CN220406672U - Extruder die heating and cooling device - Google Patents

Abstract

The utility model discloses a heating and cooling device for an extruder die, which relates to the technical field of cooling devices and comprises a mounting base and a connecting mechanism arranged above the mounting base, wherein the connecting mechanism comprises a mounting assembly; the mounting assembly comprises a threaded shaft, a connecting block, a first rotating shaft, a connecting rod and a second rotating shaft; through setting up the condenser pipe, the backup pad is poroid structure, then the heat dissipation fan that sets up is used for carrying out certain ventilation radiating work to the grinding apparatus of installation in the backup pad, then the condenser pipe is used for the transmission effect to the coolant liquid, then the condenser pipe can be through first water pipe, the second water pipe carries out certain circulation effect under the effect of water pump and between the basin, realize carrying out the effect of heat exchange when cooling down, take away the heat that the mould produced, then carry out the transmission effect to the condenser pipe through the basin again under the water pump effect, cyclic utilization, save the resource, improve the work efficiency of equipment.

Description

Extruder die heating and cooling device

Technical Field

The utility model relates to the technical field of cooling devices, in particular to a heating and cooling device for an extruder die.

Background

The hot extrusion die is a processing device for injecting a raw material in a molten state into a die with a cavity, obtaining a target shape after cooling, and the extruder is widely applied to enterprises for producing strip-shaped plastics and generally comprises a driving system, a feeding system, a temperature control system, a cooling system after discharging and a winding system. The materials in the extruder are formed into various strip-shaped plastics with different cross sections through a die arranged in the extruder.

However, in some extrusion production processes of special metals, the extruder die needs to be heated to meet the temperature requirement of the extrusion process, but the die is naturally cooled when the operation is completed, the cooling speed is low, the overall efficiency of the operation is affected, no special device is used for rapidly cooling the die casting die, and the die cannot be guaranteed to be fixed and limited when the cooling operation is performed, so that the protection effect is achieved, the temperature detection of the cooling die is inconvenient, the temperature cooling effect cannot be detected, the damage to workers is easy to cause, the use requirement of people is not met, and the extruder die heating and cooling device is needed for the purpose.

Disclosure of Invention

The utility model aims to provide a heating and cooling device for an extruder die, which solves the problems that in the extrusion production process of some special metals, the extruder die needs to be heated to meet the temperature requirement of the extrusion process, but when the operation is finished, the die is naturally cooled, the cooling speed is low, the overall efficiency of the operation is affected, the die casting die is not cooled rapidly by a specific device, the die is not guaranteed to be fixed and limited during the cooling operation, so that the protection effect is realized, the temperature detection of the cooling die is inconvenient, the effect of temperature cooling cannot be detected, the damage to workers is easy to cause when the die is used, and the use requirement of people is not met.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the extruder die heating and cooling device comprises a mounting base and a connecting mechanism arranged above the mounting base, wherein the connecting mechanism comprises a mounting assembly;

the installation component includes screw thread axle, connecting block, first pivot, connecting rod, second pivot, mount pad, temperature sensor and slide rail support, the internally mounted of installation base has the screw thread axle, the surface mounting of screw thread axle has the connecting block, first pivot is installed to the upper end of connecting block, the surface mounting of first pivot has the connecting rod, the second pivot is installed to the end of connecting rod, the slide rail support is installed to the lower extreme of second pivot, the mount pad is installed to the front end of connecting rod is located the lateral wall of slide rail support, temperature sensor is installed to the lateral wall of mount pad.

Preferably, the backup pad is installed to the lateral wall of installation base, the cooling tank is installed to the lower extreme of backup pad, the radiator fan is installed to the inside lower terminal surface of cooling tank, the condenser pipe is installed to the inside of cooling tank's upper end that is located the radiator fan, first water pipe is installed on the right side of condenser pipe, the basin is installed to the end of first water pipe, the water pump is installed in the left side of basin, the internally mounted of water pump has the second water pipe.

Preferably, the connecting block forms a sliding structure with the mounting base through a threaded shaft, and the connecting rod forms a rotating structure with the connecting block through a first rotating shaft.

Preferably, the mounting seat and the sliding rail bracket form a sliding structure through the second rotating shaft, and the mounting seat is symmetrically distributed relative to the mounting base.

Preferably, the temperature sensors are arranged in two groups.

Preferably, the supporting plate is in a hole-shaped structure, and the heat dissipation fans are arranged in two groups.

Preferably, the condensation pipe forms a circulation structure with the water tank through the first water pipe, the second water pipe and the water pump.

Compared with the prior art, the utility model has the beneficial effects that:

1. through setting up the mount pad, the connecting rod of setting realizes that the connecting rod carries out sliding operation through the second pivot at the slide rail support when rotating the shrink effect, realize that the mount pad carries out sliding operation through the second pivot on the slide rail support, and the mount pad sets up two, realize carrying out certain clamping action to the extruder mould, realize carrying out the fixed action to the mould, avoid the staff to directly touch the effect, lead to the fact scalding easily, the temperature of mould can be accurately known to the temperature detection work of cooling during operation through the temperature sensor of installation, avoid the staff to cause the harm, and play the spacing function of centre gripping to the mould simultaneously, avoid producing and rock, influence refrigerated efficiency.

2. Through setting up the condenser pipe, the backup pad is poroid structure, then the heat dissipation fan that sets up is used for carrying out certain ventilation radiating work to the grinding apparatus of installation in the backup pad, then the condenser pipe is used for the transmission effect to the coolant liquid, then the condenser pipe can be through first water pipe, the second water pipe carries out certain circulation effect under the effect of water pump and between the basin, realize carrying out the effect of heat exchange when cooling down, take away the heat that the mould produced, then carry out the transmission effect to the condenser pipe through the basin again under the water pump effect, cyclic utilization, save resources, improve the work efficiency of equipment.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a heating and cooling device for an extruder die according to the present utility model;

FIG. 2 is a schematic diagram showing the internal structure of a first clamping seat of a heating and cooling device for an extruder die according to the present utility model;

FIG. 3 is a schematic view showing the internal structure of a cooling tank of a heating and cooling device for an extruder die according to the present utility model;

fig. 4 is a schematic diagram of the lower end structure of a cooling tank of a heating and cooling device for an extruder die according to the present utility model.

In the figure: 1. a mounting base; 2. a threaded shaft; 3. a connecting block; 4. a first rotating shaft; 5. a connecting rod; 6. a second rotating shaft; 7. a mounting base; 8. a temperature sensor; 9. a support plate; 10. a cooling tank; 11. a heat dissipation fan; 12. a condensing tube; 13. a first water pipe; 14. a water pump; 15. a second water pipe; 16. a water tank; 17. and a slide rail bracket.

Detailed Description

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.

Example 1

As shown in fig. 1-4, an extruder die heating and cooling device in the drawings comprises a mounting base 1 and a connecting mechanism arranged above the mounting base 1, wherein the connecting mechanism comprises a mounting assembly;

the installation component includes screw spindle 2, connecting block 3, first pivot 4, connecting rod 5, second pivot 6, mount pad 7, temperature sensor 8 and slide rail support 17, the internally mounted of installation base 1 has screw spindle 2, the externally mounted of screw spindle 2 has connecting block 3, first pivot 4 is installed to the upper end of connecting block 3, the externally mounted of first pivot 4 has connecting rod 5, second pivot 6 is installed to the end of connecting rod 5, slide rail support 17 is installed to the lower extreme of second pivot 6, mount pad 7 is installed to the front end of connecting rod 5 in slide rail support 17's lateral wall, temperature sensor 8 is installed to the lateral wall of mount pad 7.

Wherein, as shown in fig. 2, connecting block 3 forms sliding structure through screw shaft 2 and installation base 1, and connecting rod 5 forms rotating structure through first pivot 4 and connecting block 3, when carrying out the rotation work to screw shaft 2, realizes carrying out sliding operation to connecting block 3 on installation base 1, then realizes that connecting rod 5 can rotate the work through between first pivot 4 and the connecting block 3.

Wherein, as shown in fig. 2, mount pad 7 constitutes sliding structure through second pivot 6 and slide rail support 17, mount pad 7 is symmetric distribution about installation base 1, when rotating the shrink effect, the connecting rod 5 of setting realizes that connecting rod 5 carries out sliding operation at slide rail support 17 through second pivot 6, realize that mount pad 7 carries out sliding operation on slide rail support 17 through second pivot 6, and mount pad 7 sets up two, realize carrying out certain clamping action to the extruder mould, realize carrying out the fixed action to the mould, avoid the staff to directly touch the effect, cause the scald easily.

Wherein, as shown in fig. 3, temperature sensor 8 sets up two sets of, and when carrying out mount pad 7 and fixing the grinding apparatus of cooling during operation, the temperature of mould can be accurately known to the detection work of temperature to the mould of cooling during operation through temperature sensor 8 of installation, avoids the staff to cause the harm.

Example 2

As shown in fig. 1, 2 and 4, this embodiment further describes example 1, a support plate 9 is mounted on a side wall of the mounting base 1, a cooling tank 10 is mounted at a lower end of the support plate 9, a cooling fan 11 is mounted on a lower end surface of an inside of the cooling tank 10, a condensation pipe 12 is mounted at an upper end of the cooling fan 11 inside the cooling tank 10, a first water pipe 13 is mounted on a right side of the condensation pipe 12, a water tank 16 is mounted at an end of the first water pipe 13, a water pump 14 is mounted on a left side of the water tank 16, and a second water pipe 15 is mounted inside the water pump 14.

Wherein, as shown in fig. 3, backup pad 9 is hole form structure, and heat dissipation fan 11 sets up to two sets of, and backup pad 9 is hole form structure, and then the heat dissipation fan 11 that sets up is used for carrying out certain ventilation heat dissipation's work to the grinding apparatus of installing on backup pad 9, realizes the cooling effect to the mould.

As shown in fig. 4, the condensation pipe 12 and the water tank 16 form a circulation structure through the first water pipe 13, the second water pipe 15 and the water pump 14, the condensation pipe 12 is used for transmitting the cooling liquid, then the condensation pipe 12 can perform a certain circulation function with the water tank 16 through the first water pipe 13 and the second water pipe 15 under the action of the water pump 14, the heat exchange function on heat during cooling is realized, the heat generated by the mold is taken away, and then the condensation pipe 12 is transmitted again under the action of the water pump 14 through the water tank 16, so that the circulation utilization is realized, the resources are saved, and the working efficiency of the equipment is improved.

When in use, the utility model is characterized in that: firstly, when the connecting rod 5 that sets up rotates the shrink effect, realize that connecting rod 5 carries out sliding operation at slide rail support 17 through second pivot 6, realize that mount pad 7 carries out sliding operation on slide rail support 17 through second pivot 6, and mount pad 7 sets up two, realize carrying out certain centre gripping effect to the extruder mould, realize carrying out the fixed action to the mould, avoid the staff to directly touch the effect, cause the scald easily, can carry out the detection work of temperature to the mould of cooling during operation through the temperature sensor 8 of installation, can accurately know the temperature of mould, avoid the staff to cause the harm.

Finally, backup pad 9 is the poroid structure, then the radiator fan 11 that sets up is used for carrying out certain ventilation radiating work to the grinding apparatus of installing on the backup pad 9, then condenser pipe 12 is used for the transmission effect to the coolant liquid, then condenser pipe 12 can carry out certain circulation effect through first water pipe 13, second water pipe 15 under the effect of water pump 14 and between basin 16, realize carrying out the effect of heat exchange when cooling, take away the heat that the mould produced, then carry out the transmission effect to condenser pipe 12 again under the effect of water pump 14 through basin 16, cyclic utilization, save the resource, improve the work efficiency of equipment.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an extruder mould heating and cooling device, includes installation base (1) and sets up the coupling mechanism in installation base (1) top, its characterized in that: the connection mechanism comprises a mounting assembly;

the installation component includes screw spindle (2), connecting block (3), first pivot (4), connecting rod (5), second pivot (6), mount pad (7), temperature sensor (8) and slide rail support (17), internally mounted of installation base (1) has screw spindle (2), the surface mounting of screw spindle (2) has connecting block (3), first pivot (4) are installed to the upper end of connecting block (3), connecting rod (5) are installed to the surface mounting of first pivot (4), second pivot (6) are installed to the end of connecting rod (5), slide rail support (17) are installed to the lower extreme of second pivot (6), mount pad (7) are installed to the front end of connecting rod (5) be located the lateral wall of slide rail support (17), temperature sensor (8) are installed to the lateral wall of mount pad (7).

2. An extruder die heating and cooling apparatus as set forth in claim 1 wherein: the utility model discloses a cooling device for a solar heat collector, including installation base (1), backup pad (9) are installed to the lateral wall of installation base (1), cooling tank (10) are installed to the lower extreme of backup pad (9), cooling fan (11) are installed to the inside lower terminal surface of cooling tank (10), condenser pipe (12) are installed to the inside of cooling tank (10) be located the upper end of cooling fan (11), first water pipe (13) are installed on the right side of condenser pipe (12), basin (16) are installed to the end of first water pipe (13), water pump (14) are installed in the left side of basin (16), second water pipe (15) are installed to the internally mounted of water pump (14).

3. An extruder die heating and cooling apparatus as set forth in claim 1 wherein: the connecting block (3) and the mounting base (1) form a sliding structure through the threaded shaft (2), and the connecting rod (5) and the connecting block (3) form a rotating structure through the first rotating shaft (4).

4. An extruder die heating and cooling apparatus as set forth in claim 1 wherein: the mounting seat (7) and the sliding rail support (17) form a sliding structure through the second rotating shaft (6), and the mounting seat (7) is symmetrically distributed relative to the mounting base (1).

5. An extruder die heating and cooling apparatus as set forth in claim 1 wherein: the temperature sensors (8) are arranged in two groups.

6. An extruder die heating and cooling apparatus as set forth in claim 2 wherein: the support plate (9) is in a hole-shaped structure, and the heat dissipation fans (11) are arranged in two groups.

7. An extruder die heating and cooling apparatus as set forth in claim 2 wherein: the condensation pipe (12) and the water tank (16) form a circulation structure through the first water pipe (13), the second water pipe (15) and the water pump (14).