CN112497642A

CN112497642A - Cooling device of HDMI2.1 transmission line production system

Info

Publication number: CN112497642A
Application number: CN202011386104.2A
Authority: CN
Inventors: 许秋梅; 刘义昇; 向恒星
Original assignee: ASAP Technology Jiangxi Co Ltd
Current assignee: ASAP Technology Jiangxi Co Ltd
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2021-03-16
Anticipated expiration: 2040-12-01
Also published as: CN112497642B

Abstract

The invention discloses a cooling device of an HDMI2.1 transmission line production system, which relates to the technical field of transmission line cooling and solves the problem of poor cooling effect of an HDMI2.1 transmission line after injection molding, and comprises a circulating conveying mechanism, a cooling device, a sealing sleeve mounting device, a sealing box, a sealing sleeve, a water tank and a fan, wherein the circulating conveying mechanism conveys a wire core, a first connector and a second connector which are welded on a bearing jig through a welding mechanism to the first injection molding mechanism for injection molding and cladding of a welding part, then conveys the bearing jig into a low-temperature box for cooling, conveys the bearing jig to a detector for detection after cooling is finished, rejects are eliminated through a manipulator, a high-quality product is conveyed into the sealing box, the sealing sleeve mounting device wraps and seals the first connector and the second connector, and then conveys the high-quality product to the second injection molding mechanism for injection molding and cladding the wire core, and after the injection molding and coating are finished, the mixture is sent into a water tank for water cooling, and the cooling effect is good.

Description

Cooling device of HDMI2.1 transmission line production system

Technical Field

The invention relates to the technical field of transmission line cooling, in particular to a cooling device of an HDMI2.1 transmission line production system.

Background

The HDMI2.1 is a version of an HDMI line, which is different from the previous version in HDMI2.1, has higher bandwidth, can transmit more data at the same time, and therefore, the HDMI line supports video with higher resolution of 8K and the like and better audio quality. Carry the tool to feeding mechanism by circulation conveying mechanism when HDMI2.1 makes, feeding mechanism places connector and HDMI2.1 sinle silk in bearing the tool and fixed through the manipulator, then carry to welding mechanism by circulation conveying mechanism will bear the tool, by welding mechanism with connector and HDMI2.1 sinle silk welding together, the cladding of moulding plastics is moulded plastics by the mechanism to the connector and the splice of HDMI2.1 sinle silk by first after the welding is accomplished, then the second mechanism of moulding plastics carries out the cladding of moulding plastics of secondary to the product after the mechanism processing of first mechanism of moulding plastics.

Mechanism and second mould plastics the mechanism at first back of moulding plastics, comprehensive testing mechanism can switch on the HDMI2.1 sinle silk through bearing the contact on the tool, comprehensive tests such as short circuit, reject flaw HDMI2.1 transmission line, but raw and other materials are in the high temperature state when moulding plastics, still contain a large amount of heats after moulding plastics successfully, be unfavorable for comprehensive testing mechanism test, because HDMI2.1 transmission line is waterproof, be difficult to adopt direct cooling, adopt indirect cooling method poor effect, waste time, reduce the production manufacturing efficiency of HDMI2.1 transmission line.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a cooling device of an HDMI2.1 transmission line production system to solve the problem of poor cooling effect of an HDMI2.1 transmission line after injection molding.

In order to achieve the purpose, the invention provides the following technical scheme:

a cooling device of an HDMI2.1 transmission line production system comprises a circulating conveying mechanism, a cooling device, a seal sleeve mounting device, a seal box, a seal sleeve, a water tank and a fan, wherein the seal sleeve is arranged in the seal box, the seal sleeve mounting device comprises a feeding mechanism and a mounting mechanism, the cooling device comprises a first electric rotating shaft, a rotary disc, a first connecting rod, a piston, a compression cylinder, a first check valve, a second check valve, a condenser, a throttling device, an evaporator, an air storage tank and an air filter, the first electric rotating shaft is rotatably connected with the mounting box, the first electric rotating shaft is fixedly connected with the rotary disc, the rotary disc is movably connected with the first connecting rod, the first connecting rod is movably connected with the piston rod, the piston rod is fixedly connected with the piston, the piston rod and the piston are both movably connected with the compression cylinder, the compression cylinder is fixedly connected with the mounting box, and a first check, the air outlet of the compression cylinder is provided with a second one-way valve, the compression cylinder is communicated with the condenser through a pipeline, the condenser is communicated with a throttling device through a pipeline, the throttling device is communicated with the evaporator through a pipeline, the evaporator is communicated with an air storage tank through a pipeline, the air storage tank is communicated with an air filter through a pipeline, the air filter is communicated with the compression cylinder through a pipeline, the feeding mechanism comprises a second electric rotating shaft, a rotating rod, a second connecting rod and a push rod, the mounting mechanism comprises a third electric rotating shaft, a first cylindrical cam, a first L-shaped rod, a second cylindrical cam and a second L-shaped rod, the second electric rotating shaft is rotatably connected with the sealing box, the second electric rotating shaft is fixedly connected with the rotating rod, the rotating rod is movably connected with the second connecting rod, the second connecting rod is movably connected with the push rod, the third electric rotating shaft is rotatably connected with the sealing box, and the third electric rotating shaft is fixedly connected with the first cylindrical cam, the first cylindrical cam is movably connected with the first L-shaped rod, and the second cylindrical cam is movably connected with the second L-shaped rod.

As a further scheme of the invention, a plurality of bearing jigs are arranged on the circulating conveying mechanism, wire cores, first connectors and second connectors are arranged on the bearing jigs, a low-temperature box is arranged on the circulating conveying mechanism, the left side of the low-temperature box is fixedly connected with a first injection molding mechanism, the right side of the low-temperature box is fixedly connected with a detector, an installation box is fixedly connected above the low-temperature box, and a cooling device is arranged on the low-temperature box.

As a further aspect of the present invention, the driving mechanism of the circulating conveying mechanism is a stepping mechanism.

As a further scheme of the invention, the right side of the sealing box is fixedly connected with a second injection molding mechanism, a material hole is formed in the sealing box, and a sealing sleeve is placed in the material hole.

As a further scheme of the invention, a balancing weight is arranged on the sealing sleeve.

As a further scheme of the invention, the number of the rotating rods, the number of the second connecting rods and the number of the push rods are all 2, and the rotating rods, the second connecting rods and the push rods are symmetrically distributed on the second electric rotating shaft.

As a further scheme of the invention, a sliding rail which is convenient for the push rod, the first L-shaped rod and the second L-shaped rod to slide is arranged in the sealing box.

As a further scheme of the invention, a water tank is arranged below the right end of the circulating conveying mechanism, a coolant is added into water in the water tank, heat dissipation teeth for increasing the contact area with air are arranged on the surface of the water tank, and a fan for accelerating the air flow speed is arranged on the side edge of the water tank.

In conclusion, compared with the prior art, the invention has the following beneficial effects:

the circulating conveying mechanism conveys the wire core welded by the welding mechanism, the first connector and the second connector on the bearing jig to the first injection molding mechanism to perform injection molding and cladding on the welding position, then conveys the bearing jig into the low-temperature box to cool, conveys the bearing jig to the detector after cooling is completed to detect, rejects by the manipulator, sends the high-quality product into the seal box, the seal sleeve mounting device wraps the first connector and the second connector for sealing, then sends the high-quality product to the second injection molding mechanism to perform injection molding and cladding on the wire core, and conveys the bearing jig into the water tank to perform water cooling after injection molding and cladding is completed.

Drawings

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

Fig. 2 is a partial structural diagram of a cooling device according to the present invention.

Fig. 3 is a schematic structural diagram of a cooling device in the invention.

Figure 4 is a schematic side sectional view of the structure of the sealing sleeve mounting device in the invention.

Fig. 5 is a partial schematic view of the seal cartridge mounting assembly of the present invention in elevation.

Reference numerals: 1-circulating conveying mechanism, 2-bearing jig, 3-wire core, 4-first connector, 5-second connector, 6-first injection molding mechanism, 7-low temperature box, 8-installation box, 9-first electric rotating shaft, 10-rotary table, 11-first connecting rod, 12-piston rod, 13-piston, 14-compression cylinder, 15-first one-way valve, 16-second one-way valve, 17-condenser, 18-throttling device, 19-evaporator, 20-gas storage tank, 21-air filter, 22-detector, 23-seal box, 24-material hole, 25-seal sleeve, 26-second electric rotating shaft, 27-rotating rod, 28-second connecting rod, 29-push rod, 30-third electric rotating shaft, 31-a first cylindrical cam, 32-a first L-shaped rod, 33-a second cylindrical cam, 34-a second L-shaped rod, 35-a second injection molding mechanism, 36-a water tank and 37-a fan.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Example 1

As shown in fig. 1 to 5, a cooling device of an HDMI2.1 transmission line production system comprises a circulating conveying mechanism 1 and a cooling device, wherein a plurality of bearing jigs 2 are arranged on the circulating conveying mechanism 1, a wire core 3, a first connector 4 and a second connector 5 are arranged on each bearing jig 2, a low-temperature box 7 is arranged on the circulating conveying mechanism 1, the left side of the low-temperature box 7 is fixedly connected with a first injection molding mechanism 6, the right side of the low-temperature box 7 is fixedly connected with a detector 22, an installation box 8 is fixedly connected above the low-temperature box 7, the low-temperature box 7 is provided with the cooling device, the cooling device comprises a first electric rotating shaft 9, a turntable 10, a first connecting rod 11, a piston rod 12, a piston 13, a compression cylinder 14, a first check valve 15, a second check valve 16, a condenser 17, a throttling device 18, an evaporator 19, an air storage tank 20 and an air filter 21, the first electric rotating shaft 9 is rotatably connected with, first electronic pivot 9 fixed connection carousel 10, the first connecting rod 11 of carousel 10 swing joint, 11 swing joint piston rods of first connecting rod 12, piston rod 12 fixed connection piston 13, the equal swing joint compression cylinder 14 of piston rod 12 and piston 13, compression cylinder 14 fixed connection install bin 8, compression cylinder 14 air inlet department is equipped with first check valve 15, compression cylinder 14 gas outlet department is equipped with second check valve 16, compression cylinder 14 passes through pipeline intercommunication condenser 17, condenser 17 passes through pipeline intercommunication throttling arrangement 18, throttling arrangement 18 passes through pipeline intercommunication evaporimeter 19, evaporimeter 19 passes through pipeline intercommunication gas holder 20, gas holder 20 passes through pipeline intercommunication air cleaner 21, air cleaner 21 passes through pipeline intercommunication compression cylinder 14.

Further, the driving mechanism of the circulating conveying mechanism 1 is a stepping mechanism to realize intermittent movement.

The first electric rotating shaft 9 drives the rotating disc 10 to rotate, the rotating disc 10 drives the piston 13 to reciprocate and move linearly through the first connecting rod 11 and the piston rod 12, the gaseous low-temperature low-pressure refrigerant in the air storage tank 20 is sucked into the compression cylinder 14 through the piston 13 and the first one-way valve 15, the gaseous low-temperature low-pressure refrigerant in the compression cylinder 14 is changed into gaseous high-temperature high-pressure refrigerant to be pressed out through the piston 13 acting on air, the gaseous high-temperature high-pressure refrigerant transfers heat to the air passing through the condenser 17 to be liquefied in the condenser 17, the liquid refrigerant enters the evaporator 19 after temperature and pressure are reduced when flowing through the throttling device 18, the liquid low-temperature low-pressure refrigerant absorbs the heat of the air passing through the low-temperature box 7 around the evaporator 11 and is evaporated in the evaporator 19, the gaseous low-temperature low-pressure refrigerant enters the air storage tank 20, and then the gaseous low-temperature low-pressure refrigerant is sucked into the compression cylinder 14 through the, in this way, the refrigerant circulates through the system, and the heat of the air in the low-temperature compartment 7 is absorbed and discharged to the air in the low-temperature compartment 7, thereby lowering the temperature of the air in the low-temperature compartment 7.

Example 2

Referring to fig. 1 to 5, a cooling device of an HDMI2.1 transmission line production system includes a seal box 23, a seal sleeve mounting device and a water tank 36, the right side of the seal box 23 is fixedly connected with a second injection molding mechanism 35, the seal box 23 is provided with a material hole 24, a seal sleeve 25 is placed in the material hole 24, the seal sleeve mounting device includes a feeding mechanism and a mounting mechanism, the feeding mechanism includes a second electric rotating shaft 26, a rotating rod 27, a second connecting rod 28 and a push rod 29, the mounting mechanism includes a third electric rotating shaft 30, a first cylindrical cam 31, a first L-shaped rod 32, a second cylindrical cam 33 and a second L-shaped rod 34, the second electric rotating shaft 26 is rotatably connected with the seal box 23, the second electric rotating shaft 26 is fixedly connected with the rotating rod 27, the rotating rod 27 is movably connected with the second connecting rod 28, the second connecting rod 28 is movably connected with the push rod 29, the third electric rotating shaft 30 is rotatably connected with the seal box 23, the third electric rotating shaft 30 is fixedly connected with a first cylindrical cam 31 and a second cylindrical cam 33, the first cylindrical cam 31 is movably connected with a first L-shaped rod 32, and the second cylindrical cam 33 is movably connected with a second L-shaped rod 34.

Further, be equipped with the balancing weight on the seal cover 25, prevent to lead to HDMI2.1 transmission line to float in the surface of water and lead to the cooling effect poor because raw and other materials density is little.

Further, the number of the rotating rod 27, the second connecting rod 28 and the push rod 29 is 2 and are symmetrically distributed on the second electric rotating shaft 26.

Further, a slide rail for facilitating the sliding of the push rod 29, the first L-shaped rod 32 and the second L-shaped rod 34 is arranged in the seal box 23.

Further, a water tank 36 is arranged below the right end of the circulating conveying mechanism 1, a coolant is added into water in the water tank 36, heat dissipation teeth for increasing the contact area with air are arranged on the surface of the water tank 36, and a fan 37 for accelerating the air flowing speed is arranged on the side edge of the water tank 36.

The second electric rotating shaft 26 drives the rotating rod 27 to rotate, the rotating rod 27 drives the push rod 29 to reciprocate through the second connecting rod 28, the third electric rotating shaft 30 drives the first L-shaped rod 32 and the second L-shaped rod 34 to reciprocate through the first cylindrical cam 31 and the second cylindrical cam 33, when the push rod 29 moves rightwards, the sealing sleeve 25 is pushed to a preset position, the first L-shaped rod 32 and the second L-shaped rod 34 are far away from each other to the preset position, when the push rod 29 moves leftwards to a certain distance, the sealing sleeve 25 in the material hole 24 falls into a sliding rail under the action of gravity, meanwhile, the first L-shaped rod 32 and the second L-shaped rod 34 are close to each other to wrap the sealing sleeve 25 on the first connector 4 and the second connector 5, and then the second injection molding mechanism 35 performs injection molding on the wire core 3 to wrap the wire.

In summary, the working principle of the invention is as follows:

the circular conveying mechanism 1 conveys the wire core 3 welded by the welding mechanism, the first connector 4 and the second connector 5 on the bearing jig 2 to the first injection molding mechanism 6 to perform injection molding coating on the welding position, then conveys the bearing jig 2 into the low-temperature box 7 to cool, conveys the bearing jig 2 to the detector 22 to detect after cooling, rejects defective products through a manipulator, conveys high-quality products into the seal box 23, wraps the first connector 4 and the second connector 5 for sealing, conveys the high-quality products to the second injection molding mechanism 35 to perform injection molding coating on the wire core 3, conveys the injection molding coating into the water tank 36 to perform water cooling after completing the injection molding coating, and is good in cooling effect.

It should be particularly noted that, in this application, the cooling device that combines design application to a HDMI2.1 transmission line production system with cooling device, seal cover installation device, seal cover 25, water tank 36 and fan 37 is the innovation point of this application, and it has effectively solved the poor problem of cooling effect after the HDMI2.1 transmission line is moulded plastics.

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

Claims

1. A cooling device of an HDMI2.1 transmission line production system comprises a circulating conveying mechanism (1), a cooling device, a sealing sleeve mounting device, a sealing box (23), a sealing sleeve (24), a water tank (36) and a fan (37), wherein the sealing sleeve (24) is arranged in the sealing box (23), the sealing sleeve mounting device comprises a feeding mechanism and a mounting mechanism, and the cooling device is characterized by comprising a first electric rotating shaft (9), a turntable (10), a first connecting rod (11), a piston rod (12), a piston (13), a compression cylinder (14), a first one-way valve (15), a second one-way valve (16), a condenser (17), a throttling device (18), an evaporator (19), an air storage tank (20) and an air filter (21), wherein the first electric rotating shaft (9) is rotatably connected with the mounting box (8), and the first electric rotating shaft (9) is fixedly connected with the turntable (10), the rotary table (10) is movably connected with a first connecting rod (11), the first connecting rod (11) is movably connected with a piston rod (12), the piston rod (12) is fixedly connected with a piston (13), the piston rod (12) and the piston (13) are movably connected with a compression cylinder (14), the compression cylinder (14) is fixedly connected with a mounting box (8), a first one-way valve (15) is arranged at an air inlet of the compression cylinder (14), a second one-way valve (16) is arranged at an air outlet of the compression cylinder (14), the compression cylinder (14) is communicated with a condenser (17) through a pipeline, the condenser (17) is communicated with a throttling device (18) through a pipeline, the throttling device (18) is communicated with an evaporator (19) through a pipeline, the evaporator (19) is communicated with a gas storage tank (20) through a pipeline, and the gas storage tank (20) is communicated with an air filter, the air filter (21) is communicated with the compression cylinder (14) through a pipeline, the feeding mechanism comprises a second electric rotating shaft (26), a rotating rod (27), a second connecting rod (28) and a push rod (29), the mounting mechanism comprises a third electric rotating shaft (30), a first cylindrical cam (31), a first L-shaped rod (32), a second cylindrical cam (33) and a second L-shaped rod (34), the second electric rotating shaft (26) is rotatably connected with the sealing box (23), the second electric rotating shaft (26) is fixedly connected with the rotating rod (27), the rotating rod (27) is movably connected with the second connecting rod (28), the second connecting rod (28) is movably connected with the push rod (29), the third electric rotating shaft (30) is rotatably connected with the sealing box (23), the third electric rotating shaft (30) is fixedly connected with the first cylindrical cam (31) and the second cylindrical cam (33), the first cylindrical cam (31) is movably connected with the first L-shaped rod (32), the second cylindrical cam (33) is movably connected with a second L-shaped rod (34).

2. The cooling device of the HDMI2.1 transmission line production system according to claim 1, wherein a plurality of bearing jigs (2) are arranged on the circulating conveying mechanism (1), a wire core (3), a first connector (4) and a second connector (5) are arranged on each bearing jig (2), a low temperature box (7) is arranged on the circulating conveying mechanism (1), the left side of the low temperature box (7) is fixedly connected with the first injection molding mechanism (6), the right side of the low temperature box (7) is fixedly connected with the detector (22), an installation box (8) is fixedly connected above the low temperature box (7), and a cooling device is arranged on the low temperature box (7).

3. The cooling apparatus for an HDMI2.1 transmission line production system according to claim 2, wherein said driving mechanism of said circulating transport mechanism (1) is a stepping mechanism.

4. The cooling device of the HDMI2.1 transmission line production system according to claim 1, wherein a second injection molding mechanism (35) is fixedly connected to the right side of the sealing box (23), a material hole (24) is formed in the sealing box (23), and a sealing sleeve (25) is placed in the material hole (24).

5. The cooling device of an HDMI2.1 transmission line production system according to claim 4, wherein said sealing sleeve (25) is provided with a weight block.

6. The cooling device of an HDMI2.1 transmission line production system according to claim 1, wherein said rotating rod (27), second connecting rod (28) and push rod (29) are all 2 and symmetrically distributed on the second electric rotating shaft (26).

7. The cooling device for the HDMI2.1 transmission line production system according to claim 4, wherein a slide rail for facilitating the sliding of the push rod (29), the first L-shaped rod (32) and the second L-shaped rod (34) is provided in the sealing box (23).

8. The cooling device of the HDMI2.1 transmission line production system according to claim 2, wherein a water tank (36) is arranged below the right end of the circulating conveying mechanism (1), a coolant is added into the water in the water tank (36), the surface of the water tank (36) is provided with heat dissipation teeth for increasing the contact area with air, and a fan (37) for accelerating the air flow speed is arranged on the side of the water tank (36).