CN218284776U - Water-gas integrated system for cooling cutter - Google Patents
Water-gas integrated system for cooling cutter Download PDFInfo
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- CN218284776U CN218284776U CN202121890523.XU CN202121890523U CN218284776U CN 218284776 U CN218284776 U CN 218284776U CN 202121890523 U CN202121890523 U CN 202121890523U CN 218284776 U CN218284776 U CN 218284776U
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- blowing
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Abstract
The utility model discloses a system is unified to aqueous vapor for cutter cooling, including water source, air supply, water-cooling on-off valve, the on-off valve that blows, first check valve and second check valve, the export of water source the water-cooling on-off valve with first check valve in proper order through the tube coupling for the water-cooling path, the export of air supply the on-off valve that blows with the second check valve in proper order through the tube coupling for the path of blowing, the water-cooling path with the end of the path of blowing converge the back and access to the cutter. The utility model discloses water and gas unification system's advantage is: the adopted one-way valve is of a pure mechanical structure, does not need to be controlled electrically, and is high in reliability; the cost is low, the installation is convenient, the structure is compact, the required installation space is small, and the service life is long; the adopted one-way valve has better stopping capability than a two-position three-way electromagnetic reversing valve and better leakage-proof effect.
Description
Technical Field
The utility model relates to a cooling system specifically is a water-gas unification system for cutter cooling.
Background
When a machine tool cuts, a cutter generates heat to influence the precision and the service life of the cutter, the condition needs to be improved by configuring a cutter cooling system, and scrap iron is cleaned while the heat is taken away. Cutter cooling system divides water-cooling and air-cooling, and in prior art, to the operating mode of difference, in order to reduce the pipeline quantity simultaneously, generally adopt the form that the export pipeline of aqueous vapor shares, aqueous vapor unifies the system promptly. The water-gas integrated system adopts a two-position three-way electromagnetic directional valve to switch a water cooling pipeline and a gas cooling pipeline, and the water-cooled medium cutting fluid has low filtering precision, so impurities in the cutting fluid easily cause the two-position three-way electromagnetic directional valve to be blocked, and the two-position three-way electromagnetic directional valve cannot be normally switched, so that the existing water-gas integrated system has high fault probability, needs electrical control and has complex control logic.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that, to prior art not enough, provide a reliability height, with low costs, simple to operate, compact structure, long service life, leak protection effectual be used for cutter refrigerated aqueous vapor unification system.
The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides a water-air unification system for cutter cooling, includes water source, air supply, water-cooling on-off valve, the on-off valve of blowing, first check valve and second check valve, the export of water source the water-cooling on-off valve with first check valve pass through the tube coupling in proper order and be the water-cooling way, the export of air supply the on-off valve of blowing with second check valve pass through the tube coupling in proper order and be the gas blowing way, the water-cooling way with the end of gas blowing way lead to the cutter after converging.
The utility model discloses water-gas unification system can realize the switching of water-cooling way and the gas circuit of blowing through the combination of these two check valves of first check valve and second check valve, and first check valve and second check valve are installed respectively in the rear end on water-cooling way and the gas circuit of blowing, utilize the one-way characteristic of passing through of check valve just can replace two tee bend magenetic exchange valves to realize corresponding water-cooling and the function of blowing.
The utility model discloses water-gas unification system realizes the principle of water-cooling function: when the water cooling function is needed to be realized, the water cooling on-off valve is powered on and connected, the blowing on-off valve is powered off and is in a normal closed state, cooling water from a water source positively passes through the first one-way valve and leads to the cutter through the water cooling path, but the cooling water is reverse relative to the second one-way valve, and the second one-way valve can prevent the cooling water from leading to the blowing path.
The utility model discloses principle of the function of blowing is realized to aqueous vapor unification system: when the blowing function is required to be realized, the blowing on-off valve is powered on and connected, the water-cooling on-off valve is not powered on and is in a normal closed state, gas from a gas source passes through the second one-way valve in the forward direction and is led to the cutter through the blowing path, but the gas is reverse relative to the first one-way valve, and the first one-way valve can prevent the gas from blowing to the water-cooling path.
The utility model discloses the check valve that water and air unification system adopted does not need the control in the aspect of the electricity for pure mechanical structure, therefore this water and air unification system's reliability is high. In addition, compare with two tee bend solenoid directional valves, the check valve has advantages such as simple structure, small, not fragile, simple to operate, and the cost of two check valves is far less than a two tee bend solenoid directional valves, therefore reducible cost and the installation space of this water and gas unification system make its overall structure compacter to greatly improve this water and gas unification system's life. In addition, owing to realize the structural principle difference of function by, the check valve by the ability be better than two tee bend solenoid directional valves, therefore the utility model discloses aqueous vapor unification system has better leak protection effect.
Preferably, the inlet of the water source is connected with a water-cooling pump to ensure the water-cooling effect.
Preferably, outlets of the first one-way valve and the second one-way valve are respectively connected with the same three-way joint, the three-way joint is connected with a connecting pipeline, and the tail end of the connecting pipeline is communicated with the cutter. Join the water cooling way and the way of blowing through three way connection, convenient assembly, and make the utility model discloses the overall structure of aqueous vapor unification system is compacter.
Preferably, the water-cooling on-off valve and the air blowing on-off valve are two-position two-way electromagnetic directional valves.
Compared with the prior art, the utility model has the advantages of as follows:
(1) The one-way valve adopted by the water-gas integrated system of the utility model is of a pure mechanical structure, does not need to be electrically controlled, and has high reliability;
(2) The water-gas integrated system has low cost, convenient installation, compact structure, small required installation space and long service life;
(3) The utility model discloses the check valve that water-gas unification system adopted stops ability and is better than two tee bend magenetic exchange valves, has better leak protection effect.
Drawings
FIG. 1 is a schematic diagram of a water-air unification system for cooling a tool in an embodiment.
Detailed Description
The present invention will be described in further detail with reference to the following embodiments.
The water-air-in-one system for cooling the cutter comprises a water source, a gas source, a water-cooling on-off valve 1, a blowing on-off valve 2, a first one-way valve 3 and a second one-way valve 4, wherein a water-cooling pump 5 is connected to an inlet of the water source, an outlet of the water source, the water-cooling on-off valve 1 and the first one-way valve 3 are sequentially connected into a water cooling path 6 through pipelines, an outlet of the gas source, the blowing on-off valve 2 and the second one-way valve 4 are sequentially connected into a blowing path 7 through pipelines, and the tail ends of the water cooling path 6 and the blowing path 7 are converged and then led to the cutter.
In this embodiment, the outlets of the first check valve 3 and the second check valve 4 are respectively connected to the same three-way joint 8, the three-way joint 8 is connected to a connecting pipeline 9, and the end of the connecting pipeline 9 leads to the cutter.
In this embodiment, the water-cooling on-off valve 1 and the air blowing on-off valve 2 are both two-position two-way electromagnetic directional valves.
The water-air unification system can realize the switching of the water cooling path 6 and the air blowing path 7 through the combination of the two check valves of the first check valve 3 and the second check valve 4. When the water cooling function is required to be realized, the water cooling on-off valve 1 is powered on and switched on, the air blowing on-off valve 2 is not powered on, the water cooling on-off valve is in a normal closed state, cooling water from a water source positively passes through the first one-way valve 3 and is led to the cutter through the water cooling path 6, but the cooling water is reverse relative to the second one-way valve 4, and the second one-way valve 4 can prevent the cooling water from being led to the air blowing path 7; when the blowing function needs to be realized, the blowing on-off valve 2 is powered on and connected, the water cooling on-off valve 1 is not powered on and is in a normal closed state, gas from a gas source positively passes through the second one-way valve 4 and is led to the cutter through the blowing path 7, but the gas is reverse relative to the first one-way valve 3, and the first one-way valve 3 can prevent the gas from blowing to the water cooling path 6.
Claims (4)
1. The utility model provides a water-gas unification system for cutter cooling, a serial communication port, include water source, air supply, water-cooling on-off valve, the on-off valve of blowing, first check valve and second check valve, the export of water source the water-cooling on-off valve with first check valve pass through the tube coupling in proper order and be the water-cooling way, the export of air supply the blow on-off valve with the second check valve pass through the tube coupling in proper order and be the air-blowing way, the water-cooling way with the end of the air-blowing way get access to the cutter after converging.
2. The system of claim 1, wherein a water-cooled pump is connected to the inlet of the water source.
3. The water-gas integration system for cooling the cutter according to claim 1, wherein outlets of the first one-way valve and the second one-way valve are respectively connected with a same three-way joint, the three-way joint is connected with a connecting pipeline, and the tail end of the connecting pipeline leads to the cutter.
4. The system of claim 1, wherein the water-cooling on-off valve and the air-blowing on-off valve are two-position two-way electromagnetic directional valves.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121890523.XU CN218284776U (en) | 2021-08-12 | 2021-08-12 | Water-gas integrated system for cooling cutter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121890523.XU CN218284776U (en) | 2021-08-12 | 2021-08-12 | Water-gas integrated system for cooling cutter |
Publications (1)
Publication Number | Publication Date |
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CN218284776U true CN218284776U (en) | 2023-01-13 |
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Family Applications (1)
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CN202121890523.XU Active CN218284776U (en) | 2021-08-12 | 2021-08-12 | Water-gas integrated system for cooling cutter |
Country Status (1)
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CN (1) | CN218284776U (en) |
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2021
- 2021-08-12 CN CN202121890523.XU patent/CN218284776U/en active Active
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