CN217628555U - High-carbon ferrochrome sintering production pouring circulating cooling device - Google Patents

Abstract

The utility model discloses a high-carbon ferrochrome sintering production pouring circulating cooling device, which comprises a casting assembly, wherein the casting assembly comprises a casting mold, a shell, a water storage tank, a heat conducting plate and a circulating pump; cooling body, cooling body includes electric cabinet, temperature sensor, body, first refrigeration piece, second refrigeration piece and PLC controller. The utility model discloses a temperature sensor detects the temperature data of heat-conducting plate, then the cold junction through the second refrigeration piece absorbs the heat of cooling water in the storage water tank, thereby carry out refrigeration treatment to the cooling water, then derive the cooling water after will refrigerating to the inside of casing through the circulating pump, then utilize the cooling water to absorb the heat of mould through the heat-conducting plate, then the cold junction through first refrigeration piece absorbs the heat of cooling water in the casing once more, thereby cool down the processing once more to the cooling water, the temperature of having avoided the cooling water risees fast, the heat absorption efficiency of cooling water has been guaranteed, the cooling efficiency of mould has been improved.

Description

High-carbon ferrochrome sintering production pouring circulating cooling device

The technical field is as follows:

the utility model relates to a high carbon ferrochrome sintering production technical field specifically is a high carbon ferrochrome sintering production pouring circulative cooling device.

The background art comprises the following steps:

ferrochrome is the most important raw material for producing stainless steel, is mainly applied to producing stainless steel, ball bearing steel, tool steel, nitriding steel, hot strength steel, quenched and tempered steel, carburizing steel and hydrogen-resistant steel, and each kind of stainless steel contains a certain amount of chromium due to the determined action of chromium in the stainless steel;

traditional high carbon ferrochrome is when sintering production, generally need utilize the mould to cast the liquid product after going out of the stove, the drawing of patterns again after the cooling is accomplished, in order to improve the refrigerated efficiency of mould, generally need utilize flowing water to absorb the heat of mould, because water temperature can rise fast after the heat absorption, thereby lead to the endothermic efficiency of water to reduce gradually, and then influenced the cooling efficiency of mould, for this reason, provide a high carbon ferrochrome sintering production pouring circulating cooling device.

The utility model has the following contents:

an object of the utility model is to provide a high carbon ferrochrome sintering production pouring circulative cooling device to solve one of the problems that proposes in the above-mentioned background art.

The utility model discloses by following technical scheme implement: a high-carbon ferrochrome sintering production pouring circulating cooling device comprises

The casting assembly comprises a casting mold, a shell, a water storage tank, a heat conducting plate and a circulating pump;

the cooling mechanism comprises an electric cabinet, a temperature sensor, a pipe body, a first refrigerating sheet, a second refrigerating sheet and a PLC (programmable logic controller);

the lateral wall fixedly connected with casing of casting die utensil, the bottom fixedly connected with storage water tank of casing, the inside wall fixedly connected with heat-conducting plate of casing, one side of storage water tank is equipped with the circulating pump, the lower surface mid-mounting of heat-conducting plate has temperature sensor, the lower surface middle part of casing and one side middle part intercommunication of storage water tank have two bodys, one the inside of body is equipped with first refrigeration piece, another the inside of body is equipped with the second refrigeration piece, one side middle part fixedly connected with electric cabinet of storage water tank, the PLC controller is installed at the inside wall top of electric cabinet.

As further preferable in the present technical solution: one side fixedly connected with box of storage water tank, the bottom of circulating pump is installed in the inside diapire of box.

As further preferable in the present technical solution: the water inlet intercommunication of circulating pump has the drinking-water pipe, the one end of drinking-water pipe runs through the inside wall of box and communicates in the inside of storage water tank.

As further preferable in the present technical solution: the outlet intercommunication of circulating pump has the drain pipe, the one end of drain pipe runs through the inside wall of box and communicates in the lateral wall top of casing.

As further preferable in the present technical solution: one side of the top of the outer side wall of the shell is communicated with a water return pipe, and one end of the water return pipe is communicated with the top of the outer side wall of the water storage tank.

As further preferable in the present technical solution: the inside diapire fixedly connected with of casing leads cold plate, the cold junction of first refrigeration piece bonds in leading one side middle part of cold plate, the cold junction of second refrigeration piece bonds and has led cold block, lead the lateral wall fixed connection of cold block in one the inside wall one side of body.

As further preferable in the present technical solution: the hot junction of first refrigeration piece and second refrigeration piece bonds and has two heat conduction pieces, two the lateral wall of heat conduction piece is fixed connection respectively in two the inside wall of body, two the heat dissipation fan is all installed to one side of heat conduction piece.

As a further preferred aspect of the present invention: the utility model discloses a temperature control device, including electric cabinet, temperature sensor, PLC controller, circulating pump, first refrigeration piece, second refrigeration piece and heat dissipation fan, the relay is evenly installed to the inside wall bottom of electric cabinet, temperature sensor's signal output part passes through wire electric connection in PLC controller's signal input part, PLC controller's electric output part passes through wire electric connection in relay's electric input part, the electric output part of relay passes through wire electric connection in circulating pump, first refrigeration piece, second refrigeration piece and the electric input part of heat dissipation fan.

The utility model has the advantages that: the utility model discloses a temperature sensor detects the temperature data of heat-conducting plate, then the cold junction through the second refrigeration piece absorbs the heat of storage water tank internal cooling water, thereby carry out refrigeration treatment to the cooling water, then derive the inside to the casing through the cooling water after the circulating pump will refrigerate, then utilize the cooling water to absorb the heat of mould through the heat-conducting plate, then the cold junction through first refrigeration piece absorbs the heat of cooling water in the casing once more, thereby to the cooling water processing of cooling down once more, the temperature of having avoided the cooling water risees fast, the endothermic efficiency of cooling water has been guaranteed, the cooling efficiency of mould has been improved.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention 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, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic side sectional view of the present invention;

FIG. 3 is a schematic longitudinal sectional view of the present invention;

fig. 4 is the schematic view of the sectional structure of the electric cabinet of the present invention.

In the figure: 1. casting the component; 2. a cooling mechanism; 101. casting a mould; 102. a housing; 103. a water storage tank; 104. a heat conducting plate; 105. a circulation pump; 201. an electric cabinet; 202. a temperature sensor; 203. a tube body; 204. a first refrigeration sheet; 205. a second refrigeration sheet; 206. a PLC controller; 207. a relay; 41. a water pumping pipe; 42. a drain pipe; 43. a water return pipe; 44. a cold conducting plate; 45. a heat conducting block; 46. a heat dissipation fan; 47. a box body; 48. and a cold conducting block.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-4, the present invention provides a technical solution: a casting circulating cooling device for sintering production of high-carbon ferrochrome comprises

The casting assembly 1, the casting assembly 1 includes a casting mold 101, a shell 102, a water storage tank 103, a heat conducting plate 104 and a circulating pump 105;

the cooling mechanism 2 comprises an electric cabinet 201, a temperature sensor 202, a pipe body 203, a first refrigerating sheet 204, a second refrigerating sheet 205 and a PLC (programmable logic controller) 206;

casting die utensil 101's lateral wall fixedly connected with casing 102, the bottom fixedly connected with storage water tank 103 of casing 102, the inside wall fixedly connected with heat-conducting plate 104 of casing 102, one side of storage water tank 103 is equipped with circulating pump 105, the lower surface mid-mounting of heat-conducting plate 104 has temperature sensor 202, the lower surface middle part of casing 102 and one side middle part intercommunication of storage water tank 103 have two bodys 203, the inside of a body 203 is equipped with first refrigeration piece 204, the inside of another body 203 is equipped with second refrigeration piece 205, one side middle part fixedly connected with electric cabinet 201 of storage water tank 103, PLC controller 206 is installed at the inside wall top of electric cabinet 201.

In this embodiment, specifically: one side of the water storage tank 103 is fixedly connected with a tank body 47, and the bottom of the circulating pump 105 is arranged on the inner bottom wall of the tank body 47; by mounting the circulation pump 105 in the tank 47, the stability of the circulation pump 105 in operation is increased.

In this embodiment, specifically: a water inlet of the circulating pump 105 is communicated with a water pumping pipe 41, and one end of the water pumping pipe 41 penetrates through the inner side wall of the box body 47 and is communicated with the inside of the water storage tank 103; the cooling water in the water storage tank 103 is pumped out by the water pump pipe 41 through the circulation pump 105.

In this embodiment, specifically: a drain pipe 42 is communicated with a drain port of the circulating pump 105, one end of the drain pipe 42 penetrates through the inner side wall of the box body 47 and is communicated with the top of the outer side wall of the shell 102; the drawn cooling water is discharged into the inside of the case 102 through the drain pipe 42.

In this embodiment, specifically: one side of the top of the outer side wall of the shell 102 is communicated with a water return pipe 43, and one end of the water return pipe 43 is communicated with the top of the outer side wall of the water storage tank 103; the cooling water used in the heat conduction plate 104 is returned to the inside of the water storage tank 103 through the return pipe 43, so that the cooling water is recycled.

In this embodiment, specifically: the bottom wall inside the shell 102 is fixedly connected with a cold guide plate 44, the cold end of the first refrigeration sheet 204 is bonded in the middle of one side of the cold guide plate 44, the cold end of the second refrigeration sheet 205 is bonded with a cold guide block 48, and the outer side wall of the cold guide block 48 is fixedly connected to one side of the inner side wall of one tube 203; the cooling water in the housing 102 is cooled again by absorbing heat of the cooling water in the housing 102 by the first cooling fins 204 through the cooling guide plate 44.

In this embodiment, specifically: the hot ends of the first refrigerating sheet 204 and the second refrigerating sheet 205 are bonded with two heat-conducting blocks 45, the outer side walls of the two heat-conducting blocks 45 are fixedly connected to the inner side walls of the two tube bodies 203 respectively, and one side of each of the two heat-conducting blocks 45 is provided with a heat-radiating fan 46; the heat at the hot end of the first refrigeration sheet 204 and the heat at the hot end of the second refrigeration sheet 205 are respectively absorbed by the heat-conducting block 45, and then the heat-conducting block 45 is subjected to heat dissipation treatment by the working heat dissipation fan 46.

In this embodiment, specifically: the relays 207 are uniformly installed at the bottoms of the inner side walls of the electric cabinet 201, the signal output end of the temperature sensor 202 is electrically connected to the signal input end of the PLC 206 through a wire, the electrical output end of the PLC 206 is electrically connected to the electrical input end of the relays 207 through a wire, and the electrical output end of the relays 207 is electrically connected to the electrical input ends of the circulating pump 105, the first refrigerating sheet 204, the second refrigerating sheet 205 and the heat dissipation fan 46 through wires; the data of the temperature sensor 202 is received by the PLC controller 206, and the opening and closing of the circulation pump 105, the first cooling plate 204, the second cooling plate 205 and the heat dissipation fan 46 are controlled by the relay 207.

In this embodiment, specifically: the models of the first refrigerating sheet 204 and the second refrigerating sheet 205 are TEC1-12703AC; the model number of the temperature sensor 202 is D6T-1A-01; PLC controller 206 is model DF-96D.

Working principle or structural principle: when the casting device is used, liquid products discharged from the casting device are guided into the casting mold 101, heat of the casting mold 101 is absorbed through the heat conducting plate 104, temperature data of the heat conducting plate 104 is detected through the temperature sensor 202, data of the temperature sensor 202 is received through the PLC controller 206, when the temperature data detected by the temperature sensor 202 exceeds a first threshold value and reaches a second threshold value, the PLC controller 206 starts the relay 207 to work, the working relay 207 starts the circulating pump 105 to work, the working circulating pump 105 pumps normal-temperature cooling water in the water storage tank 103 through the water pumping pipe 41, the pumped cooling water is discharged into the shell 102 through the water discharging pipe 42, the heat conducting plate 104 primarily absorbs the temperature of the casting mold 101 through the normal-temperature cooling water, and the used cooling water in the heat conducting plate 104 is guided back to the inside of the water storage tank 103 through the water returning pipe 43, when the temperature data detected by the temperature sensor 202 is lower than a second threshold value, the PLC controller 206 and the relay 207 start the first cooling plate 204, the second cooling plate 205 and the heat dissipation fan 46 to work, the working second cooling plate 205 absorbs the heat of the cooling water in the water storage tank 103 by using the cold conduction block 48, so as to refrigerate the cooling water in the water storage tank 103, the circulating pump 105 delivers the refrigerated cooling water to the inside of the housing 102 by using the water pumping pipe 41 and the water drainage pipe 42, the heat conduction plate 104 absorbs the temperature of the casting mold 101 by using the refrigerated cooling water, the working first cooling plate 204 absorbs the heat of the cooling water in the housing 102 by using the cold conduction plate 44, so as to refrigerate the cooling water in the housing 102 again, and avoid the rapid temperature rise of the cooling water, guaranteed the endothermic efficiency of cooling water, the cooling efficiency of mould is improved, then absorb the heat of first refrigeration piece 204 and second refrigeration piece 205 hot junction respectively through heat conduction piece 45, then heat dissipation fan 46 through work carries out the heat dissipation processing to heat conduction piece 45, when the temperature data that temperature sensor 202 detected is less than minimum threshold value, the cooling of the liquid product in the casting mould 101 is accomplished, through PLC controller 206 and relay 207 with circulating pump 105 in proper order, first refrigeration piece 204, second refrigeration piece 205 and heat dissipation fan 46 are closed, circulating pump 105 has been avoided, first refrigeration piece 204, second refrigeration piece 205 and heat dissipation fan 46 are in operating condition for a long time.

The above description is only for the preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A high-carbon ferrochrome sintering production pouring circulating cooling device is characterized by comprising

The casting assembly (1), the casting assembly (1) comprises a casting mold (101), a shell (102), a water storage tank (103), a heat conducting plate (104) and a circulating pump (105);

the cooling mechanism (2) comprises an electric cabinet (201), a temperature sensor (202), a pipe body (203), a first refrigerating sheet (204), a second refrigerating sheet (205) and a PLC (programmable logic controller) (206);

the utility model discloses a casting die utensil (101) for the refrigerator, including casting die utensil (101), lateral wall fixedly connected with casing (102), the bottom fixedly connected with storage water tank (103) of casing (102), the inside wall fixedly connected with heat-conducting plate (104) of casing (102), one side of storage water tank (103) is equipped with circulating pump (105), the lower surface mid-mounting of heat-conducting plate (104) has temperature sensor (202), the lower surface middle part of casing (102) and the one side middle part intercommunication of storage water tank (103) have two bodys (203), one the inside of body (203) is equipped with first refrigeration piece (204), another the inside of body (203) is equipped with second refrigeration piece (205), one side middle part fixedly connected with electric cabinet (201) of storage water tank (103), PLC controller (206) are installed at the inside wall top of electric cabinet (201).

2. The high-carbon ferrochrome sintering production pouring circulating cooling device according to claim 1, characterized in that: one side fixedly connected with box (47) of storage water tank (103), the bottom of circulating pump (105) is installed in the inside diapire of box (47).

3. The high-carbon ferrochrome sintering production pouring circulating cooling device according to claim 2, characterized in that: the water inlet intercommunication of circulating pump (105) has drinking-water pipe (41), the inside wall of box (47) is run through and is linked together in the inside of storage water tank (103) to the one end of drinking-water pipe (41).

4. The high-carbon ferrochrome sintering production pouring circulating cooling device according to claim 2, characterized in that: the water outlet of the circulating pump (105) is communicated with a water outlet pipe (42), and one end of the water outlet pipe (42) penetrates through the inner side wall of the box body (47) and is communicated with the top of the outer side wall of the shell (102).

5. The high-carbon ferrochrome sintering production pouring circulating cooling device according to claim 1, characterized in that: one side of the top of the outer side wall of the shell (102) is communicated with a water return pipe (43), and one end of the water return pipe (43) is communicated with the top of the outer side wall of the water storage tank (103).

6. The high-carbon ferrochrome sintering production pouring circulation cooling device of claim 1, characterized in that: the inside diapire fixedly connected with of casing (102) leads cold plate (44), the cold junction of first refrigeration piece (204) bonds in the one side middle part of leading cold plate (44), the cold junction of second refrigeration piece (205) bonds and has leads cold block (48), the lateral wall fixed connection of leading cold block (48) is in one the inside wall one side of body (203).

7. The high-carbon ferrochrome sintering production pouring circulating cooling device according to claim 1, characterized in that: the hot junction of first refrigeration piece (204) and second refrigeration piece (205) bonds and has two heat conduction piece (45), two the lateral wall of heat conduction piece (45) is fixed connection respectively in two the inside wall of body (203), two heat dissipation fan (46) are all installed to one side of heat conduction piece (45).

8. The high-carbon ferrochrome sintering production pouring circulating cooling device according to claim 7, characterized in that: relay (207) are evenly installed to the inside wall bottom of electric cabinet (201), the signal output part of temperature sensor (202) passes through wire electric connection in the signal input part of PLC controller (206), the electric output part of PLC controller (206) passes through wire electric connection in the electric input part of relay (207), the electric output part of relay (207) passes through wire electric connection in the electric input part of circulating pump (105), first refrigeration piece (204), second refrigeration piece (205) and heat dissipation fan (46).

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