CN207982288U - A kind of cooling system of aluminium alloy Driving terminal - Google Patents
A kind of cooling system of aluminium alloy Driving terminal Download PDFInfo
- Publication number
- CN207982288U CN207982288U CN201820280633.6U CN201820280633U CN207982288U CN 207982288 U CN207982288 U CN 207982288U CN 201820280633 U CN201820280633 U CN 201820280633U CN 207982288 U CN207982288 U CN 207982288U
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- compressor
- cooling
- water
- evaporation tube
- cooling system
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Abstract
The utility model is suitable for the cooling system of casting machine, provide a kind of cooling system of aluminium alloy Driving terminal, including cooling component and recirculation assembly, the cooling component includes pedestal, evaporation tube, compressor and condenser pipe, the pedestal is fixedly connected on the compressor, and the compressor is located at the right side of the evaporation tube;The electrically-controlled valve is automatically controlled by the PLC, start-stop time point can be set as needed, the water of needs is controlled by the flowmeter, the cooling water temperature in the constant temperature water tank is controlled by the compressor, heat exchange zone fouling is prevented using condensed water, compared to the cooling system of more existing casting machine, the cooling system of novel alloy Driving terminal control effectively to the water temperature of node cooling time, cooling water inflow, cooling water, to improve the cooling effect of casting, so that casting is not easy to deform, to improve the qualification rate of casting.
Description
Technical field
The utility model belongs to cooling system technical field more particularly to a kind of cooling system of aluminium alloy Driving terminal.
Background technology
In non-ferrous metal industry, need the physical specification of the crude metal of molten state as requested being cast into the existing work of casting
Skill mostly uses greatly Rotating caster to realize that direct casting, technological process be:Liquid metals is flowed out by anode refining furnace, in
Between packet with casting package after, liquid metals is poured into the copper mold of the casting on Rotating caster, complete casting after
Module leaves casting position, is then shaped through upper surface spray and air natural cooling;Casting is finally mentioned into cooling by extractor
Slot cools down, the reciprocal continuous production of casting die.
The cooling system of casting machine currently on the market mostly cannot be to cooling time node, cooling water inflow, cooling water
Water temperature control effectively, to influence the cooling effect of casting so that casting is easily deformed, and qualification rate is low.
Utility model content
The utility model provides a kind of cooling system of aluminium alloy Driving terminal, it is intended to solve casting machine currently on the market
Cooling system cannot control effectively mostly to the water temperature of node cooling time, cooling water inflow, cooling water, to influence to cast
The cooling effect of part so that casting is easily deformed, the low problem of qualification rate.
The utility model is realized in this way a kind of cooling system of aluminium alloy Driving terminal, including cooling component and follow
Ring assemblies, the cooling component include pedestal, evaporation tube, compressor and condenser pipe, and the pedestal is fixedly connected on the compression
Machine, the compressor are located at the right side of the evaporation tube, and the compressor is respectively fixedly connected in the evaporation tube and condenser pipe,
The condenser pipe is located at the top of the compressor, and the evaporation tube is located at the left side of the condenser pipe, the compressor with it is outer
Portion's power supply is electrically connected, and the recirculation assembly includes return pipe, flowmeter, electrically-controlled valve, water inlet pipe, constant temperature water tank, PLC, water pump
And mold core, the constant temperature water tank are fixedly connected on the pedestal, the constant temperature water tank is located at the top of the pedestal, the water pump
Positioned at the inside of the constant temperature water tank, the water pump is fixedly connected on the mold core by the water inlet pipe, the return pipe
Both ends are respectively fixedly connected in the mold core and the constant temperature water tank, and the electrically-controlled valve and flowmeter are installed on the water inlet pipe
Middle position, the electrically-controlled valve are located at the left side of the flowmeter, and the electrically-controlled valve includes valve body, electromagnet, piston and bullet
Spring, the piston are slidably connected to the valve body, and the piston is located at the inside of the valve body, the spring be connected be connected to it is described
Piston, the spring are located at the top of the piston, and the electromagnet is fixedly connected on the valve body, and the electromagnet is located at institute
The top of valve body is stated, the end of the mold core offers water hole, and the PLC is fixedly connected on the pedestal, and the PLC is located at institute
The left side of constant temperature water tank is stated, the flowmeter, electromagnet, PLC and water pump are electrically connected with external power supply.
Preferably, the evaporation tube is located at the inside of the constant temperature water tank, and the evaporation tube is located at the right side of the water pump.
Preferably, the both ends of the evaporation tube are respectively fixedly connected in the compressor and the condenser pipe, the condensation
The both ends of pipe are respectively fixedly connected in the evaporation tube and the compressor.
Preferably, the flowmeter, electromagnet, compressor, water pump are electrically connected with the PLC.
Preferably, the inside of the valve body offers card slot, and the card slot is adapted with the piston, the spring it is upper
Lower both ends are respectively fixedly connected in the valve body and the piston.
Preferably, the inside of the constant temperature water tank, which is contained, is equipped with coolant liquid, and the coolant liquid is condensed water.
Compared with prior art, the utility model has the beneficial effects that:A kind of aluminium alloy Driving terminal of the utility model
Cooling system, solve the problems, such as that casting qualified rate is low by the way that the PLC, flowmeter, water pump, electrically-controlled valve and compressor is arranged
, the electrically-controlled valve is automatically controlled by the PLC, and start-stop time point can be set as needed, controlled by the flowmeter
Make the water needed, water temperature it is constant, constant water temperature mould temperature could be constant, and casting quality could be stablized, and the compressor is passed through
The cooling water temperature in the constant temperature water tank is controlled, heat exchange zone fouling is prevented using condensed water, is poured compared to more existing
The cooling system of casting machine, the water of the cooling system of novel alloy Driving terminal to node cooling time, cooling water inflow, cooling water
Temperature control effectively, to improve the cooling effect of casting so that casting is not easy to deform, to improve the qualification of casting
Rate.
Description of the drawings
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is the structural schematic diagram of electrically-controlled valve in the utility model;
Fig. 3 is the structural schematic diagram of PLC control system in the utility model;
In figure:1- cooling components, 11- pedestals, 12- evaporation tubes, 13- compressors, 14- condenser pipes, 2- water circulation components,
21- return pipes, the water holes 22-, 23- flowmeters, 24- electrically-controlled valves, 241- valve bodies, 242- electromagnet, 243- pistons, 244- springs,
25- water inlet pipes, 26- constant temperature water tanks, 27-PLC, 28- water pump, 29- mold cores.
Specific implementation mode
In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation
Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain
The utility model is not used to limit the utility model.
- 3 are please referred to Fig.1, the utility model provides a kind of technical solution:A kind of cooling system of aluminium alloy Driving terminal,
Including cooling component 1 and recirculation assembly 2, cooling component 1 includes pedestal 11, evaporation tube 12, compressor 13 and condenser pipe 14, pedestal
11 are fixedly connected on compressor 13, and compressor 13 is located at the right side of evaporation tube 12, and compressor 13 is respectively fixedly connected in evaporation tube
12 and condenser pipe 14, condenser pipe 14 is located at the top of compressor 13, and evaporation tube 12 is located at the left side of condenser pipe 14, compressor 13 with
External power supply be electrically connected, recirculation assembly 2 include return pipe 21, flowmeter 23, electrically-controlled valve 24, water inlet pipe 25, constant temperature water tank 26,
PLC27, water pump 28 and mold core 29, constant temperature water tank 26 are fixedly connected on pedestal 11, and constant temperature water tank 26 is located at the top of pedestal 11,
Water pump 28 is located at the inside of constant temperature water tank 26, and water pump 28 is fixedly connected on mold core 29, the both ends of return pipe 21 by water inlet pipe 25
It is respectively fixedly connected in mold core 29 and constant temperature water tank 26, electrically-controlled valve 24 and flowmeter 23 are installed on the centre position of water inlet pipe 25
Place, electrically-controlled valve 24 are located at the left side of flowmeter 23, and electrically-controlled valve 24 includes valve body 241, electromagnet 242, piston 243 and spring 244,
Piston 243 is slidably connected to valve body 241, and piston 243 is located at the inside of valve body 241, and spring 244 is connected and is connected to piston 243, spring
244 are located at the top of piston 243, and electromagnet 242 is fixedly connected on valve body 241, and electromagnet 242 is located at the top of valve body 241, mould
The end of core 29 offers water hole 22, and PLC27 is fixedly connected on pedestal 11, and PLC27 is located at the left side of constant temperature water tank 26, flowmeter
23, electromagnet 242, PLC27 and water pump 28 are electrically connected with external power supply.
In the present embodiment, the opening and closing time of cooling water is controlled by the way that electrically-controlled valve 24 is arranged, when beating
When opening cooling water, electromagnet 242 is initially powered up and generates magnetic force, the band upward sliding in card slot of piston 243, and spring 244 is received
Contracting, 24 cooling water of electrically-controlled valve cools down mold core 29 by water inlet pipe 25 at this time, when cooling water to be closed, electromagnet 242
Power-off, the contraction of spring 244 are expanded again, the slide downward in card slot with piston 243 of spring 244, and electrically-controlled valve 24 is closed at this time
It closes.
In the present embodiment, it is solved by the way that flowmeter 23, electromagnet 242, compressor 13, water pump 28 and PLC27 is arranged
The certainly low problem of casting qualified rate, air is collapsed into high temperature and high pressure gas and is transported in condenser pipe 14 by compressor 13,
High temperature and high pressure gas carries out decompression heat dissipation in condenser pipe 14, converts high temperature and high pressure gas to low temperature and low pressure liquid, low-temp low-pressure
Liquid is delivered in evaporation tube 12, and low temperature and low pressure liquid absorbs the heat of cooling water in constant temperature water tank 26 in evaporation tube 12, from
And cool down to cooling water in constant temperature water tank 26, low temperature and low pressure liquid is converted into low temperature low pressure gas and defeated in evaporation tube 12
Send into compressor 13, water temperature it is constant, constant water temperature mould temperature could be constant, and casting quality could be stablized, and be controlled by PLC27
The working frequency of compressor 13, so that the temperature that the cooling water in constant temperature water tank 26 is kept constant, water pump 28 is by thermostatted water
Cooling water in case 26 is delivered to mold core 29 by water inlet pipe 25 and is cooled down, and when cooling water to be opened, electromagnet 242 starts
It is powered and generates magnetic force, the band upward sliding in card slot of piston 243, spring 244 is shunk, and 24 cooling water of electrically-controlled valve passes through at this time
Water inlet pipe 25 cools down mold core 29, and when cooling water to be closed, electromagnet 242 powers off, and the contraction of spring 244 is expanded again,
The slide downward in card slot with piston 243 of spring 244, the at this time closing of electrically-controlled valve 24, flowmeter 23 can carry out water real
When monitor, the flow information of cooling water is passed into PLC27, PLC27 controls the working efficiency of water pump 28, to regulating pondage,
Compared to the cooling system of more existing casting machine, the cooling system of novel alloy Driving terminal is to node cooling time, cooling
Water, the water temperature of cooling water control effectively, to improve the cooling effect of casting so that and casting is not easy to deform, to
Improve the qualification rate of casting.
Further, evaporation tube 12 is located at the inside of constant temperature water tank 26, and evaporation tube 12 is located at the right side of water pump 28.
In the present embodiment, by the way that evaporation tube 12 is arranged come so that the temperature that the cooling water in constant temperature water tank 26 is kept constant
Air is collapsed into high temperature and high pressure gas and is transported in condenser pipe 14 by degree, compressor 13, and high temperature and high pressure gas is in condenser pipe
14 carry out decompression heat dissipation, convert high temperature and high pressure gas to low temperature and low pressure liquid, and low temperature and low pressure liquid is delivered in evaporation tube 12,
Low temperature and low pressure liquid absorbs the heat of cooling water in constant temperature water tank 26 in evaporation tube 12, to cooling water in constant temperature water tank 26
Cool down, low temperature and low pressure liquid is converted into low temperature low pressure gas in evaporation tube 12 and is delivered in compressor 13, passes through
PLC27 controls the working frequency of compressor 13, water temperature it is constant, constant water temperature mould temperature could be constant, and casting quality could be stablized,
So that the temperature that the cooling water in constant temperature water tank 26 is kept constant.
Further, the both ends of evaporation tube 12 are respectively fixedly connected in compressor 13 and condenser pipe 14, and the two of condenser pipe 14
End is respectively fixedly connected in evaporation tube 12 and compressor 13.
In the present embodiment, by the way that compressor 13 is arranged come so that the temperature that the cooling water in constant temperature water tank 26 is kept constant
Air is collapsed into high temperature and high pressure gas and is transported in condenser pipe 14 by degree, compressor 13, and high temperature and high pressure gas is in condenser pipe
14 carry out decompression heat dissipation, convert high temperature and high pressure gas to low temperature and low pressure liquid, and low temperature and low pressure liquid is delivered in evaporation tube 12,
Low temperature and low pressure liquid absorbs the heat of cooling water in constant temperature water tank 26 in evaporation tube 12, to cooling in constant temperature water tank 26
Water cools down, and low temperature and low pressure liquid is converted into low temperature low pressure gas in evaporation tube 12 and is delivered in compressor 13, passes through
PLC27 controls the working frequency of compressor 13, water temperature it is constant, constant water temperature mould temperature could be constant, and casting quality could be steady
It is fixed, so that the temperature that the cooling water in constant temperature water tank 26 is kept constant.
Further, flowmeter 23, electromagnet 242, compressor 13, water pump 28 are electrically connected with PLC27.
In the present embodiment, the work of entire cooling system is controlled by the way that PLC27 is arranged, compressor 13 is by air
It is collapsed into high temperature and high pressure gas and is transported in condenser pipe 14, high temperature and high pressure gas carries out decompression heat dissipation in condenser pipe 14, will
High temperature and high pressure gas is converted into low temperature and low pressure liquid, and low temperature and low pressure liquid is delivered in evaporation tube 12, and low temperature and low pressure liquid is steaming
The heat that cooling water in constant temperature water tank 26 is absorbed in pipe 12 is sent out, to cool down to cooling water in constant temperature water tank 26, low temperature is low
Press liquid is converted into low temperature low pressure gas in evaporation tube 12 and is delivered in compressor 13, and compressor 13 is controlled by PLC27
Working frequency so that the temperature that the cooling water in constant temperature water tank 26 is kept constant, water pump 28 will be in constant temperature water tank 26
Cooling water is delivered to mold core 29 by water inlet pipe 25 and is cooled down, and when cooling water to be opened, electromagnet 242 is initially powered up simultaneously
Magnetic force, the band upward sliding in card slot of piston 243 are generated, spring 244 is shunk, and 24 cooling water of electrically-controlled valve passes through water inlet pipe at this time
25 pairs of mold cores 29 cool down, and when cooling water to be closed, electromagnet 242 powers off, and the contraction of spring 244 is expanded again, spring 244
The band slide downward in card slot of piston 243, at this time electrically-controlled valve 24 close, flowmeter 23 can monitor water in real time,
The flow information of cooling water is passed into PLC27, PLC27 controls the working efficiency of water pump 28, to regulating pondage.
Further, the inside of valve body 241 offers card slot, and card slot is adapted with piston 243, and up and down the two of spring 244
End is respectively fixedly connected in valve body 241 and piston 243.
In the present embodiment, the opening and closing time of cooling water is controlled by the way that electrically-controlled valve 24 is arranged, when beating
When opening cooling water, electromagnet 242 is initially powered up and generates magnetic force, the band upward sliding in card slot of piston 243, and spring 244 is received
Contracting, 24 cooling water of electrically-controlled valve cools down mold core 29 by water inlet pipe 25 at this time, when cooling water to be closed, electromagnet 242
Power-off, the contraction of spring 244 are expanded again, the slide downward in card slot with piston 243 of spring 244, and electrically-controlled valve 24 is closed at this time
It closes.
Further, the inside of constant temperature water tank 26, which is contained, is equipped with coolant liquid, and coolant liquid is condensed water.
In the present embodiment, heat exchange zone fouling is prevented by the way that condensed water is arranged, it is big in existing cooling system water
Containing impurity more, impurity can be attached to heat exchange zone, be used for a long time heat exchange zone encrustation, influence heat exchange effect, to
Influence casting quality.
The operation principle and process for using of the utility model:Air is collapsed into high temperature and high pressure gas and defeated by compressor 13
It is sent in condenser pipe 14, high temperature and high pressure gas carries out decompression heat dissipation in condenser pipe 14, and it is low to convert high temperature and high pressure gas to low temperature
Press liquid, low temperature and low pressure liquid are delivered in evaporation tube 12, and low temperature and low pressure liquid absorbs in evaporation tube 12 in constant temperature water tank 26
The heat of cooling water, to cool down to cooling water in constant temperature water tank 26, low temperature and low pressure liquid is converted into evaporation tube 12
Low temperature low pressure gas is simultaneously delivered in compressor 13, the working frequency of compressor 13 is controlled by PLC27, so that constant temperature
The temperature that cooling water in water tank 26 is kept constant, water temperature it is constant, constant water temperature mould temperature could be constant, and casting quality could be steady
Fixed, the cooling water in constant temperature water tank 26 is delivered to mold core 29 by water inlet pipe 25 and cooled down by water pump 28, when cooling to be opened
When water, electromagnet 242 is initially powered up and generates magnetic force, the band upward sliding in card slot of piston 243, and spring 244 is shunk, at this time
24 cooling water of electrically-controlled valve cools down mold core 29 by water inlet pipe 25, and when cooling water to be closed, electromagnet 242 powers off, bullet
The contraction of spring 244 is expanded again, the slide downward in card slot with piston 243 of spring 244, and electrically-controlled valve 24 is closed at this time, flowmeter
23 can monitor water in real time, the flow information of cooling water be passed to PLC27, PLC27 controls the work of water pump 28
Efficiency compares the cooling system of more existing casting machine, the cooling system pair of novel alloy Driving terminal to regulating pondage
Cooling time node, cooling water inflow, cooling water water temperature control effectively, to improve the cooling effect of casting so that casting
Part is not easy to deform, to improve the qualification rate of casting.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
All any modification, equivalent and improvement etc., should be included in the utility model made by within the spirit and principle of utility model
Protection domain within.
Claims (6)
1. a kind of cooling system of aluminium alloy Driving terminal, it is characterised in that:Including cooling component (1) and recirculation assembly (2), institute
It includes pedestal (11), evaporation tube (12), compressor (13) and condenser pipe (14) to state cooling component (1), and the pedestal (11) is fixed
It is connected to the compressor (13), the compressor (13) is located at the right side of the evaporation tube (12), the compressor (13) point
It is not fixedly connected on the evaporation tube (12) and condenser pipe (14), the condenser pipe (14) is located at the upper of the compressor (13)
Side, the evaporation tube (12) are located at the left side of the condenser pipe (14), and the compressor (13) is electrically connected with external power supply,
The recirculation assembly (2) includes return pipe (21), flowmeter (23), electrically-controlled valve (24), water inlet pipe (25), constant temperature water tank
(26), PLC (27), water pump (28) and mold core (29), the constant temperature water tank (26) are fixedly connected on the pedestal (11), the perseverance
Reservoir (26) is located at the top of the pedestal (11), and the water pump (28) is located at the inside of the constant temperature water tank (26), described
Water pump (28) is fixedly connected on the mold core (29) by the water inlet pipe (25), and the both ends of the return pipe (21) are fixed respectively
It is connected to the mold core (29) and the constant temperature water tank (26), the electrically-controlled valve (24) and flowmeter (23) are installed on the water inlet
The middle position of (25) is managed, the electrically-controlled valve (24) is located at the left side of the flowmeter (23), and the electrically-controlled valve (24) includes
Valve body (241), electromagnet (242), piston (243) and spring (244), the piston (243) are slidably connected to the valve body
(241), the piston (243) is located at the inside of the valve body (241), and the spring (244) is connected and is connected to the piston
(243), the spring (244) is located at the top of the piston (243), and the electromagnet (242) is fixedly connected on the valve body
(241), the electromagnet (242) is located at the top of the valve body (241), and the end of the mold core (29) offers water hole
(22), the PLC (27) is fixedly connected on the pedestal (11), and the PLC (27) is located at the left side of the constant temperature water tank (26),
The flowmeter (23), electromagnet (242), PLC (27) and water pump (28) are electrically connected with external power supply.
2. a kind of cooling system of aluminium alloy Driving terminal as described in claim 1, it is characterised in that:The evaporation tube (12)
Inside positioned at the constant temperature water tank (26), the evaporation tube (12) are located at the right side of the water pump (28).
3. a kind of cooling system of aluminium alloy Driving terminal as described in claim 1, it is characterised in that:The evaporation tube (12)
Both ends be respectively fixedly connected in the compressor (13) and the condenser pipe (14), the both ends of the condenser pipe (14) are solid respectively
Surely the evaporation tube (12) and the compressor (13) are connected to.
4. a kind of cooling system of aluminium alloy Driving terminal as described in claim 1, it is characterised in that:The flowmeter
(23), electromagnet (242), compressor (13), water pump (28) are electrically connected with the PLC (27).
5. a kind of cooling system of aluminium alloy Driving terminal as described in claim 1, it is characterised in that:The valve body (241)
Inside offer card slot, the card slot is adapted with the piston (243), and the upper and lower ends of the spring (244) are solid respectively
Surely the valve body (241) and the piston (243) are connected to.
6. a kind of cooling system of aluminium alloy Driving terminal as described in claim 1, it is characterised in that:The constant temperature water tank
(26) inside, which is contained, is equipped with coolant liquid, and the coolant liquid is condensed water.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820280633.6U CN207982288U (en) | 2018-02-28 | 2018-02-28 | A kind of cooling system of aluminium alloy Driving terminal |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820280633.6U CN207982288U (en) | 2018-02-28 | 2018-02-28 | A kind of cooling system of aluminium alloy Driving terminal |
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Publication Number | Publication Date |
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CN207982288U true CN207982288U (en) | 2018-10-19 |
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ID=63824980
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CN201820280633.6U Expired - Fee Related CN207982288U (en) | 2018-02-28 | 2018-02-28 | A kind of cooling system of aluminium alloy Driving terminal |
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CN (1) | CN207982288U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112453381A (en) * | 2020-10-26 | 2021-03-09 | 王兴 | Automatic production method of aluminum alloy ingot |
-
2018
- 2018-02-28 CN CN201820280633.6U patent/CN207982288U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112453381A (en) * | 2020-10-26 | 2021-03-09 | 王兴 | Automatic production method of aluminum alloy ingot |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181019 Termination date: 20190228 |