CN218803450U - Temperature control system for rapid cooling and rapid heating - Google Patents

Temperature control system for rapid cooling and rapid heating Download PDF

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Publication number
CN218803450U
CN218803450U CN202223435323.2U CN202223435323U CN218803450U CN 218803450 U CN218803450 U CN 218803450U CN 202223435323 U CN202223435323 U CN 202223435323U CN 218803450 U CN218803450 U CN 218803450U
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heater
temperature controller
mold
mold temperature
pipeline
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张文通
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Dongguan Linsheng Temperature Control Equipment Co ltd
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Dongguan Linsheng Temperature Control Equipment Co ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/10Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working

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Abstract

The utility model discloses a rapid cooling and heating temperature control system, which comprises a first mold temperature controller, a converter and a second mold temperature controller, wherein the first mold temperature controller is connected with the second mold temperature controller through a pipeline through the converter, a first circuit board is vertically arranged at the right side inside the first mold temperature controller, a first heat exchanger is arranged at the top end of the right side inside the first mold temperature controller, a first heater is arranged at the left side inside the first mold temperature controller, and a first filter tank is arranged at the side edge of the first heater; a second circuit board is vertically arranged at the right side inside the second mold temperature controller, a second heat exchanger is arranged at the top end of the right side inside the second mold temperature controller, a second heater is arranged at the left side inside the second mold temperature controller, and a second filtering tank is arranged at the side edge of the second heater; carry out temperature rise and cooling simultaneously through first mould temperature machine and second mould temperature machine, and the speed of rising temperature and cooling down is controllable and stable to temperature control precision is high, and the accuse temperature is fast, high low temperature operation long-time temperature, and overall security is high.

Description

Rapid cooling and heating temperature control system
Technical Field
The utility model belongs to the technical field of the mould temperature machine and specifically relates to a rapid cooling and heating temperature control system.
Background
The mold temperature controller, also known as a mold temperature controller, is widely applied to the industries of plastic molding, die casting, rubber tires, rollers, chemical reaction kettles, bonding, banburying and the like, however, the requirements of the current market on the quality and precision of optical products are higher and higher, the production requirements of the existing optical products can not be completely met by common temperature control equipment, and a rapid cooling and heating temperature control system is provided for the purposes.
SUMMERY OF THE UTILITY MODEL
The utility model discloses an it is not enough to overcome above-mentioned condition, aims at providing the technical scheme that can solve above-mentioned problem.
The rapid cooling and heating temperature control system comprises a first mold temperature controller, a converter and a second mold temperature controller, wherein the first mold temperature controller is connected with the second mold temperature controller through a pipeline through the converter, a first circuit board is vertically arranged at the right side inside the first mold temperature controller, a first heat exchanger is arranged at the top end of the right side inside the first mold temperature controller, a first heater is arranged at the left side inside the first mold temperature controller, a first filtering tank is arranged on the side edge of the first heater, a first connecting pipe opening is arranged on a pipeline at the connecting part between the first filtering tank and the first mold temperature controller, and the first connecting pipe opening is positioned at the outer side edge of the first mold temperature controller; the inside right side department of second mould temperature machine is vertical to be provided with the second circuit board, and the inside right side department top of second mould temperature machine is provided with the second heat exchanger, the inside left side of second mould temperature machine is provided with the second heater, and the side of second heater is provided with the second and crosses the jar, the second crosses the junction pipeline between jar and the second mould temperature machine and is provided with the fourth connecting pipe mouth, and the fourth connecting pipe mouth is located the outside side department of second mould temperature machine.
Preferably, the side of the first heat exchanger is respectively connected with a first guide pipe and a second guide pipe through pipelines, and the other ends of the first guide pipe and the second guide pipe are respectively arranged at the inner side of the first mold temperature controller through pipelines.
Preferably, the left side department of the inside bottom of first mould temperature machine is provided with first magnetic drive pump, and the side pipeline of first magnetic drive pump is provided with first compressor, first compressor is located the inside bottom of first mould temperature machine, and carries out the tube coupling between first compressor and the first heater to the junction pipeline between first compressor and the first heater is provided with the second and connects the mouth of pipe, carry out the tube coupling between first compressor and the first heat exchanger, and the junction between first compressor and the first heat exchanger is provided with the fourth honeycomb duct.
Preferably, a second connecting pipe is arranged on the pipeline at the bottom end inside the first mold temperature controller, the second connecting pipe is connected with the first heater through a pipeline, a first valve is arranged at the joint between the second connecting pipe and the first heater, the other end of the second connecting pipe is connected with the first heat exchanger through a pipeline, and a third guide pipe is arranged at the joint between the second connecting pipe and the first heat exchanger.
Preferably, a first control panel is arranged at the top end of the outer side of the first mold temperature controller, the first control panel is electrically connected with the first circuit board, the first mold temperature controller is controlled through the first control panel, the temperature of the first mold temperature controller is set, a first partition net, a second partition net, a third partition net and a fourth partition net are arranged on the outer surface of the first mold temperature controller, and the first partition net, the second partition net, the third partition net and the fourth partition net are all horizontal planes with the outer side of the first mold temperature controller.
Preferably, the side of the second heat exchanger is respectively connected with a fifth flow guide pipe and a sixth flow guide pipe through pipelines, and the other ends of the fifth flow guide pipe and the sixth flow guide pipe are respectively arranged at the side inside the second mold temperature controller through pipelines.
Preferably, a second magnetic pump is arranged at the left side of the bottom end inside the second mold temperature controller, a second compressor is arranged on a side pipeline of the second magnetic pump, the second compressor is located at the bottom end inside the second mold temperature controller, a pipeline is connected between the second compressor and the second heater, a fourth connecting pipe orifice is arranged on a pipeline at the joint between the second compressor and the second heater, a pipeline is connected between the second compressor and the second heat exchanger, and a seventh guide pipe is arranged at the joint between the second compressor and the second heat exchanger.
Preferably, a fourth connecting pipe is arranged on the pipeline at the bottom end inside the second mold temperature controller, the fourth connecting pipe is connected with the second heater through a pipeline, a second valve is arranged at the joint between the fourth connecting pipe and the second heater, the other end of the fourth connecting pipe is connected with the second heat exchanger through a pipeline, and a seventh guide pipe is arranged at the joint between the fourth connecting pipe and the second heat exchanger.
Preferably, a second control panel is arranged at the top end of the outer side of the second mold temperature controller, the second control panel is electrically connected with the second circuit board, the second mold temperature controller is controlled through the second control panel, and the temperature is set, a fifth dust-proof net, a sixth dust-proof net, a seventh dust-proof net and an eighth dust-proof net are arranged on the outer surface of the second mold temperature controller, and the fifth dust-proof net, the sixth dust-proof net, the seventh dust-proof net and the eighth dust-proof net form a horizontal plane with the outer side of the second mold temperature controller.
Compared with the prior art, the beneficial effects of the utility model are that: carry out temperature rise and cooling simultaneously through first mould temperature machine and second mould temperature machine, and the speed of rising temperature and cooling down is controllable and stable to temperature control precision is high, and the accuse temperature is fast, high low temperature operation long-time temperature, and overall security is high.
Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.
FIG. 1 is a schematic structural diagram of a rapid cooling and heating temperature control system;
FIG. 2 is a schematic structural diagram of a first mold temperature controller;
FIG. 3 is a schematic structural diagram of a second mold temperature controller;
FIG. 4 is another schematic structural diagram of the first mold temperature controller;
FIG. 5 is a schematic view of another structure of the first mold temperature controller;
FIG. 6 is another schematic structural diagram of the second mold temperature controller;
fig. 7 is another schematic structural diagram of the second mold temperature controller.
Shown in the figure: 1. a first mold temperature controller, 2, a converter, 3, a second mold temperature controller, 4, a first dust-proof net, 5, a second dust-proof net, 6, a first control panel, 7, a third dust-proof net, 8, a fourth dust-proof net, 9, a fifth dust-proof net, 10, a second control panel, 11, a sixth dust-proof net, 12, a seventh dust-proof net, 13, an eighth dust-proof net, 14, a first heater, 15, a first filter tank, 16, a first connecting pipe, 17, a first connecting pipe port, 18, a second connecting pipe, 19, a first valve, 20, a first circuit board, 21, a first heat exchanger, 22 and a first flow guide pipe, 23, a second flow guide pipe, 24, a third flow guide pipe, 25, a second connecting pipe opening, 26, a first magnetic pump, 27, a fourth flow guide pipe, 28, a first compressor, 29, a second circuit board, 30, a second heat exchanger, 31, a fifth flow guide pipe, 32, a sixth flow guide pipe, 33, a second heater, 34, a second filter tank, 35, a third connecting pipe, 36, a third connecting pipe opening, 37, a fourth connecting pipe, 38, a second valve, 39, a fourth connecting pipe opening, 40, a second compressor, 41, a second magnetic pump, 42, a seventh flow guide pipe, 43 and an eighth flow guide pipe.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-7, in an embodiment of the present invention, a rapid cooling and heating temperature control system includes a first mold temperature controller 1, a converter 2, and a second mold temperature controller 3, wherein the first mold temperature controller 1 is connected to the second mold temperature controller 3 through a pipeline between the converter 2 and the second mold temperature controller 3, a first circuit board 20 is vertically disposed at a right side inside the first mold temperature controller 1, a first heat exchanger 21 is disposed at a top end of the right side inside the first mold temperature controller 1, the first heat exchanger 21 is electrically connected to the first circuit board 20, the first heat exchanger 21 is controlled by the first circuit board 20 to operate, a first heater 14 is disposed at a left side inside the first mold temperature controller 1, a first filter tank 15 is disposed at a side of the first heater 14, the first heater 14 is connected to the first filter tank 15 through a pipeline, an internal water source inside the first filter tank 15 enters the first heater 14 to be heated, a pipeline at a connection position between the first filter tank 15 and the first mold temperature controller 1 is connected to an external pipe orifice 17 of the first mold temperature controller 1; the second circuit board 29 is vertically arranged at the right side inside the second mold temperature controller 3, the second heat exchanger 30 is arranged at the top end of the right side inside the second mold temperature controller 3, the second heat exchanger 30 is electrically connected with the second circuit board 29, the second heat exchanger 30 is controlled to operate through the second circuit board 29, the second heater 33 is arranged on the left side inside the second mold temperature controller 3, the second filter tank 34 is arranged on the side edge of the second heater 33, the second heater 33 is connected with the second filter tank 34 through a pipeline, a water source inside the second filter tank 34 enters the second heater 33 to be heated, a fourth connecting pipe orifice 39 is arranged on a pipeline at the connecting position between the second filter tank 34 and the second mold temperature controller 3, the fourth connecting pipe orifice 39 is located at the outer side edge of the second mold temperature controller 3, and the outer water source enters the second filter tank 34 through the fourth connecting pipe orifice 39.
The side of the first heat exchanger 21 is respectively connected with a first guide pipe 22 and a second guide pipe 23 through pipelines, and the other ends of the first guide pipe 22 and the second guide pipe 23 are respectively arranged at the inner side of the first mold temperature controller 1 through pipelines, so that the water source after temperature conversion is conveniently discharged.
A first magnetic pump 26 is arranged at the left side of the bottom end inside the first mold temperature controller 1, a first compressor 28 is arranged on a side pipeline of the first magnetic pump 26, the first compressor 28 is located at the bottom end inside the first mold temperature controller 1, a pipeline is connected between the first compressor 28 and the first heater 14, a second connecting pipe opening 25 is arranged on a pipeline at the joint between the first compressor 28 and the first heater 14, a pipeline is connected between the first compressor 28 and the first heat exchanger 21, a fourth flow guide pipe 27 is arranged at the joint between the first compressor 28 and the first heat exchanger 21, and then the first compressor 28 enables a pipeline to be connected between the first magnetic pump 26 and the first heater 14, so that a water source inside the first heater 14 is extracted or injected through the first magnetic pump 26.
A second connecting pipe 18 is arranged on a pipeline at the bottom end inside the first mold temperature controller 1, the second connecting pipe 18 is in pipeline connection with the first heater 14, a first valve 19 is arranged at the joint between the second connecting pipe 18 and the first heater 14, the other end of the second connecting pipe 18 is in pipeline connection with the first heat exchanger 21, and a third guide pipe 24 is arranged at the joint between the second connecting pipe 18 and the first heat exchanger 21.
The top end of the outer side of the first mold temperature controller 1 is provided with a first control panel 6, the first control panel 6 is electrically connected with a first circuit board 20, the first mold temperature controller 1 is controlled and set with temperature through the first control panel 6, the outer surface of the first mold temperature controller 1 is provided with a first interlayer net 4, a second interlayer net 5, a third interlayer net 7 and a fourth interlayer net 8, the first interlayer net 4, the second interlayer net 5, the third interlayer net 7 and the fourth interlayer net 8 are horizontal planes with the outer side of the first mold temperature controller 1, and dust is isolated through the first interlayer net 4, the second interlayer net 5, the third interlayer net 7 and the fourth interlayer net 8, and heat generated when the first mold temperature controller 1 works is discharged.
The side of the second heat exchanger 30 is respectively connected with a fifth flow guide pipe 31 and a sixth flow guide pipe 32 through pipelines, and the other ends of the fifth flow guide pipe 31 and the sixth flow guide pipe 32 are respectively arranged at the inner side of the second mold temperature controller 3 through pipelines, so that the water source after temperature conversion can be conveniently discharged.
A second magnetic pump 41 is arranged on the left side of the bottom end inside the second mold temperature controller 3, a second compressor 40 is arranged on a side pipeline of the second magnetic pump 41, the second compressor 40 is located at the bottom end inside the second mold temperature controller 3, the second compressor 40 is in pipeline connection with the second heater 33, a fourth connecting pipe opening 39 is arranged on a pipeline at the joint between the second compressor 40 and the second heater 33, the second compressor 40 is in pipeline connection with the second heat exchanger 30, a seventh guide pipe 42 is arranged at the joint between the second compressor 40 and the second heat exchanger 30, the second compressor 40 is in pipeline connection with the second heater 33, and therefore a water source inside the second heater 33 is extracted or injected through the second magnetic pump 41.
A fourth connecting pipe 37 is arranged on a bottom end pipeline inside the second mold temperature controller 3, the fourth connecting pipe 37 is in pipeline connection with the second heater 33, a second valve 38 is arranged at a joint between the fourth connecting pipe 37 and the second heater 33, the other end of the fourth connecting pipe 37 is in pipeline connection with the second heat exchanger 30, and a seventh guide pipe 42 is arranged at a joint between the fourth connecting pipe 37 and the second heat exchanger 30.
A second control panel 10 is arranged at the top end of the outer side of the second mold temperature controller 3, the second control panel 10 is electrically connected with a second circuit board 29, the second mold temperature controller 3 is controlled and set with temperature through the second control panel 10, a fifth dust-proof net 9, a sixth dust-proof net 11, a seventh dust-proof net 12 and an eighth dust-proof net 13 are arranged on the outer surface of the second mold temperature controller 3, the fifth dust-proof net 9, the sixth dust-proof net 11, the seventh dust-proof net 12 and the eighth dust-proof net 13 are all horizontal with the outer side of the second mold temperature controller 3, and dust is separated through the fifth dust-proof net 9, the sixth dust-proof net 11, the seventh dust-proof net 12 and the eighth dust-proof net 13 and heat generated when the second mold temperature controller 3 works is discharged.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (9)

1. The rapid cooling and heating temperature control system comprises a first mold temperature controller, a converter and a second mold temperature controller, wherein the first mold temperature controller is connected with the second mold temperature controller through a pipeline through the converter, and the rapid cooling and heating temperature control system is characterized in that a first circuit board is vertically arranged at the right side inside the first mold temperature controller, a first heat exchanger is arranged at the top end of the right side inside the first mold temperature controller, a first heater is arranged at the left side inside the first mold temperature controller, a first filtering tank is arranged on the side edge of the first heater, a first connecting pipe opening is arranged on a pipeline at the connecting part between the first filtering tank and the first mold temperature controller, and the first connecting pipe opening is positioned at the outer side edge of the first mold temperature controller; the inside right side department of second mould temperature machine is vertical to be provided with the second circuit board, and the inside right side department top of second mould temperature machine is provided with the second heat exchanger, the inside left side of second mould temperature machine is provided with the second heater, and the side of second heater is provided with the second and crosses the filter tank, the second crosses the junction pipeline between filter tank and the second mould temperature machine and is provided with the fourth connecting pipe mouth, and the fourth connecting pipe mouth is located the outside side department of second mould temperature machine.
2. The rapid cooling and heating temperature control system according to claim 1, wherein the first heat exchanger side is respectively connected with a first flow guide pipe and a second flow guide pipe through pipelines, and the other ends of the first flow guide pipe and the second flow guide pipe are respectively arranged at the inner side of the first mold temperature controller through pipelines.
3. The rapid cooling and heating temperature control system according to claim 1, wherein a first magnetic pump is disposed at the left side of the bottom end inside the first mold temperature controller, a first compressor is disposed on a side pipeline of the first magnetic pump, the first compressor is located at the bottom end inside the first mold temperature controller, the first compressor and the first heater are connected through a pipeline, a second connecting pipe opening is disposed on a pipeline at a joint between the first compressor and the first heater, the first compressor and the first heat exchanger are connected through a pipeline, and a fourth flow guide pipe is disposed at a joint between the first compressor and the first heat exchanger.
4. The rapid cooling and heating temperature control system according to claim 1, wherein a second connecting pipe is arranged at the bottom end of the first mold temperature controller, the second connecting pipe is connected with the first heater through a pipeline, a first valve is arranged at the joint of the second connecting pipe and the first heater, the other end of the second connecting pipe is connected with the first heat exchanger through a pipeline, and a third flow guide pipe is arranged at the joint of the second connecting pipe and the first heat exchanger.
5. The rapid cooling and heating temperature control system according to claim 1, wherein a first control panel is disposed at a top end of an outer side of the first mold heater, the first control panel is electrically connected to the first circuit board, and the first mold heater is controlled and temperature-set by the first control panel, the first, second, third and fourth spacer nets are disposed on an outer surface of the first mold heater, and the first, second, third and fourth spacer nets are disposed on an outer side of the first mold heater.
6. The rapid cooling and heating temperature control system according to claim 1, wherein the side of the second heat exchanger is respectively connected with a fifth flow guide pipe and a sixth flow guide pipe through pipelines, and the other ends of the fifth flow guide pipe and the sixth flow guide pipe are respectively arranged at the inner side of the second mold temperature controller through pipelines.
7. The rapid cooling and heating temperature control system according to claim 1, wherein a second magnetic pump is disposed at a left side of an inner bottom end of the second mold heater, a second compressor is disposed on a side pipeline of the second magnetic pump, the second compressor is disposed at the inner bottom end of the second mold heater, the second compressor is in pipeline connection with the second heater, a fourth connecting pipe port is disposed on a pipeline of a joint between the second compressor and the second heater, the second compressor is in pipeline connection with the second heat exchanger, and a seventh flow guide pipe is disposed on a joint between the second compressor and the second heat exchanger.
8. The rapid cooling and heating temperature control system according to claim 1, wherein a fourth connecting pipe is arranged at the bottom end of the second mold temperature controller, and the fourth connecting pipe is connected with the second heater through a pipeline, and a second valve is arranged at the joint of the fourth connecting pipe and the second heater, and the other end of the fourth connecting pipe is connected with the second heat exchanger through a pipeline, and a seventh flow guide pipe is arranged at the joint of the fourth connecting pipe and the second heat exchanger.
9. The rapid cooling and heating temperature control system according to claim 1, wherein a second control panel is disposed at a top end of an outer side of the second mold heater, the second control panel is electrically connected to the second circuit board, and the second mold heater is controlled and temperature-set by the second control panel, a fifth dust-proof net, a sixth dust-proof net, a seventh dust-proof net and an eighth dust-proof net are disposed on an outer surface of the second mold heater, and the fifth dust-proof net, the sixth dust-proof net, the seventh dust-proof net and the eighth dust-proof net are all horizontal to the outer side of the second mold heater.
CN202223435323.2U 2022-12-21 2022-12-21 Temperature control system for rapid cooling and rapid heating Active CN218803450U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202223435323.2U CN218803450U (en) 2022-12-21 2022-12-21 Temperature control system for rapid cooling and rapid heating

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202223435323.2U CN218803450U (en) 2022-12-21 2022-12-21 Temperature control system for rapid cooling and rapid heating

Publications (1)

Publication Number Publication Date
CN218803450U true CN218803450U (en) 2023-04-07

Family

ID=87249186

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202223435323.2U Active CN218803450U (en) 2022-12-21 2022-12-21 Temperature control system for rapid cooling and rapid heating

Country Status (1)

Country Link
CN (1) CN218803450U (en)

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