CN219926768U - Die mounting structure convenient to disassemble and assemble and injection die thereof - Google Patents

Abstract

The utility model discloses a die mounting structure convenient to disassemble and assemble and an injection die thereof, which comprises a front die assembly and an adjusting and locking assembly, wherein the front die assembly comprises an upper fixing plate, a front template and a front core plate, the front template is arranged on the upper fixing plate, a front die mounting hole is formed in the front template, the front core plate is arranged in the front die mounting hole, the front core plate is detachably connected with the upper fixing plate, and a mounting and adjusting gap is formed between the front core plate and the hole wall of the front die mounting hole; the adjusting and locking assembly comprises an adjusting positioning block and a locking block, and the adjusting positioning block and the locking block are respectively arranged in the installation adjusting gap. According to the die mounting structure convenient to assemble and disassemble, the front die assembly and the adjusting and locking assembly are arranged, so that the adjusting and limiting block and the locking block can be adopted to adjust and limit the mounting position of the front die core plate, the integral injection molding, disassembly and assembly operation is more convenient, the adaptability can be effectively improved, and the integral production cost can be saved.

Description

Die mounting structure convenient to disassemble and assemble and injection die thereof

Technical Field

The utility model relates to the technical field of injection molding, in particular to a mold mounting structure convenient to disassemble and assemble and an injection mold thereof.

Background

In the current injection mold industry, different molds need to be developed for different products, and a plurality of products are similar in size, and the molds cannot be shared due to inconsistent structural appearance, so that only one new set of molds can be developed again; the development of a new die is high in production cost, and when the die is replaced, the whole die is required to be detached from the machine table for replacement, so that large manpower and material resources are required to be consumed, and the integral injection molding is inconvenient.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a die mounting structure which is high in adaptability and convenient to assemble, disassemble and replace and an injection die thereof.

The aim of the utility model is realized by the following technical scheme:

a mold mounting structure convenient to disassemble and assemble includes: the front die assembly comprises an upper fixing plate, a front die plate and a front die core plate, wherein the front die plate is arranged on the upper fixing plate, a front die mounting hole is formed in the front die plate, the front die core plate is arranged in the front die mounting hole, the front die core plate is detachably connected with the upper fixing plate, and a mounting adjusting gap is formed between the front die core plate and the hole wall of the front die mounting hole; the adjusting and locking assembly comprises an adjusting and positioning block and a locking block, the adjusting and positioning block and the locking block are respectively arranged in the installation and adjustment gap, the adjusting and positioning block is respectively propped against the front mold core plate and the locking block, the locking block is detachably connected with the upper fixing plate, and when the locking block is connected with the upper fixing plate, the adjusting and positioning block is used for pressing and fixing the front mold core plate in the front mold installation hole.

In one embodiment, the front mold assembly further includes a front mold insert pad, the front mold insert pad is disposed in the front mold mounting hole, and the front mold insert pad is located between the front mold insert plate and the upper fixing plate.

In one embodiment, the upper fixing plate is provided with a fixing mounting hole, the front mold core backing plate is provided with a backing plate mounting hole, and the fixing mounting hole is communicated with the backing plate mounting hole.

In one embodiment, the front cavity plate is provided with a cavity plate mounting hole, and the cavity plate mounting hole is communicated with the base plate mounting hole.

In one embodiment, the adjusting positioning block is provided with a first guide inclined plane, the locking block is provided with a second guide inclined plane, and the first guide inclined plane abuts against the second guide inclined plane.

In one embodiment, the adjusting positioning block is provided with a first supporting plane, and the first supporting plane is supported against the front mold core plate.

In one embodiment, the locking block is provided with a second supporting plane, and the second supporting plane is propped against the hole wall of the front die mounting hole.

In one embodiment, the locking block is provided with a locking mounting hole, the upper fixing plate is provided with a locking fixing hole, and the locking mounting hole is communicated with the locking fixing hole when the locking block is arranged in the installation adjusting gap.

In one embodiment, two adjusting and locking assemblies are provided, and the two adjusting and locking assemblies are respectively arranged on two side surfaces of the front mold core plate.

The injection mold comprises the mold mounting structure convenient to disassemble and assemble, and is characterized by further comprising a rear mold assembly, wherein the rear mold assembly is connected with the front mold assembly.

Compared with the prior art, the utility model has at least the following advantages:

according to the die mounting structure convenient to assemble and disassemble, the front die assembly and the adjusting and locking assembly are arranged, so that the adjusting and limiting block and the locking block can be adopted to adjust and limit the mounting position of the front die core plate, the integral injection molding, disassembly and assembly operation is more convenient, the adaptability can be effectively improved, and the integral production cost can be saved.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the drawings that are required to be used in the embodiments will be briefly described.

FIG. 1 is a schematic view of a mold mounting structure for easy disassembly in accordance with an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of the mold mounting structure of FIG. 1 for easy disassembly;

FIG. 3 is a schematic view of the adjustment locking assembly of the mold mounting structure of FIG. 1 for easy disassembly;

fig. 4 is a schematic structural diagram of an injection mold according to an embodiment of the utility model.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. Referring to fig. 1 and 2, a mold mounting structure 10 for easy disassembly and assembly includes: the front mold assembly 100 and the adjusting and locking assembly 200, the front mold assembly 100 comprises an upper fixed plate 110, a front mold plate 120 and a front mold core plate 130, the front mold plate 120 is arranged on the upper fixed plate 110, a front mold mounting hole 121 is formed in the front mold plate 120, the front mold core plate 130 is detachably arranged in the front mold mounting hole 121, the front mold core plate 120 is detachably connected with the upper fixed plate 110, and an installation adjusting gap 140 is formed between the front mold core plate 130 and the wall of the front mold mounting hole 121; the adjusting and locking assembly 200 comprises an adjusting and positioning block 210 and a locking block 220, wherein the adjusting and positioning block 210 and the locking block 220 are respectively detachably arranged in the installation and adjustment gap 140, the adjusting and positioning block 210 is respectively propped against the front mold insert plate 130 and the locking block 220, and one side surface of the locking block 220, which is far away from the adjusting and positioning block 210, is propped against the wall of the front mold installation hole 121; the locking block 220 is detachably connected to the upper fixing plate 110, and when the locking block 220 is connected to the upper fixing plate 110, the adjusting and positioning block 210 is used for pressing and fixing the front mold insert plate 130 in the front mold mounting hole 121.

It should be noted that, the upper fixing plate 110 is connected to the front mold plate 120, so that the front mold assembly 100 can be fixed on a corresponding injection molding machine through the upper fixing plate 110; front die plate 120 has been seted up front die mounting hole 121 to can install and place front die core board 130, when front die core board 130 installs at front die mounting hole 121, have installation adjusting gap 140 between the pore wall of front die core board 130 and front die mounting hole 121, thereby can install adjusting block 210 and latch segment 220 and fix in installation adjusting gap 140, because adjusting block 210 offsets with front die core board 130 and latch segment 220 respectively, and one side that the latch segment 220 kept away from adjusting block 210 offsets with the pore wall of front die mounting hole 121, thereby can be to the holding location of pressing of front die core board 130, make the installation accuracy of front die core board 130 improve. Further, since the front cavity plate and the locking block 220 are detachably connected with the upper fixing plate 110, respectively, the overall assembly and disassembly operations are more convenient. For example, the front cavity plate 130 and the locking block 220 may be respectively connected to the upper fixing plate 110 by means of screw fixation, specifically, in the installation operation, the front cavity plate 130 is first placed into the front mold mounting hole 121, then the front cavity plate 130 is mounted and connected to the upper fixing plate 110 by means of screws, at this time, the screws on the front cavity plate 130 are temporarily unlocked, so that the front cavity plate 130 has a certain space for position adjustment; after the front mold insert plate 130 is placed into the front mold mounting hole 121, the adjusting and positioning block 210 and the locking block 220 are respectively mounted in the mounting and adjusting gap 140, so that the front mold insert plate 130 can be subjected to position adjustment by being driven by the supporting and holding of the adjusting and positioning block 210 in the mounting process of the adjusting and positioning block 210 and the locking block 220, after the adjusting and positioning block 210 and the locking block 220 are mounted, the locking block 220 is in locking connection with the upper fixing plate 110 through screws, so that the adjusting and positioning block 210 can press and fix the front mold insert plate 130 in the front mold mounting hole 121, the mounting position adjusting operation of the front mold insert plate 130 is completed, and finally, the screws on the front mold insert plate 130 are locked and fixed, so that the mold mounting operation of the front mold insert plate 130 is completed. When different products need to be subjected to injection molding, only the front mold core plate 130, the adjusting and positioning block 210 and the locking block 220 need to be disassembled and replaced, so that the disassembly and assembly efficiency is improved, and the whole injection molding operation is faster and more convenient. Specifically, when the front mold insert plate 130 is replaced to perform injection molding, firstly, the screws on the front mold insert plate 130 are loosened, then, the screws on the locking block 220 are removed, the locking block 220 and the adjusting and positioning block 210 are taken out, and finally, the front mold insert plate 130 is taken out from the front mold mounting hole 121 to be replaced, and due to the arrangement of the adjusting and positioning block 210 and the locking block 220 with detachable structures, the replacement operation of the front mold insert plate 130 can be completed on an injection molding machine, so that the process flow of the disassembly and assembly operation can be simplified, and the efficiency of the overall operations such as maintenance, mold replacement and the like can be improved. Further, since the size of the front cavity plate 130 has a certain deviation, the space of the installation adjusting gap 140 can be changed, and at this time, the corresponding adjusting positioning block 210 and locking block 220 are replaced according to the different sizes of the front cavity plate 130, so that the processing of injection products with various specifications can be realized, and the adaptability of the overall injection mold is improved. The die mounting structure 10 convenient for disassembly and assembly of the utility model can adjust and limit the mounting position of the front mold core plate 130 by adopting the adjusting and positioning block 210 and the locking block 220 through arranging the front mold assembly 100 and the adjusting and locking assembly 200, and the locking block 220 and the front mold core plate 130 are respectively detachably connected with the upper fixing plate 110, so that the whole injection molding disassembly and assembly operation is more convenient, the whole adaptability can be effectively improved, and the whole production cost can be saved.

Referring to fig. 3, the adjusting and positioning block 210 is provided with a first guiding inclined plane 211 and a first supporting plane 212, the locking block 220 is provided with a second guiding inclined plane 221 and a second supporting plane 223, the first guiding inclined plane 211 supports against the second guiding inclined plane 221, the first supporting plane 212 supports against the front cavity plate 130, and the second supporting plane 223 supports against the wall of the front cavity plate 121, so that by setting the first guiding inclined plane 211 and the second guiding inclined plane 221, the supporting and attaching degree of the adjusting and positioning block 210 and the locking block 220 can be improved, and the installation operation of the locking block 220 can be facilitated. Specifically, in the actual installation process, the adjusting and positioning block 210 is firstly installed in the front mold installation hole 121, and then the locking block 220 is installed and placed along the inclined plane direction of the first guiding inclined plane 211 of the adjusting and positioning block 210, so that the locking block 220 can be quickly and accurately installed on the corresponding position; the first abutting plane 212 is arranged on the adjusting and positioning block 210, so that the adjusting and positioning block can be better abutted and fixed with the front mold core plate 130, and the position accuracy of the front mold core plate 130 is improved; similarly, the locking block 220 is provided with the second abutting plane 223, so that the locking block 220 can better abut against the hole wall of the front mold mounting hole 121, and therefore, the locking block 220, the adjusting and positioning block 210 and the front mold core plate 130 can be precisely attached, and the position accuracy of the front mold core plate 130 is further improved.

In an embodiment, referring to fig. 2 and 4, the front mold assembly 100 further includes a front mold insert pad 150, the front mold insert pad 150 is disposed in the front mold mounting hole 121, and the front mold insert pad 150 is located between the front mold insert plate 130 and the upper fixing plate 110, so, by setting the front mold insert pad 150, a certain buffer protection effect can be achieved, and contact between the front mold insert plate 130 and the upper fixing plate 110 during mold closing is avoided, so that the overall service life is prolonged, and the overall structural strength can be improved.

Further, in order to facilitate the disassembly and assembly operations of the front cavity liner plate 150, the front cavity plate 130 and the upper fixing plate 110, the upper fixing plate 110 is provided with a fixing mounting hole 111, the front cavity liner plate 150 is provided with a liner plate mounting hole 151, the fixing mounting hole 111 is communicated with the liner plate mounting hole 151, the front cavity plate 130 is provided with a cavity plate mounting hole 131, and the cavity plate mounting hole 131 is communicated with the liner plate mounting hole 151, so that the front cavity liner plate 150, the front cavity plate 130 and the upper fixing plate 110 can be assembled and fixed by adopting screw or bolt and other threaded connectors, so that the overall disassembly and assembly operations are more convenient.

Further, in an embodiment, the locking block 220 is provided with a locking mounting hole 222, the upper fixing plate 110 is provided with a locking fixing hole 112, when the locking block 220 is arranged in the mounting adjustment gap 140, the locking mounting hole 222 is communicated with the locking fixing hole 112, in this embodiment, the locking mounting hole 222 is a countersunk hole, and the locking fixing hole 112 is a threaded hole, so that the locking block 220 can be detachably mounted on the upper fixing plate 110 through a screw or bolt and other threaded parts, so that the overall dismounting operation is faster and more convenient; for another example, two adjusting and locking assemblies 200 are provided, and the two adjusting and locking assemblies 200 are respectively arranged on two side surfaces of the front mold core plate 130, so that the adjusting and locking assemblies 200 are arranged on two adjacent side surfaces of the front mold core plate 130, thereby being capable of better adapting to the installation operation of the front mold core plate 130 with different specifications and further improving the adaptability of the integral injection mold; for another example, a front mold forming groove is formed on the front mold core plate 130, so that the corresponding product structure can be injection molded through the front mold forming groove; for example, the upper fixing plate 110 is provided with a first connecting hole, the front template 120 is provided with a second connecting hole, and the first connecting hole is communicated with the second connecting hole, so that the front template 120 can be installed and fixed on the upper fixing plate 110 by adopting a screw or bolt mode, and the whole dismounting operation is faster and more convenient.

In an embodiment, please refer to fig. 4 again, an injection mold 20, including the above-mentioned mold installation structure 10 and back module 30 of being convenient for dismouting, back module 30 is connected with front module 100, so, can form the injection molding die cavity that corresponds through back module 30 and front module 100 mutually supporting, simultaneously, back module 30 can adopt the structural design the same with front module 100, thereby can adopt assorted regulation locking subassembly 200 to install the back mould benevolence board of back module 30 and fix a position, can make holistic injection molding dismouting operation more convenient from this, and the adaptability can be effectively improved, can save holistic manufacturing cost simultaneously.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model, which are within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. Die mounting structure convenient to dismouting, its characterized in that includes:

the front die assembly comprises an upper fixing plate, a front die plate and a front die core plate, wherein the front die plate is arranged on the upper fixing plate, a front die mounting hole is formed in the front die plate, the front die core plate is arranged in the front die mounting hole, the front die core plate is detachably connected with the upper fixing plate, and a mounting adjusting gap is formed between the front die core plate and the hole wall of the front die mounting hole; a kind of electronic device with high-pressure air-conditioning system

The adjusting and locking assembly comprises an adjusting and positioning block and a locking block, the adjusting and positioning block and the locking block are respectively arranged in the installation and adjustment gap, the adjusting and positioning block is respectively propped against the front mold core plate and the locking block, the locking block is detachably connected with the upper fixing plate, and when the locking block is connected with the upper fixing plate, the adjusting and positioning block is used for pressing and fixing the front mold core plate in the front mold installation hole.

2. The mold mounting structure of claim 1, wherein the front mold assembly further comprises a front mold insert pad disposed in the front mold mounting hole and between the front mold insert plate and the upper fixing plate.

3. The mold mounting structure for easy disassembly and assembly according to claim 2, wherein the upper fixing plate is provided with a fixing mounting hole, the front mold insert base plate is provided with a base plate mounting hole, and the fixing mounting hole is communicated with the base plate mounting hole.

4. The mold mounting structure for easy disassembly and assembly according to claim 3, wherein the front cavity plate is provided with a cavity plate mounting hole, and the cavity plate mounting hole is communicated with the base plate mounting hole.

5. The mold mounting structure for easy disassembly and assembly according to claim 1, wherein the adjusting positioning block is provided with a first guiding inclined plane, the locking block is provided with a second guiding inclined plane, and the first guiding inclined plane abuts against the second guiding inclined plane.

6. The mold mounting structure for easy disassembly and assembly according to claim 5, wherein the adjusting positioning block is provided with a first supporting plane, and the first supporting plane is supported against the front mold core plate.

7. The mold mounting structure for easy dismounting according to claim 5, wherein a second abutment plane is provided on the lock block, the second abutment plane being abutted against the wall of the front mold mounting hole.

8. The mold mounting structure for easy disassembly and assembly according to claim 1, wherein the locking block is provided with a locking mounting hole, the upper fixing plate is provided with a locking fixing hole, and the locking mounting hole is communicated with the locking fixing hole when the locking block is arranged in the mounting adjustment gap.

9. The mold mounting structure for easy disassembly and assembly according to claim 1, wherein two adjusting and locking assemblies are provided, and the two adjusting and locking assemblies are respectively arranged on two side surfaces of the front mold core plate.

10. An injection mold comprising the mold mounting structure for facilitating disassembly and assembly according to any one of claims 1 to 9, further comprising a rear mold assembly connected to the front mold assembly.