CN219427343U - SMC multilayer stack mould pressing mould - Google Patents

Abstract

The utility model discloses an SMC multilayer overlapped mould pressing mould which comprises a water gap plate and an A plate, wherein the water gap plate is connected with the A plate at the lower end through an inner side plate, sleeved columns at the upper end and the lower end of the inner side plate are inserted into the inner positions of the water gap plate and the A plate, the inner side plate is attached to connecting plates at the outer wall positions of the water gap plate and the A plate, the connecting plates are attached to the outer wall positions when the water gap plate and the A plate are fixed with the sleeved columns, the inner side plate plays a limiting role on the water gap plate and the A plate through the sleeved columns, openings are formed at the two side positions of each plate, the inner side plate is inserted into the connecting positions of the openings, the limiting effect can be achieved when the sleeved columns are inserted into the inner positions of fixing holes at the side positions of the plates, and the connecting plates are attached to the outer wall positions when the inner side plate is attached to the two plates.

Description

SMC multilayer stack mould pressing mould

Technical Field

The utility model belongs to the technical field of SMC multilayer overlapped molding dies, and particularly relates to an SMC multilayer overlapped molding die.

Background

The mould is used for producing various moulds and tools for injection moulding, blow moulding, extrusion, die casting or forging, smelting, stamping and other methods to obtain the required products, in short, the mould is a tool for manufacturing shaped articles, the tool is composed of various parts, and different moulds are composed of different parts, and the processing of the appearance of the articles is realized mainly through the change of the physical state of the shaped materials.

When the SMC multi-layer overlapped mould pressing mould is used, each plate works, and if deviation occurs during connection, the normal production of the mould is affected, so that a device is needed in the market to solve the current problems.

Disclosure of Invention

The utility model aims to provide an SMC multi-layer stacked die, which solves the problems that when a jacketing machine is used, when the jacketing machine is used, the normal production of the die is affected if deviation occurs in connection of each plate when each plate works, so that a device is needed in the market to solve the problems faced at present.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a SMC multilayer stack mould pressing mould, includes mouth of a river board and A board, and mouth of a river board is connected through the interior curb plate with the A board of lower extreme position department, and the post that cup joints of both ends position department inserts the inside position department of mouth of a river board and A board about the interior curb plate, hugs closely the connecting plate in mouth of a river board and A board outer wall position department, the inboard board laminating is in the inboard position department of mouth of a river board and A board, mouth of a river board and A board are hugged closely the connecting plate in outer wall position department when fixed with cup jointing the post, the inboard board plays spacing effect to mouth of a river board and A board through cup jointing the post.

Preferably, the inner side plate is kept perpendicular to the connection plate.

Preferably, the water gap plate and the A plate are fixed with the inner side plate and are provided with square grooves at the side positions.

Preferably, the sleeve joint column can limit the position of the water gap plate A at the inner position of the water gap plate and the water gap plate A.

Preferably, a front die fixing plate is fixed at the upper end position of the nozzle plate, the front die fixing plate is limited by a positioning ring at the upper end position, a guide pillar is arranged at the inner position of the front die fixing plate, and a guide sleeve is sleeved at the outer position of the guide pillar.

Preferably, the positioning ring is connected with the front mould fixing plate through a cup head screw at the inner side position, and the positioning ring is communicated to the water gap plate through a water gap crochet hook.

Preferably, the A plate is plugged by a nylon plug at an inner position, and the A plate is provided with a pull rod at the inner position for stretching.

Preferably, the lower extreme position department of A board is provided with the B board, the lower extreme position department of B board is connected with the backing plate, the lower extreme position department of backing plate is provided with the square iron.

Preferably, the inside position department of square iron is provided with the thimble panel, the lower extreme position department of thimble panel is connected with the thimble bottom plate, the upper end position department of thimble panel is provided with flat thimble, the lower extreme position department of square iron is connected with the back mould fixed plate.

Preferably, the back mould fixed plate is provided with the briquetting in inboard position department, the back mould fixed plate communicates with thimble panel and thimble bottom plate through propping the head, the back mould fixed plate is fixed through the fixed orifices of lower extreme both sides position department.

Compared with the prior art, the utility model provides an SMC multilayer overlapped mould pressing mould, which has the following beneficial effects:

the two sides of each plate are provided with openings, the inner side plates are inserted into the opening connection positions, the sleeve joint columns are inserted into the positions inside the fixing holes at the side positions of the plates, the limiting effect can be achieved when the two plates are connected, and the connecting plates are attached to the outer wall positions when the inner side plates are attached to the two plates.

In order to work the die, fixing holes are formed in two sides of the lower end of the rear die fixing plate, and the fixing holes are used for fixing the fixing holes and bolts when the die and the tabletop are fixed, so that the die is prevented from being displaced during work.

Drawings

Fig. 1 is a schematic structural diagram of an SMC multilayer stacked molding die of the present utility model.

Fig. 2 is a schematic diagram of a connection plate structure of an SMC multi-layer stacked molding die according to the present utility model.

In the figure: 1. a front mold fixing plate; 2. a nozzle plate; 3. a plate A; 4. a pull rod; 5. a B plate; 6. a backing plate; 7. square iron; 8. a rear mold fixing plate; 9. a flat thimble; 10. a support head; 11. briquetting; 12. a fixing hole; 13. a thimble bottom plate; 14. a thimble panel; 15. a connecting plate; 16. guide sleeve; 17. a guide post; 18. a cup head screw; 19. sleeving a column; 20. a positioning ring; 21. a water gap crochet hook; 22. nylon plugs; 23. an inner side plate.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides an SMC multilayer overlapped mould pressing mould shown in figures 1-2, which comprises a water gap plate 2 and an A plate 3, wherein the water gap plate 2 is connected with the A plate 3 at the lower end position through an inner side plate 23, sleeved posts 19 at the upper end position and the lower end position of the inner side plate 23 are inserted into the inner positions of the water gap plate 2 and the A plate 3, connecting plates 15 are tightly attached to the outer wall positions of the water gap plate 2 and the A plate 3, the inner side plate 23 is attached to the inner side positions of the water gap plate 2 and the A plate 3, the connecting plates 15 are tightly attached to the outer wall positions when the water gap plate 2 and the A plate 3 are fixed with the sleeved posts 19, and the inner side plate 23 plays a limiting role on the water gap plate 2 and the A plate 3 through the sleeved posts 19.

The socket post 19 is inserted into the inner position of the fixed round hole to play a limiting role by inserting the inner side plate 23 into the connecting position of the two plates, and when the inner side plate 23 enters into the inner position, the connecting plate 15 is attached to the outer wall position.

As shown in fig. 1 and 2, the inner plate 23 is kept perpendicular to the connecting plate 15, the nozzle plate 2 and the a plate 3 are fixed with the inner plate 23, square grooves are formed at side positions, and the socket posts 19 can limit the position of the nozzle plate 2 and the a plate 3 at the inner positions inserted into the nozzle plate 2 and the a plate 3.

Openings are formed in the two side positions of each plate, the inner side plate 23 is inserted into the connecting position of the openings, the socket posts 19 are inserted into the inner positions of the fixing holes 12 in the side positions of the plates, the limiting effect can be achieved when the two plates are connected, and the connecting plate 15 is attached to the outer wall position when the inner side plate 23 is attached to the two plates.

As shown in fig. 1, a front mold fixing plate 1 is fixed at the upper end position of a nozzle plate 2, the front mold fixing plate 1 is limited by a positioning ring 20 at the upper end position, the front mold fixing plate 1 is provided with a guide pillar 17 at the inner end position, the guide pillar 17 is sleeved with a guide sleeve 16 at the outer end position, the positioning ring 20 is connected with the front mold fixing plate 1 by a cup head screw 18 at the inner side position, the positioning ring 20 is communicated with the nozzle plate 2 by a nozzle hook 21, an a plate 3 is blocked by a nylon plug 22 at the inner side position, the a plate 3 is provided with a pull rod 4 for stretching at the inner side position, the lower end position of the a plate 3 is provided with a B plate 5, the lower end position of the B plate 5 is connected with a backing plate 6, the lower end position of the backing plate 6 is provided with a square iron 7, the inner position of the square iron 7 is provided with a thimble panel 14, the lower end position of the thimble panel 14 is connected with a thimble bottom plate 13, the upper end position of the thimble panel 14 is provided with a flat thimble 9, the lower end position of the square iron 7 is connected with a rear mold fixing plate 8, the rear mold fixing plate 8 is provided with a pressing block 11 at the inner side position, and the lower end position of the thimble panel 11 is fixedly connected with two sides of the bottom plate 12 by the die plate 8 through the supporting plate 10.

The die belongs to a multi-layer laminating die, and in order to work the die, fixing holes 12 are formed in two side positions of the lower end of the rear die fixing plate 8, and the fixing holes 12 are used for fixing the fixing holes 12 with bolts when the die is fixed with a tabletop, so that the die is prevented from being displaced during work.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (10)

1. The utility model provides a SMC multilayer stack mould pressing mould, includes mouth of a river board (2) and A board (3), and mouth of a river board (2) are connected through interior curb plate (23) with A board (3) of lower extreme position department, and socket joint post (19) of both ends position department insert mouth of a river board (2) and A board (3) inside position department about interior board (23), hugs closely connecting plate (15) in mouth of a river board (2) and A board (3) outer wall position department, its characterized in that: the inner side plate (23) is attached to the inner side positions of the water gap plate (2) and the A plate (3), the water gap plate (2) and the A plate (3) are attached to the outer wall positions by the connecting plate (15) when being fixed with the sleeve joint column (19), and the inner side plate (23) plays a limiting role on the water gap plate (2) and the A plate (3) through the sleeve joint column (19).

2. The SMC multi-layer stack molding die of claim 1 wherein: the inner side plate (23) is kept perpendicular to the connecting plate (15).

3. An SMC multilayer stack molding die as in claim 2, wherein: the water gap plate (2) and the A plate (3) are fixed with the inner side plate (23) at the side edge position and are provided with square grooves.

4. A SMC multilayer stack molding die as claimed in claim 3, characterized in that: the sleeve joint column (19) can limit the position of the water gap plate (2) and the A plate (3) at the inner positions of the water gap plate (2) and the A plate (3).

5. The SMC multi-layer stack molding die of claim 1 wherein: the water gap plate is characterized in that a front die fixing plate (1) is fixed at the upper end position of the water gap plate (2), the front die fixing plate (1) is limited by a locating ring (20) at the upper end position, a guide pillar (17) is arranged at the inner position of the front die fixing plate (1), and a guide sleeve (16) is sleeved at the outer position of the guide pillar (17).

6. The SMC multilayer stack molding die of claim 5 wherein: the positioning ring (20) is connected with the front die fixing plate (1) through a cup head screw (18) at the inner side position, and the positioning ring (20) is communicated to the water gap plate (2) through a water gap crochet hook (21).

7. The SMC multi-layer stack molding die of claim 1 wherein: the A plate (3) is blocked by a nylon plug (22) at the inner position, and a pull rod (4) is arranged at the inner position of the A plate (3) for stretching.

8. The SMC multilayer stack molding die of claim 7 wherein: the lower extreme position department of A board (3) is provided with B board (5), the lower extreme position department of B board (5) is connected with backing plate (6), the lower extreme position department of backing plate (6) is provided with square iron (7).

9. The SMC multi-layer stack mold of claim 8 wherein: the inside position department of square iron (7) is provided with thimble panel (14), the lower extreme position department of thimble panel (14) is connected with thimble bottom plate (13), the upper end position department of thimble panel (14) is provided with flat thimble (9), the lower extreme position department of square iron (7) is connected with back mould fixed plate (8).

10. The SMC multi-layer stack mold of claim 9 wherein: the rear die fixing plate (8) is provided with a pressing block (11) at the inner side position, the rear die fixing plate (8) is communicated with the thimble panel (14) and the thimble bottom plate (13) through the supporting head (10), and the rear die fixing plate (8) is fixed through fixing holes (12) at the two side positions of the lower end.