CN203990531U - Film ultra-hard material synthesizer top hammer cooling system - Google Patents
Film ultra-hard material synthesizer top hammer cooling system Download PDFInfo
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- CN203990531U CN203990531U CN201420348899.1U CN201420348899U CN203990531U CN 203990531 U CN203990531 U CN 203990531U CN 201420348899 U CN201420348899 U CN 201420348899U CN 203990531 U CN203990531 U CN 203990531U
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- top hammer
- water inlet
- hard material
- pressurize
- water
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Abstract
The utility model discloses a kind of film ultra-hard material synthesizer top hammer cooling system, comprise water inlet manifold, two heated anvils and four pressurize top hammers, described water inlet manifold is all connected by a water inlet pipe with each heated anvil and each pressurize top hammer, the other end of each heated anvil and each pressurize top hammer is connected with respectively exit branch, is equipped with temperature sensor and water control valve on each exit branch.The utility model can make six hard alloy top hammers obtain cooling time, accurately controlling cooling water temperature, and balanced each cooling water pipe hydraulic pressure is avoided the drawback of water inlet end regulating pondage, makes cooling device more accurately and reliably.
Description
Technical field
The utility model relates to the synthetic production technical field of superhard material, especially a kind of cooling system of film ultra-hard material synthesizer top hammer.
Background technology
At present superhard material synthetic normally carries out under HTHP.In this process, between HTHP cavity inside and external environment, there is huge temperature difference, consequential heat transmission sharply raises press top hammer temperature.And hard alloy top hammer is because the temperature difference produces internal stress, had a strong impact on service life, under continuous high temperature environment, easily make top hammer produce crack, and then the accident such as cause that crisp hammer is blown out, bring massive losses to enterprise.
Based on this, the technical scheme that prior art is taked is that cooling water is passed through to top hammer, makes top hammer temperature maintain a lower stationary value.But traditional type of cooling is just by cooling heated anvil and ignored pressurize top hammer, and cooling water pipe not only connects intricately, and is difficult to control accurately cooling water temperature, extremely unreasonable.
Utility model content
Fail problem cooling to pressurize top hammer and cooling water temperature control accuracy deficiency in order to solve existing cooling device, the utility model provides a kind of new device, this device not only can give pressurize top hammer cooling, and can optimize cooling water pipeline connection, and regulate more accurately cooling water temperature from water side.
For achieving the above object, film ultra-hard material synthesizer top hammer cooling system of the present utility model, comprise water inlet manifold, two heated anvils and four pressurize top hammers, described water inlet manifold is all connected by a water inlet pipe with each heated anvil and each pressurize top hammer, the other end of each heated anvil and each pressurize top hammer is connected with respectively exit branch, is equipped with temperature sensor and water control valve on each exit branch.
Native system also includes an electric control gear; Described water control valve is magnetic valve, and described each temperature sensor is connected with described electric control gear signal, electric control gear and each water control valve control connection.
Described each exit branch is all connected with an outfall sewer.
Described electric control gear is PLC or integrated circuit or single-chip microcomputer.
The utility model can be lowered the temperature for each top hammer.Water control valve of the present utility model is arranged on exit branch, compare the technical scheme that water control valve is set in the past on water inlet manifold, not only can control accurately the cooling water temperature of each top hammer, thereby it is cooling to guarantee that different top hammers obtain by Expected Results, and change original water inlet end and regulated the drawback of the hydraulic pressure inequality that cooling water inflow exists, make water inlet end hydraulic pressure identical and reach maximum, prevent from, because existing impurity to stop up cooling water pipeline in cooling water, making the utility model can continue, work reliably.The setting of water inlet manifold and outfall sewer, can simplify pipe-line system, is convenient to install.The settings such as electric control gear, are convenient to automatically control by the cooling water inflow of each top hammer.
In a word, the utility model can make six hard alloy top hammers obtain cooling time, accurately controlling cooling water temperature, and balanced each cooling water pipe hydraulic pressure is avoided the drawback of water inlet end regulating pondage, makes cooling device more accurately and reliably.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model.
Detailed description of the invention
The flow direction that in Fig. 1, direction shown in arrow is cooling water.
As shown in Figure 1, film ultra-hard material synthesizer top hammer cooling system of the present utility model comprises water inlet manifold 1, two heated anvils 2 and four pressurize top hammers 3, described water inlet manifold 1 is all connected by a water inlet pipe 4 with each heated anvil 2 and each pressurize top hammer 3, the other end of each heated anvil 2 and each pressurize top hammer 3 is connected with respectively exit branch 5, is equipped with temperature sensor 6 and water control valve 7 on each exit branch 5.
Native system also includes an electric control gear; Described water control valve 7 is magnetic valve, and described each temperature sensor 6 is connected with described electric control gear signal, electric control gear and each water control valve 7 control connections.
Described each exit branch 5 is all connected with an outfall sewer 8.Described electric control gear is PLC or integrated circuit or single-chip microcomputer.
Wherein, electric control gear and base are prior art with being connected of magnetic valve, TEMP, and figure does not show electric control gear.
When work, cooling water provides cooling water by water inlet manifold 1 and each water inlet pipe 4 for each heated anvil 2 and each pressurize top hammer 3, cooling water enters outfall sewer 8 after by heated anvil 2 and pressurize top hammer 3 after each exit branch 5, and discharges through outfall sewer 8.In the time that temperature sensor 6 shows a certain heated anvil 2 or pressurize top hammer 3 place's cooling water inflow deficiencies (showing as temperature higher than setting value), the open degree of the water control valve 7 on this place's exit branch 5 of operating personnel's manual adjustments, or by the open degree of electric control gear regulating pondage control valve 7, cooling water inflow and actual demand are matched.
In the utility model, each heated anvil 2 and each pressurize top hammer 3 are all connected with water inlet pipe 4, and therefore the utility model can be lowered the temperature for each top hammer.Water control valve 7 of the present utility model is arranged on exit branch 5, compare the technical scheme that water control valve 7 is set in the past on water inlet manifold 1, not only can control accurately the cooling water temperature of each top hammer, thereby it is cooling to guarantee that different top hammers obtain by Expected Results, and change original water inlet end and regulated the drawback of the hydraulic pressure inequality that cooling water inflow exists, make water inlet end hydraulic pressure identical and reach maximum, prevent from, because existing impurity to stop up cooling water pipeline in cooling water, making the utility model can continue, work reliably.
Claims (4)
1. film ultra-hard material synthesizer top hammer cooling system, it is characterized in that: comprise water inlet manifold, two heated anvils and four pressurize top hammers, described water inlet manifold is all connected by a water inlet pipe with each heated anvil and each pressurize top hammer, the other end of each heated anvil and each pressurize top hammer is connected with respectively exit branch, is equipped with temperature sensor and water control valve on each exit branch.
2. film ultra-hard material synthesizer top hammer cooling system according to claim 1, is characterized in that: native system also includes an electric control gear;
Described water control valve is magnetic valve, and described each temperature sensor is connected with described electric control gear signal, electric control gear and each water control valve control connection.
3. film ultra-hard material synthesizer top hammer cooling system according to claim 1 and 2, is characterized in that: described each exit branch is all connected with an outfall sewer.
4. film ultra-hard material synthesizer top hammer cooling system according to claim 3, is characterized in that: described electric control gear is PLC or integrated circuit or single-chip microcomputer.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420348899.1U CN203990531U (en) | 2014-06-27 | 2014-06-27 | Film ultra-hard material synthesizer top hammer cooling system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420348899.1U CN203990531U (en) | 2014-06-27 | 2014-06-27 | Film ultra-hard material synthesizer top hammer cooling system |
Publications (1)
Publication Number | Publication Date |
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CN203990531U true CN203990531U (en) | 2014-12-10 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201420348899.1U Active CN203990531U (en) | 2014-06-27 | 2014-06-27 | Film ultra-hard material synthesizer top hammer cooling system |
Country Status (1)
Country | Link |
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CN (1) | CN203990531U (en) |
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2014
- 2014-06-27 CN CN201420348899.1U patent/CN203990531U/en active Active
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