CN218955190U - Conduction oil stove convenient to control temperature - Google Patents

Abstract

The utility model discloses a heat conduction oil furnace convenient for controlling temperature, which belongs to the technical field of heat conduction oil furnaces and comprises a supporting box and a heat supply box, wherein the heat supply box is arranged on the upper end face of the supporting box, circulating pipes are arranged on two sides of the heat supply box, an outer pipe temperature detection device is inserted into one end of the circulating pipe, which is far away from the heat supply box, an output and input pipe is arranged on one end of the outer pipe temperature detection device, which is far away from the circulating pipe, a sealing plug is arranged on the top end of the heat supply box, circulating valves are clamped at the connecting positions of the two sides of the heat supply box and the circulating pipe, a containing oil tank is arranged in the heat supply box, a circulating mechanism is clamped inside the containing oil tank, the circulating mechanism comprises a circulating outer cover and a circulating shaft, one side of the circulating outer cover, which extends out of the containing oil tank, a sealing ring is arranged at the connecting position of the circulating controller and the containing oil tank, and the heat conduction oil furnace convenient for controlling temperature is convenient to adjust and convenient for temperature control.

Description

Conduction oil stove convenient to control temperature

Technical Field

The utility model belongs to the technical field of heat conduction oil furnaces, and particularly relates to a heat conduction oil furnace convenient to control temperature.

Background

The heat conducting oil furnace is to directly insert a heating device into an organic carrier (usually oil) for heating, then to pump the oil out and then to enter equipment which needs to be heated by the carrier for conducting heat, and the organic carrier needs to circulate inside and outside for effective heat conduction.

Although the traditional heat conduction oil furnace is convenient to heat, the temperature inside the traditional heat conduction oil furnace is difficult to control accurately in operation, for example, the patent number disclosed by the national patent network is: CN202120341018.3 is a novel heat conduction oil furnace convenient for temperature control and regulation, CN202122566475.5 is a heat conduction oil furnace, CN202121538570.8 is a heat conduction oil furnace safety control device and other existing heat conduction oil ways. Therefore, there is a need for an improved conduction oil furnace to compensate for this disadvantage.

Disclosure of Invention

The utility model aims to provide a heat conduction oil furnace convenient for controlling temperature so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a conduction oil stove convenient to control temperature, includes supporting box and heat supply case, and the up end of supporting box is located to above-mentioned heat supply case, and the both sides of above-mentioned heat supply case all are equipped with the circulating pipe, and the one end that heat supply case was kept away from to above-mentioned circulating pipe is pegged graft and is had outer tube temperature detection device, and the one end that circulating pipe was kept away from to above-mentioned outer tube temperature detection device is equipped with the input/output pipe, and the top of above-mentioned heat supply case is equipped with the sealing plug, and the inside of above-mentioned heat supply case is equipped with receives the oil tank, and the inside block of above-mentioned receiving the oil tank is connected with circulation mechanism.

Further, the circulating mechanism comprises a circulating outer cover and a circulating shaft, the circulating outer cover is connected with the inner part of the oil accommodating tank in a clamping mode, a circulating controller is arranged on one surface, extending out of the oil accommodating tank, of the circulating outer cover, and a sealing ring is arranged at the joint of the circulating controller and the oil accommodating tank.

Furthermore, the circulating shaft is inserted in the middle of the circulating outer cover, two ends of the circulating shaft are provided with a plurality of circulating fan blades, the circulating fan blades are unfolded in the same direction, and a rotating device for driving the circulating shaft is arranged in the middle of the circulating outer cover.

Further, the two sides of the oil accommodating tank are inserted with heating rods, one end of each heating rod penetrates through the oil accommodating tank to be connected with the power supply rod, one side, far away from the oil accommodating tank, of the circulating controller is provided with a flow divider, and the flow divider is connected with the power supply rod through a wire.

Furthermore, the two sides of the heat supply box are respectively clamped with a circulating valve at the joint of the circulating pipe, the circulating pipes are respectively communicated with the inside of the circulating valves, and the other sides of the circulating valves, which are far away from the circulating pipes, are respectively communicated with the inside of the heat supply box.

Further, two ends of the circulating valve are respectively provided with a rotating device, a rotating column is arranged in a cavity communicated with the circulating pipe by the circulating valve, the rotating column is movably connected with the rotating device, the outer edge surface of the rotating column is sleeved with a blocking ring, and two sides of the blocking ring are respectively provided with a pressure sensor and a temperature sensor.

The heat conduction oil furnace convenient to control temperature has the technical effects and advantages that: due to the arrangement of the circulating valve and the circulating controller, the heat conduction oil furnace convenient for controlling the temperature can be heated by the heating rod in the heat supply box, the organic carrier in the oil accommodating box can be heated with higher efficiency due to the sealing of the circulating valve in the heating process, and the organic carrier can flow through the circulating mechanism in the heating process, so that the heating efficiency is further improved;

the blocking ring and the outer pipe temperature detection device are arranged in the circulating valve, the organic carrier can flow through the opening of the circulating valve, and pipeline transmission temperature detection is carried out through the outer pipe temperature detection device in the flowing process.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of the embodiment of FIG. 1 taken along line A-A of the present utility model;

FIG. 3 is a schematic view showing an internal structure of a heating box according to an embodiment of the present utility model;

FIG. 4 is a schematic view showing the internal structure of a circulation valve according to an embodiment of the present utility model.

In the figure: 1. a supporting box; 2. a heat supply box; 3. a circulation pipe; 4. an outer tube temperature detection device; 5. an input/output tube; 6. a sealing plug; 7. a circulation valve; 8. a fuel accommodating tank; 9. a heating rod; 10. a circulation mechanism; 1001. A circulation housing; 11. a circulation controller; 12. a main controller; 13. a main power supply; 14. a circulating shaft; 15. circulating fan blades; 16. a shunt; 17. a power supply rod; 18. a rotating device; 19. a spin column; 20. And a blocking ring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to a heat conduction oil furnace with temperature convenient control shown in fig. 1-4, the heat conduction oil furnace comprises a supporting box 1 and a heat supply box 2, wherein the heat supply box 2 is arranged on the upper end face of the supporting box 1, two sides of the heat supply box 2 are respectively provided with a circulating pipe 3, one end of the circulating pipe 3, which is far away from the heat supply box 2, is inserted with an outer pipe temperature detection device 4, one end of the outer pipe temperature detection device 4, which is far away from the circulating pipe 3, is provided with an input/output pipe 5, the top end of the heat supply box 2 is provided with a sealing plug 6, the heat supply box 2 is used for replacing or inputting organic carriers inside through the sealing plug 6, after the input organic carriers are heated, the input organic carriers are transmitted towards external equipment needing heat conduction through the input/output pipe 5 at one end of the circulating pipe 3, and the output/input pipe 5 at the other side is used for re-collecting the circulated organic carriers into the heat supply box 2;

the inside of the heat supply box 2 is provided with a nano oil tank 8, the inside of the nano oil tank 8 is connected with a circulating mechanism 10 in a clamping way, the circulating mechanism 10 comprises a circulating outer cover 1001 and a circulating shaft 14, the circulating outer cover 1001 is connected with the inside of the nano oil tank 8 in a clamping way, one surface of the circulating outer cover 1001 extending out of the nano oil tank 8 is provided with a circulating controller 11, the joint of the circulating controller 11 and the nano oil tank 8 is provided with a sealing ring, the circulating shaft 14 is inserted in the middle part of the circulating outer cover 1001, two ends of the circulating shaft 14 are provided with a plurality of circulating fan blades 15 which are unfolded in the same direction, the middle part of the circulating outer cover 1001 is provided with a rotating device for driving the circulating shaft 14, the rotating device is a common impeller electric driving device, such as an impeller driving device adopted in a water pump, in order to solve the above problems, the present utility model is not described in detail herein, the circulation shaft 14 is driven by the rotation device of the circulation housing 1001 after the internal heating of the tank 8 is completed, the circulation shaft 14 drives the circulation fan blade 15 after rotating, so that the internal organic carrier of the tank 8 pumps and circulates the internal organic carrier under the rotation of the circulation fan blade 15 driven by the circulation shaft 14, and the internal organic carrier is heat-conducting for external equipment, the circulation fan blade 15 is unfolded in the same direction, so that the driving path of the circulation fan blade 15 is fixed, the organic carrier runs unidirectionally to facilitate circulation, the rotation rate of the rotation device of the circulation housing 1001 is controlled by the circulation controller 11, and the circulation controller 11 can be of JN1-1XK or other types;

the heating rods 9 are inserted into the two sides of the oil accommodating tank 8, one end of each heating rod 9 penetrates through the oil accommodating tank 8 to be connected with the power supply rod 17, a shunt 16 is arranged on one surface, far away from the oil accommodating tank 8, of the circulating controller 11, the shunt 16 is connected with the power supply rod 17 through a wire, a main controller 12 and a main power supply 13 are respectively arranged in the supporting tank 1, the main power supply 13 supplies power to the shunt 16 through a wire group, the current of the main power supply 13 is respectively led into the power supply rod 17 by the shunt 16 so as to be convenient for adjusting the temperature of the heating rods 9, meanwhile, the circulating controller 11 is supplied with power through the main power supply 13, and accordingly the main controller 12 achieves the effect of different distribution power, and the main controller 12 can adopt SPC-SDIO-0824 models and the like;

the two sides of the heat supply box 2 are clamped with the circulating valve 7 at the joint of the circulating pipe 3, the circulating pipe 3 is communicated with the inside of the circulating valve 7, the other surface of the circulating valve 7 far away from the circulating pipe 3 is communicated with the inside of the heat supply box 2, the two ends of the circulating valve 7 are respectively provided with the rotating device 18, the rotating device 18 is a rotating mechanism for rotating the valve core of the traditional electromagnetic valve, the main operation principle is the same as that of an electric disc brake, a drain valve and the like, so that the blocking ring 20 is conveniently closed or opened and closed after the rotating column 19 is driven to rotate, the prior art is omitted, a rotating column 19 is arranged in a cavity of the circulating valve 7 communicated with the circulating pipe 3, the rotating column 19 is movably connected with the rotating device 18, the outer edge surface of the rotating column 19 is sleeved with the blocking ring 20, the two surfaces of the blocking ring 20 are respectively provided with a pressure sensor and a temperature sensor, the rotating device 18 of the circulation valve 7 is electrically connected with the flow divider 16 and the circulation controller 11, the circulation controller 11 and the flow divider 16 are used for adjusting the opening and closing of the rotating device 18, when a temperature sensor of the blocking ring 20 detects a preset threshold value, the circulating controller 11 starts to be opened, and after the opening, an organic carrier in the oil accommodating tank 8 is output through the operation of the circulation mechanism 10, so that the purposes of controlling the temperature and outputting are achieved, meanwhile, due to the establishment of the pressure sensor, the operation of the circulation mechanism 10 can be correspondingly adjusted according to the pressure, the probability of poor heat conduction caused by overlarge or overlarge pressure is reduced, the temperature sensor can be selected from models such as TSYS03, and the pressure sensor can be selected from models such as PR-M/F.

When the heat conduction oil furnace convenient for temperature control is used, the heating rod 9 is powered by the power supply rod 17, so that the temperature of the heating rod 9 is increased to heat the organic carrier in the oil accommodating tank 8, the organic carrier is sealed in the oil accommodating tank 8 through the blocking ring 20 of the circulating valve 7 during heating, the purpose of rapid temperature rise is achieved, the circulating fan blade 15 is slightly started by the rotating device of the circulating housing 1001 during heating, and the organic carrier flows in the oil accommodating tank 8 through the circulating shaft 14, so that the heated area of the organic carrier is further increased, and the speed of temperature increase is accelerated;

when the temperature sensor of the blocking ring 20 detects that the temperature of the organic carrier in the oil accommodating tank 8 reaches the specified temperature, the rotating column 19 is driven by the rotating device 18 to open and close the blocking ring 20, and then the organic carrier is conveyed, the rotating speed of the circulating fan blades 15 is further increased in the conveying process, so that the effect of pumping the organic carrier is achieved, and the organic carrier is subjected to temperature detection on the circulating pipe 3 and the organic carrier in the output and input pipe 5 through the outer pipe temperature detection device 4 in the circulating process of the circulating pipe 3, so that whether additional heating is carried out or the heating is stopped is confirmed;

meanwhile, as the pressure sensor is arranged in the blocking ring 20, the pressure of the organic carrier flowing through the blocking ring 20 is detected by the pressure sensor of the blocking ring 20, and the operation of the circulating mechanism 10 can be correspondingly regulated according to the pressure, so that the probability of poor heat conduction caused by overlarge or overlarge pressure is reduced.

The foregoing is only a preferred embodiment of the utility model, but the scope of the utility model is not limited thereto, and any person skilled in the art who is in the field of the utility model can apply equivalent substitution or modification to the technical solution and the inventive concept according to the utility model within the scope of the utility model.

Claims (6)

1. The utility model provides a conduction oil stove convenient to control temperature, includes supporting box (1) and heating case (2), its characterized in that: the utility model discloses a heating cabinet, including supporting box (1), heating cabinet (2), circulating pipe (3), outer tube temperature-detecting device (4) are pegged graft to the one end that heating cabinet (2) was kept away from to circulating pipe (3), the one end that circulating pipe (3) was kept away from to outer tube temperature-detecting device (4) is equipped with output/input pipe (5), the top of heating cabinet (2) is equipped with sealing plug (6), the inside of heating cabinet (2) is equipped with receives oil tank (8), the inside block of receiving oil tank (8) is connected with circulation mechanism (10).

2. A conduction oil furnace for facilitating temperature control as recited in claim 1, wherein: the circulation mechanism (10) comprises a circulation outer cover (1001) and a circulation shaft (14), the circulation outer cover (1001) is connected with the inner clamping of the oil accommodating tank (8), one surface of the circulation outer cover (1001) extending out of the oil accommodating tank (8) is provided with a circulation controller (11), and a sealing ring is arranged at the joint of the circulation controller (11) and the oil accommodating tank (8).

3. A conduction oil furnace for facilitating temperature control as recited in claim 2, further comprising: the circulating shaft (14) is inserted in the middle of the circulating outer cover (1001), a plurality of circulating fan blades (15) are arranged at two ends of the circulating shaft (14), the circulating fan blades (15) are unfolded in the same direction, and a rotating device for driving the circulating shaft (14) is arranged in the middle of the circulating outer cover (1001).

4. A conduction oil furnace for facilitating temperature control as recited in claim 2, further comprising: the heating rod (9) is inserted into two sides of the oil accommodating tank (8), one end of the heating rod (9) penetrates through the oil accommodating tank (8) to be connected with the power supply rod (17), one side, far away from the oil accommodating tank (8), of the circulating controller (11) is provided with a flow divider (16), and the flow divider (16) is connected with the power supply rod (17) through a wire.

5. A conduction oil furnace for facilitating temperature control as recited in claim 1, wherein: the circulating valve (7) is clamped at the joint of the two sides of the heating box (2) and the circulating pipe (3), the circulating pipe (3) is communicated with the inside of the circulating valve (7), and the other side, far away from the circulating pipe (3), of the circulating valve (7) is communicated with the inside of the heating box (2).

6. A conduction oil furnace for facilitating temperature control as recited in claim 5, wherein: the two ends of the circulating valve (7) are respectively provided with a rotating device (18), a rotating column (19) is arranged in a cavity communicated with the circulating pipe (3) and the circulating valve (7), the rotating column (19) is movably connected with the rotating devices (18), the outer edge surface of the rotating column (19) is sleeved with a blocking ring (20), and both sides of the blocking ring (20) are respectively provided with a pressure sensor and a temperature sensor.

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