CN220031025U - Mould device of air pipe joint - Google Patents

Abstract

The utility model discloses a die device of an air pipe joint, which comprises a left die assembly and a right die assembly, wherein the left die assembly and the right die assembly are oppositely arranged, the left die assembly comprises a left base and a left die sleeve, and the left die sleeve is arranged on the left base; the right die assembly comprises a right footstock and a right die sleeve, the right die sleeve is arranged on the right footstock, the left die sleeve is opposite to the right die sleeve, a left die is arranged in the left die sleeve, a right die is arranged in the right die sleeve, the left die is opposite to the right die, the right footstock is provided with a feed inlet, and a feed pipe is arranged on the right die and connected to the feed inlet. The utility model has the advantage of improving the molding efficiency of the product.

Description

Mould device of air pipe joint

Technical Field

The utility model belongs to the technical field of air pipe machining, and particularly relates to a die device of an air pipe joint.

Background

Injection molding is a common manufacturing method of plastic products, and the process is that molten plastic is injected into an injection mold by pressure, and cooled and molded to obtain an injection molding piece with a certain shape; air is required to be introduced into the automobile engine to be mixed with gasoline and combusted, the air enters and exits the engine through an air pipe joint, the air pipe joint is a plastic piece, and the production of the air pipe joint is realized by means of a matched injection mold; the existing injection mold of the automobile air pipe joint is complex in structure and more in parts, so that the manufacturing steps are complicated, the cooling effect is poor, and further improvement is needed.

Disclosure of Invention

The present utility model is directed to a mold device for an air pipe joint, which solves the above-mentioned problems of the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the die device of the air pipe joint comprises a left die assembly and a right die assembly, wherein the left die assembly and the right die assembly are oppositely arranged, the left die assembly comprises a left base and a left die sleeve, and the left die sleeve is arranged on the left base;

the right die assembly comprises a right footstock and a right die sleeve, the right die sleeve is arranged on the right footstock, the left die sleeve is opposite to the right die sleeve, a left die is arranged in the left die sleeve, a right die is arranged in the right die sleeve, the left die is opposite to the right die, the right footstock is provided with a feed inlet, and a feed pipe is arranged on the right die and connected to the feed inlet.

Preferably, the cooling device further comprises a left cooling assembly and a right cooling assembly, wherein the left cooling assembly is installed in the left die sleeve, and the right cooling assembly is installed in the right die sleeve.

Preferentially, the left cooling assembly comprises a left water inlet pipe, a left cooling pipe and a left water outlet pipe, wherein the left water inlet pipe, the left cooling pipe and the left water outlet pipe are sequentially communicated, and the left cooling pipe is arranged at the middle position of the left die sleeve.

Preferentially, the right cooling assembly comprises a right water inlet pipe, a right cooling pipe and a right water outlet pipe, wherein the right water inlet pipe, the right cooling pipe and the right water outlet pipe are sequentially communicated, and the right cooling pipe is arranged at the middle position of the right die sleeve.

Preferably, a guide post is arranged between the left die sleeve and the right die sleeve.

Preferably, the four guide posts are arranged at four corners of the left die sleeve and the right die sleeve.

Preferably, the left die and the right die are provided with a runner and a product channel, the runner is communicated with the feeding pipe, and the product channel is arranged at two ends of the runner.

Preferably, the diameter of the flow channel is a structure with a large middle and small two ends.

Preferably, the left base and the right top base are both provided with air cylinders.

The beneficial effects are that: when the air pipe joint needs to be processed, liquefied rubber enters the feeding pipe through the feeding hole, materials in the feeding pipe enter between the left die and the right die, products are molded between the left die and the right die, and the product molding mode has the advantage of high manufacturing efficiency.

Drawings

Fig. 1 is a schematic structural view of an air pipe joint.

Fig. 2 is a schematic structural diagram of an embodiment of the present utility model.

Fig. 3 is a schematic structural diagram of a part of the structure according to an embodiment of the present utility model.

Fig. 4 is a schematic structural view of the portion a in fig. 3.

Fig. 5 is a schematic structural diagram of a part of the structure according to the embodiment of the present utility model.

In the figure: 1. a left base; 2. a left die sleeve; 21. a left die; 3. a right footstock; 30. a feed inlet; 4. a right die sleeve; 41. a right die; 411. a feed pipe; 412. a flow passage; 413. product channel; 5. a left cooling assembly; 51. a left water inlet pipe; 52. a left cooling tube; 53. a left water outlet pipe; 6. a right cooling assembly; 61. a right water inlet pipe; 62. a right cooling tube; 63. a right water outlet pipe; 7. and a guide post.

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the present utility model will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the drawings is only some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art. It should be noted that the description of these examples is for aiding in understanding the present utility model, but is not intended to limit the present utility model.

Examples: the embodiment provides a mould device of air pipe joint, including left mould subassembly and right mould subassembly, left mould subassembly and right mould subassembly set up relatively, be provided with guide post 7 between left mould subassembly and the right mould subassembly, guide post 7 one end is fixed in left mould subassembly, the other end telescopic connection of guide post 7 is in right mould subassembly, the quantity of guide post 7 is provided with four, four guide posts 7 all are located left mould subassembly and right mould subassembly's four corners, left mould subassembly includes left base 1 and left die sleeve 2, left die sleeve 2 passes through the bolt fastening on left base 1. The right die assembly comprises a right top seat 3 and a right die sleeve 4, the right die sleeve 4 is fixed on the right top seat 3 through bolts, the left die sleeve 2 is opposite to the right die sleeve 4, a left die 21 is fixed in the left die sleeve 2 through bolts, a right die 41 is fixed in the right die sleeve 4 through bolts, the left die 21 is opposite to the right die 41, the right top seat 3 is provided with a feed inlet 30, a feed pipe 411 is arranged on the right die 41, and the feed pipe 411 is connected to the feed inlet 30. When the air pipe joint needs to be processed, liquefied rubber enters the feeding pipe 411 through the feeding hole 30, materials in the feeding pipe 411 enter between the left die 21 and the right die 41, products are molded between the left die 21 and the right die 41, and the product molding mode has the advantage of high manufacturing efficiency.

In one embodiment, the cooling device further comprises a left cooling component 5 and a right cooling component 6, wherein the left cooling component 5 is installed in the right die sleeve 4, and the right cooling component 6 is installed in the right die sleeve 4.

Specifically, the left cooling assembly 5 is used for cooling the right die sleeve 4, and the right cooling assembly 6 is used for cooling the right die sleeve 4.

In this embodiment, realize quick shaping that the trachea connects, improve production efficiency.

In one embodiment, the left cooling assembly 5 includes a left water inlet pipe 51, a left cooling pipe 52 and a left water outlet pipe 53, wherein the left water inlet pipe 51, the left cooling pipe 52 and the left water outlet pipe 53 are sequentially communicated, and the left cooling pipe 52 is disposed at a middle position of the left die sleeve 2.

Specifically, the cooling water enters through the left water inlet pipe 51, cools down the left die 21 through the left cooling pipe 52, and finally, the hot water is discharged from the left water outlet pipe 53.

In this embodiment, the heat of the left die sleeve 2 is carried out through the medium, so that the product forming efficiency is improved.

In one embodiment, the right cooling assembly 6 includes a right water inlet pipe 61, a right cooling pipe 62 and a right water outlet pipe 63, and the right water inlet pipe 61, the right cooling pipe 62 and the right water outlet pipe 63 are sequentially connected, and the right cooling pipe 62 is disposed at an intermediate position of the right die sleeve 4.

Specifically, the cooling water enters through the right water inlet pipe 61, cools the right mold 41 through the right cooling pipe 62, and finally, the hot water is discharged from the right water outlet pipe 63.

In this embodiment, the heat of the right die sleeve 4 is carried out through the medium, so that the product forming efficiency is improved.

In one embodiment, the left mold 21 and the right mold 41 are provided with a runner 412 and a product runner 413, the runner 412 is connected to the feed pipe 411, and the product runner 413 is provided at both ends of the runner 412.

Specifically, the flow passage 412 is used to flow material to the product passage 413, and the shape of the product passage 413 is matched with the shape of the air pipe joint. Material from feed tube 411 flows through flow channel 412 to product channel 413. The number of product lanes 413 is two, and two product lanes 413 simultaneously shape the product.

In this embodiment, two air pipe joints are simultaneously molded by one die, and production efficiency is improved.

In one embodiment, the flow passage 412 has a structure with a large middle diameter and a small two ends.

Specifically, the diameter of the middle of the flow path 412 is greater than the diameter of the two ends of the flow path 412.

In this embodiment, the amount of material passing through the flow passage 412 is increased on the one hand, and burrs of the air pipe joint are reduced on the other hand.

In one embodiment, the left base 1 and the right top base 3 are each provided with a cylinder.

Specifically, the cylinder is used as a power source to drive the left base 1 and the right top seat 3 to move close to or away from each other.

In this embodiment, the left base 1 and the right top base 3 can move closer to or farther from each other.

Finally, it should be noted that: the foregoing description is only of the preferred embodiments of the utility model and is not intended to limit the scope of the utility model. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (9)

1. The die device of the air pipe joint is characterized by comprising a left die assembly and a right die assembly, wherein the left die assembly and the right die assembly are oppositely arranged, the left die assembly comprises a left base (1) and a left die sleeve (2), and the left die sleeve (2) is arranged on the left base (1);

the right die assembly comprises a right footstock (3) and a right die sleeve (4), the right die sleeve (4) is arranged on the right footstock (3), the left die sleeve (2) is opposite to the right die sleeve (4), a left die (21) is arranged in the left die sleeve (2), a right die (41) is arranged in the right die sleeve (4), the left die (21) is opposite to the right die (41), the right footstock (3) is provided with a feed inlet (30), a feed pipe (411) is arranged on the right die (41), and the feed pipe (411) is connected to the feed inlet (30).

2. The mould device of an air hose connector according to claim 1, further comprising a cooling device comprising a left cooling assembly (5) and a right cooling assembly (6), the left cooling assembly (5) being mounted in the left die sleeve (2) and the right cooling assembly (6) being mounted in the right die sleeve (4).

3. The die device for the tracheal joint according to claim 2, wherein the left cooling component (5) comprises a left water inlet pipe (51), a left cooling pipe (52) and a left water outlet pipe (53), the left water inlet pipe (51), the left cooling pipe (52) and the left water outlet pipe (53) are sequentially communicated, and the left cooling pipe (52) is arranged at the middle position of the left die sleeve (2).

4. A mould device for an air pipe joint according to claim 3, wherein the right cooling assembly (6) comprises a right water inlet pipe (61), a right cooling pipe (62) and a right water outlet pipe (63), the right water inlet pipe (61), the right cooling pipe (62) and the right water outlet pipe (63) are sequentially communicated, and the right cooling pipe (62) is arranged at the middle position of the right mould sleeve (4).

5. Mould arrangement for tracheal fittings according to claim 1, characterized in that a guiding post (7) is arranged between the left and right mould sleeve (2, 4).

6. Mould device for tracheal fittings according to claim 5, characterized in that the guiding studs (7) are provided with four, four guiding studs (7) being provided at the four corners of the left and right mould sleeves (2, 4).

7. Mould arrangement for tracheal fittings according to claim 1, characterized in that the left mould (21) and the right mould (41) are provided with a runner (412) and a product channel (413), the runner (412) being connected to the feeding pipe (411), the product channel (413) being arranged at both ends of the runner (412).

8. The mold device for an air pipe joint according to claim 7, wherein the runner (412) has a structure with a middle large end and two small ends.

9. Mould arrangement for tracheal joints according to claim 8, characterized in that the left base (1) and the right footstock (3) are each fitted with a cylinder.