame 9151, and the lower pressing head 7 is disposed on the frame 1 between the two conveying belts 52.

During actual use, the tray loaded with the product is conveyed into the transfer conveying line 5 through the lifting conveying mechanism 11, then the lifting mechanism 6 lowers the transfer conveying line 5 to a height so that the lower end of the product in the tray is propped against the lower pressing head 7, and then the servo press 3 drives the upper pressing head 4 to press downwards to complete riveting of the product in cooperation with the lower pressing head 7. Then servo motor drive goes up pressure head 4 and upwards moves, transfer chain 5 carries the tray to in transfer chain 8, transfer chain 8 carries the tray to in elevating conveyor 10, place the product of waiting to rivet behind the product transfer after riveting on the tray, then elevating conveyor 10 drives the tray and moves down and shift the tray to No. two transfer chain 9, no. two transfer chain 9 carry the tray to No. two elevating receiving mechanisms later this moment, no. two elevating receiving structures drive the tray and move up the back, carry the tray to transfer chain 5 in accomplishing the riveting preparation.

In the design, the tray can be effectively reflowed, and the working efficiency is effectively improved.

Specifically: as shown in fig. 2, the first lifting conveying mechanism 10 and the second lifting conveying mechanism 11 have the same structure, and the first lifting conveying mechanism 10 includes a mounting plate 101 disposed on the frame 1, a linear guide rail 102 vertically disposed on the mounting plate 101, a lifting plate 103 slidably disposed on the linear guide rail 102, a linear module 104 fixedly disposed on the mounting plate 101 for driving the lifting plate 103 to lift, a third mounting frame 105 fixedly disposed on the mounting plate 101, and a third belt conveying line 106 disposed on the third mounting frame 105 for conveying the pallet.

In actual use, the linear module 104 drives the lifting plate 103 to lift along the linear guide rail 102, so that the lifting plate 103 lifts to correspond to the first conveyor line 8 or to correspond to the second conveyor line 9, and then the third belt conveyor line 106 receives the conveying tray.

In the above design, the structural design of the first lifting conveying mechanism 10 and the second lifting conveying mechanism 11 and the specific implementation mode can enable the transfer of the tray between the first conveying line 8 and the second conveying line 9 to be more convenient and quicker.

Specifically: as shown in fig. 4, the No. two conveyor lines 9 include a No. two mounting frames 9151 provided on the frame 1 and a No. two belt conveyor line 92 provided on the No. two mounting frames 9151, and the No. one conveyor line 8 includes a No. one mounting frame 81 provided on the frame 1 and a No. one belt conveyor line 82 provided on the No. one mounting frame 81.

In actual use, when the second conveyor line 9 is responsible for conveying, the tray is conveyed on the first belt conveyor line 82, and when the first conveyor line 8 is responsible for conveying, the tray is conveyed on the first belt conveyor line 82.

Among the above-mentioned designs, the structural design of transfer chain 8 and No. two transfer chains 9 and concrete embodiment can make the transfer of tray steady convenient.

Specifically: as shown in fig. 4, the first streamline stop assembly 83 is disposed on the first conveying line 8, and the second streamline stop assembly 93 is disposed on the second conveying line 9.

In actual use, the stop assembly stretches out to stop the movement of the tray on the first conveying line 8 and the second conveying line 9.

In the above-mentioned design, can make the tray in the removal process of transfer chain 8 and No. two transfer chains 9 can be timely control.

Specifically: as shown in fig. 2, the jacking mechanism 6 includes a second plate 62 disposed on the frame 1, a plurality of linear bearings 63 disposed on the second plate 62, a guide post 64 sleeved on a linear shaft, two symmetrical cylinders 65 fixedly disposed on the second plate 62, and a connecting plate 66 disposed at an output end of the cylinders 65, where two ends of the guide post 64 are fixedly connected with the connecting plate 66 and the transfer line 5 respectively.

In actual use, the air cylinder 65 drives the connecting plate 66 to ascend, so that the guide post 64 drives the transit line 5 to ascend. On the contrary, when the air cylinder 65 drives the connecting plate 66 to reset, the guide post 64 drives the transfer conveyor line 5 to descend.

In the above design, the structural design and the specific embodiment of the jacking mechanism 6 can make the lifting of the transferring conveying line 5 more convenient and stable.

It should be understood that the foregoing description is only illustrative of the present utility model and is not intended to limit the utility model to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (5)

1. The utility model provides a press nail machine, includes frame (1), be provided with support (2) on frame (1), be provided with servo press (3) and set up last pressure head (4) at servo press (3) output on support (2), its characterized in that: still including setting up transfer chain (5) in servo press (3) below, be arranged in carrying out jacking mechanism (6) in transfer chain (5), set up on frame (1) with last pressure head (4) corresponding lower pressure head (7), set up No. two transfer chain (9) that are located No. one transfer chain (8) below in frame (1) transfer chain (8), set up be used for shifting the tray from No. one transfer chain (8) one end to No. one lift conveying mechanism (10) of No. two transfer chain (9) one end on frame (1), set up be used for shifting the tray from No. two lift conveying mechanism (11) of No. two transfer chain (9) other ends to on frame (1), transfer chain (5) are including setting up No. two mounting brackets (91) (51) on frame (1) and setting up two conveyer belts (52) on No. two mounting brackets (91) (51), lower pressure head (7) set up on frame (1) between two conveyer belts (52).

2. The nailer of claim 1 wherein: the lifting conveying mechanism (10) and the lifting conveying mechanism (11) are identical in structure, and the lifting conveying mechanism (10) comprises a mounting plate (101) arranged on a frame (1), a linear guide rail (102) vertically arranged on the mounting plate (101), a lifting plate (103) arranged on the linear guide rail (102) in a sliding manner, a linear module (104) fixedly arranged on the mounting plate (101) and used for driving the lifting plate (103) to lift, a third mounting frame (105) fixedly arranged on the mounting plate (101) and a third belt conveying line (106) arranged on the third mounting frame (105) and used for conveying pallets.

3. The nailer of claim 1 wherein: the second conveyor line (9) comprises a second mounting frame (91) (51) arranged on the frame (1) and a second belt conveyor line (92) arranged on the second mounting frame (91) (51), and the first conveyor line (8) comprises a first mounting frame (81) arranged on the frame (1) and a first belt conveyor line (82) arranged on the first mounting frame (81).

4. The nailer of claim 1 wherein: be provided with streamline fender and stop subassembly (83) No. one on transfer chain (8), be provided with streamline fender and stop subassembly (93) No. two on No. two transfer chain (9).

5. The nailer of claim 1 wherein: the jacking mechanism (6) comprises a second plate (62) arranged on the frame (1), a plurality of linear bearings (63) arranged on the second plate (62), an upper guide pillar (64) sleeved on the linear shaft, two symmetrical air cylinders (65) fixedly arranged on the second plate (62) and a connecting plate (66) arranged at the output end of the air cylinders (65), and two ends of the guide pillar (64) are fixedly connected with the connecting plate (66) and the transfer conveying line (5) respectively.

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