CN114310234B - Automatic assembly device for sliding component for diaphragm pump - Google Patents

Abstract

The utility model provides a sliding component automatic assembly device for diaphragm pump is used for installing a sealing washer and a slider on a slider seat, and it includes a frame, a set up in rotary positioning mechanism in the frame, a set up in the frame and be located automatic feeding mechanism of one side of rotary positioning mechanism, a set up in automatic assembly mechanism of one side of automatic feeding mechanism, and a set up in automatic unloading mechanism of one side of rotary positioning mechanism. The automatic assembly device of the sliding component for the diaphragm pump moves the sliding block seat through the automatic feeding mechanism, the sealing ring and the sliding block to the rotary positioning mechanism, the assembly operation among all parts is completed through the automatic assembly mechanism, and finally the discharging collection of products is completed through the automatic discharging mechanism. The device realizes the automatic production of the product, saves human resources, reduces the cost and the reject ratio of the product, and improves the production efficiency.

Description

Automatic assembly device for sliding component for diaphragm pump

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to an automatic assembly device of a sliding component for a diaphragm pump.

Background

Diaphragm pumps are a more specific form of volumetric pump. It relies on the back and forth actuation of a sliding assembly to change the working chamber volume to draw in and expel fluid. The assembly of the sliding component for the diaphragm pump is still manually assembled at present. The workers need to distinguish and assemble materials in strong light for a long time, and the workers are easy to fatigue and greatly waste human resources, so that the production efficiency is reduced, and the cost and the reject ratio of products are improved.

Disclosure of Invention

In view of the above, the present invention provides an automatic assembly device for a sliding component of a diaphragm pump, so as to solve the above-mentioned problems.

The utility model provides a sliding component automatic assembly device for diaphragm pump is used for installing a sealing washer and a slider on a slider seat, and it includes a frame, a set up in rotary positioning mechanism in the frame, a set up in the frame and be located automatic feeding mechanism of one side of rotary positioning mechanism, a set up in automatic assembly mechanism of one side of automatic feeding mechanism, and a set up in automatic unloading mechanism of one side of rotary positioning mechanism. The automatic feeding mechanism comprises a sliding block seat feeding assembly arranged on one side of the frame, a sealing ring feeding assembly arranged on one side of the sliding block seat feeding assembly, and a sliding block feeding assembly arranged on one side of the sealing ring feeding assembly. The automatic assembly mechanism comprises a sliding block seat assembly component arranged on one side of the sliding block seat feeding component, a sealing ring assembly component arranged on one side of the sealing ring feeding component, and a sliding block assembly component arranged on one side of the sliding block feeding component. The sealing ring assembly comprises a T-shaped support plate arranged on the frame, a first straight rod air cylinder arranged at one end of the T-shaped support plate, a transverse moving plate arranged on the first straight rod air cylinder and in sliding connection with the T-shaped support plate, a third pen-shaped air cylinder arranged on the transverse moving plate, a vertical moving plate arranged at the output end of the third pen-shaped air cylinder and in sliding connection with the transverse moving plate, a finger air cylinder arranged at one end of the vertical moving plate, an inner supporting clamping jaw arranged at the output end of the finger air cylinder, a supporting fixing column and a supporting component matched with the supporting fixing column. The supporting component comprises a supporting cylinder arranged on the frame, a cylinder connecting block arranged at the output end of the supporting cylinder, four connecting rods arranged on the periphery of the cylinder connecting block, a base slidingly connected with the connecting rods, and four sliding hooks respectively rotationally connected with the four connecting rods. Four avoidance grooves matched with the sliding hooks are formed in the circumferential outer side wall of the large fixing column at intervals, one end of the large fixing column is provided with a circle of inner groove, the outer circular inner side wall of the inner groove is provided with a chamfer, the sealing ring feeding assembly comprises a sealing ring vibrating disc, a sealing ring feeding track arranged at the output end of the sealing ring vibrating disc, a sealing ring positioning disc arranged at one end of the sealing ring feeding track, and a V-shaped positioning block arranged at one end of the sealing ring positioning disc. The sliding block feeding assembly comprises a sliding block vibration disc, a sliding block feeding track arranged at the output end of the sliding block vibration disc, a sliding block bottom plate arranged at one end of the sliding block feeding track, a first pen-shaped air cylinder arranged at one end of the sliding block bottom plate, and a sliding block pushing plate arranged at the output end of the first pen-shaped air cylinder. One end of the bottom plate of the sliding block is provided with a blanking hole matched with the sliding block, and the contact surface of the pushing plate of the sliding block and the sliding block is V-shaped. The sliding block seat assembly component comprises a sliding block seat bottom plate, a second pen-shaped air cylinder and a sliding block seat push plate, wherein the sliding block seat bottom plate is in butt joint with the rotary positioning mechanism, the second pen-shaped air cylinder is arranged at one end of the sliding block seat bottom plate, and the sliding block seat push plate is arranged at the output end of the second pen-shaped air cylinder. The slide block assembly comprises a first support plate arranged on one side of the rotary positioning mechanism, a press-fitting cylinder arranged at one end of the first support plate, a press-fitting glue block arranged at the output end of the press-fitting cylinder, a guide pin arranged at one end of the press-fitting glue block, and a press-fitting fixing seat arranged on the first support plate.

Further, the rotary positioning mechanism comprises a driving rotating wheel arranged on the frame, a carrying disc arranged on the driving rotating wheel, and a plurality of limiting frames arranged on the carrying disc at intervals. And the carrying disc is provided with a positioning groove matched with the limiting frame.

Further, two interference holes are formed in one side, close to the V-shaped positioning block, of the sealing ring positioning disc.

Further, the automatic discharging mechanism comprises a material taking and discharging assembly arranged on one side of the carrying disc and a material taking and discharging assembly arranged on one side of the material taking and discharging assembly.

Further, the material taking rotary assembly comprises a second support plate arranged on the frame, a second straight rod cylinder arranged on one side of the second support plate, a rotary cylinder arranged on the second straight rod cylinder and slidably connected with the second support plate, a first clamping cylinder arranged at the output end of the rotary cylinder, and a first clamping jaw arranged at the output end of the first clamping cylinder.

Further, the material taking and discharging assembly comprises a third support plate arranged on one side of the frame, a transverse plate arranged on one end of the third support plate, a third straight rod cylinder arranged on one side of the transverse plate, a discharging connecting plate arranged on the third straight rod cylinder and in sliding connection with the transverse plate, a fourth pen-shaped cylinder arranged on one end of the discharging connecting plate, a second clamping cylinder arranged at the output end of the fourth pen-shaped cylinder, and a second clamping jaw arranged at the output end of the second clamping cylinder.

Compared with the prior art, the automatic assembly device for the sliding component for the diaphragm pump provided by the invention has the advantages that the sliding block seat is moved to the rotary positioning mechanism through the automatic feeding mechanism, and the assembly operation among all parts is completed through the automatic assembly mechanism. The sealing ring is inserted, sleeved and assembled through the cooperation between the large fixing column and the large part, and finally the blanking collection of the product is completed through the automatic blanking mechanism. The automatic assembly device for the sliding component for the diaphragm pump realizes automatic production of the product, workers can finish assembly work by only putting each part into the automatic feeding mechanism respectively, manpower resources are saved, cost and reject ratio of the product are reduced, and production efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of an automatic assembly device for a sliding component for a diaphragm pump.

Fig. 2 is a schematic diagram of the split structure of the product to be assembled according to the present invention.

Fig. 3 is a schematic view of a rotation positioning mechanism included in the automatic assembly device for a diaphragm pump of fig. 1.

Fig. 4 is a schematic structural view of a seal ring feeding assembly included in the automatic assembly device for a sliding assembly for a diaphragm pump of fig. 1.

Fig. 5 is a schematic structural view of a slide block feeding assembly included in the automatic assembly device for a diaphragm pump of fig. 1.

Fig. 6 is a schematic view of a slider seat assembly included in the automatic assembly device for a diaphragm pump of fig. 1.

Fig. 7 is a schematic structural view of a seal ring assembly included in the automatic assembly device for a diaphragm pump of fig. 1.

Fig. 8 is a schematic view of the enlarged member of the seal ring assembly of fig. 7.

Fig. 9 is a schematic structural view of a enlarged fixing post of the seal ring assembly of fig. 7.

Fig. 10 is a schematic view of a slider assembly included in the automatic assembly device for a diaphragm pump of fig. 1.

Fig. 11 is a schematic structural view of a material taking rotary assembly of the automatic assembly device for a sliding assembly for a diaphragm pump of fig. 1.

Fig. 12 is a schematic structural view of a material taking and discharging assembly included in the automatic assembly device for a sliding assembly for a diaphragm pump of fig. 1.

Detailed Description

Specific embodiments of the present invention are described in further detail below. It should be understood that the description herein of the embodiments of the invention is not intended to limit the scope of the invention.

Fig. 1 and fig. 2 show a schematic structural diagram of an automatic assembly device for a sliding component for a diaphragm pump and a schematic structural diagram of a product to be assembled according to the present invention. The automatic assembly device of the sliding component for the diaphragm pump is used for installing a sealing ring 11 and a sliding block 12 on a sliding block seat 10. The automatic assembly device for the sliding component of the diaphragm pump comprises a frame 20, a rotary positioning mechanism 30 arranged on the frame 20, an automatic feeding mechanism 40 arranged on the frame 20 and positioned on one side of the rotary positioning mechanism 30, an automatic assembly mechanism 50 arranged on one side of the automatic feeding mechanism 40, and an automatic discharging mechanism 60 arranged on one side of the rotary positioning mechanism 30. It is conceivable that the automatic assembly device for a sliding component for a diaphragm pump further includes some other functional modules, such as a driving power source for supplying power, a layout of cables, a vibration plate for feeding, a material frame for receiving, etc., which are known to those skilled in the art, and will not be described here.

The housing 20 has an accommodating chamber therein, in which the above-mentioned driving power source or the layout cable or the like can be placed. One side of the frame 20 has a control assembly for controlling the drive modules, which should be known to those skilled in the art and will not be described here.

Please refer to fig. 3 to fig. 12 together. The rotary positioning mechanism 30 includes a driving wheel 31 disposed on the frame 20, a carrier plate 32 disposed on the driving wheel 31, and a plurality of spacing frames 33 disposed on the carrier plate 32 at intervals.

The carrier plate 32 is provided with a positioning groove 321 matched with the limit frame 33. The positioning groove 321 is matched with the limiting frame 33, so that the sliding block seat 10 can be fixed, and further, the precise operation of subsequent assembly is realized.

The automatic feeding mechanism 40 comprises a sliding block seat feeding assembly 41 arranged on one side of the frame 20, a sealing ring feeding assembly 42 arranged on one side of the sliding block seat feeding assembly 41, and a sliding block feeding assembly 43 arranged on one side of the sealing ring feeding assembly 42.

The slider seat feeding assembly 41 includes a slider seat vibration plate (not shown), and a slider seat feeding rail 411 disposed at an output end of the slider seat vibration plate.

The slider seat vibration disk is a prior art, which is a technical knowledge known to those skilled in the art, and will not be described in detail herein.

The slider seat loading rail 411 is connected to the automatic assembly mechanism 50, and the specific connection structure thereof will be described in detail below.

The seal ring feeding assembly 42 includes a seal ring vibration disk (not shown), a seal ring feeding rail 421 disposed at an output end of the seal ring vibration disk, a seal ring positioning disk 422 disposed at one end of the seal ring feeding rail 421, and a V-shaped positioning block 423 disposed at one end of the seal ring positioning disk 422.

The sealing ring vibration disc is the prior art, which is the technical knowledge known to the person skilled in the art, and is not described in detail herein.

Two interference holes 424 are formed in one side, close to the V-shaped positioning block 423, of the seal ring positioning disc 422, and the interference holes 424 can prevent interference when the automatic assembly mechanism 50 clamps the seal ring 11.

The slider feeding assembly 43 includes a slider vibration disk (not shown), a slider feeding rail 431 disposed at an output end of the slider vibration disk, a slider bottom plate 432 disposed at one end of the slider feeding rail, a first pen-shaped cylinder 433 disposed at one end of the slider bottom plate 432, and a slider push plate 434 disposed at an output end of the first pen-shaped cylinder 432.

The slider vibration disk is a prior art, which is known to those skilled in the art, and will not be described in detail herein.

A blanking hole 435 is formed at one end of the bottom plate 432 of the slider, and the aperture of the blanking hole 435 is matched with that of the slider 12, so that the slider 12 can pass through the blanking hole 435.

The first pen-shaped cylinder 433 drives the slider push plate 434 to reciprocate on the slider base plate 432.

The contact surface between the slide block pushing plate 434 and the slide block 12 is V-shaped, and the structure may be that the slide block 12 is centered in the pushing process, so that the slide block can smoothly enter the blanking hole 435.

The automatic assembly mechanism 50 includes a slider seat assembly 51 disposed on one side of the slider seat loading assembly 41, a seal ring assembly 52 disposed on one side of the seal ring loading assembly 42, and a slider assembly 53 disposed on one side of the slider loading assembly 43.

The slider assembly 51 includes a slider base plate 511 abutting against a circumferential side wall of the carrier plate 32, a second pen-shaped cylinder 512 disposed at one end of the slider base plate 511, and a slider push plate 513 disposed at an output end of the second pen-shaped cylinder 512.

The second pen cylinder 512 may drive the slider seat push plate 513 to reciprocate on the slider seat bottom plate 511. The slide block seat feeding rail 411 is connected with the slide block seat bottom plate 511, the slide block seat 10 can enter the slide block seat bottom plate 511 through the slide block seat feeding rail 411, and then the slide block seat push plate 513 pushes the slide block seat 10 to move into the positioning groove 321 on the carrier plate 32.

The seal ring assembly 52 includes a T-shaped bracket plate 521 disposed on the frame 20, a first straight cylinder 522 disposed at one end of the T-shaped bracket plate 521, a lateral movement plate 523 disposed on the first straight cylinder 522 and slidably connected to the T-shaped bracket plate 521, a third pen-shaped cylinder 524 disposed on the lateral movement plate 523, a vertical movement plate 525 disposed at an output end of the third pen-shaped cylinder 524 and slidably connected to the lateral movement plate 523, a finger cylinder 526 disposed at one end of the vertical movement plate 525, an inner support jaw 527 disposed at an output end of the finger cylinder 526, a support fixing post 528 disposed at the other end of the vertical movement plate 525, and a support member 529 disposed at one side of the T-shaped bracket plate 521.

The vertically moving plate 525 may move in a two-dimensional plane under the driving of the first and third linear cylinders 522 and 524.

The finger cylinder 526 may actuate the inner support jaw 527 to support the seal 11 inwardly, placing the seal 11 on the support member 529.

The expanding component 529 comprises an expanding cylinder 5291 arranged on the frame 20, a cylinder connecting block 5292 arranged at the output end of the expanding cylinder 5291, four connecting rods 5293 arranged on the periphery of the cylinder connecting block, a base 5294 in sliding connection with the connecting rods 5293, and four sliding hooks 5295 respectively in rotating connection with the four connecting rods 5293.

The expanding cylinder 5291 changes the tilting angle of the connecting rod 5293 by lifting the cylinder connecting block 5292, so that the position of the sliding hook 5295 on the base 5294 is changed, and the function of expanding the sealing ring is achieved.

Four avoidance grooves 5281 are formed in the circumferential outer side wall of the enlarged fixing column 528 at intervals, and the four avoidance grooves 5281 are matched with the four sliding hooks 5295. One end of the enlarged fixing column 528 is provided with a circle of inner groove 5282, and the inner side wall of the outer circle of the inner groove 5282 is provided with a chamfer. The enlarged fixing posts 528 can be clamped into the sealing ring 11 through the inner grooves 5282 when the sliding hooks 5295 retract, so that the sealing ring 11 is removed.

Since the outer and inner side walls of the inner groove 5282 have chamfers, the sealing ring 11 can be pushed into the circumferential outer side wall of the slider seat 10 by the chamfers, thereby completing the assembly work of the sealing ring 11.

The slider assembly 53 includes a first support plate 531 disposed on one side of the slider bottom plate 431, a press-fitting cylinder 532 disposed on one end of the first support plate 531, a press-fitting glue block 533 disposed on an output end of the press-fitting cylinder 532, a guide pin 534 disposed on one end of the press-fitting glue block 533, and a press-fitting fixing seat 535 disposed on the first support plate 531.

The output end of the press-fitting cylinder 532 is penetrated by the press-fitting fixing seat 535 and is connected with the press-fitting glue block 533, and the end surface of the guide pin 534 is matched with the surface of the slide block seat 10, so that double stable orientation guarantee is made for the press-fitting operation.

The automatic discharging mechanism 60 includes a material taking and discharging assembly 61 disposed on one side of the carrier plate 32, and a material taking and discharging assembly 62 disposed on one side of the material taking and discharging assembly 61.

The material taking rotary assembly 61 comprises a second support plate 611 arranged on the frame 20, a second straight rod cylinder 612 arranged on one side of the second support plate 611, a rotary cylinder 613 arranged on the second straight rod cylinder 612 and slidingly connected with the second support plate 611, a first clamping cylinder 614 arranged at the output end of the rotary cylinder 613, and a first clamping jaw 615 arranged at the output end of the first clamping cylinder 614.

The second straight rod cylinder 612 may drive the rotary cylinder 613 to reciprocate along the length direction of the second support plate 611.

After the first clamping cylinder 614 drives the first clamping jaw 615 to clamp the workpiece from the limiting frame 33, the rotating cylinder 613 turns 180 degrees to wait for the material taking and discharging assembly 62 to clamp the workpiece.

The material taking and discharging assembly 62 includes a third support plate 621 disposed on one side of the frame 20, a transverse plate 622 disposed on one end of the third support plate 621, a third straight rod cylinder 623 disposed on one side of the transverse plate 622, a discharging connecting plate 624 disposed on the third straight rod cylinder 623 and slidably connected with the transverse plate 622, a fourth pen-shaped cylinder 625 disposed on one end of the discharging connecting plate 624, a second clamping cylinder 626 disposed on an output end of the fourth pen-shaped cylinder 625, and a second clamping jaw 627 disposed on an output end of the second clamping cylinder 626.

The second gripping cylinder 626 may be driven by the third straight rod cylinder 623 and the fourth pen cylinder 625 to move in a two-dimensional plane.

The second gripping cylinder 626 drives the second gripping jaw 627 to grip the workpiece from the first gripping jaw 615, move it to a frame (not shown) and place the workpiece into the frame. Thus, the automatic discharging operation of the automatic discharging mechanism 60 is completed.

Compared with the prior art, the automatic assembly device for the sliding component for the diaphragm pump provided by the invention has the advantages that the sliding block seat 10, the sealing ring 11 and the sliding block 12 are moved to the rotary positioning mechanism 30 through the automatic feeding mechanism 40, and the assembly operation among all parts is completed through the automatic assembly mechanism 50. Wherein, the insertion type sleeving and assembling of the sealing ring is completed through the matching between the large fixing column 528 and the large part 529, and finally the discharging and collecting of the product is completed through the automatic discharging mechanism 60. The automatic assembly device for the sliding component for the diaphragm pump realizes automatic production of the product, and workers can finish assembly work by only putting each part into the automatic feeding mechanism 30 respectively, so that manpower resources are saved, cost and reject ratio of the product are reduced, and production efficiency is improved.

The above is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions or improvements within the spirit of the present invention are intended to be covered by the claims of the present invention.

Claims (2)

1. An automatic assembly device for a sliding component of a diaphragm pump is used for installing a sealing ring on a sliding block seat

And a slider, characterized in that: the automatic assembly device of the sliding component for the diaphragm pump comprises a machine

A frame, a rotary positioning mechanism arranged on the frame and positioned on the frame

Automatic feeding mechanism at one side of the rotary positioning mechanism, one is arranged on the automatic feeding mechanism

And an automatic lower part arranged on one side of the rotary positioning mechanism

The automatic feeding mechanism comprises a sliding block seat feeding group arranged on one side of the frame

One is arranged on the sealing ring feeding assembly at one side of the sliding block seat feeding assembly, and the other is arranged on

The automatic assembly mechanism comprises a sliding block feeding assembly arranged at one side of the sealing ring feeding assembly

The sliding block seat assembly is arranged at one side of the sliding block seat feeding assembly, and one sliding block seat assembly is arranged on the sealing ring

One side of the sealing ring assembly is arranged on one side of the sliding block feeding assembly

The sliding block assembly comprises a T-shaped bracket arranged on the frame

The plate, one set up in the first straight-bar cylinder of the one end of T type mounting panel, one set up in the first

A transverse moving plate arranged on the straight-bar cylinder and connected with the T-shaped support plate in a sliding way, one transverse moving plate is arranged on the T-shaped support plate

The third pen-shaped air cylinder on the transverse moving plate is arranged at the output end of the third pen-shaped air cylinder

And with the vertical movable plate of the sliding connection of said horizontal movable plate, a set up in said vertical movable plate

One end of the finger cylinder, one inner supporting clamping jaw arranged at the output end of the finger cylinder, and one supporting jaw

A large fixing column and a large part matched with the large fixing column, wherein the large part comprises

Comprises a supporting cylinder arranged on the frame, and an output end arranged on the supporting cylinder

The cylinder connecting block, four link rods arranged around the cylinder connecting block, one link rod sliding with the link rod

A base which is movably connected with the base, and four sliding hooks which are respectively and rotatably connected with the four connecting rods, wherein the support

Four avoidance grooves matched with the sliding hooks are arranged on the circumferential outer side wall of the large fixed column at intervals,

one end of the supporting fixing column is provided with a circle of inner groove, the outer circular inner side wall of the inner groove is provided with a chamfer angle,

the sealing ring feeding assembly comprises a sealing ring vibration disc and a sealing ring vibration disc arranged on the sealing ring vibration disc

A seal ring feeding rail arranged at one end of the seal ring feeding rail

The ring positioning disk and the V-shaped positioning block are arranged at one end of the sealing ring positioning disk, and the slide is provided with a slide groove

The block feeding assembly comprises a sliding block vibration disc and a sliding block arranged at the output end of the sliding block vibration disc

The block feeding rail is provided with a sliding block bottom plate arranged at one end of the sliding block feeding rail and a sliding block bottom plate arranged at the other end of the sliding block feeding rail

A first pen-shaped air cylinder arranged at one end of the sliding block bottom plate and a second pen-shaped air cylinder arranged on the first pen-shaped air cylinder

1, a sliding block push plate at the output end, one end of the sliding block bottom plate is provided with a falling plate matched with the sliding block

The contact surface of the slide block push plate and the slide block is V-shaped, and the slide block seat assembly component bag

Comprises a sliding block base plate which is abutted with the rotary positioning mechanism, and a sliding block base plate which is arranged on the sliding block base plate

A second pen-shaped cylinder at one end of the cylinder, and a slider arranged at the output end of the second pen-shaped cylinder

A seat push plate, the slide block assembly comprises a first arranged at one side of the rotary positioning mechanism

The support plate is provided with a press-fit cylinder arranged at one end of the first support plate and is provided with a press-fit cylinder arranged at the other end of the first support plate

A press-fitting glue block at the output end of the air cylinder, a guide pin arranged at one end of the press-fitting glue block,

and the press-fit fixing seat is arranged on the first support plate.

2. The automatic assembly device for a sliding component for a diaphragm pump according to claim 1, wherein: the said

The rotary positioning mechanism comprises a driving wheel arranged on the frame, a driving wheel arranged on the driving wheel

The carrier plate on the rotating wheel and a plurality of spacing frames arranged on the carrier plate at intervals, wherein the carrier plate is provided with

And a positioning groove matched with the limiting frame is formed.