CN111994567A

CN111994567A - Double-speed chain assembly line

Info

Publication number: CN111994567A
Application number: CN202010823210.6A
Authority: CN
Inventors: 叶贤良
Original assignee: Quanzhou Qiming Electronic Equipment Co ltd
Current assignee: Quanzhou Qiming Electronic Equipment Co ltd
Priority date: 2020-08-17
Filing date: 2020-08-17
Publication date: 2020-11-27

Abstract

The invention discloses a double-speed chain assembly line, which structurally comprises a support frame, a workbench, a distribution box, a chain, a stop block and a tooling plate, wherein the workbench is fixed at the top of the support frame, the distribution box is installed at the bottom of the workbench, part of parts are smooth and round outside due to the change of the transmission speed of the assembly line, when the transportation speed of the tooling plate is accelerated and the parts are suddenly stopped by the stop block and collide with the stop block by the tooling plate, the stop block stops and clamps the parts, the parts are prevented from moving forwards due to the inertia force and falling off the surface of the tooling plate easily, the surfaces of the parts are collided and changed in shape, the assembly among the parts is influenced, the stop block is limited by a side block and a clamping tooth in an opening, the normal clamping and blocking of the parts are influenced due to the change of the position of the stop block easily caused when the parts collide with the stop block, and the change of the position caused by the force on the stop block is, affecting the normal movement of the tooling plate.

Description

Double-speed chain assembly line

Technical Field

The invention belongs to the field of differential chain assembly lines, and particularly relates to a speed-multiplying chain assembly line.

Background

After the production and processing of the parts are finished, conveying and assembling the parts, placing the parts on a tooling plate for bearing the parts on a speed chain assembly line, driving the parts to run by a speed chain, and stopping the parts at corresponding positions by a stopper after changing the transmission speed of the parts by changing the rotation speed of the speed chain; when using doubly fast chain assembly line to carry spare part among the prior art, because the transmission speed of assembly line changes, and the outside smooth circular form of part, frock board transport speed accelerates to stop suddenly through the stopper, leads to spare part to receive inertial force and moves forward, easily takes off frock board surface and drops for the surface of spare part collides with, and the shape changes, influences the assembly between the spare part.

Disclosure of Invention

In order to solve the problems that when parts are conveyed by a speed-multiplying chain assembly line in the prior art, the conveying speed of the assembly line is changed, and the outer parts of the parts are smooth and round, the conveying speed of a tooling plate is increased and the parts are suddenly stopped by a stopper, so that the parts move forwards under the action of inertia force and easily fall off the surface of the tooling plate, the surfaces of the parts are collided, the shapes are changed, and the assembly among the parts is influenced, the speed-multiplying chain assembly line is provided.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a doubly fast chain assembly line, its structure includes support frame, workstation, block terminal, chain, blocks piece, frock board, the workstation is fixed at the support frame top, the block terminal is installed in the workstation bottom, the chain is installed in the inside both sides of workstation, block that the piece is fixed at workstation left side inner wall, the frock board is established at the workstation top, and with chain clearance fit.

The tooling plate is provided with a clamping block, a spring, an opening, a pushing block, a push rod and a stop block, wherein the clamping block is fixed on the inner wall of the right side of the tooling plate, the spring is arranged on the left side of the clamping block, the opening penetrates through the top of the left end of the tooling plate, the pushing block penetrates through the left side of the tooling plate and is movably matched with the spring, the stop block is arranged inside the opening, and the pushing block is movably matched with the stop block through the push rod.

As a further improvement of the invention, the baffle block is provided with a push plate, magnetic blocks, a buffer block and a supporting block, the push plate is arranged on the right side of the baffle block, the magnetic blocks are fixed at the connecting end between the push plate, the buffer block is fixed on the right side of the push plate, the supporting block is arranged in the baffle block, the magnetic blocks are provided with two blocks, the magnetic poles of the magnetic blocks are opposite, and the punching block is provided with four blocks and is made of rubber.

As a further improvement of the invention, the supporting block is provided with a slide rail, a reset plate, a slide block and a reset block, the slide rail is arranged on the left side inner wall and the right side inner wall of the supporting block, the reset plate is movably matched with the slide rail through the slide block, the reset block is fixed on the inner wall of the supporting block and is movably matched with the reset plate, and the reset plate is an arc-shaped elastic plate.

As a further improvement of the invention, the reset plate is provided with grooves and bumps, the bumps are fixed on the top of the reset plate, the grooves are positioned between the bumps, and the bumps are uneven surfaces.

As a further improvement of the invention, the opening is provided with side blocks, clamping teeth and pull ropes, the side blocks are fixed in the middle of the inner side of the opening, the clamping teeth are positioned on the upper side and the lower side of the side blocks, the pull ropes are connected between the clamping teeth and the inner wall of the opening, and the four clamping teeth are triangular.

As a further improvement of the invention, the side block is provided with a fixed block, a contact plate, a tooth plate, a pressing block and an elastic block, the fixed block is fixed on the inner wall of the left end of the side block, the contact plate is arranged in the side block, the tooth plate is arranged on the left side of the contact plate, the pressing block is fixed on the right side of the contact plate, the elastic block is embedded and fixed on the inner wall of the right side of the side block, the pressing block is movably matched with the elastic block, and the surface of the tooth plate is uneven.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. because the transmission speed of assembly line changes, and the outside smooth circular form of part, when frock board transport speed accelerates to stop suddenly through blockking the piece, when colliding with blockking the piece through the frock board, the dog stops the centre gripping to the part, reduces the part and receives inertial force and moves forward, easily drops from the frock board surface for the surface of part collides with, and the shape changes, influences the assembly between the part.

2. The side block and the clamping teeth inside the opening limit the stop block, when the part is slowed down to collide with the stop block, the position of the stop block is changed easily, the normal clamping and the stopping of the part are influenced, the reduction is reduced, the stop block receives the collision force, the position is changed, and the normal movement of a tooling plate is influenced.

Drawings

Fig. 1 is a schematic structural diagram of a double-speed chain pipeline according to the present invention.

Fig. 2 is a schematic side sectional view of a tooling plate according to the present invention.

FIG. 3 is a side sectional view of a stop according to the present invention.

FIG. 4 is a side sectional view of a support block according to the present invention.

Fig. 5 is a schematic top view of a reset plate according to the present invention.

FIG. 6 is a schematic side sectional view of an opening according to the present invention.

FIG. 7 is a side cross-sectional structural view of a lateral mass of the present invention.

In the figure: the device comprises a support frame-1, a workbench-2, a distribution box-3, a chain-4, a blocking block-5, a tooling plate-6, a clamping block-61, a spring-62, an opening-63, a pushing block-64, a push rod-65, a stop block-66, a push plate-s 1, a magnetic block-s 2, a buffer block-s 3, a supporting block-s 4, a sliding rail-d 1, a reset plate-d 2, a sliding block-d 3, a reset block-d 4, a groove-f 1, a bump-f 2, a side block-n 1, a clamping tooth-n 2, a pull rope-n 3, a fixed block-m 1, a contact plate-m 2, a tooth plate-m 3, a pressing block-m 4 and an elastic block-m 5.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides a double-speed chain assembly line which structurally comprises a support frame 1, a workbench 2, a distribution box 3, chains 4, blocking blocks 5 and a tooling plate 6, wherein the workbench 2 is fixed at the top of the support frame 1, the distribution box 3 is installed at the bottom of the workbench 2, the chains 4 are installed on two sides inside the workbench 2, the blocking blocks 5 are fixed on the inner wall of the left side of the workbench 2, and the tooling plate 6 is arranged at the top of the workbench 2 and is movably matched with the chains 4.

The tooling plate 6 is provided with a clamping block 61, a spring 62, an opening 63, a pushing block 64, a push rod 65 and a stop block 66, the clamping block 61 is fixed on the inner wall of the right side of the tooling plate 6, the spring 62 is arranged on the left side of the clamping block 61, the opening 63 penetrates through the top of the left end of the tooling plate 6, the pushing block 64 penetrates through the left side of the tooling plate 6 and is movably matched with the spring 62, the stop block 66 is arranged inside the opening 63, and the pushing block 64 is movably matched with the stop block 66 through the push rod 65.

Wherein, dog 66 is equipped with push pedal s1, magnetic block s2, buffer block s3, supporting shoe s4, push pedal s1 installs on dog 66 right side, magnetic block s2 fixes the link between push pedal s1, buffer block s3 fixes on push pedal s1 right side, supporting shoe s4 establishes inside dog 66, magnetic block s2 is equipped with two, and the magnetic pole is opposite, when magnetic block s2 leaves with the contact, be open and the closed state between the feasible push pedal s1, be favorable to the spare part centre gripping, buffer block s3 is equipped with four, and is the rubber material, has elasticity, is favorable to even and spare part contact, when spare part receives inertial force forward motion, carries out extrusion deformation to buffer block s3 and recovers, cushions the spare part.

Wherein, supporting shoe s4 is equipped with slide rail d1, reset board d2, slider d3, reset block d4, slide rail d1 is established at supporting shoe s4 left side and right side inner wall, reset board d2 is through slider d3 and slide rail d1 clearance fit, reset block d4 is fixed at supporting shoe s4 inner wall, and with reset board d2 clearance fit, reset board d2 is the arc elastic plate, is favorable to increasing the area of contact with the spare part, when being favorable to contacting with the spare part, deformation restores to the throne and produces elasticity and bounce-back the spare part.

Wherein, reset board d2 is equipped with recess f1, lug f2, lug f2 is fixed at the board d2 top that resets, recess f1 is located between the lug f2, lug f2 is unevenness's face, increases the frictional force with the spare part, is favorable to reducing the spare part and receives gravity along the board d2 landing that resets, leads to resetting board d2 to reduce to spare part rebound dynamics.

The specific use mode and function of the embodiment are as follows:

in the invention, after the production and processing of parts are finished, the parts are conveyed and assembled, the parts are placed on a tooling plate 6 for supporting the parts on a speed-multiplying chain assembly line, a distribution box 3 is controlled to start a machine to run, a speed-multiplying chain 4 is movably matched with the tooling plate 6 to drive the parts to move towards the left side of a workbench 2, the transmission speed of the assembly line is changed, and part of the parts are in a smooth circular shape, when the transportation speed of the tooling plate 6 is accelerated and suddenly stops through a blocking block 5, a pushing block 64 on the left side of the tooling plate 6 is contacted with the right side of the blocking block 5, the pushing block 64 moves towards the right side of the tooling plate 6 to extrude a spring 62 towards the left side of a clamping block 61, the spring 62 contracts to drive the pushing block 64 to move towards the right side of the tooling plate 6, when the pushing block 64 moves, the stopping block 66 is driven to deflect towards the right side through a pushing rod 65, so that the stopping block 66 moves in an, the part is contacted with a buffer block s3 on the right side of the stop 66, the buffer block s3 buffers the part, when the part continues to move forwards, the push plate s1 is pushed away towards the inside of the stop 66, the magnetic block s2 between the push plates s1 is separated, the push plate s1 is opened, the part enters the inside of the stop 66 and is contacted with the surface of the supporting block s4, one part of the outside is clamped between the push plates s1, when the part collides with the supporting block s4, the reset plate d2 deforms and moves on the sliding rail d1 through the slider d3, the reset plate d2 deforms and extrudes the reset block d4, the reset block d4 deforms and restores the reset plate d2, the reset plate d2 springs the part on the surface to the right side of the stop 66, so that the part clamped by the push plate s1 is reduced, the part is more convenient to take out, the bump f2 is an uneven surface, the friction force with the part is increased, and the part is beneficial to reduce the part 2 sliding along the gravity, lead to restoring to the throne board d2 to reduce the spare part dynamics of rebounding, through frock board 6 with block that piece 5 collides the time, dog 66 blocks the centre gripping to the spare part, reduce the spare part and receive inertial force and move forward, easily leave frock board 6 surface and drop for the surface of spare part collides with, and the shape changes, influences the assembly between the spare part.

Example 2:

as shown in fig. 6 to 7:

wherein, opening 63 is equipped with side piece n1, card tooth n2, stay cord n3, side piece n1 is fixed at the inboard middle part of opening 63, card tooth n2 is located both sides about side piece n1, stay cord n3 is connected between card tooth n2 and opening 63 inner wall, card tooth n2 is equipped with four, and for the triangle-shaped, is closed to the one end at opening 63 middle part and for the closed angle form, reduces the area of contact with dog 66, increase pressure is favorable to spacing dog 66.

The side block n1 is provided with a fixed block m1, a contact plate m2, a tooth plate m3, a pressing block m4 and an elastic block m5, the fixed block m1 is fixed on the inner wall of the left end of the side block n1, the contact plate m2 is installed inside the side block n1, the tooth plate m3 is arranged on the left side of the contact plate m2, the pressing block m4 is fixed on the right side of the contact plate m2, the elastic block m5 is embedded on the inner wall of the right side of the side block n1, the pressing block m4 is movably matched with the elastic block m5, the surface of the tooth plate m3 is uneven, the contact area between the tooth plate and the two ends of the stop block 66 is increased, friction force is increased, the position of the stop block 66 is reduced due to collision force, and.

The specific use mode and function of the embodiment are as follows:

in the invention, because the inertia force of the part is large, when the part collides with the stopper 66, the position change of the stopper 66 is easily caused to influence the normal clamping and stopping of the part, when the push block 64 drives the stopper 66 to change the position through the push rod 65, two ends of the stopper 66 move along the surface of the side block n1, two ends of the stopper 66 push the snap n2, the stopper 66 is separated from the inner wall of the opening 63, the snap n2 is reset through the pull rope n3, when the stopper 66 is vertical, one end of the snap n2 close to the middle of the opening 63 is in a sharp-horn shape, the contact area with the stopper 66 is reduced, the pressure is increased, the stopper 66 is favorably limited, because the vibration force is generated during the moving process of the tooling plate 6, the position change of the stopper 66 is easily caused to influence the normal movement of the tooling plate 6, when the stopper 66 is in a horizontal line, the spring block m5 in the side block n1 springs to push the m2 to the middle of the opening 63 through the press block m4, stop when bumping fixed block m1 and remove, and contact plate m3 on contact plate m2 surface increases the area of contact with dog 66 both ends, increase frictional force, it receives the impact and the position changes to reduce dog 66, limit dog 66 through inside side piece n1 of opening 63 and calorie of tooth n2, when slowing down spare part and colliding dog 66, easily lead to the position change of dog 66 and influence the normal centre gripping and the blockking of spare part, and reduce dog 66 and receive the impact and the position changes, influence the normal motion of frock board 6.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a doubly fast chain assembly line, its structure includes support frame (1), workstation (2), block terminal (3), chain (4), blocks piece (5), frock board (6), support frame (1) top is fixed in workstation (2), install in workstation (2) bottom block terminal (3), install in workstation (2) inside both sides chain (4), block piece (5) and fix at workstation (2) left side inner wall, frock board (6) are established at workstation (2) top, and with chain (4) clearance fit, its characterized in that:

frock board (6) are equipped with fixture block (61), spring (62), opening (63), ejector pad (64), push rod (65), dog (66), fixture block (61) are fixed at frock board (6) right side inner wall, fixture block (61) left side is established in spring (62), opening (63) run through frock board (6) left end top, ejector pad (64) run through frock board (6) left side, and with spring (62) clearance fit, install inside opening (63) dog (66), ejector pad (64) are through push rod (65) and dog (66) clearance fit.

2. A multiple speed chain pipeline according to claim 1, wherein: the magnetic block type magnetic switch is characterized in that the stop block (66) is provided with a push plate (s 1), a magnetic block (s2), a buffer block (s3) and a supporting block (s4), the push plate (s 1) is installed on the right side of the stop block (66), the magnetic block (s2) is fixed at the connecting end between the push plate (s 1), the buffer block (s3) is fixed on the right side of the push plate (s 1), and the supporting block (s4) is arranged inside the stop block (66).

3. A multiple speed chain pipeline according to claim 2, wherein: supporting shoe (s4) are equipped with slide rail (d1), reset plate (d2), slider (d3), reset block (d4), slide rail (d1) are established at supporting shoe (s4) left side and right side inner wall, reset plate (d2) pass through slider (d3) and slide rail (d1) clearance fit, reset block (d4) are fixed at supporting shoe (s4) inner wall, and with reset plate (d2) clearance fit.

4. A multiple speed chain pipeline according to claim 3, wherein: the reset plate (d2) is provided with a groove (f1) and a bump (f2), the bump (f2) is fixed at the top of the reset plate (d2), and the groove (f1) is positioned between the bumps (f 2).

5. A multiple speed chain pipeline according to claim 1, wherein: the opening (63) is provided with a side block (n1), a clamping tooth (n2) and a pull rope (n3), the side block (n1) is fixed in the middle of the inner side of the opening (63), the clamping tooth (n2) is located on the upper side and the lower side of the side block (n1), and the pull rope (n3) is connected between the clamping tooth (n2) and the inner wall of the opening (63).

6. A multiple speed chain pipeline according to claim 5, wherein: side piece (n1) are equipped with fixed block (m1), contact plate (m2), tooth dental lamina (m3), briquetting (m4), bullet piece (m5), fixed block (m1) are fixed at side piece (n1) left end inner wall, contact plate (m2) are installed inside side piece (n1), tooth dental lamina (m3) are established in contact plate (m2) left side, briquetting (m4) are fixed on contact plate (m2) right side, bullet piece (m5) are inlayed and are fixed at side piece (n1) right side inner wall, briquetting (m4) and bullet piece (m5) clearance fit.