CN204800942U - LED Bracket Injection Molding Mold - Google Patents

Abstract

The utility model discloses an injection molding mould for LED supports, which comprises a lower fixed plate, mould feet, a bearing plate, a male mould plate, a female mould plate and an upper fixed plate which are sequentially overlapped from bottom to top; be equipped with the runner plate in the female template, this runner plate's thickness is 7mm, and the concave sprue that is equipped with in the surface of runner plate, the width of this sprue is 1.8mm, and the degree of depth is 1.5mm, and bilateral inclination is 20. Through set up specific each runner on the runner board for melting plastic flows more smoothly in each runner, advances to glue efficiency higher, fills more stably, and the LED support yield of moulding plastics out is higher, and the quality is better, and the runner stroke has effectively been shortened in setting up of above-mentioned runner, and the production of the clout that has significantly reduced makes material utilization improve by a wide margin, has reduced unit LED? The cost of the bracket product improves the production benefit of the injection molding process of the LED bracket, enhances the product competitiveness and reduces the cost, and meets the requirements of production upgrade, technical improvement and high-speed development of the LED industry.

Description

LED Bracket Injection Molding Mold

technical field

The utility model relates to the technology in the field of LED brackets, in particular to an injection molding mold for LED brackets.

Background technique

LED (light-emitting diode) is a new type of semiconductor light-emitting device, which has the advantages of small size, large scattering angle, good uniformity of light emission, high reliability, low power consumption, fast response speed, etc., and the light-emitting colors include various colors including white light. , so it is widely used in various electronic products.

At present, in the LED bracket injection molding process, the structural design of the LED lead frame and the design of the LED bracket injection mold have gradually become bottlenecks, and are increasingly unsuitable for LED chip design, LED supporting product design, and energy-saving and low-carbon industries advocated by the state. Explosion of ideas. Existing LED bracket injection molds have a single design structure for the glue inlet flow channel, relying on ordinary nozzles and resin flow channels to feed glue, and the efficiency of each glue injection is very low, the filling is unstable, and the shape and structure of the gate on the mold each time are rough and difficult for injection molding. The finished product rate of the LED bracket is low, and there is a lot of surplus material produced in each molding, which makes the material utilization rate low and increases the product cost of the unit LED bracket.

Utility model content

In view of this, the utility model aims at the deficiencies in the prior art, and its main purpose is to provide an injection molding mold for LED brackets, which can effectively solve the problem of excessive material waste when molding LED brackets in existing LED bracket injection molding molds. question.

In order to achieve the above object, the utility model adopts the following technical solutions:

An injection molding mold for an LED bracket, comprising a lower fixing plate, a mold foot, a carrier plate, a male template, a female template and an upper fixing plate stacked sequentially from bottom to top, the mold feet are two left and right, and the two mold feet are The lower thimble plate, middle thimble plate and upper thimble plate are arranged in sequence from bottom to top, and the lower thimble plate, middle thimble plate and upper thimble plate are all located between the supporting plate and the lower fixing plate; there is a flow channel in the mother template plate, the thickness of the runner plate is 7mm, a plurality of mold cavities are formed between the bottom surface of the runner plate and the male template, the surface of the runner plate is concavely provided with a sprue, the width of the sprue is 1.8mm, and the sprue The depth of the main channel is 1.5mm, and the slope of both sides of the main channel is 20°. Both sides of the main channel are connected with multiple runners along the extension direction of the main channel. The multiple runners are arranged in parallel at intervals, and the width of the runners is 1.5 mm, the depth of the runners is 1.2, and the slope of the two sides of the runners is 20°. There is an injection runner on both sides of each runner, and the runners are arranged in parallel with the two injection runners. Each injection runner The width of each injection channel is 1.3mm, the depth of each injection channel is 1.0mm, the bilateral slope of each injection channel is 20°, and the height difference between the main channel and the injection channel is 1.5mm. A plurality of groups of injection ports are arranged at intervals along the extending direction of the injection channel, and each group of injection ports communicates with the corresponding mold cavity, and a plurality of first flow channels are connected between each injection channel and the corresponding branch channel, and the plurality of first flow channels The channels are arranged in parallel at intervals, and a second flow channel is connected between two adjacent injection channels; a nozzle is arranged on the upper fixing plate, and the nozzle passes through the master template to communicate with the middle of the main flow channel.

As a preferred solution, the surface of the flow channel plate is recessed with a first recess, the main flow channel is arranged transversely at the middle position of the inner bottom surface of the first recess, and the inner bottom surface of the first recess is further recessed with A plurality of second recesses, the plurality of branch channels are respectively arranged longitudinally at the middle positions of the inner bottom surfaces of the plurality of second recesses, and the aforementioned injection channels are recessed and formed on the inner bottom surfaces of the corresponding second recesses.

As a preferred solution, the depth of the first recess is 1.5 mm, and the depth of the second recess is 1.5 mm.

As a preferred solution, the second recesses are in two rows, each row of second recesses includes five second recesses spaced from each other, and two adjacent second recesses are connected.

As a preferred solution, each group of injection ports includes two injection ports arranged around two, the center distance between the two injection ports is 1.3 mm, and the depth of each injection port is 2.8 mm.

As a preferred solution, the length of the flow channel plate is 210mm, and the width of the flow channel plate is 180mm.

As a preferred solution, both the bottom surface of the lower fixing plate and the surface of the upper fixing plate are provided with heat insulating plates.

Compared with the prior art, the utility model has obvious advantages and beneficial effects. Specifically, it can be known from the above technical solutions:

By setting specific flow channels on the flow channel plate, the molten plastic flows more smoothly in each flow channel, the glue feeding efficiency is higher, the filling is more stable, and the injection molded LED bracket has a higher yield and better quality, and the above The setting of the runner effectively shortens the stroke of the runner, greatly reduces the generation of surplus material, greatly improves the utilization rate of materials, reduces the cost of the unit LED bracket product, improves the production efficiency of the LED bracket injection molding process, enhances product competitiveness and reduces Cost, to meet the production upgrades, technology upgrades and rapid development of the LED industry.

In order to illustrate the structural features and functions of the utility model more clearly, the utility model will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

Description of drawings

Fig. 1 is the sectional view of injection mold in the preferred embodiment of the present utility model;

Fig. 2 is a perspective view of a flow channel plate in a preferred embodiment of the present invention;

Fig. 3 is a top view of the flow channel plate in a preferred embodiment of the present invention;

Fig. 4 is an enlarged schematic view at position A in Fig. 3;

Fig. 5 is the bottom view of the flow channel plate in the preferred embodiment of the utility model;

Fig. 6 is an enlarged schematic view at position B in Fig. 5;

Fig. 7 is the front view of the flow channel plate in the preferred embodiment of the utility model;

Figure 8 is an enlarged schematic view at position C in Figure 7;

Fig. 9 is a side view of a flow channel plate in a preferred embodiment of the present invention;

Fig. 10 is a cross-sectional view of a flow channel plate in a preferred embodiment of the present invention.

Explanation of the accompanying drawings:

11. Lower fixing plate 12. Die foot

13. Bearing plate 14. Public formwork

15. Mother template 16. Upper fixing plate

17. Lower thimble plate 18. Middle thimble plate

19. Upper ejector plate 101, mold cavity

21. Nozzle 22. Heat shield

30. Runner plate 31. Main flow channel

32. Runner 33. Injection runner

34. Injection port 35. First runner

36. The second runner 301, the first recess

302. The second concave position.

Detailed ways

Please refer to Fig. 1 to Fig. 10, which shows the specific structure of a preferred embodiment of the present invention, including a lower fixing plate 11, a die foot 12, a bearing plate 13, a male Template 14, mother template 15 and upper fixing plate 16, mold feet 12 are two arranged on the left and right, and a lower ejector plate 17, a middle ejector plate 18 and an upper ejector plate 19 are sequentially arranged between the two mold feet 12 from bottom to top, The lower ejector plate 17 , the middle ejector plate 18 and the upper ejector plate 19 are all located between the supporting plate 13 and the lower fixing plate 11 .

A runner plate 30 is arranged inside the master template 15, the thickness T of the runner plate 30 is 7 mm, the length L of the runner plate 30 is 210 mm, and the width W of the runner plate 30 is 180 mm. A plurality of mold cavities 101 are formed between the bottom surface of the runner plate 30 and the male template 14, and a sprue 31 is recessed on the surface of the runner plate 30. The width w1 of the sprue 31 is 1.8 mm, and the depth d1 of the sprue 31 is is 1.5mm, the bilateral slope of the main channel 31 is 20°, and both sides of the main channel 31 are connected with a plurality of runners 32 along the extension direction of the main channel 31, and the plurality of runners 32 are arranged in parallel at intervals, and the runners 32 The width w2 of the runner 32 is 1.5 mm, the depth d2 of the runner 32 is 1.2, and the slope of both sides of the runner 32 is 20°. An injection runner 33 is respectively arranged on both sides of each runner 32, and the runner 32 is connected to the two injection streams. The channels 33 are arranged in parallel at intervals, the width w3 of each injection channel 33 is 1.3 mm, the depth d3 of each injection channel 33 is 1.0 mm, and the bilateral slope of each injection channel 33 is 20 °, the main channel 31 and The height difference between the injection channels 33 is 1.5mm, and there are multiple sets of injection ports 34 arranged at intervals in each injection channel 33 along the extending direction of the injection channels 33, and each group of injection ports 34 communicates with the corresponding mold cavity 101. Each group of injection ports 34 includes two injection ports 34 arranged around two sides, the center distance l between the two injection ports 34 is 1.3 mm, and the depth d4 of each injection port 34 is 2.8 mm; and each injection flow A plurality of first flow channels 35 are connected between the channel 33 and the corresponding branch channel 32, and the plurality of first flow channels 35 are arranged in parallel at intervals, and a second flow channel 36 is connected between two adjacent injection flow channels 33; and, in this In the embodiment, the surface of the flow channel plate 30 is concavely provided with a first recess 301, and the main flow channel 31 is arranged laterally at the middle position of the inner bottom surface of the first recess 301, and the inner bottom surface of the first recess 301 is further concave. A plurality of second recesses 302 are provided, and the plurality of shunt channels 32 are arranged longitudinally at the middle positions of the inner bottom surfaces of the plurality of second recesses 302, and the aforementioned injection channels 33 are located on the inner bottom surfaces of the corresponding second recesses 302. Recesses are formed, the depth d5 of the first recess 301 is 1.5 mm, the depth d6 of the second recess 302 is 1.5 mm, and the second recess 302 is two rows, and each row of second recesses 302 includes There are five second recesses 302 spaced apart from each other, and two adjacent second recesses 302 are connected.

The upper fixing plate 16 is provided with a nozzle 21, the nozzle 21 passes through the mother template 15 and communicates with the middle position of the main channel 31, and the bottom surface of the lower fixing plate 11 and the surface of the upper fixing plate 16 are all provided with partitions. Hot plate 22.

When making, use the aforementioned LED bracket injection molding mold, and use the following steps to carry out:

(1) A plurality of conductive terminals are formed by stretching and stamping the metal plate, and the soldering leg of the conductive terminal is connected with a strip, and the drop between the horizontal plane of the soldering leg of the conductive terminal and the horizontal plane of the pad of the conductive terminal is H, the thickness of the conductive terminal is T, and H/T>3.5.

(2) A layer of silver is electroplated on the surface of the strip.

(3) Put the conductive terminal of the connecting strip into the aforementioned LED bracket injection molding mold for injection molding operation to form a plastic body; the molten plastic enters the nozzle 21 in the form of high pressure, then enters the main channel 31, and then enters each branch channel 32. Next, the molten plastic enters each injection channel 33 through the corresponding first channel 35 or the corresponding second channel 36, and then, the molten plastic is injected into the corresponding mold cavity 101 through the corresponding injection port 34.

(4) After the injection molding is cooled, the mold can be opened.

The key point of the design of this utility model is: by setting specific flow channels on the flow channel plate, the molten plastic flows more smoothly in each flow channel, the glue feeding efficiency is higher, the filling is more stable, and the yield of the LED bracket produced by injection molding is higher. High quality, better quality, and the setting of the above-mentioned runner effectively shortens the runner stroke, greatly reduces the generation of surplus material, greatly improves the material utilization rate, reduces the cost of the unit LED bracket product, and improves the production of the LED bracket injection molding process Benefits, enhance product competitiveness and reduce costs, to meet the production upgrades, technology upgrades and high-speed development of the LED industry.

The above are only preferred embodiments of the present utility model, and do not limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical essence of the present utility model , all still belong to the scope of the technical solution of the utility model.

Claims (7)

1. A LED bracket injection molding mold, characterized in that: it includes a lower fixed plate, mold feet, bearing plate, male template, female template and upper fixed plate that are stacked successively from bottom to top, and the mold feet are arranged on the left and right Two, the lower ejector plate, the middle ejector plate and the upper ejector plate are sequentially arranged between the two mold feet from bottom to top, and the lower ejector plate, middle ejector plate and upper ejector plate are all located between the bearing plate and the lower fixing plate; There is a runner plate inside the template, the thickness of the runner plate is 7mm, a plurality of mold cavities are formed between the bottom surface of the runner plate and the male template, and a sprue is provided on the surface of the runner plate. is 1.8mm, the depth of the main channel is 1.5mm, and the slope of both sides of the main channel is 20°. Both sides of the main channel are connected with a plurality of sub-runners along the extension direction of the main channel, and the plurality of sub-runners are arranged in parallel at intervals. The width of the runners is 1.5mm, the depth of the runners is 1.2mm, and the slope of the two sides of the runners is 20°. There is an injection runner on both sides of each runner, and the runners are parallel to the two injection runners. Setting, the width of each injection channel is 1.3mm, the depth of each injection channel is 1.0mm, the bilateral slope of each injection channel is 20°, and the height difference between the main channel and the injection channel is 1.5 mm, each injection channel is provided with multiple groups of injection ports at intervals along the direction of the injection channel extension, each group of injection ports communicates with the corresponding mold cavity, and each injection channel is connected to the corresponding branch channel. A flow channel, a plurality of first flow channels are arranged in parallel at intervals, and a second flow channel is connected between two adjacent injection flow channels; a nozzle is arranged on the upper fixing plate, and the nozzle passes through the mother template to communicate with the middle position of the main flow channel . 2. The LED bracket injection molding mold according to claim 1, characterized in that: the surface of the runner plate is provided with a first concave position, and the main flow channel is arranged laterally in the middle of the bottom surface of the first concave position The inner bottom surface of the first recess is further recessed with a plurality of second recesses, and the plurality of flow channels are respectively arranged longitudinally in the middle of the inner bottom surface of the plurality of second recesses. The inner bottom surfaces of the two concave positions are concavely formed. 3 . The injection mold for LED bracket according to claim 2 , wherein the depth of the first recess is 1.5 mm, and the depth of the second recess is 1.5 mm. 4 . 4. The LED bracket injection molding mold according to claim 2, characterized in that: the second recesses are in two rows, and each row of second recesses includes five second recesses arranged at intervals from each other. There is communication between two adjacent second concave positions. 5. The LED bracket injection molding mold according to claim 1, characterized in that: each group of injection ports includes two injection ports arranged around two, and the center distance between the two injection ports is 1.3mm, The depth of each injection port is 2.8mm. 6. The LED bracket injection molding mold according to claim 1, characterized in that: the length of the flow channel plate is 210mm, and the width of the flow channel plate is 180mm. 7 . The LED bracket injection molding mold according to claim 1 , characterized in that: both the bottom surface of the lower fixing plate and the surface of the upper fixing plate are provided with heat insulating plates. 8 .