CN220018276U - Heat exchanger with quick heating structure - Google Patents

Abstract

The utility model relates to the technical field of heat exchangers, in particular to a heat exchanger with a rapid heating structure, which comprises an equipment shell, wherein one side of the equipment shell is penetrated with a feeding pipe, and the other side of the feeding pipe is connected with a conveying pipe. According to the utility model, a medium is conveyed through the feeding pipe and enters the conveying pipe, meanwhile, the feeding pipe penetrates into the open shell embedded in the equipment shell, so that heat dissipation and rapid heating are conveniently carried out, meanwhile, the first filter screen is embedded in the open shell, so that heat circulation is conveniently carried out, dust and impurities are prevented from entering the open shell and being difficult to clean, the conveying pipe conveys the medium through the multicomponent material pipe, the material pipe penetrates into the water tank to form regional area heating, the water temperature of the water tank is rapidly heated, then the material pipe communicated with the material pipe is used for discharging the heat dissipation medium through the material pipe and returns to an external connection equipment to form circulation, the equipment shell is provided with heat preservation cotton to avoid heat loss, and the sealing pad bonded by the heat preservation cotton is tightly attached to one side of the water tank to avoid heat loss from a non-heat-extraction surface.

Description

Heat exchanger with quick heating structure

Technical Field

The utility model relates to the technical field of heat exchangers, in particular to a heat exchanger with a rapid heating structure.

Background

The heat exchanger is energy-saving equipment for realizing heat transfer between materials between two or more fluids with different temperatures, and is one of main equipment for enabling heat to be transferred from fluid with higher temperature to fluid with lower temperature, enabling the temperature of the fluid to reach the index regulated by a flow path so as to meet the requirements of process conditions and improving the utilization rate of energy, and the existing heat exchanger is generally assembled with some components to provide heating and heat supply effects.

An energy-saving heating heat exchanger with a publication number of CN218973283U comprises a main shell; a water inlet end of a circulating water pipe is arranged on the left side of the top of the main shell; a water outlet end of a circulating water pipe is arranged on the right side of the top of the main shell; a water inlet end of a heating pipe is arranged above the right side of the main shell; a water outlet end of a heating pipe is arranged below the left side of the main shell; four first heat exchange tubes and three second heat exchange tubes are fixedly and alternately arranged in the main shell; the adjacent first heat exchange tube and the second heat exchange tube are connected through a connecting tube. The device does not need to independently arrange the baffle of the flow guide in the main shell, the required materials are reduced, and the contact area between the heat dissipation circulating water of the air compressor and the heat exchange tube is larger, so that the heat exchange efficiency is higher.

In summary, the following technical problems exist in the prior art: the existing heat exchanger circulates in a form of a single pipeline after heat exchange, so that the heat supply and heating speed and efficiency are poor, and the heat supply and heating cannot be fast performed.

Disclosure of Invention

The present utility model is directed to a heat exchanger with a rapid heating structure, so as to solve the problems set forth in the background art.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a heat exchanger with quick heating structure, includes the equipment shell, one side of equipment shell penetrates there is the inlet pipe, and the opposite side of inlet pipe is connected with the conveyer pipe, the outer wall of inlet pipe is provided with open shell, and the top of open shell inlays and is equipped with first filter screen, the outer wall connection of conveyer pipe has the branch material pipe, and divides the outside of material pipe to be provided with the water tank, one side of dividing the material pipe is connected with logical material pipe, and the opposite side of leading to the material pipe is provided with the discharging pipe, outer wall one side of water tank is connected with sealed pad, and sealed opposite side of filling up is provided with the heat preservation cotton.

Preferably, the distributing pipes are uniformly distributed at equal intervals with respect to the outer wall of the conveying pipe, and the distributing pipes are communicated with the discharging pipe through the material passing pipes.

Preferably, the water tank is tightly attached to the sealing gasket, and the sealing gasket is connected with the heat-insulating cotton in an adhesive mode.

Preferably, the pump is provided with to the below of water tank, and one side of pump is connected with the raceway, the opposite side of raceway is provided with the shunt tubes, and the outer wall one end of shunt tubes is connected with the back flow, the circulation mouth has been seted up to the outer wall of equipment shell, and one side of circulation mouth is provided with the second filter screen, inside one side of equipment shell is fixed with the installation shell, and installs the inner wall of shell and install ventilation equipment, the outer wall inlays the dress of installation shell and is equipped with heating resistor silk.

Preferably, the water delivery pipe is communicated with the return pipe through a water diversion pipe, and the water diversion pipe is uniformly distributed at equal intervals with respect to the outer wall surface of the water delivery pipe.

Preferably, the circulation ports are uniformly distributed at equal intervals with respect to the outer wall of the equipment shell, and the equipment shell is detachably connected with the second filter screen through bolts.

Preferably, the equipment shell is fixedly connected with the installation shell, and the installation shell is detachably connected with the heating resistance wire through bolts.

The above description shows that the technical problems to be solved by the present utility model can be solved by the above technical solutions of the present utility model.

Meanwhile, through the technical scheme, the utility model has at least the following beneficial effects:

according to the utility model, a medium is conveyed through the feeding pipe and enters the conveying pipe, meanwhile, the feeding pipe penetrates into the open shell embedded in the equipment shell, so that heat dissipation and rapid heating are conveniently carried out, meanwhile, the first filter screen is embedded in the open shell, so that heat circulation is conveniently carried out, dust and impurities are prevented from entering the open shell and being difficult to clean, the conveying pipe conveys the medium through the multicomponent material pipe, the material pipe penetrates into the water tank to form regional area heating, the water temperature of the water tank is rapidly heated, then the material pipe communicated with the material pipe is used for discharging the heat dissipation medium through the material pipe and returns to an external connection equipment to form circulation, the equipment shell is provided with heat preservation cotton to avoid heat loss, and the sealing pad bonded by the heat preservation cotton is tightly attached to one side of the water tank to avoid heat loss from a non-heat-extraction surface.

The utility model is operated by the pump, water in the water tank is pumped and then discharged to the water diversion pipe through the water delivery pipe, and the multi-component water pipe is arranged to improve the heat supply area, so that rapid heating is facilitated, one side of the water diversion pipe is connected with the return pipe, water is convenient to flow back to the water tank to form circulation, the equipment shell is convenient for hot air to be emitted through the opened circulation port, and meanwhile, the equipment shell is matched with the second filter screen to avoid dust and impurities and the like from entering, so that the influence on internal components is caused.

The ventilation equipment embedded by the installation shell is convenient for blowing heat out of the equipment shell quickly, thereby achieving the effect of heating quickly, and simultaneously, the ventilation equipment is matched with the heating resistance wire embedded by the installation shell to work, so that the temperature is further increased.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic view of the structure of the material dividing pipe of the present utility model;

FIG. 4 is a schematic view of the water diversion pipe structure of the present utility model;

FIG. 5 is a schematic view of a heating resistance wire according to the present utility model.

In the figure: 1. an equipment housing; 2. a feed pipe; 3. an open shell; 4. a first filter screen; 5. a delivery tube; 6. a material dividing pipe; 7. a water tank; 8. a material passing pipe; 9. a discharge pipe; 10. thermal insulation cotton; 11. a sealing gasket; 12. a pump machine; 13. a water pipe; 14. a water diversion pipe; 15. a return pipe; 16. a flow port; 17. a second filter screen; 18. a mounting shell; 19. a ventilation device; 20. the resistance wire is heated.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Description of the preferred embodiments

As shown in fig. 1, 2 and 3, the present utility model provides a technical solution: a heat exchanger with a rapid heating structure comprises an equipment shell 1, wherein one side of the equipment shell 1 is penetrated with a feed pipe 2, the other side of the feed pipe 2 is connected with a conveying pipe 5, the outer wall of the feed pipe 2 is provided with an open shell 3, the top end of the open shell 3 is embedded with a first filter screen 4, the outer wall of the conveying pipe 5 is connected with a material separating pipe 6, the outer part of the material separating pipe 6 is provided with a water tank 7, one side of the material separating pipe 6 is connected with a material passing pipe 8, the other side of the material passing pipe 8 is provided with a material discharging pipe 9, one side of the outer wall of the water tank 7 is connected with a sealing pad 11, the other side of the sealing pad 11 is provided with heat insulation cotton 10, the material separating pipe 6 is uniformly distributed at equal intervals relative to the outer wall of the conveying pipe 5, the material separating pipe 6 is communicated with the material discharging pipe 9 through the material passing pipe 8, the water tank 7 is tightly attached to the sealing pad 11, the sealing pad 11 is bonded and connected with the heat insulation cotton 10, the medium is conveyed through the feeding pipe 2 and enters the conveying pipe 5, meanwhile, the feeding pipe 2 penetrates into the open shell 3 embedded in the equipment shell 1, heat dissipation and rapid heating are conveniently carried out, meanwhile, the open shell 3 is embedded with the first filter screen 4, heat circulation is convenient, dust and impurities are prevented from entering the open shell 3 and being difficult to clean, the conveying pipe 5 conveys the medium through the multicomponent material pipe 6, the material dividing pipe 6 penetrates into the water tank 7 to form regional area heating, rapid heating is carried out on the water temperature of the water tank 7, then the material dividing pipe 6 is communicated with the material passing pipe 8, the heat dissipation medium is discharged through the discharging pipe 9 and returns to external connection equipment to form circulation, the equipment shell 1 is prevented from heat loss through the arrangement of the heat preservation cotton 10, and the sealing gasket 11 bonded by the heat preservation cotton 10 is tightly attached to one side of the water tank 7, so that heat is prevented from flowing away from the non-heat extraction surface.

Example two

The scheme in the first embodiment is further described below in conjunction with a specific working manner, and the details are described below:

as shown in fig. 1, fig. 2 and fig. 4, as a preferred embodiment, further, on the basis of the above-mentioned mode, the pump 12 is provided below the water tank 7, one side of the pump 12 is connected with the water pipe 13, the other side of the water pipe 13 is provided with the water diversion pipe 14, one end of the outer wall of the water diversion pipe 14 is connected with the return pipe 15, the outer wall of the equipment housing 1 is provided with the circulation port 16, one side of the circulation port 16 is provided with the second filter screen 17, the water pipe 13 is communicated with the return pipe 15 through the water diversion pipe 14, the water diversion pipe 14 is uniformly distributed at equal intervals with respect to the outer wall of the water pipe 13, the circulation port 16 is uniformly distributed at equal intervals with respect to the outer wall of the equipment housing 1, the equipment housing 1 is detachably connected with the second filter screen 17 through bolts, the pump 12 works, the water of the water tank 7 is pumped and is discharged to the water diversion pipe 14 through the water pipe 13, a plurality of groups of water diversion pipes 14 are provided, thereby the heating area is increased, the quick heating is facilitated, the return pipe 15 is facilitated, the water is conveniently returns to the water tank 7, circulation is formed, the hot air is conveniently emitted through the opened through the circulation port 16, and the filter screen 17 is simultaneously, the influence on the inside components is avoided.

As shown in fig. 2 and 5, as a preferred embodiment, based on the above mode, further, an installation shell 18 is fixed on one side of the inside of the equipment housing 1, a ventilation device 19 is installed on the inner wall of the installation shell 18, a heating resistance wire 20 is embedded on the outer wall of the installation shell 18, the equipment housing 1 is fixedly connected with the installation shell 18, the installation shell 18 is detachably connected with the heating resistance wire 20 through bolts, and the ventilation device 19 embedded through the installation shell 18 is convenient for blowing heat out of the equipment housing 1 rapidly, thereby achieving the effect of rapid heating, and simultaneously working in cooperation with the heating resistance wire 20 embedded by the installation shell 18, further improving the temperature.

From the above, it can be seen that:

the utility model aims at the technical problems that: the existing heat exchanger circulates in a form of a single pipeline after heat exchange, so that the heat supply and heating speed and efficiency are poor, and rapid heat supply and heating cannot be realized; the technical scheme of each embodiment is adopted. Meanwhile, the implementation process of the technical scheme is as follows:

the medium penetrates into the equipment shell 1 through the feed pipe 2 and penetrates into the open shell 3 to wind the equipment shell 1 for half circle, so that the first time release heat is convenient for quickly supplying heat, meanwhile, the open shell 3 is embedded with the first filter screen 4 to avoid dust and the like, the feed pipe 2 is communicated with the distributing pipe 6 through the conveying pipe 5, the distributing pipe 6 penetrates through the water tank 7 to be convenient for heating the internal liquid, the heat is uniformly dispersed to improve the heating surface, the surface heating is convenient for the surface heating but not the pipe heating is too limited, then the medium is conveyed to the feeding pipe 8 through the distributing pipe 6 and flows out through the discharging pipe 9 to form circulation with external equipment, the equipment shell 1 is provided with heat preservation cotton 10 to be convenient for heat preservation to avoid temperature loss, meanwhile, the heat preservation cotton 10 is convenient for sealing the non-air-dispersing side of the equipment shell 1 through the bonded sealing pad 11, the hot air is prevented from being excessively dispersed so that rapid heating cannot be performed, hot water in the water tank 7 is pumped through the pump 12, the hot water is supplied to the water diversion pipe 14 through the water pipe 13, a plurality of groups of water diversion pipes 14 are arranged to be spread out in a plane, the heating surface is improved so that rapid heating is performed, one end of each water diversion pipe 14 is communicated with the return pipe 15, the hot water returns to the water tank 7 to form circulation, a plurality of groups of circulation ports 16 are formed in the equipment shell 1 so that the hot air can circulate outwards, meanwhile, the embedded second filter screen 17 is convenient for filtering dust impurities and the like and avoiding entering the equipment shell 1, a plurality of groups of ventilation equipment 19 are embedded in the installation shell 18 fixed in the equipment shell 1 so that the hot air can be conveyed outwards, the heat dissipation efficiency is further improved, and the heating resistance wire 20 is embedded in the installation shell 18 so that the temperature of the gas is improved.

Through the arrangement, the utility model can solve the technical problems, and simultaneously realize the following technical effects:

the utility model works through the pump 12, the water of the water tank 7 is pumped and then discharged to the water diversion pipe 14 through the water delivery pipe 13, a plurality of groups of water diversion pipes 14 are arranged to improve the heat supply area, thereby being convenient for rapid heating, one side of the water diversion pipe 14 is connected with the return pipe 15, the water is convenient to flow back to the water tank 7 to form circulation, the equipment shell 1 is convenient for the emission of hot air through the opened circulation port 16, and meanwhile, the entry of dust and impurities and the like is avoided by matching with the second filter screen 17, so that the influence on internal components is caused;

the ventilation device 19 embedded by the installation shell 18 is convenient for blowing heat out of the device shell 1 quickly, thereby achieving the effect of quick heating, and simultaneously, the temperature is further improved by matching with the heating resistance wire 20 embedded by the installation shell 18.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a heat exchanger with quick heating structure, its characterized in that, including equipment shell (1), one side of equipment shell (1) penetrates inlet pipe (2), and the opposite side of inlet pipe (2) is connected with conveyer pipe (5), the outer wall of inlet pipe (2) is provided with open shell (3), and the top of open shell (3) inlays and is equipped with first filter screen (4), the outer wall connection of conveyer pipe (5) has branch material pipe (6), and the outside of branch material pipe (6) is provided with water tank (7), one side of branch material pipe (6) is connected with logical material pipe (8), and the opposite side of logical material pipe (8) is provided with discharging pipe (9), outer wall one side of water tank (7) is connected with sealed pad (11), and the opposite side of sealed pad (11) is provided with heat preservation cotton (10).

2. A heat exchanger with a rapid heating structure according to claim 1, characterized in that the distribution pipes (6) are equally distributed with respect to the outer wall of the delivery pipe (5), and the distribution pipes (6) are communicated with the discharge pipe (9) through the feed-through pipe (8).

3. A heat exchanger with a rapid heating structure according to claim 1, characterized in that the water tank (7) is tightly attached to the gasket (11), and the gasket (11) is adhesively connected to the insulation cotton (10).

4. The heat exchanger with rapid heating structure according to claim 1, characterized in that a pump (12) is arranged below the water tank (7), one side of the pump (12) is connected with a water pipe (13), the other side of the water pipe (13) is provided with a water diversion pipe (14), one end of the outer wall of the water diversion pipe (14) is connected with a return pipe (15), a circulation port (16) is formed in the outer wall of the equipment shell (1), a second filter screen (17) is arranged on one side of the circulation port (16), an installation shell (18) is fixed on one side of the inside of the equipment shell (1), ventilation equipment (19) is installed on the inner wall of the installation shell (18), and heating resistance wires (20) are embedded on the outer wall of the installation shell (18).

5. A heat exchanger with a rapid heating structure according to claim 4, characterized in that the water pipe (13) is communicated with the return pipe (15) through a water diversion pipe (14), and the water diversion pipe (14) is equally distributed with respect to the outer wall surface of the water pipe (13).

6. A heat exchanger with a rapid heating structure according to claim 4, characterized in that the flow openings (16) are equally distributed with respect to the outer wall surface of the equipment housing (1), and the equipment housing (1) is detachably connected with the second filter screen (17) by means of bolts.

7. A heat exchanger with a rapid heating structure according to claim 4, characterized in that the equipment housing (1) is fixedly connected with the installation shell (18), and the installation shell (18) is detachably connected with the heating resistance wire (20) by means of bolts.