CN220029282U - Transitional link assembly apparatus - Google Patents

Abstract

The utility model relates to the technical field of transition chain link assembly equipment, and discloses transition chain link assembly equipment which comprises a workbench and a box body, wherein a control panel and a bottom plate are fixedly arranged at the upper end of the workbench, and a first vibration feeding tray and a second vibration feeding tray are fixedly arranged in the box body. This transition chain link equipment is provided with workstation and bottom plate, be provided with two vibration material loading pieces in the box for with the lockpin automatic transmission to liftout mechanism in, the spout has been seted up to the bottom plate upper end, liftout mechanism is with the lockpin transmission to in the spout, the both ends of spout are provided with feed mechanism one respectively and feed mechanism two for with the card automatic transmission to in the spout, the bottom plate upper end is provided with feeding mechanism, transmit the subassembly in the spout, the bottom plate top is provided with three swager and constructs, compress tightly the subassembly, realize transition chain link's automatic assembly, and can realize lasting work, effectively shorten transition chain link's equipment time, production efficiency has been improved greatly.

Description

Transitional link assembly apparatus

Technical Field

The utility model relates to the technical field of transition chain link assembly equipment, in particular to transition chain link assembly equipment.

Background

The transition chain link is a joint mode adopted when the chain link number of the roller chain is odd, when the chain link number of the chain is odd, the head and the tail of the chain are both outer chain links or both inner chain links, and at the moment, the chain links adopted for connecting the head and the tail of the chain are the transition chain links.

Most of the prior transition chain link assembling equipment has simple structure, can only assemble and process single transition chain link at a time, can not realize continuous work, has long assembling time, and can not improve the production efficiency of the transition chain link.

Disclosure of Invention

(one) solving the technical problems

The utility model aims to provide transition chain link assembling equipment so as to solve the problems that most of transition chain link assembling equipment provided in the prior art is simple in structure, only single transition chain links can be assembled and processed each time, continuous work cannot be realized, the assembling time is long, and the production efficiency of the transition chain links cannot be improved.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the transition chain link assembling equipment comprises a workbench and a box body, wherein a control panel and a bottom plate are fixedly arranged at the upper end of the workbench, a first vibration feeding tray and a second vibration feeding tray are fixedly arranged in the box body, one end of a connecting pipe is fixedly arranged at the outer sides of the first vibration feeding tray and the second vibration feeding tray, a jacking mechanism is fixedly arranged at the upper end of the bottom plate and comprises a first feeding frame, a first translation cylinder and a first ejector rod, a sliding groove is formed in the upper end of the bottom plate, a first feeding mechanism, a second feeding mechanism and a feeding mechanism are fixedly arranged at the upper end of the bottom plate, the first feeding mechanism comprises a second feeding frame, a second translation cylinder and a second ejector rod, the feeding mechanism comprises a feeding frame III, a translation cylinder IV, a push rod III, a push rod IV and a connecting groove, the feeding mechanism comprises a fixed rail I, a translation cylinder V, a movable plate I, a fixed rail II, a translation cylinder VI, a movable plate II and a connecting frame, a top plate is fixedly arranged at the upper end of a bottom plate through a support column, a lifting cylinder I and a lifting cylinder III are fixedly arranged at the upper end of the top plate, a lifting cylinder II is fixedly arranged at the lower end of the top plate, a pressing mechanism I is fixedly arranged at the output end of the lifting cylinder I, a pressing mechanism II is fixedly arranged at the output end of the lifting cylinder II, and a discharging plate is fixedly arranged at the side of the bottom plate.

Preferably, the first feeding frame is fixedly arranged at the upper end of the bottom plate, the first feeding frame is provided with two feeding frames, the other end of the connecting pipe extends to the inside of the first feeding frame, the first translation cylinder is fixedly arranged at the upper end of the bottom plate, the first translation cylinder is provided with two feeding frames, the first ejector rod is fixedly arranged at the output end of the first translation cylinder, and the first ejector rod extends to the inside of the first feeding frame.

Through the technical scheme, the lock pins of the transition chain links are arranged in the first vibration feeding tray and the second vibration feeding tray, the first vibration feeding tray and the second vibration feeding tray transmit the lock pins to the first vibration feeding tray through the connecting pipe, the translation cylinder drives the first ejector rod to horizontally move, and the first ejector rod pushes the lock pins in the first vibration feeding tray to the inside of the sliding groove.

Preferably, the first feeding mechanism and the second feeding mechanism are respectively positioned at two ends of the sliding groove, the second feeding frame and the second translation cylinder are fixedly arranged at the upper end of the bottom plate, the second ejector rod is fixedly arranged at the output end of the second translation cylinder, and the second ejector rod extends to the inner part of the second feeding frame.

Through the technical scheme, the first group of cards of the transition chain link are placed in the second feeding frame, the second translation cylinder drives the second ejector rod to horizontally move, and the second ejector rod pushes the cards to the inside of the sliding groove.

Preferably, the feeding frame III, the translation cylinder III and the translation cylinder IV are fixedly arranged at the upper end of the bottom plate, the ejector rod III is fixedly arranged at the output end of the translation cylinder III, the ejector rod IV is fixedly arranged at the output end of the translation cylinder IV, the connecting groove is arranged at the upper end of the bottom plate, the connecting groove is of a T-shaped structure, the ejector rod III penetrates through the feeding frame III to extend to the inner side of the connecting groove, the ejector rod IV extends to the inner side of the connecting groove, and the connecting groove extends to the inner side of the sliding groove.

Through the technical scheme, another group of cards of the transition chain link are placed in the third feeding frame, the third translation cylinder drives the third ejector rod to horizontally move, the third ejector rod pushes the cards to the inside of the connecting groove, the fourth translation cylinder drives the fourth ejector rod to horizontally move, and the fourth ejector rod pushes the cards to the inside of the sliding groove from the connecting groove.

Preferably, the first fixed rail and the second movable cylinder are fixedly arranged at the upper end of the bottom plate, the first movable plate is movably connected at the upper end of the first fixed rail, the output end of the fifth movable cylinder is fixedly connected with the first movable plate, the second fixed rail and the sixth movable cylinder are fixedly arranged at the upper end of the first movable plate, the second movable plate is movably connected at the upper end of the second fixed rail, the output end of the sixth movable cylinder is fixedly connected with the second movable plate, the connecting frame is fixedly arranged at the upper end of the second movable plate, and a plurality of connecting frames are arranged on one side of the second movable plate, which is close to the sliding groove, at equal intervals.

Through the technical scheme, the pair of movable plates of the fixed rail together play a role in guiding, the translation cylinder five drives the first horizontal movement of the movable plate, the second pair of movable plates of the fixed rail play a role in guiding, the translation cylinder six drives the second horizontal movement of the movable plate, the position of the connecting frame is adjusted, and the connecting frame drives the assembly to move along the sliding groove.

Preferably, the first pressing mechanism is located at one side of the second pressing mechanism, which is close to the first feeding mechanism, the third pressing mechanism is located at one side of the second pressing mechanism, which is close to the second feeding mechanism, and the blanking plate is located at one end of the second sliding groove feeding mechanism.

Through the technical scheme, the lifting cylinder drives the first pressing mechanism to move up and down, the lifting cylinder drives the second pressing mechanism to move up and down, the lifting cylinder drives the third pressing mechanism to move up and down, and the first pressing mechanism, the second pressing mechanism and the third pressing mechanism compress tightly the card and the lock pin, so that the assembly operation is realized.

Compared with the prior art, the utility model has the beneficial effects that: this transition chain link equipment is provided with workstation and bottom plate, be provided with two vibration material loading pieces in the box for with the lockpin automatic transmission to liftout mechanism in, the spout has been seted up to the bottom plate upper end, liftout mechanism is with the lockpin transmission to in the spout, the both ends of spout are provided with feed mechanism one respectively and feed mechanism two for with the card automatic transmission to in the spout, the bottom plate upper end is provided with feeding mechanism, transmit the subassembly in the spout, the bottom plate top is provided with three swager and constructs, compress tightly the subassembly, realize transition chain link's automatic assembly, and can realize lasting work, effectively shorten transition chain link's equipment time, production efficiency has been improved greatly.

Drawings

FIG. 1 is a schematic perspective view of the first embodiment of the present utility model;

FIG. 2 is a schematic diagram of a second perspective structure of the present utility model;

FIG. 3 is a schematic perspective view of a workbench according to the present utility model;

FIG. 4 is a schematic diagram of a three-dimensional structure of a workbench according to the utility model;

FIG. 5 is a schematic three-dimensional view of a workbench according to the utility model;

FIG. 6 is a schematic top view of the table of the present utility model;

FIG. 7 is a schematic view of the structure of FIG. 3A according to the present utility model;

FIG. 8 is a schematic view of the structure of FIG. 4B according to the present utility model;

fig. 9 is a schematic view of the structure of fig. 5 at C according to the present utility model.

Wherein: 1. a work table; 2. a case; 3. a control panel; 4. a bottom plate; 5. vibrating a first feeding disc; 6. vibrating a feeding disc II; 7. a connecting pipe; 8. a material ejection mechanism; 801. feeding a first material rack; 802. a translation cylinder I; 803. a first ejector rod; 9. a chute; 10. a first feeding mechanism; 1001. a feeding frame II; 1002. a translation cylinder II; 1003. a second ejector rod; 11. a second feeding mechanism; 1101. a feeding frame III; 1102. a translation cylinder III; 1103. a translation cylinder IV; 1104. a third ejector rod; 1105. a push rod IV; 1106. a connecting groove; 12. a feeding mechanism; 1201. a fixed rail I; 1202. a translation cylinder V; 1203. a first movable plate; 1204. a second fixed rail; 1205. a translation cylinder six; 1206. a second movable plate; 1207. a connecting frame; 13. a top plate; 14. a lifting cylinder I; 15. a lifting cylinder II; 16. lifting air cylinders III; 17. a first material pressing mechanism; 18. a second material pressing mechanism; 19. a pressing mechanism III; 20. and (5) blanking plates.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiment one:

as shown in fig. 1-9, the present utility model provides a technical solution: the transition chain link assembling equipment comprises a workbench 1 and a box body 2, wherein a control panel 3 and a bottom plate 4 are fixedly arranged at the upper end of the workbench 1, a vibration feeding tray I5 and a vibration feeding tray II 6 are fixedly arranged in the box body 2, one end of a connecting pipe 7 is fixedly arranged at the outer sides of the vibration feeding tray I5 and the vibration feeding tray II 6, a jacking mechanism 8 is fixedly arranged at the upper end of the bottom plate 4, the jacking mechanism 8 comprises a first feeding frame 801, a first translation cylinder 802 and a first ejector rod 803, a chute 9 is arranged at the upper end of the bottom plate 4, a first feeding mechanism 10, a second feeding mechanism 11 and a feeding mechanism 12 are fixedly arranged at the upper end of the bottom plate 4, the first feeding mechanism 10 comprises a second feeding frame 1001, a second translation cylinder 1002 and a second ejector rod 1003, the feeding mechanism II 11 comprises a feeding frame III 1101, a translation cylinder III 1102, a translation cylinder IV 1103, a top rod III 1104, a top rod IV 1105 and a connecting groove 1106, the feeding mechanism 12 comprises a fixed rail I1201, a translation cylinder V1202, a movable plate I1203, a fixed rail II 1204, a translation cylinder VI 1205, a movable plate II 1206 and a connecting frame 1207, a top plate 13 is fixedly arranged at the upper end of a bottom plate 4 through a support column, a lifting cylinder I14 and a lifting cylinder III 16 are fixedly arranged at the upper end of the top plate 13, a lifting cylinder II 15 is fixedly arranged at the lower end of the top plate 13, a pressing mechanism I17 is fixedly arranged at the output end of the lifting cylinder I14, a pressing mechanism II 18 is fixedly arranged at the output end of the lifting cylinder II 15, a pressing mechanism III 19 is fixedly arranged at the output end of the lifting cylinder III 16, and a discharging plate 20 is fixedly arranged at the side of the bottom plate 4.

Specifically, the first feeding frame 801 is fixedly installed at the upper end of the bottom plate 4, the first feeding frame 801 is provided with two feeding frames, the other end of the connecting pipe 7 extends to the inside of the first feeding frame 801, the first translation cylinder 802 is fixedly installed at the upper end of the bottom plate 4, the first translation cylinder 802 is provided with two lifting rods 803 are fixedly installed at the output end of the first translation cylinder 802, and the first lifting rods 803 extend to the inside of the first feeding frame 801. The transition chain link locking pin is placed in the first vibration feeding tray 5 and the second vibration feeding tray 6, the first vibration feeding tray 5 and the second vibration feeding tray 6 transmit the locking pin to the first upper material frame 801 through the connecting pipe 7, the first translation cylinder 802 drives the first ejector rod 803 to horizontally move, and the first ejector rod 803 pushes the locking pin in the first upper material frame 801 to the inside of the sliding groove 9.

Specifically, the first feeding mechanism 10 and the second feeding mechanism 11 are respectively located at two ends of the chute 9, the second feeding frame 1001 and the second translation cylinder 1002 are fixedly installed at the upper end of the bottom plate 4, the second ejector rod 1003 is fixedly installed at the output end of the second translation cylinder 1002, and the second ejector rod 1003 extends to the inside of the second feeding frame 1001. The advantage is that in the first card of transition chain link was put into material loading frame two 1001, translation cylinder two 1002 drove ejector pin two 1003 horizontal migration, ejector pin two 1003 promotes the card to the inside of spout 9.

Specifically, the feeding frame three 1101, the translation cylinder three 1102 and the translation cylinder four 1103 are fixedly arranged at the upper end of the bottom plate 4, the ejector rod three 1104 is fixedly arranged at the output end of the translation cylinder three 1102, the ejector rod four 1105 is fixedly arranged at the output end of the translation cylinder four 1103, the connecting groove 1106 is formed at the upper end of the bottom plate 4, the connecting groove 1106 is of a T-shaped structure, the ejector rod three 1104 penetrates through the feeding frame three 1101 to extend to the inner side of the connecting groove 1106, the ejector rod four 1105 extends to the inner side of the connecting groove 1106, and the connecting groove 1106 extends to the inner side of the sliding groove 9. The card feeding device has the advantages that another group of cards of the transition chain link are placed in the third feeding frame 1101, the third translation cylinder 1102 drives the third ejector rod 1104 to move horizontally, the third ejector rod 1104 pushes the cards to the inside of the connecting groove 1106, the fourth translation cylinder 1103 drives the fourth ejector rod 1105 to move horizontally, and the fourth ejector rod 1105 pushes the cards to the inside of the sliding groove 9 from the connecting groove 1106.

Embodiment two:

as shown in fig. 1-9, as an improvement over the previous embodiment. Specifically, the first fixed rail 1201 and the fifth translation cylinder 1202 are fixedly installed at the upper end of the bottom plate 4, the first movable plate 1203 is movably connected at the upper end of the first fixed rail 1201, the output end of the fifth translation cylinder 1202 is fixedly connected with the first movable plate 1203, the second fixed rail 1204 and the sixth translation cylinder 1205 are fixedly installed at the upper end of the first movable plate 1203, the second movable plate 1206 is movably connected at the upper end of the second fixed rail 1204, the output end of the sixth translation cylinder 1205 is fixedly connected with the second movable plate 1206, the connecting frame 1207 is fixedly installed at the upper end of the second movable plate 1206, and a plurality of connecting frames 1207 are equidistantly arranged at one side, close to the sliding groove 9, of the second movable plate 1206. The movable plate one 1203 is driven to horizontally move by the translation air cylinder five 1202, the movable plate two 1206 is driven to horizontally move by the fixed rail two 1204, the connecting frame 1207 is adjusted by the translation air cylinder six 1205, and the connecting frame 1207 drives the component to move along the sliding groove 9.

Specifically, the first pressing mechanism 17 is located at one side of the second pressing mechanism 18, which is close to the first feeding mechanism 10, the third pressing mechanism 19 is located at one side of the second pressing mechanism 18, which is close to the second feeding mechanism 11, and the blanking plate 20 is located at one end of the second feeding mechanism 11 of the chute 9. The lifting cylinder I14 drives the pressing mechanism I17 to move up and down, the lifting cylinder II 15 drives the pressing mechanism II 18 to move up and down, the lifting cylinder III 16 drives the pressing mechanism III 19 to move up and down, and the pressing mechanism I17, the pressing mechanism II 18 and the pressing mechanism III 19 compress tightly the card and the lock pin, so that the assembly operation is realized.

Working principle: firstly, the advantage is that the lockpin of the transition chain link is placed in the first vibration feeding tray 5 and the second vibration feeding tray 6, the first vibration feeding tray 5 and the second vibration feeding tray 6 transmit the lockpin to the first material frame 801 through the connecting pipe 7, the first translation cylinder 802 drives the first ejector rod 803 to move horizontally, the first ejector rod 803 pushes the lockpin in the first material frame 801 to the inside of the sliding groove 9, the group of cards of the transition chain link are placed in the second material frame 1001, the second translation cylinder 1002 drives the second ejector rod 1003 to move horizontally, the second ejector rod 1003 pushes the cards to the inside of the sliding groove 9, the other group of cards of the transition chain link are placed in the third material frame 1101, the third translation cylinder 1102 drives the third ejector rod 1104 to move horizontally, the third ejector rod 1104 pushes the cards to the inside of the connecting groove 1106, the fourth translation cylinder 1103 drives the fourth ejector rod 1105 to move horizontally, the card is pushed to the inside of the chute 9 from the connecting groove 1106 by the ejector rod IV 1105, the fixed rail IV 1201 plays a guiding role on the movable plate IV 1203, the translation air cylinder IV 1202 drives the movable plate IV 1203 to horizontally move, the fixed rail IV 1204 plays a guiding role on the movable plate II 1206, the translation air cylinder VI drives the movable plate II 1206 to horizontally move, the position of the connecting frame 1207 is adjusted, the connecting frame 1207 drives the component to move along the chute 9, the lifting air cylinder IV 14 drives the pressing mechanism IV 17 to move up and down, the lifting air cylinder IV 15 drives the pressing mechanism IV 18 to move up and down, the lifting air cylinder IV 16 drives the pressing mechanism IV 19 to move up and down, the pressing mechanism IV 17, the pressing mechanism IV 18 and the pressing mechanism IV 19 compress the card and the lock pin, assembly operation is realized, and finally the feeding mechanism 12 discharges the transitional chain link from the blanking plate 20.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Transition chain link equipment, including workstation (1) and box (2), its characterized in that: control panel (3) and bottom plate (4) are fixedly mounted on the upper end of workstation (1), vibration feeding tray one (5) and vibration feeding tray two (6) are fixedly mounted in box (2), vibration feeding tray one (5) and vibration feeding tray two (6)'s outside fixedly mounted has one end of connecting pipe (7), top material mechanism (8) are fixedly mounted on the upper end of bottom plate (4), top material mechanism (8) include first material loading frame (801), translation cylinder one (802) and ejector pin one (803), spout (9) have been seted up to the upper end of bottom plate (4), feed mechanism one (10), feed mechanism two (11) and feed mechanism (12) are fixedly mounted on the upper end of bottom plate (4), feed mechanism one (10) include first material loading frame two (1001), translation cylinder two (1002) and ejector pin two (1003), feed mechanism two (11) include first material loading frame three (1101), translation cylinder three (1102), translation cylinder four (1103), translation cylinder three (1105) and six (1201), translation rail one fixed rail (1201), six fixed rail (1202) and six fixed rail (1201) Fly leaf two (1206) and link (1207), roof (13) are passed through pillar fixed mounting to the upper end of bottom plate (4), the upper end fixed mounting of roof (13) has lift cylinder one (14) and lift cylinder three (16), the lower extreme fixed mounting of roof (13) has lift cylinder two (15), fixed mounting has swager mechanism one (17) on the output of lift cylinder one (14), fixed mounting has swager mechanism two (18) on the output of lift cylinder two (15), fixed mounting has swager mechanism three (19) on the output of lift cylinder three (16), avris fixed mounting of bottom plate (4) has flitch (20).

2. The transition link assembly apparatus of claim 1, wherein: the feeding frame I (801) is fixedly arranged at the upper end of the bottom plate (4), the feeding frame I (801) is provided with two feeding frames, the other end of the connecting pipe (7) extends to the inside of the feeding frame I (801), the translation cylinder I (802) is fixedly arranged at the upper end of the bottom plate (4), the translation cylinder I (802) is provided with two feeding frames, the ejector rod I (803) is fixedly arranged at the output end of the translation cylinder I (802), and the ejector rod I (803) extends to the inside of the feeding frame I (801).

3. The transition link assembly apparatus of claim 1, wherein: the feeding mechanism I (10) and the feeding mechanism II (11) are respectively located at two ends of the sliding groove (9), the feeding frame II (1001) and the translation cylinder II (1002) are fixedly installed at the upper end of the bottom plate (4), the ejector rod II (1003) is fixedly installed at the output end of the translation cylinder II (1002), and the ejector rod II (1003) extends to the inside of the feeding frame II (1001).

4. The transition link assembly apparatus of claim 1, wherein: the feeding frame three (1101), the translation cylinder three (1102) and the translation cylinder four (1103) are fixedly arranged at the upper end of the bottom plate (4), the ejector rod three (1104) is fixedly arranged at the output end of the translation cylinder three (1102), the ejector rod four (1105) is fixedly arranged at the output end of the translation cylinder four (1103), the connecting groove (1106) is formed at the upper end of the bottom plate (4), the connecting groove (1106) is of a T-shaped structure, the ejector rod three (1104) penetrates through the feeding frame three (1101) to extend to the inner side of the connecting groove (1106), the ejector rod four (1105) extends to the inner side of the connecting groove (1106), and the connecting groove (1106) extends to the inner side of the sliding groove (9).

5. The transition link assembly apparatus of claim 1, wherein: the fixed rail I (1201) and the translation cylinder II (1202) are fixedly arranged at the upper end of the bottom plate (4), the movable plate I (1203) is movably connected at the upper end of the fixed rail I (1201), the output end of the translation cylinder II (1202) and the movable plate I (1203) are fixedly connected, the fixed rail II (1204) and the translation cylinder II (1205) are fixedly arranged at the upper end of the movable plate I (1203), the movable plate II (1206) is movably connected at the upper end of the fixed rail II (1204), the output end of the translation cylinder II (1205) and the movable plate II (1206) are fixedly connected, the connecting frame (1207) is fixedly arranged at the upper end of the movable plate II (1206), and a plurality of connecting frames (1207) are arranged at one side of the movable plate II (1206) close to the sliding groove (9) at equal intervals.

6. The transition link assembly apparatus of claim 1, wherein: the first pressing mechanism (17) is located on one side, close to the first feeding mechanism (10), of the second pressing mechanism (18), the third pressing mechanism (19) is located on one side, close to the second feeding mechanism (11), of the second pressing mechanism (18), and the blanking plate (20) is located at one end, close to the second feeding mechanism (11), of the sliding groove (9).