CN219133041U - Efficient energy-saving die - Google Patents

Abstract

The utility model discloses a high-efficiency energy-saving die, and particularly relates to the field of dies, which comprises a die base, wherein a lower die is arranged on the outer side of the upper end of the die base, an upper die is arranged on the outer side of the upper end of the lower die, a die top cover is arranged on the outer side of the upper end of the upper die, a first concave lower clamping groove is arranged in the middle of the upper end of the die base, a first concave upper clamping groove is arranged in the middle of the lower end of the lower die, a first radiating pipe is arranged in the first concave lower clamping groove, and a second concave lower clamping groove is fixedly arranged in the middle of the upper end of the upper die. In actual use, the stability and accuracy of die mounting and connection can be conveniently increased through the corresponding arrangement states of the limiting slide bar, the limiting clamping hole, the first limiting convex block, the first adapting clamping groove, the first concave adapting groove, the first adapting clamping rod, the second limiting convex block, the second adapting clamping rod, the second concave adapting groove and the second adapting clamping groove.

Description

Efficient energy-saving die

Technical Field

The utility model relates to the field of dies, in particular to a high-efficiency energy-saving die.

Background

The plastic mold structure and the mold condition often have obvious influence on injection molding cycle and processing energy consumption, and reasonable mold planning including runner planning, sprue form, cavity number, heating and cooling water channels and the like are beneficial to reducing energy consumption, so that the profiling quick-cooling and quick-heating mold can obviously save processing energy consumption and realize better surface quality. An energy-saving die described in the publication number (CN 207616971U) comprises a shaping die device, a water tank and a water tank, wherein the shaping die device comprises a shaping die I and a shaping die II, a plurality of vacuum connectors are respectively arranged on the upper part and the lower part of the shaping die I and the shaping die II, an adhesive tape seal is arranged on the connecting surface of the shaping die I and the shaping die II, the other side surface of the shaping die II is connected with a shaping die sealing plate, an adhesive tape seal is arranged between the shaping die II and the shaping die sealing plate, a vacuum groove is arranged in the shaping die sealing plate, and the shaping die I and the shaping die II are respectively provided with a rectangular water tank attached with a large surface of a shaping die cavity.

When the equipment is used, the rectangular water tank attached to the outer end of the die is used for carrying out heat dissipation treatment on the pouring solution in the die, but the heat dissipation treatment is uneven, so that the pouring solution in the die is easy to turn over, even the die frying phenomenon occurs, the use of the die and the safety of workers are influenced, and the energy consumption is reduced less.

Disclosure of Invention

In order to overcome the defects in the prior art, the embodiment of the utility model provides a high-efficiency energy-saving die, which aims to solve the technical problems that: and adjusting how to increase the uniformity of cooling of the pouring solution.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an efficient energy-saving die, includes the mould base, the outside of mould base upper end is equipped with the bed die, the outside of bed die upper end is equipped with the mould, the outside of going up the mould upper end is equipped with the mould top cap, the middle part of mould base upper end is equipped with first spill draw-in groove down, the middle part of bed die lower extreme is equipped with first spill draw-in groove, the inside of draw-in groove is equipped with first cooling tube down in first spill, the fixed second spill draw-in groove that is equipped with in middle part of the upper end of mould, the inside of second spill draw-in groove is equipped with the second cooling tube down, the fixed second spacing lug that is equipped with in one side of upper end of mould upper end, the fixed second adaptation draw-in bar that is equipped with in middle part of second spacing lug upper end, the fixed second spill upper clamping groove that is equipped with in middle part of mould top cap lower extreme, the fixed second adaptation clamping groove that is equipped with in one side of second adaptation clamping groove, the fixed one side of the upper end of mould top cap is equipped with the second spill draw-in groove, one side of the fixed face of second recess top cap is equipped with the second recess, the terminal surface and the first cooling tube is equipped with the first cooling tube and the first cooling liquid inlet and the equal end of cooling tube is kept away from.

In a preferred embodiment, the upper end of the die base is fixedly provided with a limit slide bar at the outer side of the first concave lower clamping groove, the middle part of the upper end of the lower die is fixedly provided with a concave lower die groove, one side of the upper end of the lower die is fixedly provided with a first limit bump, the upper end of the first limit bump is provided with a first concave adapting groove, the lower end of the upper die is fixedly provided with a convex lower die block, one side of the lower end of the upper die is fixedly provided with a first adapting clamping groove, the inside of the first adapting clamping groove is provided with a first adapting clamping rod, the side end parts of the die base, the lower die, the upper die and the die top cover are all provided with movable clamping holes, and the lower die, the upper die and the die top cover are fixedly provided with limit clamping holes at the end parts close to the side surfaces.

In a preferred embodiment, the number of the limiting slide bars is multiple, and the limiting slide bars are correspondingly arranged at four corners of the upper end of the die base, the number of the first limiting convex blocks and the first adapting clamping grooves are both two, and are correspondingly arranged at two sides of the vertical central axis of the main viewing direction of the lower die and the upper die, the number of the first concave adapting grooves and the first adapting clamping rods is two, and are correspondingly arranged at two sides of the horizontal central axis of the overlooking direction of the lower die, and the first concave adapting grooves are matched with the first adapting clamping rods through clamping.

In a preferred embodiment, the number of the moving clamping holes is two, each moving clamping hole is two, the two moving clamping holes are correspondingly arranged on two sides of the transverse central axis in the overlooking direction of the die base, the lower die, the upper die and the die top cover, the number of the limiting clamping holes is multiple, the limiting clamping holes are correspondingly arranged on the end faces of the die base, the lower die, the upper die and the die top cover, and the limiting clamping holes are matched with the limiting sliding rods through clamping.

In a preferred embodiment, the inner end surfaces of the first concave lower clamping groove, the second concave lower clamping groove and the second concave upper clamping groove are matched with the outer end surface of the first radiating pipe, and the liquid outlet and the liquid inlet are connected with an external liquid guide pipeline.

In a preferred embodiment, the number of the second limiting protruding blocks, the second adapting clamping rods and the second concave adapting grooves is two, each group is provided with two, and the two groups of the second limiting protruding blocks, the second adapting clamping rods and the second concave adapting grooves are correspondingly arranged on two sides of the transverse central axis in the overlooking direction of the upper die and the die top cover.

The utility model has the technical effects and advantages that:

the utility model discloses during in-service use, through spacing slide bar, spacing draw-in hole, first spacing lug, first adaptation draw-in groove, first spill adaptation groove, first adaptation draw-in lever, the spacing lug of second, the second adaptation draw-in lever, the stability and the accuracy that can conveniently increase mould installation connection under the corresponding setting state of second spill adaptation groove and second adaptation draw-in groove, draw-in groove under the first spill that sets up simultaneously, first cooling tube, draw-in groove on the first spill, draw-in groove under the second spill, can increase the inside work piece refrigerated efficiency of mould under the corresponding setting state of draw-in groove on second cooling tube and the second spill, thereby can increase the inside work piece refrigerated homogeneity of mould under the corresponding setting state of two cooling tubes.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model.

FIG. 2 is a schematic diagram of the overall rear view structure of the present utility model

Fig. 3 is a schematic view of a front view in cross section.

Fig. 4 is a schematic diagram of the overall connection structure of the present utility model.

Fig. 5 is a schematic view of the whole connection bottom structure of the present utility model.

The reference numerals are: the die comprises a die base, a lower die, an upper die, a die top cover, a die hole 5, a liquid inlet 6, a liquid outlet 7, a first concave lower clamping groove 8, a limit sliding rod 9, a first limit lug 10, a first concave adapting groove 11, a second limit lug 12, a second adapting clamping rod 13, a second concave lower clamping groove 14, a second radiating pipe 15, a moving clamping hole 16, a concave lower die groove 17, a second concave adapting groove 18, a limit clamping hole 19, a first radiating pipe 20, a first concave upper clamping groove 21, a first adapting clamping rod 22, a first adapting clamping groove 23, a second concave upper clamping groove 24, a convex lower module 25 and a second adapting clamping groove 26.

Detailed Description

The utility model provides a high-efficiency energy-saving die as shown in fig. 1-5, which comprises a die base 1, wherein a lower die 2 is arranged on the outer side of the upper end of the die base 1, an upper die 3 is arranged on the outer side of the upper end of the lower die 2, a die top cover 4 is arranged on the outer side of the upper end of the upper die 3, a first concave lower clamping groove 8 is arranged in the middle of the upper end of the die base 1, a first concave upper clamping groove 21 is arranged in the middle of the lower end of the lower die 2, a first radiating pipe 20 is arranged in the first concave lower clamping groove 8, a second concave lower clamping groove 14 is fixedly arranged in the middle of the upper end of the upper die 3, a second radiating pipe 15 is arranged in the second concave lower clamping groove 14, a second limiting lug 12 is fixedly arranged in the middle of the upper end of the upper die 3, a second adapting clamping rod 13 is fixedly arranged in the middle of the upper end of the second limiting lug 12, a second concave upper clamping groove 24 is fixedly arranged in the middle of the lower end of the die top cover 4, a second adapting clamping groove 26 is fixedly arranged in one side of the lower end of the die top cover 4, a second liquid inlet pipe 20 is fixedly arranged in the middle of the second concave clamping groove 26 and is fixedly arranged in the middle of the upper end of the upper die top cover 12, and a second liquid inlet pipe 20 is fixedly arranged at one side of the second concave end surface 20 and the second liquid inlet pipe 20 is fixedly arranged at the end of the second liquid inlet pipe 20.

Further, in the above scheme, the fixed stop slide bar 9 that is equipped with in the outside of first spill lower draw-in groove 8 of mould base 1 upper end, the fixed spill lower mould groove 17 that is equipped with in middle part of bed die 2 upper end, the fixed first spacing lug 10 that is equipped with in one side of bed die 2 upper end, the upper end of first spacing lug 10 is equipped with first spill adaptation groove 11, the fixed convex lower module 25 that is equipped with in lower extreme of bed die 3, the fixed first adaptation draw-in groove 23 that is equipped with in one side of bed die 3 lower extreme, the inside of first adaptation draw-in groove 23 is equipped with first adaptation draw-in lever 22, the side tip of mould base 1, bed die 2, bed die 3 and mould top cap 4 all is equipped with the removal draw-in hole 16, the fixed spacing draw-in hole 19 that is equipped with in the tip that is close to the side of bed die 2, bed die 3 and mould top cap 4.

Further, in the above-mentioned scheme, the quantity of spacing slide bar 9 is equipped with a plurality of, and corresponds the four corners that sets up in mould base 1 upper end, can increase the convenience of bed die 2, go up mould 3 and the installation of mould top cap 4 through spacing slide bar 9, the quantity of first spacing lug 10 and first adaptation draw-in groove 23 all is equipped with two, and corresponds the both sides that set up the vertical central axis in bed die 2 and last mould 3 main vision direction, the quantity of first spill adaptation groove 11 and first adaptation draw-in bar 22 is equipped with two, and corresponds the both sides that set up the horizontal central axis in bed die 2 overlook the direction, first spill adaptation groove 11 and first adaptation draw-in bar 22 pass through joint looks adaptation, the stability and the accuracy that first spacing lug 10 and first adaptation draw-in groove 23 are connected through the joint looks adaptation, the quantity of removal draw-in hole 16 all is equipped with two sets, and two sets of removal draw-in hole 16 all correspond the both sides that set up in mould base 1, bed die 2, 3, top cap 2, top cap 3, top cap 2, 3 and top cap 4 can be equipped with the mould base 1, top cap 2, 3, top cap 4 and 3, top cap 4 through the die 1, the top cap 2, the top cap is located to be located to the mould, and the mould is located to the mould 2.

Further, in the above-mentioned scheme, draw-in groove 14 and second concave lower draw-in groove 14 and second concave upper clamping groove 24's interior terminal surface and the outer terminal surface looks adaptation of first cooling tube 20 under the first concave, can conveniently install and dismantle first cooling tube 20 and second cooling tube 15 to conveniently carry out inspection and maintenance to it, can improve the inside work piece refrigerated efficiency of mould simultaneously, liquid outlet 7 all is connected with outside catheter tube with feed liquor hole 6, the quantity of second spacing lug 12, second adaptation clamping lever 13 and second concave adaptation groove 18 all is equipped with two sets of, and every group all is equipped with two sets of second spacing lugs 12, second adaptation clamping lever 13 and second concave adaptation groove 18 correspond the setting on the both sides of the horizontal central axis of mould 3 and mould top cap 4 overlook the direction, can increase the stability that mould top cap 4 is connected with last mould 3.

The working principle of the utility model is as follows:

when the radiator is virtually installed and used, the first radiating pipe 20 is placed in the first concave lower clamping groove 8, then the lower die 2 is installed at the upper end of the die base 1, then the upper die 3 is stably installed at the upper end of the lower die 2, then the second radiating pipe 15 is installed at the upper end of the second concave lower clamping groove 14, then the die top cover 4 is installed at the upper end of the upper die 3, then the liquid inlet holes 6 and the liquid outlet 7 at one ends of the first radiating pipe 20 and the second radiating pipe 15 are connected with an external liquid conveying pipe, so that the radiator can be used, and pouring solution from the die building holes 5 into the die can control the external liquid conveying equipment to slowly guide cooling liquid into the first radiating pipe 20 and the second radiating pipe 15.

Claims (6)

1. The utility model provides an energy-conserving mould of high efficiency, includes mould base (1), its characterized in that: the outside of mould base (1) upper end is equipped with bed die (2), the outside of bed die (2) upper end is equipped with mould (3), the outside of mould (3) upper end is equipped with mould top cap (4), the middle part of mould base (1) upper end is equipped with first spill lower clamping groove (8), the middle part of bed die (2) lower extreme is equipped with first spill upper clamping groove (21), the inside of first spill lower clamping groove (8) is equipped with first cooling tube (20), the middle part of the upper end of mould (3) is fixed and is equipped with second spill lower clamping groove (14), the inside of second spill lower clamping groove (14) is equipped with second cooling tube (15), the fixed second spacing lug (12) that is equipped with in one side of upper end of mould (3), the fixed second adaptation clamping rod (13) that is equipped with in middle part of second spacing lug (12) upper end, the fixed second spill upper clamping groove (24) that is equipped with in middle part of mould (4) lower end, the fixed top cap (26) that is equipped with of mould top cap (4) lower end is equipped with second spill lower clamping groove (26), the fixed top cap (18) that is equipped with inside die (5), the liquid inlet holes (6) are formed in one side end faces of the first radiating pipe (20) and the second radiating pipe (15), and a liquid outlet (7) is fixedly formed in one end, far away from the liquid inlet holes (6), of the first radiating pipe (20) and the second radiating pipe (15).

2. A high efficiency energy efficient mold according to claim 1, wherein: the die comprises a die base (1), wherein a limiting slide rod (9) is fixedly arranged at the outer side of a first concave lower clamping groove (8), a concave lower die groove (17) is fixedly arranged in the middle of the upper end of a lower die (2), a first limiting convex block (10) is fixedly arranged at one side of the upper end of the lower die (2), a first concave adapting groove (11) is arranged at the upper end of the first limiting convex block (10), a convex lower die (25) is fixedly arranged at the lower end of an upper die (3), a first adapting clamping groove (23) is fixedly arranged at one side of the lower end of the upper die (3), a first adapting clamping rod (22) is arranged in the first adapting clamping groove (23), a movable clamping hole (16) is formed in the side end parts of the die base (1), the lower die (2), the upper die (3) and a die top cover (4), and a limiting clamping hole (19) is fixedly arranged at the end part close to the side surface.

3. A high efficiency energy efficient die according to claim 2, wherein: the quantity of spacing slide bar (9) is equipped with a plurality of, and corresponds the four corners that sets up in mould base (1) upper end, the quantity of first spacing lug (10) and first adaptation draw-in groove (23) all is equipped with two, and corresponds the both sides that set up the vertical central axis in direction is looked in bed die (2) and last mould (3), the quantity of first spill adaptation groove (11) and first adaptation draw-in bar (22) is equipped with two, and corresponds the both sides that set up the horizontal central axis in the bed die (2) overlook the direction, first spill adaptation groove (11) and first adaptation draw-in bar (22) pass through joint looks adaptation, first spacing lug (10) and first adaptation draw-in groove (23) pass through joint looks adaptation.

4. A high efficiency energy efficient die according to claim 2, wherein: the number of the movable clamping holes (16) is two, each group is provided with two groups, the two groups of the movable clamping holes (16) are correspondingly arranged on two sides of a transverse central axis in the overlooking direction of the die base (1), the lower die (2), the upper die (3) and the die top cover (4), a plurality of limiting clamping holes (19) are correspondingly arranged on the end faces of the die base (1), the lower die (2), the upper die (3) and the die top cover (4), and the limiting clamping holes (19) are matched with the limiting sliding rods (9) through clamping.

5. A high efficiency energy efficient mold according to claim 1, wherein: the first concave lower clamping groove (8) is matched with the second concave lower clamping groove (14) and the second concave lower clamping groove (14) is matched with the inner end face of the second concave upper clamping groove (24) and the outer end face of the first radiating pipe (20), and the liquid outlet (7) and the liquid inlet hole (6) are connected with an external liquid guide pipeline.

6. A high efficiency energy efficient mold according to claim 1, wherein: the number of the second limiting protruding blocks (12), the second adapting clamping rods (13) and the second concave adapting grooves (18) is two, each group is provided with two, and the two groups of the second limiting protruding blocks (12), the second adapting clamping rods (13) and the second concave adapting grooves (18) are correspondingly arranged on two sides of the transverse central axis in the overlooking direction of the upper die (3) and the die top cover (4).

Images