CN215765771U - Low reactive activity modified castor oil heat conduction oil boiler - Google Patents

Abstract

The utility model provides a low-reactivity modified castor oil heat-conducting oil boiler, which relates to the field of preparation of low-reactivity modified castor oil and aims to solve the problems that a large amount of heat-conducting oil is generally conveyed in an oil-conducting pipe of an existing heat-conducting oil boiler heating furnace, and the heat absorption efficiency of the heat-conducting oil is reduced during heating; a pressure relief mechanism is arranged above the reaction mechanism; the reaction mechanism is internally provided with a circulating mechanism, and the head end and the tail end of a circulating pipe of the circulating mechanism are inserted into the through holes of the reaction cabin. The heat conduction oil flowing in the circulating pipe conducts and circulates heat, and meanwhile, the heat conduction oil enters the inside of the flow dividing pipe, so that the heat conduction oil gathered together inside the circulating pipe is dispersed into small strands to be heated by the heating element, the heating efficiency can be effectively improved, the heating time of the heat conduction oil is shortened, the circulation of the heat conduction oil is quicker, and the capacity is improved.

Description

Low reactive activity modified castor oil heat conduction oil boiler

Technical Field

The utility model belongs to the technical field of preparation of low-reactivity modified castor oil, and particularly relates to a low-reactivity modified castor oil heat-conducting oil boiler.

Background

In the production of the low-reaction activity modified castor oil, raw materials need to be heated, heat conduction oil is usually used, meanwhile, a heat conduction oil boiler is used for heating the heat conduction oil, and the heat conduction oil, also called organic heat carrier or heat medium oil, has been used as an intermediate heat transfer medium in the industrial heat exchange process for over fifty years. The once-through boiler is developed based on a forced circulation design idea. Generally, coal, oil and gas are used as fuels, heat conducting oil is used as a medium, a hot oil circulating oil pump is used for forcing the medium to perform liquid phase circulation, and heat energy is conveyed to heat utilization equipment and then returned to a heating furnace for reheating.

For example, application No.: CN201922338807.7 relates to a heat conducting oil boiler, which comprises a heater, a heat utilization device, an expansion tank, a steam boiler and a control cabinet, wherein the heater is connected with a circulating pump, the circulating pump is connected with the heat utilization device through an oil return pipeline, an oil outlet at the top of the heater is connected with an oil inlet of the heat utilization device through an oil outlet pipeline, the oil return pipeline is also connected with a second pipeline through a tee joint, the second pipeline is connected with the expansion tank, an exhaust port of the expansion tank is connected with a first pipeline, the first pipeline is connected with the oil outlet pipeline through a tee joint, and a smoke exhaust port at the top of the heater is connected with the steam boiler through a third pipeline; the heat generated by the utility model is directly used for heat utilization equipment, and the redundant waste heat is connected with the steam boiler through the waste heat recoverer and is used for heating water in the steam boiler to supply domestic hot water or additionally use the domestic hot water, so that the generated heat can be completely recovered and utilized, and the waste of heat energy can not be caused; the utility model is also provided with an expansion tank, so that the service life of the heat-conducting oil can be prolonged.

Based on prior art discovery, current heat conduction oil boiler's heating furnace when using carries the conduction oil of great quantity usually among the oil pipe, has reduced the heat absorption efficiency of conduction oil when heating, and current heat conduction oil boiler's heating furnace is when using simultaneously because the device internal temperature is higher, and it is great to lead to inside high temperature gas inflation volume very easily, leads to the exhaust to cause the fried stove in time.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a low-reactivity modified castor oil heat conduction oil boiler, which aims to solve the problems that when a heating furnace of the existing heat conduction oil boiler is used, a large amount of heat conduction oil is generally conveyed in an oil conduction pipe, the heat absorption efficiency of the heat conduction oil is reduced during heating, and when the heating furnace of the existing heat conduction oil boiler is used, the expansion volume of high-temperature gas in the heating furnace is large due to high temperature in the heating furnace, so that the exhaust is not timely, and the explosion is caused.

The utility model relates to a purpose and an effect of a low-reaction activity modified castor oil heat conduction oil boiler, which are achieved by the following specific technical means:

a low reactive modified castor oil conduction oil boiler comprises:

an installation mechanism;

a reaction mechanism is arranged above the mounting mechanism, and a reaction cabin body of the reaction mechanism is fixedly connected inside the mounting base of the mounting mechanism;

a pressure relief mechanism is arranged above the reaction mechanism, a pressure relief piece of the pressure relief mechanism is welded with a heat collection cabin body of the reaction mechanism, and the interior of the pressure relief piece is communicated with the heat collection cabin body;

the reaction mechanism is internally provided with a circulating mechanism, and the head end and the tail end of a circulating pipe of the circulating mechanism are inserted into the through holes of the reaction cabin.

Further, the installation mechanism includes:

the mounting base is provided with a circular mounting hole on the right side, and the inner lower surface of the mounting base is provided with an arc-shaped surface;

the heating member, the heating member adopts the combustor, and the flame nozzle of heating member inserts inside the mounting hole of installation base.

Further, the reaction mechanism comprises:

the reaction cabin body, the front and back both sides of the reaction cabin body are equipped with the rectangle arch, and the rectangle arch of the reaction cabin body is inside to be seted up circular through-hole.

Further, the reaction mechanism further comprises:

the heat collection cabin body is welded and connected above the reaction cabin body, and seven rectangular through holes which are linearly arranged are formed in the lower surface of the heat collection cabin body; a circular pipe is arranged above the heat collection cabin body, and the interior of the heat collection cabin body is communicated with the circular pipe;

the heat collecting tube is of a tubular structure and is bent in an S shape and is fixedly arranged inside the heat collecting cabin body.

Further, the pressure relief mechanism comprises:

the pressure relief piece is provided with a transom outside and a round screw hole above; the inside of pressure relief spare is equipped with the inclined plane that the gradient is fifty degrees.

Further, the pressure relief mechanism further comprises:

the adjusting piece is inserted into the pressure relief piece, a screw is arranged above the adjusting piece, and a rotary wrench is arranged above the screw of the adjusting piece;

the upper part of the resistance piece is provided with a circular plate-shaped structure, and the resistance piece is inserted above the inclined plane of the pressure relief piece; and a compression spring is arranged above the resistance piece, and the spring of the resistance piece is fixedly connected with the adjusting piece.

Further, the circulation mechanism includes:

the left side and the right side of the circulating pipe extend out of the first section and the micro end of the pipe, and the inner side of the circulating pipe is provided with spirally arranged circular through holes;

the shunt tubes are pipe groups which are arranged in a rectangular shape, tubular bulges are arranged above the shunt tubes, and the shunt tubes are communicated with the circulating pipe through the tubular bulges.

Compared with the prior art, the utility model has the following beneficial effects:

1. when the heating element heats the gas in the reaction cabin body, the gas can be expanded at high temperature, so that the high-temperature gas in the reaction cabin body is driven to enter the heat collection cabin body, residual waste heat in the high-temperature gas is absorbed and output through water flow or heat conduction oil in the heat collection cabin body, the utilization efficiency of energy can be improved, the energy consumption is reduced, meanwhile, the gas is discharged through a circular pipe above the heat collection cabin body, when the temperature is high and the gas expansion volume is large, the resistance element is jacked up by the gas which is not discharged in time, so that redundant gas is discharged through the pressure release element, the elasticity of a spring of the resistance element can be regulated and controlled through a regulating element, and after the gas is discharged, the resistance element can be continuously sealed with the pressure release element under the action of the elasticity of the spring, so that the balance of the gas pressure in the device is kept, and the phenomenon that the gas explodes due to overhigh pressure is prevented;

2. in this device, set up circulation mechanism, the inside conduction oil that flows of circulating pipe conducts the heat and circulates, and the conduction oil enters into the inside of shunt tubes simultaneously, makes the conduction oil that gathers together inside the circulating pipe disperse into the share and is heated by the heating member, can effectual improvement heating efficiency, shortens the heat-conducting oil heating time, makes the circulation of conduction oil faster, improves the productivity.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a perspective view of the internal components of the present invention.

Fig. 3 is a perspective cross-section and a partially enlarged schematic view of the pressure relief mechanism of the present invention.

Fig. 4 is a schematic perspective sectional structure of the circulation mechanism of the present invention.

Fig. 5 is a partially enlarged structural view at a shown in fig. 2 according to the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. an installation mechanism;

101. installing a base; 102. a heating member;

2. a reaction mechanism;

201. a reaction cabin; 202. a heat collection cabin body; 203. a heat collecting pipe;

3. a pressure relief mechanism;

301. a pressure relief piece; 302. an adjustment member; 303. a resistance member;

4. a circulating mechanism;

401. a circulation pipe; 402. and (4) dividing the tube.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 5:

the utility model provides a low-reactivity modified castor oil heat conduction oil boiler, which comprises: . The device comprises an installation mechanism 1, wherein a reaction mechanism 2 is installed above the installation mechanism 1, and a reaction cabin 201 of the reaction mechanism 2 is fixedly connected inside an installation base 101 of the installation mechanism 1; the pressure relief mechanism 3 is arranged above the reaction mechanism 2, the pressure relief piece 301 of the pressure relief mechanism 3 is welded with the heat collection cabin 202 of the reaction mechanism 2, and the inside of the pressure relief piece 301 is communicated with the heat collection cabin 202; the reaction mechanism 2 is internally provided with a circulation mechanism 4, and the head and tail ends of a circulation pipe 401 of the circulation mechanism 4 are inserted into the through hole of the reaction chamber body 201.

As shown in fig. 2, the mounting mechanism 1 includes: the installation base 101 is of a U-shaped structure, a circular installation hole is formed in the right side of the installation base 101, and an arc-shaped surface is formed in the lower surface of the interior of the installation base 101; a heating member 102, the heating member 102 being a burner, and a flame nozzle of the heating member 102 being inserted inside a mounting hole of the mounting base 101; the installation base 101 supports and installs the whole boiler while heating the gas inside the apparatus using the heating member 102, thereby heating the conduction oil.

As shown in fig. 2, the reaction mechanism 2 includes: the reaction cabin 201 is of a circular tubular structure, rectangular protrusions are arranged on the front side and the rear side of the reaction cabin 201, and circular through holes are formed in the rectangular protrusions of the reaction cabin 201; the heat collection chamber body 202 is a rectangular box body, the heat collection chamber body 202 is welded and connected above the reaction chamber body 201, and seven rectangular through holes which are linearly arranged are formed in the lower surface of the heat collection chamber body 202; a circular pipe is arranged above the heat collection cabin 202, and the interior of the heat collection cabin 202 is communicated with the circular pipe; the heat collecting tube 203 is of a tubular structure, the heat collecting tube 203 is bent in an S shape, and the heat collecting tube 203 is fixedly installed inside the heat collecting cabin body 202; combustion-supporting gas is added into the reaction chamber 201, when the heating element 102 is used for heating, flame combustion can be promoted, after high-temperature gas in the device is heated, heat conducting oil is heated, meanwhile, the high-temperature gas enters the heat collecting chamber 202, and waste heat in the high-temperature gas is absorbed and conveyed to the utilization device through high-specific heat capacity liquid in the heat collecting tube 203, so that the utilization rate of energy is improved.

As shown in fig. 3, the pressure relief mechanism 3 includes: the pressure relief piece 301 is of a tubular structure, a transom is arranged on the outer side of the pressure relief piece 301, and a circular screw hole is formed above the pressure relief piece 301; an inclined plane with the inclination of fifty degrees is arranged inside the pressure relief piece 301; the adjusting piece 302 is of a plate-shaped structure, the adjusting piece 302 is inserted into the pressure relief piece 301, a screw is arranged above the adjusting piece 302, and a rotary wrench is arranged above the screw of the adjusting piece 302; the resistance part 303, the resistance part 303 is a hemispherical structure, a round plate-shaped structure is arranged above the resistance part 303, and the resistance part 303 is inserted above the inclined plane of the pressure relief part 301; a compression spring is arranged above the resistance member 303, and the spring of the resistance member 303 is fixedly connected with the adjusting member 302; when the temperature is high and the expansion volume of the gas is large, the gas which is not discharged in time can jack up the resistance part 303, so that redundant gas is discharged through the pressure relief part 301, the elasticity of the spring of the resistance part 303 can be regulated and controlled through the regulating part 302, and after the gas is discharged, the resistance part 303 is continuously sealed with the pressure relief part 3 under the action of the elasticity of the spring, so that the balance of the gas pressure in the device is kept, and the situation that the pressure is too high to cause the explosion of the furnace is prevented.

As shown in fig. 4, the circulation mechanism 4 includes: the circulation pipe 401 is in a spiral tubular structure, the left side and the right side of the circulation pipe 401 extend out of the first section and the micro end of the pipe, and the inner side of the circulation pipe 401 is provided with circular through holes which are spirally arranged; the shunt tubes 402 are pipe groups arranged in a rectangular shape, tubular bulges are arranged above the shunt tubes 402, and the shunt tubes 402 are communicated with the circulating pipe 401 through the tubular bulges; the diameter of shunt tubes 402 is far less than circulating pipe 401, make the inside conduction oil of shunt tubes 402 have bigger area of contact for circulating pipe 401 and high temperature gas, the inside heat conduction oil that flows of circulating pipe 401 conducts the heat and circulates, the inside that the conduction oil enters into shunt tubes 402 simultaneously, make the conduction oil that gathers together inside circulating pipe 401 disperse into the share and is heated by heating element 102, can effectual improvement heating efficiency, shorten the heat duration of conduction oil, make the circulation of conduction oil quicker, improve the productivity.

When in use: the head end and the tail end of the circulating pipe 401 are connected to an external device, the two ends of the heat collecting pipe 203 are respectively connected with the liquid input pump and the waste heat utilization device, after the inside of the circulating pipe 401 is filled with heat conduction oil, the heating element 102 is started to heat the gas inside the reaction cabin 201, the heat conduction oil of the circulating pipe 401 is divided into a plurality of strands of heat conduction oil through the dividing pipe 402, and the heated high-temperature gas enables the heat conduction oil inside the dividing pipe 402 to be rapidly heated and starts to circulate; after heating, the high-temperature gas in the reaction cabin 201 rises and enters the heat collection cabin 202, and the waste heat in the high-temperature gas is recycled through the liquid in the heat collection pipe 203; in addition, when the temperature is high and the expansion volume of the gas is large, the resistance element 303 is jacked up by the gas which is not discharged in time, so that redundant gas is discharged through the pressure relief element 301, the elasticity of the spring of the resistance element 303 can be regulated and controlled through the regulating element 302, and after the gas is discharged, the resistance element 303 is continuously sealed with the pressure relief element 3 under the action of the elasticity of the spring; through this device, can improve the utilization efficiency of energy, reduce energy consumption, effectual improvement heating efficiency shortens the heat-conducting oil's heat application time, makes the circulation of heat-conducting oil quicker, improves the productivity, can also keep the balance of the interior gas pressure of device, prevents that the too high pressure from leading to the frying furnace.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. The utility model provides a low reactive activity modified castor oil conduction oil boiler which characterized in that includes:

an installation mechanism (1);

a reaction mechanism (2) is arranged above the installation mechanism (1), and a reaction cabin body (201) of the reaction mechanism (2) is fixedly connected inside an installation base (101) of the installation mechanism (1);

a pressure relief mechanism (3) is arranged above the reaction mechanism (2), a pressure relief piece (301) of the pressure relief mechanism (3) is welded with a heat collection cabin body (202) of the reaction mechanism (2), and the interior of the pressure relief piece (301) is communicated with the heat collection cabin body (202);

the reaction mechanism (2) is internally provided with a circulating mechanism (4), and the head end and the tail end of a circulating pipe (401) of the circulating mechanism (4) are inserted into the through hole of the reaction cabin body (201).

2. The low reactivity modified castor oil thermal conduction oil boiler according to claim 1, wherein said mounting means (1) comprises:

the mounting device comprises a mounting base (101), wherein a circular mounting hole is formed in the right side of the mounting base (101), and an arc-shaped surface is formed in the lower surface of the inside of the mounting base (101);

the heating member (102), the heating member (102) adopts the burner, and the flame nozzle of the heating member (102) inserts in the mounting hole of the mounting base (101).

3. The low reactivity modified castor oil thermal conduction oil boiler according to claim 1, wherein said reaction means (2) comprises:

the reaction cabin body (201), the front and back both sides of the reaction cabin body (201) are equipped with the rectangle arch, and the protruding inside circular through-hole of having seted up of rectangle of the reaction cabin body (201).

4. The low reactivity modified castor oil thermal conduction oil boiler according to claim 3, wherein said reaction means (2) further comprises:

the heat collection cabin body (202), the heat collection cabin body (202) is welded and connected above the reaction cabin body (201), and seven rectangular through holes which are linearly arranged are formed in the lower surface of the heat collection cabin body (202); a round pipe is arranged above the heat collection cabin body (202), and the interior of the heat collection cabin body (202) is communicated with the round pipe;

the heat collecting tube (203), the heat collecting tube (203) is the tubular structure, and the heat collecting tube (203) S type is buckled to heat collecting tube (203) fixed mounting is in the inside of the heat collecting cabin body (202).

5. The low reactivity modified castor oil thermal conduction oil boiler according to claim 1, wherein said pressure relief mechanism (3) comprises:

the pressure relief piece (301), the outside of the pressure relief piece (301) is provided with a transom, and the upper part of the pressure relief piece (301) is provided with a round screw hole; the interior of the pressure relief piece (301) is provided with a slope with the inclination of fifty degrees.

6. The low reactivity modified castor oil thermal conduction oil boiler according to claim 5, wherein said pressure relief mechanism (3) further comprises:

the adjusting piece (302) is inserted into the pressure relief piece (301), a screw is arranged above the adjusting piece (302), and a rotary wrench is arranged above the screw of the adjusting piece (302);

the upper part of the resistance piece (303) is provided with a circular plate-shaped structure, and the resistance piece (303) is inserted above the inclined plane of the pressure relief piece (301); and a compression spring is arranged above the resistance piece (303), and the spring of the resistance piece (303) is fixedly connected with the adjusting piece (302).

7. The low reactivity modified castor oil thermal conduction oil boiler according to claim 1, wherein said circulating means (4) comprises:

the left side and the right side of the circulating pipe (401) extend out of the first section and the micro end of the pipe, and the inner side of the circulating pipe (401) is provided with spirally arranged circular through holes;

the shunt pipe (402) is a pipe group which is arranged in a rectangular shape, a tubular bulge is arranged above the shunt pipe (402), and the shunt pipe (402) is communicated with the circulating pipe (401) through the tubular bulge.

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