CN215090597U - Simple and easy mould temperature auxiliary control integrator - Google Patents

Abstract

The utility model discloses a simple mold temperature auxiliary control integrator, which comprises a mold frame, a mold core and a moving block, wherein the mold core is inserted and sleeved in a mounting groove formed in the middle of the top surface of the mold frame, and the mold core is fixed on the bottom surface of the mounting groove; a mounting slot is formed in the top surface of the left part of the die core, a moving block is inserted and sleeved in the mounting slot, and the bottom surface of the moving block is pressed against the bottom surface of the mounting slot; the left part, the right part, the front part and the rear part of the die frame are respectively provided with a left circulation hole, a right circulation hole, a front circulation hole and a rear circulation hole; it all sets up cooling line alone on framed, mould benevolence and movable block, cooperates many mould temperature machines to make it can the local region temperature of independent control to can guarantee that the temperature in every region reaches the production technology needs, control is nimble, and is effectual, because the cooling system in every region sets up alone moreover, makes its cooling line structure all very simple, makes things convenient for manufacturing, maintenance and maintenance.

Description

Simple and easy mould temperature auxiliary control integrator

The technical field is as follows:

the utility model relates to a mould processing equipment field, more specifically say and relate to a simple and easy mould temperature auxiliary control integrator.

Background art:

in the existing die-casting forming process, all need to set up cooling pipeline in its mould, temperature control when guaranteeing the mould shaping, guarantee the fashioned effect of mould, current mode is exactly to set up the cooling pipeline of establishing ties on the framed, its pipeline is complicated, the installation is troublesome, and in case the circulation, it is just integral cooling, can't control the mould temperature of different positions according to the mould temperature machine in service behavior, especially the relatively thick region of shaping, it is lower to need the controlled temperature, the very thin place in shaping region needs the controlled temperature on the low side again, the unable quick control mould benevolence of ordinary series connection oil circuit corresponds the temperature of department, its effect is limited.

The utility model has the following contents:

the utility model aims at overcoming prior art's is not enough, a simple and easy mould temperature auxiliary control integrator is provided, it all sets up the cooling pipeline alone on framed, mould benevolence and movable block, many mould temperature machines of cooperation make it can the local area temperature of independent control, thereby can guarantee that the temperature in every region reaches the production technology needs, control is nimble, and is effectual, and because every regional cooling system sets up alone, make its cooling pipeline structure all very simple, convenient manufacturing, maintenance and maintenance.

The utility model provides a technical problem's scheme is:

a simple auxiliary control integrator for the temperature of a die comprises a die frame, a die core and a moving block, wherein the die core is inserted and sleeved in a mounting groove formed in the middle of the top surface of the die frame, and the die core is fixed on the bottom surface of the mounting groove;

a mounting slot is formed in the top surface of the left part of the die core, a moving block is inserted and sleeved in the mounting slot, and the bottom surface of the moving block is pressed against the bottom surface of the mounting slot;

the left part, the right part, the front part and the rear part of the die frame are respectively provided with a left circulation hole, a right circulation hole, a front circulation hole and a rear circulation hole, the front end of the left circulation hole is communicated with the left part of the front circulation hole, the rear end of the left circulation hole is communicated with the left part of the rear circulation hole, and the front part of the right circulation hole is communicated with the right part of the front circulation hole;

a mold frame integrated block is fixed on one side wall of the mold frame, the right part of the rear circulation hole is communicated with a liquid inlet hole of the mold frame integrated block, and the rear part of the right circulation hole is communicated with a liquid outlet hole of the mold frame integrated block;

a plurality of connecting through holes which penetrate through the mold core in the front and back direction are formed in the middle of the mold core, a plurality of outer connecting through holes which are aligned with the corresponding connecting through holes are formed in the front wall surface and the back wall surface of the mounting groove of the mold frame, outer connecting pipes are inserted in the corresponding outer connecting through holes, the inner ends of the outer connecting pipes are communicated with one ends of the corresponding connecting through holes, the outer ends of two adjacent outer connecting pipes are communicated with the two ends of the corresponding middle connecting pipe in all the outer connecting pipes on the same side, and all the outer connecting pipes, the middle connecting pipes and the connecting through holes form an s-shaped coiled pipeline;

and a mold core integrated block is fixed on the outer side wall of one side of the mold frame, the liquid inlet end of the s-shaped coiling pipeline is communicated with the liquid inlet hole of the mold frame integrated block, and the liquid outlet end of the s-shaped coiling pipeline is communicated with the liquid outlet hole of the mold frame integrated block.

The right part of the moving block is formed with transverse circulation holes extending forwards and backwards, the front part and the rear part of the left side wall of the moving block are formed with connecting circulation holes extending rightwards, the right ends of the two connecting circulation holes are respectively communicated with the front part and the rear part of the transverse circulation holes, the left side wall of the mold frame is fixedly provided with a moving integrated block, and the left ends of the two connecting circulation holes are respectively communicated with a liquid inlet hole and a liquid outlet hole of the moving integrated block.

The die frame integrated block, the die core integrated block and the movable integrated block comprise main block bodies, the main block bodies are fixed on corresponding side walls of the die frame, liquid inlet holes and liquid outlet holes are formed in the outer wall surfaces of the main block bodies, liquid inlet connecting holes and liquid outlet connecting holes are formed in the two side walls of the main block bodies, the liquid inlet connecting holes are communicated with the inner side walls of the liquid inlet holes, and the liquid outlet connecting holes are communicated with the inner side walls of the liquid outlet holes;

the right part of the rear circulation hole is communicated with a liquid inlet connecting hole of the die frame integrated block through a first connecting copper pipe, and the rear part of the right circulation hole is communicated with a liquid outlet connecting hole of the die frame integrated block through a second connecting copper pipe;

the liquid inlet end of the s-shaped coiling pipeline is communicated with the liquid inlet connecting hole of the die frame integrated block through a third connecting copper pipe, and the liquid outlet end of the s-shaped coiling pipeline is communicated with the liquid outlet connecting hole of the die frame integrated block through a fourth connecting copper pipe;

the left ends of the two connecting circulation holes are respectively communicated with the liquid inlet connecting hole and the liquid outlet connecting hole of the movable integrated block through two hoses.

The side wall of the right side of the front circulation hole is formed with a first outer connecting hole, the side wall of the front part of the right circulation hole is formed with a second connecting hole, the outer ends of the first outer connecting hole and the second connecting hole extend out of the outer side wall of the mold frame, and the first outer connecting hole and the second connecting hole are communicated through an outer connecting copper pipe.

The middle connecting pipe is a copper pipe.

The hose is a Teflon pipe.

The outer end that the feed liquor hole that the shaping was gone up to the outer wall of main block and go out the liquid hole all leads to and is connected with the pipeline connector.

The utility model discloses an outstanding effect is:

the cooling pipelines are independently arranged on the die frame, the die core and the moving block, and the cooling pipelines can independently control the temperature of local areas by matching with a plurality of die temperature machines, so that the temperature of each area can meet the requirements of a production process, the control is flexible, the effect is good, and the cooling pipelines of each area are independently arranged, so that the cooling pipelines have very simple structures and are convenient to manufacture, maintain and maintain;

and when one of them cooling line blockked up, only need detect the pipeline here can, judge that it is convenient to detect, convenient maintenance.

Description of the drawings:

fig. 1 is a partial structural schematic diagram of the present invention;

FIG. 2 is a schematic structural view of the mold frame of the present invention;

FIG. 3 is a schematic view of the cross flow holes and connecting flow holes in the cooling circuit and moving block of the present invention with the mold frame removed;

fig. 4 is a partial cross-sectional view of a mold frame integrated block, a mold insert integrated block, or a movable integrated block of the present invention;

FIG. 5 is a partial structural view of a mold frame;

FIG. 6 is a schematic view of a portion of the structure between the mold core and the moving block;

fig. 7 is a schematic view of a partial structure between a moving block and a product molded by the present invention;

fig. 8 is a structural view of the molded product of the present invention.

The specific implementation mode is as follows:

in an embodiment, as shown in fig. 1 to 8, a simple auxiliary mold temperature control integrator includes a mold frame 10, a mold insert 20 and a moving block 30, wherein the mold insert 20 is inserted into an installation groove formed in the middle of the top surface of the mold frame 10, and the mold insert 20 is fixed on the bottom surface of the installation groove;

a mounting slot is formed in the top surface of the left part of the die core 20, the moving block 30 is inserted and sleeved in the mounting slot, and the bottom surface of the moving block 30 is pressed against the bottom surface of the mounting slot;

the left part, the right part, the front part and the rear part of the die frame 10 are respectively provided with a left circulation hole 1, a right circulation hole 2, a front circulation hole 3 and a rear circulation hole 4, the front end of the left circulation hole 1 is communicated with the left part of the front circulation hole 3, the rear end of the left circulation hole 1 is communicated with the left part of the rear circulation hole 4, and the front part of the right circulation hole 2 is communicated with the right part of the front circulation hole 3;

a mold frame integrated block 40 is fixed on one side wall of the mold frame 10, the right part of the rear circulation hole 4 is communicated with a liquid inlet hole of the mold frame integrated block 40, and the rear part of the right circulation hole 2 is communicated with a liquid outlet hole of the mold frame integrated block 40; the above forms the cooling line of the mold frame 10.

A plurality of connecting through holes 21 which penetrate through the mold core 20 from front to back are formed in the middle of the mold core, a plurality of outer connecting through holes 22 which are aligned with the corresponding connecting through holes 21 are formed in the front wall surface and the rear wall surface of the mounting groove of the mold frame 10, the outer connecting pipes 23 are inserted and sleeved in the corresponding outer connecting through holes 22, the inner ends of the outer connecting pipes 23 are communicated with one ends of the corresponding connecting through holes 21, the outer ends of two corresponding adjacent outer connecting pipes 23 in all the outer connecting pipes 23 on the same side are communicated with the two ends of a corresponding middle connecting pipe 24, and all the outer connecting pipes 23, the middle connecting pipes 24 and the connecting through holes 21 form an s-shaped coiled pipeline;

the mold core integrated block 50 is fixed on the outer side wall of one side of the mold frame 10, the liquid inlet end of the s-shaped coiling pipeline is communicated with the liquid inlet hole of the mold frame integrated block 50, and the liquid outlet end of the s-shaped coiling pipeline is communicated with the liquid outlet hole of the mold frame integrated block 50. This forms a cooling channel for the mold insert 20. Wherein, the external connecting through hole 22 is staggered with the front circulation hole 3 and the rear circulation hole 4, but not communicated with each other.

The right part of the moving block 30 is formed with a transverse circulation hole 31 extending back and forth, the front part and the rear part of the left side wall of the moving block 30 are formed with a connecting circulation hole 32 extending right, the right ends of the two connecting circulation holes 32 are respectively communicated with the front part and the rear part of the transverse circulation hole 31, the left side wall of the mold frame 10 is fixed with a movable manifold block 60, and the left ends of the two connecting circulation holes 32 are respectively communicated with a liquid inlet hole and a liquid outlet hole of the movable manifold block 60. The above forms a cooling channel of the moving block 30. The lateral circulation holes 31 of the moving block 30 are not communicated with the connecting through holes 21.

Further, the mold frame integrated block 40, the mold core integrated block 50 and the movable integrated block 60 each include a main block body 61, the main block body 61 is fixed on the corresponding side wall of the mold frame 10, a liquid inlet hole and a liquid outlet hole are formed on the outer wall surface of the main block body 61, a liquid inlet connecting hole and a liquid outlet connecting hole are formed on the two side walls of the main block body 61, the liquid inlet connecting hole is communicated with the inner end side wall of the liquid inlet hole, and the liquid outlet connecting hole is communicated with the inner end side wall of the liquid outlet hole;

the right part of the rear circulation hole 4 is communicated with a liquid inlet connecting hole of the die frame integrated block 40 through a first connecting copper pipe 5, and the rear part of the right circulation hole 2 is communicated with a liquid outlet connecting hole of the die frame integrated block 40 through a second connecting copper pipe 6;

the liquid inlet end of the s-shaped coiling pipeline is communicated with the liquid inlet connecting hole of the die frame integrated block 50 through a third connecting copper pipe 7, and the liquid outlet end of the s-shaped coiling pipeline is communicated with the liquid outlet connecting hole of the die frame integrated block 50 through a fourth connecting copper pipe 8;

the left ends of the two connecting circulation holes 32 are respectively communicated with the liquid inlet connecting hole and the liquid outlet connecting hole of the movable manifold block 60 through two hoses 9.

Further, a first external connection hole 301 is formed in the right side wall of the front flow hole 3, a second connection hole 201 is formed in the front side wall of the right flow hole 2, the outer ends of the first external connection hole 301 and the second connection hole 201 extend out of the outer side wall of the mold frame 10, and the first external connection hole 301 and the second connection hole 201 are communicated through an external connection copper pipe 70.

Further, the intermediate connection pipe 24 is a copper pipe.

Further, the hose 9 is a teflon tube.

Furthermore, the outer ends of the liquid inlet hole and the liquid outlet hole formed in the outer wall surface of the main block body 61 are all connected with a pipeline connector 62.

In this embodiment, the mold core 20, the mold frame 10, and the moving block 30 can be independently temperature-controlled by independently controlling the oil or the coolant in the mold frame integrated block 40, the mold core integrated block 50, and the moving integrated block 60, so as to meet the temperature requirement of the production process of the integrally molded product, and the control is convenient and the effect is good.

When in use, the mold frame integrated block 40, the mold core integrated block 50 and the movable integrated block 60 need to be matched with a mold temperature controller for use;

the area of the moving block 30 is a place with thicker product wall thickness, the product is easy to shrink and crack when being produced at the place with thicker product wall thickness, the product is easy to generate heat cracks, a mold temperature controller can be independently arranged on the moving integrated block 60, the temperature of the moving block 30 can be regulated and controlled at any time, and the product quality is guaranteed.

In this embodiment, the liquid inlet and outlet holes of the mold frame manifold 40, the mold core manifold 50 and the movable manifold 60 may be connected to a runner pipe via a pipe connector 62, and the runner pipe may be connected to the mold temperature controller in parallel or in series.

When one of the cooling pipelines is blocked, only the pipeline at the position needs to be detected, the judgment and the detection are convenient, and the maintenance is convenient.

The above embodiments are only used for illustrating the present invention, and not for limiting the present invention, and those skilled in the relevant technical field can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.

Claims (7)

1. The utility model provides a simple and easy mould temperature auxiliary control integrator, includes framed (10), mould benevolence (20) and movable block (30), its characterized in that: the die core (20) is inserted and sleeved in an installation groove formed in the middle of the top surface of the die frame (10), and the die core (20) is fixed on the bottom surface of the installation groove;

a mounting slot is formed in the top surface of the left part of the die core (20), a moving block (30) is inserted and sleeved in the mounting slot, and the bottom surface of the moving block (30) is pressed against the bottom surface of the mounting slot;

the left part, the right part, the front part and the rear part of the die frame (10) are respectively provided with a left circulation hole (1), a right circulation hole (2), a front circulation hole (3) and a rear circulation hole (4), the front end of the left circulation hole (1) is communicated with the left part of the front circulation hole (3), the rear end of the left circulation hole (1) is communicated with the left part of the rear circulation hole (4), and the front part of the right circulation hole (2) is communicated with the right part of the front circulation hole (3);

a mold frame integrated block (40) is fixed on one side wall of the mold frame (10), the right part of the rear circulation hole (4) is communicated with a liquid inlet hole of the mold frame integrated block (40), and the rear part of the right circulation hole (2) is communicated with a liquid outlet hole of the mold frame integrated block (40);

a plurality of connecting through holes (21) which penetrate through the mold core in the front and back are formed in the middle of the mold core (20), a plurality of outer connecting through holes (22) which are aligned with the corresponding connecting through holes (21) are formed in the front wall surface and the back wall surface of the mounting groove of the mold frame (10), the outer connecting pipes (23) are inserted and sleeved in the corresponding outer connecting through holes (22), the inner ends of the outer connecting pipes (23) are communicated with one ends of the corresponding connecting through holes (21), in all the outer connecting pipes (23) on the same side, the outer ends of two adjacent outer connecting pipes (23) are communicated with two ends of the corresponding middle connecting pipe (24), and all the outer connecting pipes (23), the middle connecting pipes (24) and the connecting through holes (21) form an s-shaped coiled pipeline;

and a mold core integrated block (50) is fixed on the outer side wall of one side of the mold frame (10), the liquid inlet end of the s-shaped coiling pipeline is communicated with the liquid inlet hole of the mold frame integrated block (50), and the liquid outlet end of the s-shaped coiling pipeline is communicated with the liquid outlet hole of the mold frame integrated block (50).

2. A simple mold temperature auxiliary control integrator as claimed in claim 1, wherein: the right part of the moving block (30) is formed with transverse circulation holes (31) extending forwards and backwards, the front part and the rear part of the left side wall of the moving block (30) are formed with connecting circulation holes (32) extending rightwards, the right ends of the two connecting circulation holes (32) are respectively communicated with the front part and the rear part of the transverse circulation holes (31), the left side wall of the mold frame (10) is fixedly provided with a movable integrated block (60), and the left ends of the two connecting circulation holes (32) are respectively communicated with a liquid inlet hole and a liquid outlet hole of the movable integrated block (60).

3. A simple mold temperature auxiliary control integrator as claimed in claim 2, wherein: the die frame integrated block (40), the die core integrated block (50) and the movable integrated block (60) comprise main block bodies (61), the main block bodies (61) are fixed on the corresponding side walls of the die frame (10), liquid inlet holes and liquid outlet holes are formed in the outer wall surfaces of the main block bodies (61), liquid inlet connecting holes and liquid outlet connecting holes are formed in the two side walls of the main block bodies (61), the liquid inlet connecting holes are communicated with the inner end side walls of the liquid inlet holes, and the liquid outlet connecting holes are communicated with the inner end side walls of the liquid outlet holes;

the right part of the rear circulation hole (4) is communicated with a liquid inlet connecting hole of the die frame integrated block (40) through a first connecting copper pipe (5), and the rear part of the right circulation hole (2) is communicated with a liquid outlet connecting hole of the die frame integrated block (40) through a second connecting copper pipe (6);

the liquid inlet end of the s-shaped coiling pipeline is communicated with the liquid inlet connecting hole of the die frame integrated block (50) through a third connecting copper pipe (7), and the liquid outlet end of the s-shaped coiling pipeline is communicated with the liquid outlet connecting hole of the die frame integrated block (50) through a fourth connecting copper pipe (8);

the left ends of the two connecting circulation holes (32) are respectively communicated with the liquid inlet connecting hole and the liquid outlet connecting hole of the movable integrated block (60) through two hoses (9).

4. A simple mold temperature auxiliary control integrator as claimed in claim 1, wherein: the side wall of the right side of the front circulation hole (3) is formed with a first outer connecting hole (301), the side wall of the front part of the right circulation hole (2) is formed with a second connecting hole (201), the outer ends of the first outer connecting hole (301) and the second connecting hole (201) extend out of the outer side wall of the mold frame (10), and the first outer connecting hole (301) and the second connecting hole (201) are communicated through an outer connecting copper pipe (70).

5. A simple mold temperature auxiliary control integrator as claimed in claim 1, wherein: the middle connecting pipe (24) is a copper pipe.

6. A simple mold temperature auxiliary control integrator as claimed in claim 3, wherein: the hose (9) is a Teflon pipe.

7. A simple mold temperature auxiliary control integrator as claimed in claim 3, wherein: the outer end that the feed liquor hole that the shaping was gone up to the outer wall of main block body (61) and go out the liquid hole all leads to and is connected with pipeline connector (62).

Images