CN219820514U - Notebook battery cover die - Google Patents

Abstract

The utility model relates to the technical field of notebook production equipment, in particular to a notebook battery cover mold, which comprises a mold body, a product and a heat dissipation assembly, wherein the product is arranged on one side of the mold body, and the heat dissipation assembly comprises a core-pulling sliding seat, a core-pulling sliding groove, a pouring gate, a sprue bush and a diversion cone; when producing the battery cover, at first through the slide of loosing core on the spout of loosing core, with the fixed position of mould body, and then begin processing the battery cover, the raw materials of product flows to pouring through the runner cover in, and flow the raw materials of product into the mould originally internal through the branch stream cone, and the product raw materials begins the shaping through pouring into the mould after, through setting up the runner of fixed size, can reduce the deformation stress of pouring into, make the product can cool off fast, shaping performance is good when the demolding, thereby the deflection is big when solving present notebook battery cover mould and use, make the problem that the volume of scrapping is many.

Description

Notebook battery cover die

Technical Field

The utility model relates to the technical field of notebook production equipment, in particular to a notebook battery cover die.

Background

The notebook computer is computer equipment convenient to carry, and when the notebook computer is produced, the battery of the notebook computer is very important, so the heat dissipation requirement on the battery cover is higher, and when the current notebook battery cover mould is used for pouring the notebook battery cover, the deformation of the notebook battery cover is easy to cause, and the number of scrapped products is large.

Disclosure of Invention

The utility model aims to provide a notebook battery cover die, which aims to solve the problem that the current notebook battery cover die is large in deformation when in use, so that the scrapping amount is large.

In order to achieve the above purpose, the utility model provides a notebook battery cover mold, which comprises a mold body, a product and a heat dissipation assembly, wherein the product is arranged on one side of the mold body, and the heat dissipation assembly comprises a core pulling slide seat, a core pulling slide groove, a pouring gate sleeve and a diversion cone;

the core pulling sliding seat is connected with the die body in a sliding way and is positioned at the top of the die body; the core-pulling sliding groove is fixedly connected with the die body, is in sliding connection with the core-pulling sliding seat and is positioned at the side edge of the die body; the pouring gate is communicated with the die body and is positioned on one side, close to the product, of the die body, the sprue bush is arranged at the bottom of the pouring gate, and the flow distribution cone is arranged in the sprue bush.

The die body is provided with an exhaust groove, and the exhaust groove is positioned on one side of the die body.

The die body comprises a die frame and a die core, wherein the die frame is arranged at the bottom of the core pulling sliding groove, and the die core is connected with the product and is positioned at the bottom of the product.

According to the notebook battery cover mold, when the battery cover is produced, the core pulling sliding seat on the core pulling sliding groove is slid, the position of the mold body is fixed, the battery cover is further machined, raw materials of the product flow into the pouring gate through the sprue bush, the raw materials of the product flow into the pouring gate through the flow dividing cone, the product starts to be molded after the raw materials of the product flow into the mold body through the pouring gate, and the pouring gate with fixed size is arranged, so that the deformation stress of the pouring gate can be reduced, the product can be cooled quickly, the shaping performance is good in the mold stripping process, and the problem that the current notebook battery cover mold is large in deformation and large in scrapping amount in use is solved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a top view of the entirety of a notebook battery cover mold of the present utility model.

101-mold body, 102-product, 103-heat dissipation assembly, 104-core pulling slide seat, 105-core pulling slide groove, 106-runner, 107-sprue bush, 108-split cone, 109-exhaust groove, 110-mold frame and 111-mold core.

Detailed Description

Referring to fig. 1, fig. 1 is a top view of an entire mold for a battery cover of a notebook computer according to the present utility model.

The utility model discloses a notebook battery cover mold, which comprises a mold body 101, a product 102 and a heat dissipation assembly 103, wherein the heat dissipation assembly 103 comprises a core pulling slide seat 104, a core pulling slide groove 105, a pouring gate 106, a sprue bush 107, a flow dividing cone 108 and an exhaust groove 109; the mold body 101 comprises a mold frame 110 and a mold core 111, and the problem that the current notebook battery cover mold is large in deformation amount during use and large in scrapping amount is solved through the scheme.

For the specific embodiment, the product 102 is arranged on one side of the die body 101, and the core pulling slide 104 is slidably connected with the die body 101 and is positioned at the top of the die body 101; the core-pulling sliding chute 105 is fixedly connected with the die body 101, is in sliding connection with the core-pulling sliding seat 104 and is positioned at the side edge of the die body 101; the pouring gate 106 is communicated with the die body 101 and is positioned at one side of the die body 101, which is close to the product 102, the pouring gate sleeve 107 is arranged at the bottom of the pouring gate 106, the diversion cone 108 is arranged in the pouring gate sleeve 107, when the battery cover is produced, the position of the die body 101 is fixed by sliding the core-pulling sliding seat 104 on the core-pulling sliding groove 105, and then the battery cover is processed, the raw material of the product 102 flows into the pouring gate 106 through the pouring gate sleeve 107 and is shunted through the diversion cone 108, and after the raw material of the product 102 flows into the die body 101 through the pouring gate 106, the product 102 starts to be molded, the deformation stress of the pouring gate 106 can be reduced by arranging the pouring gate 106 with fixed size, so that the product 102 can be cooled quickly, and the shaping performance is good when the current notebook battery cover die is used, and the problem of large deformation and large scrapping amount is solved.

The heat dissipation assembly 103 further has an exhaust slot 109, and the exhaust slot 109 is located at one side of the die body 101, and the exhaust slot 109 is provided, so that hot gas generated by the raw material of the product 102 in the flow treatment die body 101 is exhausted from the exhaust slot 109.

Secondly, the die frame 110 is disposed at the bottom of the core-pulling chute 105, the die core 111 is connected with the product 102 and is located at the bottom of the product 102, and the die core 111 and the heat dissipation component 103 are placed through the die frame 110, so that the product 102 can be placed in the die core 111, and then molding begins in the die core 111.

According to the notebook battery cover mold disclosed by the utility model, when the battery cover is produced, the core pulling sliding seat 104 on the core pulling sliding groove 105 is slid to fix the position of the mold core 111, so that the battery cover is processed, the raw materials of the product 102 flow into the pouring channel 106 through the sprue bush 107 and are split through the split cone 108, the raw materials of the product 102 flow into the mold body 101, the product 102 starts to be molded, the exhaust groove 109 is arranged to enable hot air generated by the raw materials of the product 102 in the flowing mold body 101 to be exhausted from the exhaust groove 109, and the pouring channel 106 with a fixed size is arranged to reduce the deformation stress of the pouring channel 106, so that the product 102 can be cooled quickly, and the shaping performance is good when the mold is taken out, thereby solving the problem that the existing notebook battery cover mold is large in deformation and large in scrapping amount when in use.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present utility model, and it is not intended to limit the scope of the claims hereof, as persons of ordinary skill in the art will understand that all or part of the processes for practicing the embodiments described herein may be practiced with equivalent variations in the claims, which are within the scope of the utility model.

Claims (3)

1. A notebook battery cover mold is characterized in that,

the mold comprises a mold body, a product and a heat dissipation assembly, wherein the product is arranged on one side of the mold body, and the heat dissipation assembly comprises a core-pulling sliding seat, a core-pulling sliding groove, a pouring gate, a sprue bush and a diversion cone;

the core pulling sliding seat is connected with the die body in a sliding way and is positioned at the top of the die body; the core-pulling sliding groove is fixedly connected with the die body, is in sliding connection with the core-pulling sliding seat and is positioned at the side edge of the die body; the pouring gate is communicated with the die body and is positioned on one side, close to the product, of the die body, the sprue bush is arranged at the bottom of the pouring gate, and the flow distribution cone is arranged in the sprue bush.

2. A notebook battery cover mold as defined in claim 1, wherein,

the die body is provided with an exhaust groove, and the exhaust groove is positioned on one side of the die body.

3. A notebook battery cover mold as defined in claim 2, wherein,

the die body comprises a die frame and a die core, wherein the die frame is arranged at the bottom of the core pulling sliding groove, and the die core is connected with the product and is positioned at the bottom of the product.