CN208504857U - Multiloop cooling system - Google Patents
Multiloop cooling system Download PDFInfo
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- CN208504857U CN208504857U CN201820830541.0U CN201820830541U CN208504857U CN 208504857 U CN208504857 U CN 208504857U CN 201820830541 U CN201820830541 U CN 201820830541U CN 208504857 U CN208504857 U CN 208504857U
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- coolant liquid
- temperature
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- controlled box
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Abstract
The utility model discloses a kind of multiloop cooling systems, pass through the first discharge line, the output coolant liquid of board is imported cooler and cooled down by the second discharge line, it is delivered to temperature-controlled box again later and carries out temperature control, first intake line, second intake line reconnects temperature-controlled box, it is recycled to board, its setting for mainly passing through pipeline, to form multiloop, and the temperature of the input coolant liquid in different intake lines is controlled by heater, control the flow of the coolant liquid of different intake lines respectively by valve member again, to avoid two sets of equipment of configuration, and then reduce cost.
Description
Technical field
The utility model relates to a kind of cooling systems, and especially system is about a kind of multiloop cooling system.
Background technique
The temperature that many processing machines all need to cooperate cooler to reduce coolant liquid in processing industry, can ensure liquid
Temperature is not too high, and then influences the quality of processing, and part of toolroom machine there is also a particular need for the coolant liquid input of different liquid temperature, makes
The pipeline flowing of cooler is increasingly complex, wherein for example: laser marking label, engraving, cutting or welding machine.
To overcome foregoing problems, common liquid temperature temperature control device is all two sets or more sets, can reach while control not
The benefits of with liquid temperature, aforementioned two sets or more set temperature control device mean that all devices such as cooler, motor, pumping need all configure two sets
Or more sets, thus not only in controlling upper comparable difficulty, the cost of configuration is also very high.
Utility model content
The technical problem to be solved by the utility model is to provide a kind of multiloop cooling system, main purpose is energy
Enough configurations that equipment is reduced by the configuration of pipeline, and then reduce whole cost.
The utility model another object is that promoted cooling system control accuracy and convenience.
To solve the above problems, the utility model provides a kind of multiloop cooling system, it is provided with connecting a board, and this is more
Circuit cooling system, comprising:
A kind of multiloop cooling system is provided with connecting a board, and the multiloop cooling system, comprising:
One first discharge line, is connected to the board, which is provided with cold from the first output of board output
But liquid;
One second discharge line, is connected to the board, which is provided with cold from the second output of board output
But liquid;
One cooler is connected to first discharge line and second discharge line, the cooler be provided with receiving this first
Export coolant liquid and the second output coolant liquid, and cooling aforementioned first output coolant liquid and the second output coolant liquid, and shape
At an input coolant liquid;
One temperature control assembly, is connected to the cooler and the board, which is provided with adjusting the temperature of the input coolant liquid
Degree is with one first different input coolant liquid of formation temperature and one second input coolant liquid.
The utility model provides a kind of multiloop cooling system in another embodiment, is provided with connecting a board, and this is more
Circuit cooling system, comprising:
One first discharge line, is connected to the board, which is provided with cold from the first output of board output
But liquid;
One second discharge line, is connected to the board, which is provided with cold from the second output of board output
But liquid;
One cooler is connected to first discharge line and second discharge line, the cooler be provided with receiving this first
Export coolant liquid and the second output coolant liquid, and cooling aforementioned first output coolant liquid and the second output coolant liquid, and shape
At an input coolant liquid;
One temperature-controlled box is connected to the cooler, which is provided with receiving, accommodating the input coolant liquid, temperature-controlled box dress
Equipped with an at least heater;
One first intake line, is connected to the temperature-controlled box and the board, the input coolant liquid from the temperature-controlled box flow into this
One intake line, it is one first input coolant liquid, first input that definition, which is located at the input coolant liquid in first intake line,
Coolant liquid inputs the board by first intake line, which has one first temperature;
One second intake line, is connected to the temperature-controlled box and the board, the input coolant liquid from the temperature-controlled box flow into this
Two intake lines, it is one second input coolant liquid, second input that definition, which is located at the input coolant liquid in second intake line,
Coolant liquid inputs the board by second intake line, which has a second temperature;
At least one pumping, is provided with for the input coolant liquid in temperature-controlled box being evacuated to first intake line and second input pipe
Road;
One motor is controlled with the pumping and is connected, to drive the pumping;
More valve members, one of valve member are installed in first intake line, are provided with controlling the first input coolant liquid input
The flow of the board, another valve member are installed in second intake line, are provided with controlling the second input coolant liquid and are input to
The flow of the board.
The utility model multiloop cooling system is mainly the setting for passing through pipeline, to form multiloop, and passes through heating
Device controls the temperature of the input coolant liquid in different intake lines, then controls different intake line outputs respectively by the valve member
The flow of coolant liquid to avoid two sets of equipment of configuration, and then reduces cost.
In addition, only by a motor control pumping, pumping will thus driven in various embodiments of the utility model
It moves power stability and is easy to control, and then can accurately control the flow of different intake lines input coolant liquids.
Detailed description of the invention
Fig. 1 is the schematic diagram of the utility model multiloop cooling system first embodiment.
Fig. 2 is the schematic diagram of the utility model multiloop cooling system second embodiment.
Fig. 3 is the schematic diagram of the utility model multiloop cooling system 3rd embodiment.
Fig. 4 is the schematic diagram of the utility model multiloop cooling system fourth embodiment.
Fig. 5 is the schematic diagram of the 5th embodiment of the utility model multiloop cooling system.
Fig. 6 is the schematic diagram of the utility model multiloop cooling system sixth embodiment.
Fig. 7 is the schematic diagram of the 7th embodiment of the utility model multiloop cooling system.
Fig. 8 is the schematic diagram of the 8th embodiment of the utility model multiloop cooling system.
Fig. 9 is the schematic diagram of the 9th embodiment of the utility model multiloop cooling system.
Description of symbols
First discharge line 11
Second discharge line 12
Third discharge line 13
Cooler 20
First cooler pipeline 21
Second cooler pipeline 22
Temperature-controlled box 30
First space 30A
Second space 30B
Partition 31
Total intake line 40
First intake line 41
Second intake line 42
Compensating heater 422
Third intake line 43
4th intake line 44
Pumping 50
Motor 60
First bypass line 71
Second bypass line 72
Third bypass line 73
4th bypass line 74
5th bypass line 75
6th bypass line 76
Valve member 80
Board 99
Heater H
Temperature control assembly K
Aspirate assembly Z.
Specific embodiment
Multiloop cooling system described in the utility model is provided with connecting a board 99, and as shown in Figures 1 to 9, and this is more
Circuit cooling system, comprising:
One first discharge line 11 is connected to the board 99, which is provided with exporting the of the board 99
One output coolant liquid, the first output coolant liquid have one first liquid temperature.
One second discharge line 12 is connected to the board 99, which is provided with exporting the of the board 99
Two output coolant liquids, the second output coolant liquid have one second liquid temperature.
One cooler 20 is connected to first discharge line 11 and second discharge line 12, which is provided with connecing
Receive the first output coolant liquid and the second output coolant liquid, and cooling aforementioned first output coolant liquid and the second output cooling
Liquid, to form an input coolant liquid.
One temperature-controlled box 30 is connected to the cooler 20, which is provided with receiving, accommodates the input coolant liquid, the control
Incubator 30 is installed with an at least heater H.
One first intake line 41 is connected to the temperature-controlled box 30 and the board 99, and the input coolant liquid is from the temperature-controlled box 30
First intake line 41 is flowed into, it is one first input cooling that definition, which is located at the input coolant liquid in first intake line 41,
Liquid, the first input coolant liquid are inputted in the board 99 by first intake line 41, which has one
First temperature.
One second intake line 42 is connected to the temperature-controlled box 30 and the board 99, and the input coolant liquid is from the temperature-controlled box 30
Second intake line 42 is flowed into, it is one second input cooling that definition, which is located at the input coolant liquid in second intake line 42,
Liquid, the second input coolant liquid have a second temperature, and in this present embodiment, which is not equal to first temperature.
At least one pumping 50, be provided with for the input coolant liquid in temperature-controlled box 30 being evacuated to first intake line 41 and this second
Intake line 42.
One motor 60 is controlled with the pumping 50 and is connected, to drive the pumping 50.
More valve members 80, one of valve member 80 are installed in first intake line 41, are provided with controlling the first input cooling
Liquid inputs the flow of the board 99, another valve member 80 is installed in second intake line 42, is provided with controlling second input
Coolant liquid is input to the flow of the board 99.
In this present embodiment, at least one pumping 50 and the motor 60 are collectively referred to as a suction assembly Z, the temperature-controlled box 30,
First intake line 41, second intake line 42, suction assembly Z, those valve members 80 are collectively referred to as a temperature control assembly K.
Preferably, separately including:
One first bypass line 71 is connect with first intake line 41, first bypass line 71 be provided with being discharged this
One input coolant liquid, in this present embodiment, first bypass line 71 connect first discharge line 11, and this first is inputted
Coolant liquid drains into first discharge line 11, which is installed with the valve member 80, so control this first
Input coolant liquid is discharged into the flow of first discharge line 11 by the first input pipe 41, reaches the stream that control is input to the board 99
Amount.
One second bypass line 72 is connect with second intake line 42, second bypass line 72 be provided with being discharged this
Two input coolant liquids, in this present embodiment, second bypass line 72 connect the temperature-controlled box 30, and by this second input coolant liquid
The temperature-controlled box 30 is flow back to, which is installed with the valve member 80, and then it is defeated to control the second input coolant liquid
Enter to the flow of the temperature-controlled box 30.
In the utility model first embodiment, as shown in Figure 1:
The quantity of heater H is one, and heater H is installed in the wherein side of the temperature-controlled box 30.
Separately have a total intake line 40, total intake line 40 be located at the temperature-controlled box 30 and first intake line 41 and
Between second intake line 42, total intake line 40 be provided with for the input coolant liquid in temperature-controlled box 30 being separately input into this
One intake line 41 and second intake line 42, total intake line 40 are installed with the pumping 50, the pumping 50 with should
The control connection of motor 60.
Second intake line 42 is installed with a compensating heater 422, and it is second defeated which is provided with heating this
Enter coolant liquid, the second liquid temperature of the second input coolant liquid is made to be different from the first liquid temperature of the first input coolant liquid.
In the utility model second embodiment, as shown in Figure 2:
The quantity of heater H is one, and heater H is installed in the wherein side of the temperature-controlled box 30.
Separately have a total intake line 40, total intake line 40 be located at the temperature-controlled box 30 and first intake line 41 and
Between second intake line 42, total intake line 40 be provided with for the input coolant liquid in temperature-controlled box 30 being separately input into this
One intake line 41 and second intake line 42, total intake line 40 are installed with the pumping 50, the pumping 50 with should
The control connection of motor 60.
Second intake line 42 is installed with a compensating heater 422, and it is second defeated which is provided with heating this
Enter coolant liquid, the second liquid temperature of the second input coolant liquid is made to be different from the first liquid temperature of the first input coolant liquid.
In being additionally configured with the valve member 80 again on second intake line 42, this valve member 80 is installed in total intake line 40
Between compensating heater 422, it is provided with the flow that control input coolant liquid enters second intake line 42.
Separately there is a third bypass line 73, connect with second intake line 42, the third bypass line 73 connection should
Second discharge line 12, and the second input coolant liquid is drained into second discharge line 12, which separately fills
Equipped with the valve member 80 to control the flow that the second input coolant liquid drains into second discharge line 12.
Separately there is one the 4th bypass line 74, connect with first intake line 41, the connection of the 4th bypass line 74 should
Temperature-controlled box 30, and the first input coolant liquid is flow back into the temperature-controlled box 30, the 4th bypass line 74 is separately installed with the valve
Part 80 is to control the flow that the first input coolant liquid drains into the temperature-controlled box 30.
In the utility model 3rd embodiment, as shown in Figure 3:
The quantity of heater H is two, and two heater H are installed in opposite two sides of temperature-controlled box 30 respectively, and described two add
Hot device H is provided with controlling the temperature of the input coolant liquid, and different temperature can be set separately in two heater H.
The quantity of the pumping 50 is two, one of them pumping 50 is installed in first intake line 41, another pump
Pu 50 is installed in second intake line 42, which connects with two pumping 50 controls simultaneously, so that two pumpings
50 driving power is suitable.
The position system of second intake line 42 setting is close to one of them heater H.
In the utility model fourth embodiment, as shown in figure 4, compared to 3rd embodiment:
The cooler 20 is to be connected by one first cooler pipeline 21 and one second cooler pipeline 22 with the temperature control box 30
Logical, one end which is set to temperature control box 30 is to be closer to one of them heater H, second cooling tube
One end system that road 22 is set to temperature control box 30 is closer to another heater H, which is separately provided with one
The valve member 80 inputs the flow of coolant liquid to control.
In the 5th embodiment, as shown in figure 5, compared to fourth embodiment:
Separately there is the third bypass line 73, connect with second intake line 42, the third bypass line 73 connection should
Second discharge line 12, and the second input coolant liquid is drained into second discharge line 12, which separately fills
Equipped with the valve member 80 to control the flow that the second input coolant liquid drains into second discharge line 12.
Separately there is the 4th bypass line 74, connect with first intake line 41, the connection of the 4th bypass line 74 should
Temperature-controlled box 30, and the first input coolant liquid is flow back into the temperature-controlled box 30, the 4th bypass line 74 is separately installed with the valve
Part 80 is to control the flow that the first input coolant liquid drains into the temperature-controlled box 30.
In the utility model sixth embodiment, as shown in fig. 6, compared to fourth embodiment:
The temperature-controlled box 30 is separately provided with a partition 31, which divides the temperature-controlled box 30 for one first space 30A and one
The input coolant liquid is inputted the first space 30A and second space 30B respectively by second space 30B, the cooler 20, wherein
One heater H is set to first space 30A, another heater H is set to second space 30B, this is first cold
But machine pipeline 21 and first intake line 41 are connected to first space 30A, and the second cooler pipeline 22 and this is second defeated
Enter pipeline 42 and is connected to second space 30B.
Second bypass line, 72 system is connected to second space 30B.
In the 7th embodiment of the utility model, as shown in fig. 7, compared to sixth embodiment:
Separately there is the third bypass line 73, connect with second intake line 42, the third bypass line 73 connection should
Second discharge line 12, and the second input coolant liquid is drained into second discharge line 12, which separately fills
Equipped with the valve member 80 to control the flow that the second input coolant liquid drains into second discharge line 12.
Separately there is the 4th bypass line 74, connect with first intake line 41, the connection of the 4th bypass line 74 should
Temperature-controlled box 30, and the first input coolant liquid is flow back into the temperature-controlled box 30, the 4th bypass line 74 is separately installed with the valve
Part 80 is to control the flow that the first input coolant liquid drains into the temperature-controlled box 30.
In the 8th embodiment of the utility model, as shown in figure 8, separately being included compared to the 7th embodiment
One third discharge line 13 is connected to the board 99, which is provided with exporting the of the board 99
Three output coolant liquids, which, which exports coolant liquid, has a third liquid temperature, which connects the cooler 20, with
Third output coolant liquid is delivered to the cooler 20.
One third intake line 43 is connected to the temperature-controlled box 30 and the board 99, and the input coolant liquid is from the temperature-controlled box 30
The third intake line 43 is flowed into, it is third input cooling that definition, which is located at the input coolant liquid in the third intake line 43,
Liquid, the third intake line 43 are connected to first space 30A, which is separately installed with the valve member 80, with
Control the flow that third input coolant liquid is input to the board 99.
One the 5th bypass line 75 is connect with the third intake line 43, and the 5th bypass line 75 connects third row
Pipeline 13 out, and third input coolant liquid is drained into the third discharge line 13, the 5th bypass line 75 is separately installed with one
A valve member 80 drains into 13 flow of third discharge line to control third input coolant liquid.
In the 9th embodiment of the utility model, as shown in figure 9, separately being included compared to the 7th embodiment
One third discharge line 13 is connected to the board 99, which is provided with exporting the of the board 99
Three output coolant liquids, which, which exports coolant liquid, has a third liquid temperature, which connects the cooler 20, with
Third output coolant liquid is delivered to the cooler 20.
One the 4th intake line 44 is connected to the temperature-controlled box 30 and the board 99, and the input coolant liquid is from the temperature-controlled box 30
The 4th intake line 44 is flowed into, it is one the 4th input cooling that definition, which is located at the input coolant liquid in the 4th intake line 44,
Liquid, the 4th intake line 44 are connected to second space 30B, and the 4th intake line 44 is separately installed with the valve member 80, with
Control the flow that the 4th input coolant liquid is input to the board 99.
One the 6th bypass line 76, connect with the 4th intake line 44, the 6th bypass line 76 connection second sky
Between 30B, and the 4th input coolant liquid is drained into second space 30B, the 6th bypass line 76 is separately installed with the valve
Part 80 is to control the flow that the 4th input coolant liquid drains into second space 30B.
From the foregoing it will be appreciated that the utility model multiloop cooling system is mainly the setting for passing through pipeline, to form multiloop,
And the temperature of the input coolant liquid in different intake lines 41,42 is controlled by heater H and compensating heater 422, then pass through
The valve member 80 controls the flow for the coolant liquid that different intake lines 41,42 export respectively, to avoid two sets of equipment of configuration, and then drops
Low cost.
In addition, in various embodiments of the utility model, all only by a motor 60 control pumping 50, in third and fourth reality
When the quantity for applying the pumping 50 in example is two, is also only controlled by the motor 60, will thus make pumping 50
Driving power is stable and is easy to control, and then can accurately control the flow that different intake lines 41,42 input coolant liquid, also
(this legend is not shown) can be controlled to more pumpings 50 with multi-motor 60.
Claims (16)
1. a kind of multiloop cooling system, it is provided with connecting a board, and the multiloop cooling system, it is characterised in that: include:
One first discharge line, is connected to the board, which is provided with exporting the first output coolant liquid from the board;
One second discharge line, is connected to the board, which is provided with exporting the second output coolant liquid from the board;
One cooler is connected to first discharge line and second discharge line, which is provided with receiving first output
Coolant liquid and the second output coolant liquid, and cooling aforementioned first output coolant liquid and the second output coolant liquid, and form one
Input coolant liquid;
One temperature control assembly, is connected to the cooler and the board, the temperature control assembly be provided with adjusting the temperature of the input coolant liquid with
One first different input coolant liquid of formation temperature and one second input coolant liquid.
2. a kind of multiloop cooling system, it is provided with connecting a board, and the multiloop cooling system, it is characterised in that: include:
One first discharge line, is connected to the board, which is provided with exporting the first output coolant liquid from the board;
One second discharge line, is connected to the board, which is provided with exporting the second output coolant liquid from the board;
One cooler is connected to first discharge line and second discharge line, which is provided with receiving first output
Coolant liquid and the second output coolant liquid, and cooling aforementioned first output coolant liquid and the second output coolant liquid, and form one
Input coolant liquid;
One temperature-controlled box is connected to the cooler, which is provided with receiving, accommodates the input coolant liquid, which is installed with
An at least heater;
One first intake line, is connected to the temperature-controlled box and the board, and it is first defeated which from the temperature-controlled box flows into this
Enter pipeline, it is one first input coolant liquid that definition, which is located at the input coolant liquid in first intake line, the first input cooling
Liquid inputs the board through first intake line, which has one first temperature;
One second intake line, is connected to the temperature-controlled box and the board, and it is second defeated which from the temperature-controlled box flows into this
Enter pipeline, it is one second input coolant liquid that definition, which is located at the input coolant liquid in second intake line, the second input cooling
Liquid inputs the board through second intake line, which has a second temperature;
At least one pumping, is provided with for the input coolant liquid in temperature-controlled box being evacuated to first intake line and second intake line;
One motor is controlled with the pumping and is connected, to drive the pumping;And
More valve members, one of valve member are installed in first intake line, are provided with controlling the first input coolant liquid and input the machine
The flow of platform, another valve member are installed in second intake line, are provided with controlling the second input coolant liquid and are input to the machine
The flow of platform.
3. multiloop cooling system as claimed in claim 2, it is characterised in that: the second temperature is not equal to first temperature
Degree.
4. multiloop cooling system as claimed in claim 2, it is characterised in that: separately include:
One first bypass line is connect with first intake line, which is provided with that the first input cooling is discharged
The valve member is arranged in liquid, first bypass line, so control the first input coolant liquid by the first input pipe be discharged into this
The flow of one discharge line reaches the flow that control is input to the board, which connects first discharge line,
And the first input coolant liquid is drained into first discharge line;And
One second bypass line is connect with second intake line, second bypass line be provided with being discharged this second
Coolant liquid is inputted, which is arranged the valve member, and then controls the second input coolant liquid and be input to this
The flow of board, which connects the temperature-controlled box, and the second input coolant liquid is flow back to the temperature-controlled box.
5. multiloop cooling system as claimed in claim 2 or 4, it is characterised in that: the quantity of the heater is one, should be added
Hot device is installed in the wherein side of the temperature-controlled box;
Separately there is a total intake line, which is located at the temperature-controlled box and first intake line and second input pipe
Lu Jian, total intake line be provided with for the input coolant liquid in temperature-controlled box being separately input into first intake line and this second
Intake line, the quantity of the pumping are one, which is installed with the pumping;
Second intake line is installed with a compensating heater, which is provided with heating the second input coolant liquid, makes
Second liquid temperature of the second input coolant liquid is different from the first liquid temperature of the first input coolant liquid.
6. multiloop cooling system as claimed in claim 2 or 4, it is characterised in that: the quantity of the heater is two, and two should
Heater is installed in opposite two sides of temperature-controlled box respectively, and two heaters are provided with controlling the temperature of the input coolant liquid;
The quantity of the pumping is two, one of them pumping is installed in first intake line, another pumping is installed in this
Second intake line, the motor are connected with two pumping controls simultaneously;And
The position system of second intake line setting is close to one of them heater.
7. multiloop cooling system as claimed in claim 2 or 4, it is characterised in that: the quantity of the heater is two, and two should
Heater is installed in opposite two sides of temperature-controlled box respectively, and two heaters are provided with controlling the temperature of the input coolant liquid;The pumping
Quantity be two, wherein Pu is installed in first intake line, another pumping is installed in second intake line, the motor
It is connected simultaneously with two pumping controls;
The temperature-controlled box is provided with a partition, which is divided into one first space and a second space for the temperature-controlled box,
The input coolant liquid is inputted first space and the second space respectively by the cooler, the setting of one of them heater
In first space, another heater is set to the second space, which is connected to first space, and is somebody's turn to do
Second intake line is connected to the second space;And
Second bypass line is connected to the second space.
8. multiloop cooling system as claimed in claim 5, wherein separately there is a third bypass line, with second input
Piping connection, which connects second discharge line, and the second input coolant liquid is drained into second discharge
Pipeline, the third bypass line are separately installed with the valve member and drain into second discharge line to control the second input coolant liquid
Flow;
Separately there is one the 4th bypass line, connect with first intake line, the 4th bypass line connects the temperature-controlled box, and will
The first input coolant liquid flows back to the temperature-controlled box, and it is cold to control the first input that the 4th bypass line is separately installed with the valve member
But liquid drains into the flow of the temperature-controlled box.
9. multiloop cooling system as claimed in claim 6, it is characterised in that: separately there is a third bypass line, with this
The connection of two intake lines, the third bypass line connect second discharge line, and by the second input coolant liquid drain into this
Two discharge lines, the third bypass line are installed with the valve member separately to control the second input coolant liquid and drain into second discharge
The flow of pipeline;
Separately there is one the 4th bypass line, connect with first intake line, the connection of the 4th bypass line
The temperature-controlled box, and the first input coolant liquid is flow back into the temperature-controlled box, the 4th bypass line is separately installed with the valve
Part is to control the flow that the first input coolant liquid drains into the temperature-controlled box.
10. multiloop cooling system as claimed in claim 7, it is characterised in that: separately there is a third bypass line, with this
The connection of two intake lines, the third bypass line connect second discharge line, and by the second input coolant liquid drain into this
Two discharge lines, the third bypass line are installed with the valve member separately to control the second input coolant liquid and drain into second discharge
The flow of pipeline;
Separately there is one the 4th bypass line, connect with first intake line, the 4th bypass line connects the temperature-controlled box, and will
The first input coolant liquid flows back to the temperature-controlled box, and it is cold to control the first input that the 4th bypass line is separately installed with the valve member
But liquid drains into the flow of the temperature-controlled box.
11. multiloop cooling system as claimed in claim 6, it is characterised in that: the cooler penetrates one first cooler
Pipeline and one second cooler pipeline are connected to the temperature control box, and one end system which is set to temperature control box is closer to
One of them heater, one end system which is set to temperature control box are closer to another heater, this
Two cooling lines are provided with the valve member separately to control the flow of input coolant liquid.
12. multiloop cooling system as claimed in claim 7, it is characterised in that: the cooler penetrates one first cooler
Pipeline and one second cooler pipeline are connected to the temperature control box, and one end system which is set to temperature control box is closer to
One of them heater, one end system which is set to temperature control box are closer to another heater, this
Two cooling lines be separately provided with the valve member with control input coolant liquid flow, the first cooler pipeline connection this first
Space, and the second cooler pipeline connection second space.
13. multiloop cooling system as claimed in claim 11, it is characterised in that: separately there is a third bypass line, with this
The connection of second intake line, which connects second discharge line, and the second input coolant liquid is drained into this
Second discharge line, the third bypass line are separately installed with the valve member and drain into the second row to control the second input coolant liquid
The flow of pipeline out;
Separately there is one the 4th bypass line, connect with first intake line, the 4th bypass line connects the temperature-controlled box, and will
The first input coolant liquid flows back to the temperature-controlled box, and it is cold to control the first input that the 4th bypass line is separately installed with the valve member
But liquid drains into the flow of the temperature-controlled box.
14. multiloop cooling system as claimed in claim 12, it is characterised in that: separately there is a third bypass line, with this
The connection of second intake line, which connects second discharge line, and the second input coolant liquid is drained into this
Second discharge line, the third bypass line are separately installed with the valve member and drain into the second row to control the second input coolant liquid
The flow of pipeline out;
Separately there is one the 4th bypass line, connect with first intake line, the 4th bypass line connects the temperature-controlled box, and will
The first input coolant liquid flows back to the temperature-controlled box, and it is cold to control the first input that the 4th bypass line is separately installed with the valve member
But liquid drains into the flow of the temperature-controlled box.
15. multiloop cooling system as claimed in claim 14, it is characterised in that: include separately a third discharge line, with this
Board connection, the third discharge line are provided with exporting the third output coolant liquid of the board, which, which exports coolant liquid, has one
Third liquid temperature, the third discharge line connect the cooler, and third output coolant liquid is delivered to the cooler;
One third intake line, is connected to the temperature-controlled box and the board, and it is defeated which from the temperature-controlled box flows into the third
Enter pipeline, it is that a third inputs coolant liquid, the third intake line that definition, which is located at the input coolant liquid in the third intake line,
It is connected to first space, which is separately installed with the valve member, is input to control third input coolant liquid
The flow of the board;
One the 5th bypass line is connect with the third intake line, and the 5th bypass line connects the third discharge line, and will
Third input coolant liquid drains into the third discharge line, the 5th bypass line be separately installed with the valve member with control this
Three input coolant liquids drain into the third discharge line flow.
16. multiloop cooling system as claimed in claim 14, it is characterised in that: include separately a third discharge line, with this
Board connection, the third discharge line are provided with exporting the third output coolant liquid of the board, which, which exports coolant liquid, has one
Third liquid temperature, the third discharge line connect the cooler, and third output coolant liquid is delivered to the cooler;
One the 4th intake line, is connected to the temperature-controlled box and the board, and it is defeated which from the temperature-controlled box flows into the 4th
Enter pipeline, it is one the 4th input coolant liquid, the 4th intake line that definition, which is located at the input coolant liquid in the 4th intake line,
It is connected to the second space, the 4th intake line is separately installed with the valve member, is input to control the 4th input coolant liquid
The flow of the board;
One the 6th bypass line, connect with the 4th intake line, and the 6th bypass line connects the second space, and by this
Four input coolant liquids drain into the second space, and it is cold to control the 4th input that the 6th bypass line is separately installed with the valve member
But liquid drains into the flow of the second space.
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI723644B (en) * | 2019-11-25 | 2021-04-01 | 正鴻科技有限公司 | Provide an auxiliary device for adjusting the temperature effect of the components of the machine tool |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI723644B (en) * | 2019-11-25 | 2021-04-01 | 正鴻科技有限公司 | Provide an auxiliary device for adjusting the temperature effect of the components of the machine tool |
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