CN220977052U - Amorphous alloy online continuous semi-solid treatment equipment - Google Patents

Amorphous alloy online continuous semi-solid treatment equipment Download PDF

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CN220977052U
CN220977052U CN202322201509.XU CN202322201509U CN220977052U CN 220977052 U CN220977052 U CN 220977052U CN 202322201509 U CN202322201509 U CN 202322201509U CN 220977052 U CN220977052 U CN 220977052U
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water
water tank
amorphous alloy
cooling
tank
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何萍
高爽
刘说
蒋芳
张京京
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Yingkou Institute of Technology
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Yingkou Institute of Technology
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Abstract

The utility model relates to the field of amorphous processing, in particular to amorphous alloy online continuous semi-solid treatment equipment, which comprises a device body, a cooling device, a water inlet channel, a water outlet channel and a water cooling assembly, wherein the water cooling assembly comprises a first water tank, a second water tank, a communication mechanism, a partition plate, a water cooling row and a fan; the device body copper base amorphous alloy in the alloy element partial polymerization phenomenon to under the condition that copper base amorphous alloy does not take place crystallization transformation, promoted copper base amorphous alloy performance's homogeneity, can realize continuous and even online semi-solid state processing to copper base amorphous alloy, the water after the heating gets into the basin through the outlet pipe, vapor upwards gets into the water cooling row, through water cooling row and fan's combined action, become the quick cooling liquid with vapor, the backward flow flows in first water tank, heat sink can be to the water cooling, second water tank trades the liquid with first water tank, the quick water in the reduction first water tank of being convenient for.

Description

Amorphous alloy online continuous semi-solid treatment equipment
Technical Field
The utility model relates to the field of amorphous processing, in particular to online continuous semi-solid treatment equipment for amorphous alloy.
Background
The amorphous alloy has the structural characteristic of unordered arrangement of liquid metal atoms and does not have a crystal structure, so that the structural defects of the amorphous alloy are generally limited to a few atomic size ranges, and the amorphous alloy has excellent mechanical property, electrical property and chemical property performances and is widely applied to manufacturing of superconducting materials and semiconductor materials.
The existing amorphous alloy semi-solid treatment equipment (CN 207727126U) comprises an alumina high-temperature-resistant ceramic copper-based amorphous alloy semi-solid treatment device, an external cooling circulation device and a graphite suction pipe. The alumina high-temperature-resistant ceramic copper-based amorphous alloy semi-solid treatment device comprises an embedded electromagnetic coil, an embedded water cooling device, a cooling water outlet channel, an arc-shaped embedded graphite lining channel, a cooling water inlet channel, a sealing ring, an electromagnetic coil power-on wire and an alumina high-temperature-resistant ceramic sheath. The external cooling circulation device connected with the embedded water cooling device comprises a cooling water outlet channel, a cooling water inlet channel, a water vapor condensation channel, a cooling water circulation cooling device and a backflow cooling water tank. The utility model can improve the segregation phenomenon of alloy elements in the copper-based amorphous alloy, and promote the uniformity of the performance of the copper-based amorphous alloy under the condition that the copper-based amorphous alloy is not crystallized and transformed, and simultaneously can realize continuous and uniform on-line semi-solid treatment on the copper-based amorphous alloy and meet the requirement of large-scale industrial production.
However, said utility model needs the water tank to be refluxed after the water vapor is naturally condensed, and the condensing effect is slow, so that the water vapor is easy to be directly circulated without being cooled, and the water temperature in the water tank becomes high when the temperature of the cooling device is insufficient.
Disclosure of utility model
The utility model aims to provide online continuous semi-solid treatment equipment for amorphous alloy, and aims to solve the problems that water vapor is required to naturally condense and then flows back to a water tank, the condensation effect is slow, the direct circulation of the water vapor is easy to cause, and the water temperature in the water tank becomes high due to insufficient cooling of a cooling device.
In order to achieve the above purpose, the utility model provides amorphous alloy on-line continuous semi-solid treatment equipment, which comprises a device body, a cooling device, a water inlet channel, a water outlet channel and a water cooling assembly, wherein the water cooling assembly comprises a first water tank, a second water tank, a communication mechanism, a partition plate, a water cooling row and a fan;
The water tank with go out water channel intercommunication, and be located go out water channel's one side, the water-cooling row with the basin intercommunication, and be located the top of basin, first water tank with the basin intercommunication, and with the water-cooling row intercommunication, and be located one side of basin, the fan with water-cooling row fixed connection, and be located one side of water tank, the second water tank set up in the bottom of first water tank, the intercommunication mechanism with first water tank intercommunication, and with the second water tank intercommunication, and be located one side of second water tank, the heat sink set up in the inside of first water tank, the baffle sets up the inside of second water tank.
The water cooling row comprises a mounting frame and a plurality of water cooling pipes, wherein the mounting frame is connected with the water tank and is positioned at the top of the water tank, the water cooling pipes are communicated with the water tank and are communicated with the first water tank and are positioned at the top of the water tank, the water cooling pipes are mounted on the mounting frame, and the fan is connected with the mounting frame and is positioned at one side of the mounting frame.
The communication mechanism comprises a communication pipe, a water suction pipe, an electromagnetic valve and a water pump, wherein the water pump is arranged on one side of the second water tank, the communication pipe is respectively communicated with the first water tank and the second water tank, the electromagnetic valve is arranged on the communication pipe, the water suction pipe is communicated with the water pump, the water suction pipe is communicated with the first water tank and is positioned between the water pump and the first water tank.
The water cooling assembly further comprises a connecting pipe and a second water pump, wherein the two sides of the partition board are communicated by the connecting pipe, and the second water pump is arranged on the connecting pipe.
The water cooling assembly further comprises a thermometer and a supporting rod, wherein the supporting rod is fixedly connected with the first water tank and located at one side of the first water tank, and the thermometer is arranged at one side of the first water tank.
According to the online continuous semi-solid treatment equipment for the amorphous alloy, the segregation phenomenon of alloy elements in the copper-based amorphous alloy in the device body is improved, the uniformity of the performance of the copper-based amorphous alloy is improved under the condition that the crystallization transformation of the copper-based amorphous alloy does not occur, meanwhile, continuous and uniform online semi-solid treatment of the copper-based amorphous alloy can be realized, large-scale industrial production is met, when water cooling circulation is performed, heated water enters the water tank through the water outlet pipe, water vapor upwards enters the water cooling row, the water cooling row area is large, more water vapor can be contained, the water vapor can be rapidly cooled into liquid through the combined action of the water cooling row and the fan, then flows back into the first water tank, the cooling device in the first water tank can further cool water, the second water tank and the first water tank can exchange liquid, water in the first water tank is conveniently and rapidly reduced, the problem that the water in the first water tank is required to be naturally condensed and then flows back, the water vapor is slowly condensed, the problem that the water temperature in the water tank is not cooled down is not fully is solved, and the water temperature in the water tank is not cooled directly due to the combined effect of the water cooling device.
Drawings
In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.
Fig. 1 is a block diagram of an amorphous alloy on-line continuous semi-solid processing apparatus according to a first embodiment of the present utility model.
Fig. 2 is a schematic cross-sectional view of an in-line continuous semi-solid processing apparatus for amorphous alloy according to a first embodiment of the present utility model.
Fig. 3 is a partial schematic view of an amorphous alloy on-line continuous semi-solid processing apparatus according to a first embodiment of the present utility model.
Fig. 4 is a schematic cross-sectional view of an amorphous alloy on-line continuous semi-solid processing apparatus according to a second embodiment of the present utility model.
101-Device body, 102-heat sink, 103-water inlet channel, 104-water outlet channel, 105-water cooling assembly, 106-first water tank, 107-water tank, 108-second water tank, 109-communication mechanism, 111-baffle, 112-water cooling row, 113-fan, 114-mounting frame, 115-water cooling pipe, 116-communicating pipe, 117-water pumping pipe, 118-electromagnetic valve, 119-water pump, 120-connecting pipe, 121-second water pump, 201-thermometer, 202-bracing piece.
Detailed Description
Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.
First embodiment
Referring to fig. 1 to 2, fig. 1 is a block diagram of an on-line continuous semi-solid processing apparatus for amorphous alloy according to a first embodiment of the present utility model, fig. 2 is a schematic cross-sectional view of an on-line continuous semi-solid processing apparatus for amorphous alloy according to the first embodiment of the present utility model, and fig. 3 is a schematic partial view of an on-line continuous semi-solid processing apparatus for amorphous alloy according to the first embodiment of the present utility model.
The utility model provides an amorphous alloy on-line continuous semi-solid treatment device which comprises: the water cooling device comprises a device body 101, a cooling device 102, a water inlet channel 103, a water outlet channel 104 and a water cooling assembly 105, wherein the water cooling assembly 105 comprises a first water tank 106, a water tank 107, a second water tank 108, a communication mechanism 109, a partition 111, a water cooling row 112, a fan 113, a mounting frame 114, a water cooling pipe 115, a communication pipe 116, a water suction pipe 117, an electromagnetic valve 118, a water pump 119, a connecting pipe 120 and a second water pump 121. The problem that the water temperature in the water tank becomes high due to insufficient cooling of the cooling device 102 because the water vapor is required to naturally condense and then flows back into the water tank, and the condensation effect is slow, which is easy to cause the water vapor to directly circulate is solved by the above scheme, and it can be understood that the above scheme can be used in a liquid replacement scene, and can also be used for pumping the water at one side of the partition 111 with high temperature into the other side of the partition 111 by the second water pump 121, so that the water can be replaced.
In this embodiment, the device body 101 is formed by the segregation phenomenon of alloy elements in the copper-based amorphous alloy, and the uniformity of the performance of the copper-based amorphous alloy is improved under the condition that the copper-based amorphous alloy is not crystallized and transformed, and meanwhile, the device can realize continuous and uniform on-line semi-solid treatment on the copper-based amorphous alloy, and can meet the requirement of large-scale industrial production.
The water tank 107 is communicated with the water outlet channel 104, and is located at one side of the water outlet channel 104, the water cooling row 112 is communicated with the water tank 107, and is located at the top of the water tank 107, the first water tank 106 is communicated with the water tank 107, and is communicated with the water cooling row 112, and is located at one side of the water tank 107, the fan 113 is fixedly connected with the water cooling row 112, and is located at one side of the water tank, the second water tank 108 is arranged at the bottom of the first water tank 106, the communication mechanism 109 is communicated with the first water tank 106, and is communicated with the second water tank 108, and is located at one side of the second water tank 108, the cooling device 102 is arranged in the inside of the first water tank 106, the partition 111 is arranged in the inside of the second water tank 108, during water cooling circulation, heated water passes through the water outlet pipe to enter the water tank 107, water vapor upwards enters the water cooling row 112, the water cooling row 112 is large in area, more water vapor can be contained, the water cooling row 108 can be cooled down to the water tank, and the water cooling row 113 can be cooled down to the water temperature of the water tank 106, and the water vapor can be cooled down to the water tank 106, and the water temperature of the water tank 106 can be cooled down to a high enough time, and the water vapor can not flow back to the water tank 106, and the water can be cooled down to a high temperature can be cooled down by the water tank 106, and the water can be cooled down by the water tank 106.
Secondly, the mounting frame 114 with the basin 107 is connected, and is located the top of basin 107, a plurality of water-cooling pipe 115 with basin 107 communicates, and with first water tank 106 communicates, and is located the top of basin 107, a plurality of water-cooling pipe 115 install in on the mounting frame 114, the fan 113 with the mounting frame 114 is connected, and is located one side of mounting frame 114, water-cooling pipe 115 is the copper level, the release of heat of being convenient for, mounting frame 114 is used for fixed a plurality of the position of water-cooling pipe.
Again, the water pump 119 is disposed on one side of the second water tank 108, the communication pipe 116 is respectively communicated with the first water tank 106 and the second water tank 108, the electromagnetic valve 118 is disposed on the communication pipe 116, the water suction pipe 117 is communicated with the water pump 119 and is communicated with the first water tank 106 and is located between the water pump 119 and the first water tank 106, the water in the second water tank 108 is pumped into the first water tank 106 by the water pump 119, and the electromagnetic valve 118 is opened to enable the water in the first water tank 106 to flow into the second water tank 108 for replacement.
Finally, the connection pipe 120 connects both sides of the partition 111, the second water pump 121 is provided on the connection pipe 116, and the water at the high temperature side of the partition 111 is pumped into the other side of the partition 111 by the second water pump 121 to be replaced.
When the online continuous semi-solid treatment equipment for the amorphous alloy is used, the segregation phenomenon of alloy elements in the copper-based amorphous alloy in the device body 101 is improved, the uniformity of the performance of the copper-based amorphous alloy is improved under the condition that the crystallization transformation of the copper-based amorphous alloy does not occur, meanwhile, the online continuous and uniform semi-solid treatment for the copper-based amorphous alloy can be realized, large-scale industrial production is met, during water cooling circulation, heated water enters the water tank 107 through the water outlet pipe, water vapor upwards enters the water cooling row 112, the water cooling row 112 has a large area, more water vapor can be accommodated, the water vapor can be rapidly cooled into liquid through the combined action of the water cooling row 112 and the fan 113, then flows back into the first water tank 106, the cooling device 102 in the first water tank 106 can further cool water, the second water tank 108 and the first water tank 106 can perform liquid exchange, the problem that the water in the first water tank 106 is slowly cooled down is convenient to quickly reduce, the water in the water tank 106 is not required to be directly cooled down due to the water cooling device, and the water temperature is not fully cooled down because of the water cooling device is not required to be directly cooled down after the water cooling row 112 has a high-speed.
Second embodiment
Referring to fig. 4, fig. 4 is a schematic cross-sectional view of an amorphous alloy on-line continuous semi-solid processing apparatus according to a second embodiment of the present utility model. On the basis of the first embodiment, the amorphous alloy online continuous semi-solid processing equipment further comprises.
The support bar 202 is fixedly connected with the first water tank 106 and is located at one side of the first water tank 106, the thermometer 201 is disposed at one side of the first water tank 106, the first water tank 106 is separated from the second water tank 108 by the support bar 202, the influence of heat conduction of the first water tank 106 on the second water tank 108 is prevented, and the thermometer 201 is used for observing the water temperature in the first water tank 106.
The above disclosure is merely illustrative of a preferred embodiment of an apparatus for on-line continuous semi-solid processing of amorphous alloy, but it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will understand that all or part of the above embodiments may be implemented and equivalent changes may be made according to the claims of the utility model.

Claims (5)

1. An amorphous alloy on-line continuous semi-solid treatment device comprises a device body, a cooling device, a water inlet channel and a water outlet channel, wherein the water inlet channel and the water outlet channel are respectively arranged at the top of the device body,
The water cooling assembly comprises a first water tank, a second water tank, a communication mechanism, a partition plate, a water cooling row and a fan;
The water tank with go out water channel intercommunication, and be located go out water channel's one side, the water-cooling row with the basin intercommunication, and be located the top of basin, first water tank with the basin intercommunication, and with the water-cooling row intercommunication, and be located one side of basin, the fan with water-cooling row fixed connection, and be located one side of water tank, the second water tank set up in the bottom of first water tank, the intercommunication mechanism with first water tank intercommunication, and with the second water tank intercommunication, and be located one side of second water tank, the heat sink set up in the inside of first water tank, the baffle sets up the inside of second water tank.
2. An amorphous alloy on-line continuous semi-solid processing apparatus according to claim 1, wherein,
The water cooling row comprises a mounting frame and a plurality of water cooling pipes, wherein the mounting frame is connected with the water tank and is positioned at the top of the water tank, the water cooling pipes are communicated with the water tank and are communicated with the first water tank and are positioned at the top of the water tank, the water cooling pipes are mounted on the mounting frame, and the fan is connected with the mounting frame and is positioned at one side of the mounting frame.
3. An amorphous alloy on-line continuous semi-solid processing apparatus according to claim 2, wherein,
The communication mechanism comprises a communication pipe, a water suction pipe, an electromagnetic valve and a water pump, wherein the water pump is arranged on one side of the second water tank, the communication pipe is respectively communicated with the first water tank and the second water tank, the electromagnetic valve is arranged on the communication pipe, the water suction pipe is communicated with the water pump and the first water tank, and the water pump is positioned between the water pump and the first water tank.
4. An amorphous alloy on-line continuous semi-solid processing apparatus according to claim 3,
The water cooling assembly further comprises a connecting pipe and a second water pump, wherein the two sides of the partition board are communicated by the connecting pipe, and the second water pump is arranged on the connecting pipe.
5. An amorphous alloy on-line continuous semi-solid processing apparatus according to claim 4, wherein,
The water cooling assembly further comprises a thermometer and a supporting rod, wherein the supporting rod is fixedly connected with the first water tank and is positioned on one side of the first water tank, and the thermometer is arranged on one side of the first water tank.
CN202322201509.XU 2023-08-16 2023-08-16 Amorphous alloy online continuous semi-solid treatment equipment Active CN220977052U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202322201509.XU CN220977052U (en) 2023-08-16 2023-08-16 Amorphous alloy online continuous semi-solid treatment equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202322201509.XU CN220977052U (en) 2023-08-16 2023-08-16 Amorphous alloy online continuous semi-solid treatment equipment

Publications (1)

Publication Number Publication Date
CN220977052U true CN220977052U (en) 2024-05-17

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ID=91066159

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202322201509.XU Active CN220977052U (en) 2023-08-16 2023-08-16 Amorphous alloy online continuous semi-solid treatment equipment

Country Status (1)

Country Link
CN (1) CN220977052U (en)

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