CN217953200U - Heat energy storage barrel device - Google Patents

Abstract

The utility model discloses a heat energy storage barreled is put, including staving, even hot mechanism and runner system, the inside oil storage chamber that is equipped with of staving, staving top fixedly connected with end apron, screw fixedly connected with top cap is passed through at end apron top, even hot mechanism comprises mount, motor, (mixing) shaft and stirring leaf, mount fixed connection is in the top cap top, motor fixed mounting is in the mount top, the (mixing) shaft all sets up in the oil storage intracavity portion with the stirring leaf. The utility model discloses a set up even hot mechanism and stir the conduction oil, make the conduction oil intermix of different regions, with the bulk temperature of balanced conduction oil, be favorable to promoting the heat conduction effect of conduction oil, temperature sensor probe one end is in the middle section region of oil storage intracavity, so that temperature sensor is the more accurate actual temperature who detects the conduction oil, carry out on-off control through the solenoid valve of control cabinet on to each interface, the convenience carries out temperature regulation to the conduction oil.

Description

Heat energy storage barrel device

Technical Field

The utility model relates to a heat energy supply system technical field, concretely relates to heat energy storage barreled is put.

Background

The heat energy storage barrel is similar to a heat medium boiler and is a common heat energy supply device, heat is transmitted and exchanged through heat conduction oil in the barrel body, and heat energy supply at different temperatures can be provided for a medium to be treated.

When the existing heat energy storage barrel is used, heat conduction oil in different areas in the barrel body has certain temperature difference, the temperature sensor cannot accurately detect the integral actual temperature of the heat conduction oil, and the heat conduction oil is inconvenient to be subjected to accurate temperature regulation.

Therefore, it is necessary to invent a thermal energy storage barrel device to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a heat energy storage barreled is put to current heat energy storage bucket in the solution technique is when using, and there is certain temperature difference in the heat-conducting oil of different regions in the staving, makes temperature sensor can't accurately detect the holistic actual temperature of heat-conducting oil, and is inconvenient to carry out accurate temperature regulation's problem to the heat-conducting oil.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a heat energy storage barreled is put, includes staving, even hot mechanism and runner system, the inside oil storage chamber that is equipped with of staving, staving top fixedly connected with end apron, screw fixedly connected with top cap is passed through at end apron top, even hot mechanism comprises mount, motor, (mixing) shaft and stirring leaf, mount fixed connection is in the top cap top, motor fixed mounting is in the mount top, (mixing) shaft and stirring leaf all set up in the oil storage intracavity portion, stirring leaf fixed connection is on the (mixing) shaft surface, the (mixing) shaft top run through the top cap and be connected with motor bottom output shaft transmission, staving outside fixed mounting has temperature sensor, temperature sensor's probe one end runs through the staving and extends to the oil storage intracavity portion.

Preferably, the stirring leaves are arranged into a plurality of groups, the stirring leaves are arranged in a vertically staggered mode, and each group of stirring leaves is arranged into two groups, two groups of stirring leaves are symmetrically distributed about the central line of the stirring shaft, and the stirring leaves can drive heat conduction oil to flow while rotating, so that the heat conduction oil in different areas is mixed with each other, and the overall temperature of the heat conduction oil is balanced.

Preferably, the temperature sensor is arranged at the middle part of the surface of the barrel body, the control console is fixedly mounted on the surface of the barrel body and arranged at the bottom of the temperature sensor, the motor and the temperature sensor are both electrically connected with the control console, and one end of the probe of the temperature sensor is positioned in the middle section area of the oil storage cavity, so that the temperature sensor can more accurately detect the actual temperature of the heat transfer oil.

Preferably, the runner system sets up in the oil storage intracavity portion, the runner system comprises heat medium runner, pending media runner and refrigerant runner, heat medium runner, pending media runner and refrigerant runner are spiral in proper order and coil the setting, and the pipeline that spiral coil set up can increase with the area of contact of conduction oil, can improve heat conduction efficiency.

Preferably, the bottom of one side of the barrel body is fixedly connected with a heating medium input interface, a to-be-processed medium input interface and a cooling medium input interface, and the top of the other side of the barrel body is fixedly connected with a heating medium output interface, a to-be-processed medium output interface and a cooling medium output interface.

Preferably, one end of the heat medium input interface penetrates through the barrel body and is fixedly connected with the heat medium flow channel input end, one end of the heat medium output interface penetrates through the barrel body and is fixedly connected with the heat medium flow channel output end, one end of the to-be-treated medium input interface penetrates through the barrel body and is fixedly connected with the to-be-treated medium flow channel input end, one end of the to-be-treated medium output interface penetrates through the barrel body and is fixedly connected with the to-be-treated medium flow channel output end, one end of the refrigerant input interface penetrates through the barrel body and is fixedly connected with the refrigerant flow channel input end, and one end of the refrigerant output interface penetrates through the barrel body and is fixedly connected with the refrigerant flow channel output end.

Preferably, the top of one side of the barrel body is fixedly connected with an oil filling connector, the bottom of the other side of the barrel body is fixedly connected with an oil outlet connector, the oil filling connector and the oil outlet connector are both communicated with the oil storage cavity, heat conduction oil is filled into the oil storage cavity through the oil filling connector, and the heat conduction oil can be discharged through the oil outlet connector after being used for a period of time, so that the heat conduction oil can be conveniently replaced.

Preferably, the middle parts of the heat medium input interface, the to-be-processed medium input interface, the refrigerant input interface, the heat medium output interface, the to-be-processed medium output interface, the refrigerant output interface, the oil injection interface and the oil outlet interface are respectively provided with an electromagnetic valve, the eight electromagnetic valves are electrically connected with the console, the electromagnetic valves on the interfaces are controlled to be switched on and switched off through the console, and the temperature of the heat conduction oil is conveniently adjusted.

In the technical scheme, the utility model provides a technological effect and advantage:

stir the conduction oil through setting up even hot mechanism for the conduction oil intermix in different regions, with the bulk temperature of balanced conduction oil, be favorable to promoting the heat conduction effect of conduction oil, temperature sensor probe one end is in the middle section region of oil storage intracavity, so that temperature sensor more accurate detects the actual temperature of conduction oil, carry out on-off control through the solenoid valve of control cabinet on to each interface, the convenience carries out temperature regulation to the conduction oil.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

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

FIG. 3 is a schematic view of a partial structure of the present invention;

FIG. 4 is a schematic structural view of the heat equalizing mechanism and the top cover of the present invention;

fig. 5 is a schematic structural diagram of the flow channel system of the present invention;

fig. 6 is a system flow chart of the present invention.

Description of reference numerals:

1. a barrel body; 2. an oil storage chamber; 3. an end cover plate; 4. a top cover; 5. a fixed mount; 6. a motor; 7. a stirring shaft; 8. stirring blades; 9. a temperature sensor; 10. a console; 11. a heating medium flow passage; 12. a medium flow channel to be treated; 13. a refrigerant flow channel; 14. a heat medium input interface; 15. a medium to be processed input interface; 16. a refrigerant input interface; 17. a heating medium output interface; 18. a medium to be processed output interface; 19. a refrigerant output interface; 20. an oiling interface; 21. an oil outlet interface.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

The utility model provides a heat energy storage barreled is shown as figure 1-6, including staving 1, even hot mechanism and runner system, 1 inside oil storage chamber 2 that is equipped with of staving, 1 top fixedly connected with end apron 3 of staving, screw fixedly connected with top cap 4 is passed through at 3 tops of end apron, even hot mechanism comprises mount 5, motor 6, (mixing) shaft 7 and stirring leaf 8, 5 fixed connection in top cap 4 tops of mount, 6 fixed mounting in 5 tops of motor, (mixing) shaft 7 and stirring leaf 8 all set up in oil storage chamber 2 insides, 8 fixed connection in (mixing) shaft 7 surfaces of stirring leaf, 7 tops of (mixing) shaft run through top cap 4 and are connected with 6 bottom output shaft transmissions of motor, 1 outside fixed mounting of staving has temperature sensor 9, temperature sensor 9's probe one end runs through 1 and extends to the inside of oil storage chamber 2.

Stirring leaf 8 sets up to the multiunit, the multiunit stirring leaf 8 is crisscross the setting from top to bottom, every group stirring leaf 8's quantity all sets up to two stirring leaf 8 is about 7 central lines symmetric distribution of (mixing) shaft.

Temperature sensor 9 sets up in 1 positive departments in surface of staving, 1 fixed surface of staving has control cabinet 10, control cabinet 10 sets up in temperature sensor 9 bottom, motor 6 and temperature sensor 9 all with control cabinet 10 electric connection.

The flow channel system is arranged in the oil storage cavity 2 and consists of a heat medium flow channel 11, a to-be-treated medium flow channel 12 and a cooling medium flow channel 13, and the heat medium flow channel 11, the to-be-treated medium flow channel 12 and the cooling medium flow channel 13 are arranged in a spiral winding mode in sequence.

A heating medium input interface 14, a to-be-treated medium input interface 15 and a cooling medium input interface 16 are fixedly connected to the bottom of one side of the barrel body 1, and a heating medium output interface 17, a to-be-treated medium output interface 18 and a cooling medium output interface 19 are fixedly connected to the top of the other side of the barrel body 1.

One end of the heating medium input interface 14 penetrates through the barrel body 1 and is fixedly connected with the input end of the heating medium flow channel 11, one end of the heating medium output interface 17 penetrates through the barrel body 1 and is fixedly connected with the output end of the heating medium flow channel 11, one end of the to-be-treated medium input interface 15 penetrates through the barrel body 1 and is fixedly connected with the input end of the to-be-treated medium flow channel 12, one end of the to-be-treated medium output interface 18 penetrates through the barrel body 1 and is fixedly connected with the output end of the to-be-treated medium flow channel 12, one end of the cooling medium input interface 16 penetrates through the barrel body 1 and is fixedly connected with the input end of the cooling medium flow channel 13, and one end of the cooling medium output interface 19 penetrates through the barrel body 1 and is fixedly connected with the output end of the cooling medium flow channel 13.

The top of one side of the barrel body 1 is fixedly connected with an oil filling connector 20, the bottom of the other side of the barrel body 1 is fixedly connected with an oil outlet connector 21, and the oil filling connector 20 and the oil outlet connector 21 are both communicated with the oil storage cavity 2.

The eight electromagnetic valves are respectively arranged in the middle of the heating medium input interface 14, the to-be-processed medium input interface 15, the cooling medium input interface 16, the heating medium output interface 17, the to-be-processed medium output interface 18, the cooling medium output interface 19, the oil injection interface 20 and the oil outlet interface 21 and are electrically connected with the console 10.

The utility model discloses the theory of operation:

referring to the attached drawings 1-6 of the specification, when using the utility model, firstly, heat-conducting oil is injected into the oil storage cavity 2 in the barrel body 1 through the oil injection interface 20, then the heating medium is conveyed into the heat medium flow passage 11 through the heat medium input interface 14, the heating medium flows through the heat medium flow passage 11 and is discharged outside through the heat medium output interface 17, the heating medium transfers heat to the heat-conducting oil in the oil storage cavity 2 while flowing in the heat medium flow passage 11, the heat-conducting oil is heated continuously by accumulating the heat of the heating medium, after the heat-conducting oil is heated to a certain temperature, the electromagnetic valves on the heat medium input interface 14 and the heat medium output interface 17 are closed through the console 10, so as to cut off the supply of the heating medium, when using the utility model, the heat-conducting oil is heated in the external medium, the heat-conducting oil is conveyed into the to-be-treated medium flow passage 12 through the to-treated medium input interface 15, the to-treated medium flows through the to-treated medium flow passage 12 and is discharged outside through the to-treated medium output interface 18, the to absorb the heat of the heat-conducting oil while flowing in the to-conducting medium flow passage 12, the temperature of the cooling medium is adjusted by the cooling medium, the cooling medium inlet 13, the cooling medium outlet port 13, the cooling medium is controlled by the cooling medium inlet port 13, the utility model, rotate through motor 6 drive (mixing) shaft 7 and stirring leaf 8, stirring leaf 8 drives the conduction oil when pivoted and flows, make the conduction oil intermix in different regions, with the bulk temperature of balanced conduction oil, be favorable to promoting the heat conduction effect of conduction oil, temperature sensor 9 probe one end is in the middle section region in oil storage chamber 2, so that temperature sensor 9 is the more accurate actual temperature who detects the conduction oil, carry out on-off control to the solenoid valve on each interface through control cabinet 10, the convenience carries out temperature regulation to the conduction oil.

Claims (8)

1. The utility model provides a heat energy storage barreled is put, includes staving (1), even hot mechanism and runner system, its characterized in that: staving (1) inside oil storage chamber (2) that is equipped with, staving (1) top fixedly connected with end apron (3), screw fixedly connected with top cap (4) is passed through at end apron (3) top, even hot mechanism comprises mount (5), motor (6), (mixing) shaft (7) and stirring leaf (8), mount (5) fixed connection is in top cap (4) top, motor (6) fixed mounting is in mount (5) top, mixing shaft (7) and stirring leaf (8) all set up inside oil storage chamber (2), stirring leaf (8) fixed connection is in (mixing) shaft (7) surface, mixing shaft (7) top is run through top cap (4) and is connected with motor (6) bottom output shaft transmission, staving (1) outside fixed mounting has temperature sensor (9), the probe one end of temperature sensor (9) runs through staving (1) and extends to inside oil storage chamber (2).

2. A thermal energy storage bucket apparatus according to claim 1 wherein: stirring leaf (8) set up to the multiunit, the multiunit stirring leaf (8) crisscross setting from top to bottom, every group the quantity of stirring leaf (8) all sets up to two, two stirring leaf (8) are about (mixing) shaft (7) central line symmetric distribution.

3. A thermal energy storage bucket apparatus according to claim 1 wherein: temperature sensor (9) set up in staving (1) surface department in the middle, staving (1) fixed surface installs control cabinet (10), control cabinet (10) set up in temperature sensor (9) bottom, motor (6) and temperature sensor (9) all with control cabinet (10) electric connection.

4. A thermal energy storage bucket apparatus according to claim 3 wherein: the flow channel system is arranged inside the oil storage cavity (2), and consists of a heat medium flow channel (11), a to-be-treated medium flow channel (12) and a cooling medium flow channel (13), wherein the heat medium flow channel (11), the to-be-treated medium flow channel (12) and the cooling medium flow channel (13) are sequentially spirally wound.

5. A thermal energy storage bucket apparatus according to claim 4 wherein: the heating device is characterized in that a heating medium input interface (14), a to-be-processed medium input interface (15) and a cooling medium input interface (16) are fixedly connected to the bottom of one side of the barrel body (1), and a heating medium output interface (17), a to-be-processed medium output interface (18) and a cooling medium output interface (19) are fixedly connected to the top of the other side of the barrel body (1).

6. A thermal energy storage bucket apparatus according to claim 5 wherein: one end of the heat medium input interface (14) penetrates through the barrel body (1) and is fixedly connected with an input end of the heat medium flow channel (11), one end of the heat medium output interface (17) penetrates through the barrel body (1) and is fixedly connected with an output end of the heat medium flow channel (11), one end of the to-be-treated medium input interface (15) penetrates through the barrel body (1) and is fixedly connected with an input end of the to-be-treated medium flow channel (12), one end of the to-be-treated medium output interface (18) penetrates through the barrel body (1) and is fixedly connected with an output end of the to-be-treated medium flow channel (12), one end of the refrigerant input interface (16) penetrates through the barrel body (1) and is fixedly connected with an input end of the refrigerant flow channel (13), and one end of the refrigerant output interface (19) penetrates through the barrel body (1) and is fixedly connected with an output end of the refrigerant flow channel (13).

7. A thermal energy storage bucket apparatus according to claim 5 wherein: staving (1) one side top fixedly connected with oiling interface (20), staving (1) another side bottom fixedly connected with oil outlet port (21), oiling interface (20) and oil outlet port (21) all are linked together with oil storage chamber (2).

8. The thermal energy storage bucket apparatus of claim 7 wherein: the middle parts of the heat medium input interface (14), the to-be-processed medium input interface (15), the refrigerant input interface (16), the heat medium output interface (17), the to-be-processed medium output interface (18), the refrigerant output interface (19), the oil injection interface (20) and the oil outlet interface (21) are respectively provided with an electromagnetic valve, and the eight electromagnetic valves are electrically connected with the control console (10).

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