CN114440457B - Nanometer electric heating tube conduction liquid electric heating equipment for solving empty burning phenomenon - Google Patents

Abstract

The invention discloses nanometer electrothermal tube conduction liquid electric heating equipment for solving the empty burning phenomenon, which relates to the technical field of electric heating and comprises an electric heating equipment main body, wherein the electric heating equipment main body comprises an equipment casing, a high-efficiency heat exchange mechanism is arranged inside the equipment casing, an empty burning prevention mechanism is arranged inside the equipment casing, the electric heating equipment main body comprises a detachable nanometer heating mechanism, and the empty burning prevention mechanism comprises a temperature sensor and a pressure sensor. According to the invention, the space inside the equipment casing is separated by adopting the cooperation between the internal structures of the anti-idle-burning mechanism, the pressure sensor arranged on the lower side of the vacuum heat insulation plate is utilized to detect the pressure of the thermal expansion of the vacuum heat insulation plate, the heat conducting block, the vertical heat conducting column and the arc heat conducting plate are utilized to conduct the heat of the upper part to the bottom of the conical metal casing I, the temperature sensor is utilized to detect the heat concentration, and the power supply is cut off when the temperature is too high, so that idle burning is prevented.

Description

Nanometer electric heating tube conduction liquid electric heating equipment for solving empty burning phenomenon

Technical Field

The invention relates to the technical field of electric heating, in particular to nano electric heating tube conduction liquid electric heating equipment for solving the empty burning phenomenon.

Background

The electric heating equipment in the current market has more problems, some electric heating equipment has complex systems, professional staff is required to record and operate and maintain, the electric heating equipment generally adopts a metal heating pipe as a heat source, the energy-saving effect of the metal heating pipe is poor, the safety degree is low, the nano electric heating pipe is adopted as the heat source, and the heat exchange is carried out by matching with a conducting liquid, so that the heating efficiency can be improved.

The following problems exist in the prior art:

1. when the existing nano electric heating tube conduction liquid electric heating equipment is used, when the water medium in the flow pipeline is less, the temperature control detection sensitivity is low, even when the equipment fails, the power supply cannot be disconnected in time, the temperature of the pipeline in the equipment can be quickly increased under the action of the nano electric heating tube, the normal temperature increasing speed is deviated, the maximum threshold of temperature increase is increased, and the phenomenon of idle burning occurs;

2. when the conventional nano electric heating tube conduction liquid electric heating equipment is used, the nano heating tube is used as a heat source, but the nano heating tube in the conventional equipment is often inconvenient to replace, and the heat exchange efficiency of a water passing pipeline in the equipment is low.

Disclosure of Invention

The invention provides nano electrothermal tube conduction liquid electric heating equipment for solving the empty burning phenomenon, which aims to solve the problem that the empty burning phenomenon is easy to occur when the water medium in a flow pipeline is less by improving the sensitivity of temperature control detection; the other purpose is to solve the problems that the nano heating pipe is inconvenient to replace and the heat exchange efficiency of the water passing pipeline is low, so that the effect of improving the practicability and the economy of the electric heating equipment is achieved.

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

the utility model provides a solve nanometer electrothermal tube conduction liquid electrical heating equipment of empty fever phenomenon, includes the electrical heating equipment main part, the electrical heating equipment main part is including the equipment cover shell, the inside of equipment cover shell is provided with high-efficient heat transfer mechanism, the inside of equipment cover shell is provided with the empty fever prevention mechanism, the electrical heating equipment main part is including dismantling nanometer heating mechanism.

The empty burning prevention mechanism comprises a temperature sensor and a pressure sensor, and the top of the temperature sensor is fixedly connected with a first conical metal casing.

The detachable nano heating mechanism comprises a unit heating device, a clamping device casing is movably arranged at the top of the equipment casing, and a nano heating pipe is movably arranged in the clamping device casing.

The technical scheme of the invention is further improved as follows: the glass ceramic device is characterized in that a glass ceramic panel is fixedly installed on the outer surface of the first conical metal casing, the side surface of the glass ceramic panel is fixedly connected with the inner wall of the first conical metal casing, the top of the temperature sensor is fixedly connected with the bottom of the first conical metal casing, and a vertical heat conducting column is fixedly installed on the inner wall of the first conical metal casing.

The technical scheme of the invention is further improved as follows: the outer surface of the vertical heat conduction column is fixedly provided with an arc-shaped heat conduction plate, the tops of the arc-shaped heat conduction plate and the vertical heat conduction column are fixedly connected with heat conduction blocks, the top of the first conical metal casing is fixedly connected with a metal plate, and the side surface of the metal plate is fixedly connected with the inner wall of the equipment casing.

The technical scheme of the invention is further improved as follows: the bottom of the pressure sensor is fixedly connected with the top of the glass ceramic panel, the top of the pressure sensor is fixedly connected with a vacuum insulation board, and the top of the vacuum insulation board is fixedly connected with the bottom of the metal plate.

The technical scheme of the invention is further improved as follows: the unit heating device comprises a clamping device, an L-shaped connecting plate is arranged on the outer side of the clamping device, the bottom of the L-shaped connecting plate is fixedly connected with the top of the equipment casing, and a transverse plate is fixedly arranged on the side face of the casing of the clamping device.

The technical scheme of the invention is further improved as follows: the inside movable mounting of diaphragm, L type connecting plate has the second bolt, the top fixed mounting of nanometer heating pipe has the iron sheet, fixed mounting has magnet on the inner wall of clamping device cover shell, the screw has been seted up to the side of clamping device cover shell, the inside movable mounting of screw has first bolt, the one end fixedly connected with arc rubber stripper plate of first bolt.

The technical scheme of the invention is further improved as follows: the efficient heat exchange mechanism comprises a first heat exchange device, a second heat exchange device and a communicating pipe, wherein the first heat exchange device comprises a first upper water collection tank and a first lower water collection tank, a water inlet pipe is fixedly arranged on the outer surface of the first upper water collection tank, and one end of the water inlet pipe extends to the inside of the first upper water collection tank.

The technical scheme of the invention is further improved as follows: one side of the first upper water collection tank is fixedly provided with a heat exchange capillary tube, the outer surface of the heat exchange capillary tube is fixedly provided with a conical metal casing II, one end of the heat exchange capillary tube extends to the inside of the first lower water collection tank, and the first lower water collection tank is provided with a conical metal casing II.

The technical scheme of the invention is further improved as follows: the second heat exchange device comprises a second upper water collection tank and a second lower water collection tank, a water outlet pipe is fixedly arranged on one side of the second upper water collection tank, one end of the communicating pipe extends to the inside of the first lower water collection tank, and the other end of the communicating pipe extends to the inside of the second lower water collection tank.

By adopting the technical scheme, compared with the prior art, the invention has the following technical progress:

1. the invention provides nanometer electrothermal tube conduction liquid electric heating equipment for solving the empty burning phenomenon, which adopts the cooperation between the internal structures of an empty burning prevention mechanism, separates the space inside an equipment shell through a metal plate, utilizes a pressure sensor arranged at the lower side of a vacuum thermal insulation plate, detects the pressure of the thermal expansion of the vacuum thermal insulation plate through the pressure sensor, and utilizes a heat conduction block, a vertical heat conduction column and an arc heat conduction plate to conduct the heat at the upper part to the bottom of a conical metal shell I, and utilizes a temperature sensor to detect the heat concentration, and cuts off a power supply when the temperature is too high so as to prevent empty burning.

2. The invention provides nanometer electric heating tube conduction liquid electric heating equipment for solving the empty burning phenomenon, which adopts the cooperation between the internal structures of a detachable nanometer heating mechanism, utilizes a second bolt to connect an L-shaped connecting plate with a transverse plate, removes the second bolt, withdraws a nanometer heating tube and a clamping device from an equipment shell, improves the stability of the nanometer heating tube in the clamping device shell due to the magnetic connection between an iron sheet and a magnet, rotates the first bolt, releases the extrusion of an arc-shaped rubber extrusion plate on the nanometer heating tube, and can replace the nanometer heating tube.

3. The invention provides nanometer electrothermal tube conduction liquid electric heating equipment for solving the empty burning phenomenon, which adopts the cooperation between the internal structures of a high-efficiency heat exchange mechanism, water enters a first upper water collecting tank through a water inlet pipe and sequentially flows through a heat exchange capillary water pipe, a first lower water collecting tank, a communicating pipe and a second heat exchange device, conduction liquid is heated and transfers heat to the first heat exchange device and the second heat exchange device, the local heating intensity of the heat exchange capillary water pipe is further enhanced through a conical metal casing II sleeved on the outer surface of the heat exchange capillary water pipe, the water flow heating efficiency is improved, and water flows through the first heat exchange device and the second heat exchange device to perform full heat exchange.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the structural anti-idle firing mechanism of the present invention;

FIG. 3 is a schematic perspective view of a nano-heating mechanism with detachable structure according to the present invention;

FIG. 4 is a schematic perspective view of a unit heating device of the present invention;

FIG. 5 is a schematic cross-sectional view of a structural clamping device of the present invention;

FIG. 6 is a schematic perspective view of a structural efficient heat exchange mechanism of the present invention;

fig. 7 is a schematic perspective view of a first heat exchange device with the structure of the present invention.

In the figure: 1. an electric heating apparatus main body; 2. a device casing; 3. an air burn prevention mechanism; 31. a glass ceramic panel; 32. a conical metal casing I; 33. a temperature sensor; 34. vertical heat conducting columns; 35. an arc-shaped heat conducting plate; 36. a heat conduction block; 37. a metal plate; 38. vacuum insulation panels; 39. a pressure sensor; 4. the disassembly type nanometer heating mechanism; 41. a unit heating device; 411. a nano heating tube; 412. a clamping device; 4121. a clamping device housing; 4122. a screw hole; 4123. a first bolt; 4124. an arc-shaped rubber extrusion plate; 4125. iron sheet; 4126. a magnet; 413. a cross plate; 414. an L-shaped connecting plate; 415. a second bolt; 5. an efficient heat exchange mechanism; 51. a first heat exchange device; 511. a first upper header tank; 512. a water inlet pipe; 513. a first lower header tank; 514. a heat exchange capillary tube; 515. a conical metal casing II; 52. a second heat exchange device; 521. a second upper header tank; 522. a water outlet pipe; 523. a second lower header tank; 53. and communicating pipe.

Detailed Description

The invention is further illustrated by the following examples:

example 1

As shown in fig. 1-7, the invention provides a nanometer electrothermal tube conduction liquid electric heating device for solving the empty burning phenomenon, an electric heating device main body 1, the electric heating device main body 1 comprises a device casing 2, a high-efficiency heat exchange mechanism 5 is arranged inside the device casing 2, an empty burning prevention mechanism 3 is arranged inside the device casing 2, the electric heating device main body 1 comprises a detachable nanometer heating mechanism 4, the empty burning prevention mechanism 3 comprises a temperature sensor 33 and a pressure sensor 39, the top of the temperature sensor 33 is fixedly connected with a conical metal casing one 32, the detachable nanometer heating mechanism 4 comprises a unit heating device 41, the top of the device casing 2 is movably provided with a clamping device casing 4121, the inside of the clamping device casing 4121 is movably provided with a nanometer heating tube 411, the outer surface of the conical metal casing one 32 is fixedly provided with a glass ceramic panel 31, the side surface of the glass ceramic panel 31 is fixedly connected with the inner wall of the device 2, the top of the temperature sensor 33 is fixedly connected with the bottom of the conical metal casing one 32, the inner wall of the conical metal casing one 32 is fixedly provided with a vertical heat conducting column 34, the outer surface of the vertical heat conducting column 34 is fixedly provided with a heat conducting block 35, the top of the heat conducting block 35 is fixedly connected with the bottom of the glass ceramic casing one 37, the top of the heat conducting block is fixedly connected with the arc-shaped metal plate 37, and the top of the arc-shaped metal plate is fixedly connected with the top 37 is fixedly connected with the top of the arc-shaped metal plate 37.

In this embodiment, when the electric heating apparatus main body 1 is in use, the interior of the apparatus casing 2 is spatially separated by the metal plate 37, the pressure sensor 39 arranged at the lower side of the vacuum insulation board 38 is used to detect the pressure of the thermal expansion of the vacuum insulation board 38 by the pressure sensor 39, the heat conducting block 36, the vertical heat conducting column 34 and the arc heat conducting plate 35 are used to conduct the heat at the upper part to the bottom of the conical metal casing 32, the temperature sensor 33 is used to detect the heat concentration, and the power supply is cut off when the temperature is too high, so that the idle burning is prevented.

Example 2

As shown in fig. 1-7, on the basis of embodiment 1, the present invention provides a technical solution: preferably, the unit heating device 41 includes a clamping device 412, an L-shaped connecting plate 414 is disposed on the outer side of the clamping device 412, the bottom of the L-shaped connecting plate 414 is fixedly connected with the top of the equipment casing 2, a transverse plate 413 is fixedly mounted on the side surface of the clamping device casing 4121, a second bolt 415 is movably mounted in the transverse plate 413 and the L-shaped connecting plate 414, an iron sheet 4125 is fixedly mounted on the top of the nano heating tube 411, a magnet 4126 is fixedly mounted on the inner wall of the clamping device casing 4121, a screw hole 4122 is formed in the side surface of the clamping device casing 4121, a first bolt 4123 is movably mounted in the screw hole 4122, and an arc-shaped rubber extrusion plate 4124 is fixedly connected to one end of the first bolt 4123.

In this embodiment, the second bolt 415 is used to connect the L-shaped connection plate 414 with the cross plate 413, the second bolt 415 is removed, the nano heating tube 411 and the clamping device 412 are pulled out from the device housing 2, the stability of the nano heating tube 411 in the clamping device housing 4121 is improved due to the magnetic connection between the iron sheet 4125 and the magnet 4126, the first bolt 4123 is rotated, the extrusion of the arc-shaped rubber extrusion plate 4124 to the nano heating tube 411 is released, and the nano heating tube 411 can be replaced.

Example 3

As shown in fig. 1-7, on the basis of embodiment 1, the present invention provides a technical solution: preferably, the efficient heat exchange mechanism 5 comprises a first heat exchange device 51, a second heat exchange device 52 and a communicating pipe 53, wherein the first heat exchange device 51 comprises a first upper water collection tank 511 and a first lower water collection tank 513, a water inlet pipe 512 is fixedly installed on the outer surface of the first upper water collection tank 511, one end of the water inlet pipe 512 extends to the inside of the first upper water collection tank 511, a heat exchange capillary tube 514 is fixedly installed on one side of the first upper water collection tank 511, a conical metal casing II 515 is fixedly installed on the outer surface of the heat exchange capillary tube 514, one end of the heat exchange capillary tube 514 extends to the inside of the first lower water collection tank 513, the first lower water collection tank 513 comprises a second upper water collection tank 521 and a second lower water collection tank 523, a water outlet pipe 522 is fixedly installed on one side of the second upper water collection tank 521, one end of the communicating pipe 53 extends to the inside of the first lower water collection tank 513, and the other end of the communicating pipe 53 extends to the inside of the second lower water collection tank 523.

In this embodiment, water enters the first upper water collection tank 511 through the water inlet pipe 512, flows through the heat exchange capillary tube 514, the first lower water collection tank 513, the communicating tube 53 and the second heat exchange device 52 in sequence, the conducting liquid is heated and transfers heat to the first heat exchange device 51 and the second heat exchange device 52, the local heating intensity of the heat exchange capillary tube 514 is further enhanced through the second conical metal casing 515 sleeved on the outer surface of the heat exchange capillary tube 514, the water flow heating efficiency is improved, and the water flow flows through the first heat exchange device 51 and the second heat exchange device 52 to perform full heat exchange.

The working principle of the nano electrothermal tube conduction liquid electric heating equipment for solving the empty burning phenomenon is specifically described below.

As shown in fig. 1-7, when the electric heating device main body 1 is in use, water enters the first upper water collecting tank 511 through the water inlet pipe 512, flows through the heat exchange capillary tube 514, the first lower water collecting tank 513, the communicating tube 53 and the second heat exchange device 52 in sequence, the conduction liquid is heated and transfers heat to the first heat exchange device 51 and the second heat exchange device 52, the conical metal jacket II 515 sleeved on the outer surface of the heat exchange capillary tube 514 further enhances the local heating strength of the heat exchange capillary tube 514, the water flow passes through the first heat exchange device 51 and the second heat exchange device 52 to fully exchange heat, the second bolt 415 is used for connecting the L-shaped connecting plate 414 with the transverse plate 413, the second bolt 415 is removed, the nano heating tube 411 and the clamping device 412 are pulled out from the device jacket 2, the stability of the nano heating tube 411 in the clamping device 4121 is improved due to the magnetic connection between the iron sheet 4125 and the magnet 4126, the extrusion of the arc rubber extrusion plate 4124 on the nano heating tube 411 is released, the nano heating tube 411 can be replaced, the practicality and the economical efficiency of the electric heating device are further enhanced, the metal plate 37 is used for conducting heat through the heat exchange, the heat sensor is separated by the vacuum heat sensor, the vacuum heat is prevented from being heated by the vacuum heat sensor device, and the vacuum heat sensor is prevented from being separated by the vacuum heat sensor and the vacuum heat sensor is prevented from being heated by the vacuum heat sensor, and the vacuum heat sensor is prevented from being separated by the vacuum heat sensor.

The foregoing invention has been generally described in great detail, but it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, it is intended to cover modifications or improvements within the spirit of the inventive concepts.

Claims (3)

1. The utility model provides a solve nanometer electrothermal tube conduction liquid electrical heating equipment of empty fever phenomenon, includes electrical heating equipment main part (1), electrical heating equipment main part (1) are including equipment cover shell (2), the inside of equipment cover shell (2) is provided with high-efficient heat transfer mechanism (5), its characterized in that: an idle burning prevention mechanism (3) is arranged in the equipment casing (2), and the electric heating equipment main body (1) comprises a detachable nano heating mechanism (4);

the empty burning prevention mechanism (3) comprises a temperature sensor (33) and a pressure sensor (39), and the top of the temperature sensor (33) is fixedly connected with a conical metal casing I (32);

the detachable nano heating mechanism (4) comprises a unit heating device (41), a clamping device casing (4121) is movably arranged at the top of the equipment casing (2), and a nano heating pipe (411) is movably arranged in the clamping device casing (4121);

the bottom of the pressure sensor (39) is fixedly connected with the top of the glass ceramic panel (31), the top of the pressure sensor (39) is fixedly connected with the vacuum insulation board (38), and the top of the vacuum insulation board (38) is fixedly connected with the bottom of the metal plate (37);

the unit heating device (41) comprises a clamping device (412), an L-shaped connecting plate (414) is arranged on the outer side of the clamping device (412), the bottom of the L-shaped connecting plate (414) is fixedly connected with the top of the equipment casing (2), and a transverse plate (413) is fixedly arranged on the side surface of the clamping device casing (4121); the novel nano-heating device is characterized in that a second bolt (415) is movably arranged in the transverse plate (413) and the L-shaped connecting plate (414), an iron sheet (4125) is fixedly arranged at the top of the nano-heating tube (411), a magnet (4126) is fixedly arranged on the inner wall of the clamping device casing (4121), a screw hole (4122) is formed in the side surface of the clamping device casing (4121), a first bolt (4123) is movably arranged in the screw hole (4122), and one end of the first bolt (4123) is fixedly connected with an arc-shaped rubber extrusion plate (4124);

the efficient heat exchange mechanism (5) comprises a first heat exchange device (51), a second heat exchange device (52) and a communicating pipe (53), the first heat exchange device (51) comprises a first upper water collection tank (511) and a first lower water collection tank (513), a water inlet pipe (512) is fixedly installed on the outer surface of the first upper water collection tank (511), one end of the water inlet pipe (512) extends to the inside of the first upper water collection tank (511), a heat exchange capillary tube (514) is fixedly installed on one side of the first upper water collection tank (511), two conical metal casings (515) are fixedly installed on the outer surface of the heat exchange capillary tube (514), one end of the heat exchange capillary tube (514) extends to the inside of the first lower water collection tank (513), the first lower water collection tank (513) is provided with a second upper water collection tank (521) and a second lower water collection tank (523), one side of the second upper water collection tank (521) is fixedly installed with a water outlet pipe (522), one end of the first upper water collection tank (53) extends to the inside of the first lower water collection tank (523), and the other end of the heat exchange capillary tube (53) extends to the inside of the communicating pipe (523).

2. The nano electrothermal tube conduction liquid electric heating equipment for solving the empty burning phenomenon according to claim 1, wherein the equipment is characterized in that: the glass ceramic device is characterized in that a glass ceramic panel (31) is fixedly installed on the outer surface of a first conical metal casing (32), the side surface of the glass ceramic panel (31) is fixedly connected with the inner wall of a device casing (2), the top of a temperature sensor (33) is fixedly connected with the bottom of the first conical metal casing (32), and a vertical heat conducting column (34) is fixedly installed on the inner wall of the first conical metal casing (32).

3. The nano electrothermal tube conduction liquid electric heating equipment for solving the empty burning phenomenon according to claim 2, wherein the equipment is characterized in that: the heat conduction device is characterized in that an arc heat conduction plate (35) is fixedly arranged on the outer surface of the vertical heat conduction column (34), heat conduction blocks (36) are fixedly connected to the tops of the arc heat conduction plate (35) and the vertical heat conduction column (34), a metal plate (37) is fixedly connected to the top of the conical metal casing I (32), and the side face of the metal plate (37) is fixedly connected with the inner wall of the equipment casing (2).