CN212952905U

CN212952905U - Circulation conveying system for assembling radiating fins

Info

Publication number: CN212952905U
Application number: CN202021588733.9U
Authority: CN
Inventors: 肖彩燕; 邓发根
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-03
Filing date: 2020-08-03
Publication date: 2021-04-13
Anticipated expiration: 2030-08-03

Abstract

The utility model relates to a fin equipment field, especially a circulation conveying system of fin equipment, this system includes a plurality of tools, carriage, conveyer belt, tool push-in mechanism, tool slide mechanism and tool ejecting mechanism, and one end of carriage is equipped with tool push-in mechanism, and the other end of carriage is equipped with tool ejecting mechanism, and the lower terminal surface of carriage is equipped with tool slide mechanism; when the conveying line device acts, the jig sliding mechanism pushes the jig located at the feeding end of the conveying frame to move, the jig at the feeding end moves to drive all the jigs on the conveying frame to move together, the jig pushing mechanism pushes the jig at the discharging end of the conveying frame out of the conveying belt, the conveying belt conveys the pushed jig back to the feeding end of the conveying frame, and the jig pushing mechanism pushes the fixture on the conveying belt into the conveying frame, so that a jig recycling system is formed, the types of required jigs are reduced, and one jig can adapt to the whole system.

Description

Circulation conveying system for assembling radiating fins

Technical Field

The utility model belongs to the technical field of the fin equipment and specifically relates to a circulation conveying system of fin equipment.

Background

The radiating fin mainly comprises a screw, an IC chip and a radiating fin, wherein the IC chip is connected with the radiating fin through the screw, and the radiating fin is L-shaped.

A conventional circulating transport system for assembling a heat sink, for example, a heat sink assembling machine disclosed in chinese utility model patent publication No. CN209793087U (published as 2019.12.17), includes a machine body, and a feeding module, an assembling module, a pressing module, and a tapping module sequentially arranged on the machine body along a heat sink transferring direction; the feeding module comprises a storage rack for storing the substrates, a pushing mechanism and a vibrating disc, the pushing mechanism is used for pushing the substrates on the storage rack to the assembling module, and the vibrating disc is used for conveying the pin accessories to the assembling module; the assembling module comprises an assembling station and an assembling jig for combining the pin fitting with the substrate; the pressing module comprises a pressing station and a pressing mechanism for fixedly connecting the pin fitting with the substrate; the tapping module comprises a bearing mechanism and a tapping mechanism, the bearing mechanism comprises a tapping station for bearing the radiating fins, and the tapping mechanism is used for tapping the radiating fins; the device also comprises a transferring module.

However, the above-described fin-assembled circulation transport system has the following problems: because every module needs different tool, every tool is fixed to be set up, leads to the tool kind too much, has improved the cost.

SUMMERY OF THE UTILITY MODEL

The problem of the too much of tool kind, the unable removal of tool that exists in order to solve the above-mentioned circular conveying system of current fin equipment, the utility model aims at providing a circular conveying system who only contains a tool, the fin equipment of a plurality of tools ability continuous cyclic utilization.

For the purpose of the utility model, the following technical scheme is adopted for solving:

a circulating conveying system for assembling radiating fins comprises a plurality of jigs, a conveying frame, a conveying belt, a jig pushing-in mechanism, a jig sliding mechanism and a jig pushing-out mechanism, wherein the plurality of jigs are linearly and slidably arranged on one side of the conveying frame; a conveying belt is arranged on the other side of the conveying frame; one end of the conveying frame is provided with a jig pushing-in mechanism, the other end of the conveying frame is provided with a jig pushing-out mechanism, and the lower end face of the conveying frame is provided with a jig sliding mechanism; when the conveying line device acts, the jig sliding mechanism pushes the jig located at the feeding end of the conveying frame to move, the jig at the feeding end moves to drive all the jigs on the conveying frame to move together, the jig pushing mechanism pushes the jig at the discharging end of the conveying frame out of the conveying belt, the conveying belt conveys the pushed jig back to the feeding end of the conveying frame, and the jig pushing mechanism pushes the fixture on the conveying belt into the conveying frame.

Preferably, the jig comprises a first boss and a second boss; the first boss is lower than the second boss in height, a strip-shaped groove is reserved between the first boss and the second boss, and the strip-shaped groove is used for positioning the first side face of the radiating fin; the second boss is provided with a screw positioning hole, an IC chip positioning groove, a first radiating fin positioning groove and a second radiating fin positioning groove; the screw positioning hole is vertically arranged; the IC chip positioning groove is positioned on one side of the screw positioning hole, the direction of the IC chip positioning groove is parallel to the strip-shaped groove, and the depth of the front end of the IC chip positioning groove is greater than that of the rear end; the first radiating fin positioning groove is positioned above the screw positioning hole and the IC chip positioning groove, the direction of the first radiating fin positioning groove is vertical to the strip-shaped groove, and the first radiating fin positioning groove is used for positioning the second side surface of the radiating fin; the second radiating fin positioning groove is positioned at the lower part of the right side of the first radiating fin positioning groove, the direction of the second radiating fin positioning groove is parallel to the strip-shaped groove, and the second radiating fin positioning groove is used for positioning the convex strip on the second side surface of the radiating fin.

Preferably, a jig backing plate is fixed at the bottom of the jig, the jig backing plate is provided with a through hole corresponding to the screw positioning hole, the jig backing plate is embedded in the jig tray, and the middle of the jig tray is provided with a connecting hole; the jig tray is arranged at the rear end of the conveying frame in a sliding mode.

Preferably, the jig pushing mechanism comprises a jig pushing cylinder and a jig pushing plate; the jig pushing cylinder is arranged at the left end of the conveying frame, and the action direction of the jig pushing cylinder is perpendicular to the direction of the conveying belt; the jig pushing plate is arranged at the output end of the jig pushing cylinder and pushes the jig into the rear end of the conveying frame, and the jig pushing plate is provided with pushing guide columns;

preferably, the jig sliding mechanism comprises a jig sliding cylinder and a jig sliding push plate; the jig sliding cylinder is arranged on the lower end face of the conveying frame, and the action direction of the jig sliding cylinder is parallel to the direction of the conveying belt; the output end of the jig sliding cylinder is connected with a jig sliding push plate, the jig sliding push plate penetrates through the conveying frame from bottom to top, and the jig sliding push plate is used for pushing the jig;

preferably, the jig pushing mechanism comprises a jig pushing cylinder and a jig pushing plate; the jig pushing cylinder is arranged at the right end of the conveying frame, and the action direction of the jig pushing cylinder is perpendicular to the direction of the conveying belt; the tool ejector plate is installed at the output end of the tool ejector cylinder, and the tool ejector plate pushes the tool from the conveying frame to the conveying belt.

A working method of a circulating conveying system for assembling cooling fins comprises the steps that when the circulating conveying system works, a jig sliding cylinder drives a jig sliding push plate to move, the jig sliding push plate pushes a jig located at the feeding end of a conveying frame to move, the jig at the feeding end moves to drive all jigs on the conveying frame to move together, a jig pushing cylinder drives a jig pushing plate to move, the jig pushing plate pushes the jig at the discharging end of the conveying frame out of a conveying belt, the conveying belt conveys the pushed jig back to the feeding end of the conveying frame, the jig pushing cylinder drives a jig pushing plate to move, and the jig pushing plate pushes clamps on the conveying belt into the conveying frame.

To sum up, the technical effect of the utility model is that slide in carriage one side and set up a plurality of tools, the tool constantly slides to the discharge end from the feed end of carriage, gets back to the feed end through the conveyer belt at last, forms a circulation system, has reduced the kind of required tool, and a tool just can adapt to entire system.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an exploded view of the jig.

Fig. 3 is a schematic diagram of the explosion structure of the present invention.

Fig. 4 is an exploded view of the heat sink.

Detailed Description

As shown in fig. 4, the heat sink product includes a screw 71, an IC chip 72, and a heat sink 73, the IC chip 72 and the heat sink 73 are fixed by the screw 71, the heat sink 73 is L-shaped, and the heat sink 73 includes a first side surface 731, a second side surface 732, and a convex strip 733.

As shown in fig. 1 and 3, a circulating transport system for assembling heat dissipation fins includes a plurality of jigs 10, a transport rack 11, a conveyor belt 12, a jig pushing mechanism 13, a jig sliding mechanism 14, and a jig pushing mechanism 15, wherein the plurality of jigs 10 are linearly arranged in a sliding manner on one side of the transport rack 11. The other side of the conveying frame 11 is provided with a conveying belt 12. One end of the conveying frame 11 is provided with a jig pushing-in mechanism 13, the other end of the conveying frame 11 is provided with a jig pushing-out mechanism 15, and the lower end face of the conveying frame 11 is provided with a jig sliding mechanism 14. When the conveying line device 1 acts, the jig sliding mechanism 14 pushes the jig 10 located at the feeding end of the conveying frame 11 to move, the jig 10 at the feeding end moves to drive all the jigs 10 on the conveying frame 11 to move together, the jig pushing mechanism 15 pushes the jig 10 at the discharging end of the conveying frame 11 out of the conveying belt 12, the conveying belt 12 conveys the pushed jig 10 back to the feeding end of the conveying frame 11, and the jig pushing mechanism 13 pushes the jig 10 on the conveying belt 12 into the conveying frame 11.

As shown in fig. 2, the jig 10 includes a first boss 101 and a second boss 102. The first boss 101 is lower than the second boss 102 in height, a strip-shaped groove 103 is reserved between the first boss 101 and the second boss 102, and the strip-shaped groove 103 is used for positioning a first side face of the heat sink. The second boss 102 is provided with a screw positioning hole 104, an IC chip positioning groove 105, a first heat sink positioning groove 106 and a second heat sink positioning groove 107. The screw positioning hole 104 is vertically arranged. The IC chip positioning groove 105 is located on one side of the screw positioning hole 104, the direction of the IC chip positioning groove 105 is parallel to the strip-shaped groove 103, and the depth of the front end of the IC chip positioning groove 105 is greater than that of the rear end. The first heat sink positioning groove 106 is located above the screw positioning hole 104 and the IC chip positioning groove 105, the first heat sink positioning groove 106 is perpendicular to the strip-shaped groove 103, and the first heat sink positioning groove 106 is used for positioning the second side surface of the heat sink. The second fin positioning groove 107 is located at the lower portion of the right side of the first fin positioning groove 106, the second fin positioning groove 107 is parallel to the strip-shaped groove 103, and the second fin positioning groove 107 is used for positioning the protruding strips on the second side of the fins. A jig backing plate 108 is fixed to the bottom of the jig 10, the jig backing plate 108 is provided with through holes corresponding to the screw positioning holes 104, the jig backing plate 108 is embedded in the jig tray 109, and the middle of the jig tray 109 is provided with a connecting hole 1010. The jig tray 109 is slidably provided at the rear end of the carriage 11.

As shown in fig. 3, the jig pushing mechanism 13 includes a jig pushing cylinder 131 and a jig pushing plate 132. The jig pushing cylinder 131 is disposed at the left end of the conveying frame 11, and the action direction of the jig pushing cylinder 131 is perpendicular to the direction of the conveying belt 12. The jig pushing plate 132 is installed at the output end of the jig pushing cylinder 131, the jig pushing plate 132 pushes the jig 10 into the rear end of the carriage 11, and the jig pushing plate 132 is provided with a pushing guide post 133. The jig slide mechanism 14 includes a jig slide cylinder 141 and a jig slide push plate 142. The jig slide cylinder 141 is provided on the lower end surface of the conveyor frame 11, and the operation direction of the jig slide cylinder 141 is parallel to the direction of the conveyor belt 12. The output end of the jig sliding cylinder 141 is connected to the jig sliding push plate 142, the jig sliding push plate 142 passes through the conveying frame 11 from bottom to top, and the jig sliding push plate 142 is used for pushing the jig 10. The jig pushing mechanism 15 includes a jig pushing cylinder 151 and a jig pushing plate 152. The jig pushing cylinder 151 is disposed at the right end of the conveying frame 11, and the action direction of the jig pushing cylinder 151 is perpendicular to the direction of the conveying belt 12. The jig pushing plate 152 is installed at the output end of the jig pushing cylinder 151, and the jig pushing plate 152 pushes the jig 10 from the carriage 11 onto the conveyor belt 12.

When a circulating conveying system for assembling cooling fins acts, a jig sliding cylinder 141 drives a jig sliding push plate 142 to move, the jig sliding push plate 142 pushes a jig 10 located at the feeding end of a conveying frame 11 to move, the jig 10 at the feeding end moves to drive all jigs 10 on the conveying frame 11 to move together, a jig push-out cylinder 151 drives a jig push-out plate 152 to move, the jig push-out plate 152 pushes the jig 10 at the discharging end of the conveying frame 11 out of a conveying belt 12, the conveying belt 12 conveys the pushed-out jig 10 back to the feeding end of the conveying frame 11, a jig push-in cylinder 131 drives a jig push-in plate 132 to move, and the jig push-in plate 132 pushes the jig 10 on the conveying belt 12 into the conveying frame 11.

The utility model provides a circulating conveying system of fin equipment has solved the too much and tool 10 problem that can not recycle of tool 10 kind, and a circulating conveying system of fin equipment's advantage is to slide at carriage 11 one side and set up a plurality of tools 10, and tool 10 constantly slides to the discharge end from the feed end of carriage 11, gets back to the feed end through conveyer belt 12 at last, forms a circulation system, has reduced the kind of required tool 10.

Claims

1. A circulating conveying system for assembling radiating fins is characterized by comprising a plurality of jigs (10), a conveying frame (11), a conveying belt (12), a jig pushing-in mechanism (13), a jig sliding mechanism (14) and a jig pushing-out mechanism (15), wherein the plurality of jigs (10) are linearly arranged on one side of the conveying frame (11) in a sliding mode; a conveyer belt (12) is arranged on the other side of the conveying frame (11); a jig pushing-in mechanism (13) is arranged at one end of the conveying frame (11), a jig pushing-out mechanism (15) is arranged at the other end of the conveying frame (11), and a jig sliding mechanism (14) is arranged on the lower end face of the conveying frame (11); when the conveying line device (1) acts, the jig sliding mechanism (14) pushes the jig (10) located at the feeding end of the conveying frame (11) to move, the jig (10) at the feeding end moves to drive all the jigs (10) on the conveying frame (11) to move together, the jig pushing mechanism (15) pushes the jig (10) at the discharging end of the conveying frame (11) out of the conveying belt (12), the conveying belt (12) conveys the pushed jig (10) back to the feeding end of the conveying frame (11), and the jig pushing mechanism (13) pushes the jig (10) on the conveying belt (12) into the conveying frame (11).

2. An endless conveyor system for a fin assembly according to claim 1, wherein the jig (10) comprises a first boss (101) and a second boss (102); the height of the first boss (101) is lower than that of the second boss (102), a strip-shaped groove (103) is reserved between the first boss (101) and the second boss (102), and the strip-shaped groove (103) is used for positioning the first side face of the radiating fin; the second boss (102) is provided with a screw positioning hole (104), an IC chip positioning groove (105), a first radiating fin positioning groove (106) and a second radiating fin positioning groove (107); the screw positioning hole (104) is vertically arranged; the IC chip positioning groove (105) is positioned on one side of the screw positioning hole (104), the direction of the IC chip positioning groove (105) is parallel to the strip-shaped groove (103), and the depth of the front end of the IC chip positioning groove (105) is greater than that of the rear end; the first radiating fin positioning groove (106) is positioned above the screw positioning hole (104) and the IC chip positioning groove (105), the direction of the first radiating fin positioning groove (106) is vertical to the strip-shaped groove (103), and the first radiating fin positioning groove (106) is used for positioning the second side surface of the radiating fin; the second radiating fin positioning groove (107) is positioned at the lower part of the right side of the first radiating fin positioning groove (106), the direction of the second radiating fin positioning groove (107) is parallel to the strip-shaped groove (103), and the second radiating fin positioning groove (107) is used for positioning the raised strips on the second side surface of the radiating fin.

3. The circulating conveying system for assembling the cooling fins according to claim 2, wherein a jig backing plate (108) is fixed at the bottom of the jig (10), the jig backing plate (108) is provided with through holes corresponding to the screw positioning holes (104), the jig backing plate (108) is embedded in a jig tray (109), and a connecting hole (1010) is formed in the middle of the jig tray (109); the jig tray (109) is slidably disposed at the rear end of the carriage (11).

4. The circulation transportation system for assembling heat sink according to claim 1, wherein the jig pushing mechanism (13) comprises a jig pushing cylinder (131) and a jig pushing plate (132); the jig pushing cylinder (131) is arranged at the left end of the conveying frame (11), and the action direction of the jig pushing cylinder (131) is vertical to the direction of the conveying belt (12); the jig pushing plate (132) is installed at the output end of the jig pushing cylinder (131), the jig pushing plate (132) pushes the jig (10) into the rear end of the conveying frame (11), and the jig pushing plate (132) is provided with a pushing guide post (133).

5. The circulation transportation system for assembling heat sink according to claim 1, wherein the jig sliding mechanism (14) comprises a jig sliding cylinder (141) and a jig sliding push plate (142); the jig sliding cylinder (141) is arranged on the lower end face of the conveying frame (11), and the action direction of the jig sliding cylinder (141) is parallel to the direction of the conveying belt (12); the output end of the jig sliding cylinder (141) is connected with the jig sliding push plate (142), the jig sliding push plate (142) penetrates through the conveying frame (11) from bottom to top, and the jig sliding push plate (142) is used for pushing the jig (10).

6. The circulation conveying system for assembling heat dissipation plates as claimed in claim 1, wherein the jig pushing mechanism (15) comprises a jig pushing cylinder (151) and a jig pushing plate (152); the jig pushing cylinder (151) is arranged at the right end of the conveying frame (11), and the action direction of the jig pushing cylinder (151) is vertical to the direction of the conveying belt (12); the jig pushing plate (152) is arranged at the output end of the jig pushing cylinder (151), and the jig (10) is pushed onto the conveying belt (12) from the conveying frame (11) by the jig pushing plate (152).