CN210463207U - Module combined heat-preservation heating pipe type heating device - Google Patents

Abstract

The utility model belongs to a module combination heat preservation heating pipe type heating device, a heating pipe heat preservation device is used for preserving heat of a heating pipe, the heat preservation device is composed of a heat preservation sleeve and a heat preservation layer positioned between the heat preservation sleeve and the outer peripheral wall of a quartz heating pipe, and a heating module device is used for forming a heating pipe heating unit; the cabinet body is used for the combination of heating module devices and electric appliances, and the volume of the cabinet body is matched with the number of the combined heating module devices. The utility model discloses can conveniently wrap on quartz heating pipe periphery wall and establish insulation material and change the heat supply water volume according to user's heat supply area's change, have simple structure, the equipment is convenient, labour saving and time saving, excellent in use effect and the high advantage of heat utilization ratio.

Description

Module combined heat-preservation heating pipe type heating device

Technical Field

The utility model belongs to a module combination heat preservation heating tubular heating system.

Background

At present, a quartz heating tube is mainly used for heating water flowing through the quartz heating tube, for example, a semiconductor quartz heating tube disclosed in chinese patent publication No. CN205666969U, has a structure in which heat-resistant plastic tube mouth envelopes are arranged at both ends of the quartz tube, the heat-resistant plastic tube mouth envelopes are connected with the quartz tube ends at the corresponding ends through silica gel sealing rings, a semiconductor conductive film layer is arranged on the outer peripheral wall of the quartz tube, conductive rings are respectively arranged at the upper end, the middle part and the lower end of the semiconductor conductive film layer on the outer peripheral wall of the quartz tube, lead connectors are arranged on the conductive rings to form a quartz heating tube, and a water heating channel is arranged. The structure is silent, the energy consumption is low, and the water flowing through the heating channel is also heated. However, because the quartz heating tube is not provided with a heat insulation device, heat generated by the semiconductor conductive film layer is easy to dissipate to the outside of the air, and is not beneficial to absorbing heat of water flow in the quartz heating tube, so that the heat utilization rate is low, and if the quartz heating tube is wrapped with a heat insulation material, the wrapping is difficult, and the wrapping wastes time and labor.

On the other hand, the heating equipment made of quartz heating pipes is formed in one step in a factory, the heating area is fixed, and the quantity of the heated water cannot be changed according to the change of the heating area of a user, for example, the quantity of the quartz heating pipes in the heating equipment needs to be increased if the heating area of the user is large, the quantity of the quartz heating pipes in the heating equipment needs to be reduced if the heating area of the user is small, the requirement cannot be met at present, the quantity of the heated water cannot be changed according to the change of the heating area of the user, so that the use of the user is influenced, and the energy heat.

Disclosure of Invention

The utility model aims at designing a module combination heat preservation heating tubular heating system, can conveniently wrap up on the quartz heating pipe periphery wall and establish insulation material and change the supply hot water volume according to user's heat supply area's change, have simple structure, the equipment is convenient, labour saving and time saving, excellent in use effect and the high advantage of heat utilization ratio.

Therefore, the utility model discloses a cabinet body and quartz heating pipe, wherein:

heating pipe heat preservation device: used for heat preservation of the heating pipe. The heat preservation device consists of a heat preservation sleeve and a heat preservation layer positioned between the heat preservation sleeve and the outer peripheral wall of the quartz heating pipe. The insulating sleeve is formed by mutually buckling a first shell and a second shell. The first shell and the second shell are respectively a semi-circular shell. The two ends of the first shell and the second shell are provided with convex edge parts corresponding to the pipe orifice sealing sleeves at the two ends of the quartz heating pipe. One side edge of the first shell is provided with hinge clamping lugs at a spacing distance, and the other side edge of the first shell is provided with connecting lugs at a spacing distance. One side edge of the second shell is provided with hinge ring lugs at intervals corresponding to the hinge clamping lugs, and strip-shaped holes for clamping the corresponding hinge clamping lugs are formed in the hinge ring lugs. The other side edge of the second shell is provided with a connecting lug at a spacing distance, and the side edges of the first shell and the second shell which are provided with the connecting lugs are provided with electric connection notches corresponding to the lead connectors of the conductive rings. The connecting lug is provided with a bolt hole.

A heating module device: for forming a heating pipe heating unit. Two ends of two hot water pipes which are arranged side by side at intervals are communicated with each other through two upper through pipes to form a rectangular upper circulating water channel, and one side of the upper end of the upper circulating water channel is provided with a hot water outlet. Two ends of two cold water pipes which are arranged side by side at intervals are communicated with each other through two lower through pipes to form a rectangular lower circulating water channel, and a cold water inlet is formed in one side of the lower circulating water channel. The upper ends of the four supporting stand columns are respectively fixed with the four corners of the lower end of the upper circulating water channel into a whole, and the lower ends of the four supporting stand columns are respectively fixed with the four corners of the upper end of the lower circulating water channel into a whole. The lower end surfaces of the two hot water pipes between the supporting upright posts are provided with butt joint pipes of the hot water pipes at intervals. The upper end surfaces of the two cold water pipes between the supporting upright posts are butt joint pipes which are provided with cold water pipes at intervals. The quartz heating pipes are arranged between the two hot water pipes and the two cold water pipes in parallel. The water outlet pipe at the upper end of each quartz heating pipe is connected with the butt joint pipe of the hot water pipe through an oil union, and the water inlet pipe at the lower end of each quartz heating pipe is connected with the butt joint pipe of the cold water pipe through an oil union.

The cabinet body is used for heating the combination of the module device and the electric appliance. The volume of the cabinet body is matched with the number of the combined heating module devices. The space in the cabinet body is divided into a heat unit chamber at one side and an electric appliance chamber at the other side by a longitudinal partition plate. The front end surfaces of the heat placing unit chamber and the electric appliance chamber are respectively provided with a cabinet door. Or the space in the cabinet body is divided into a heat unit chamber at one side and an electric appliance chamber at the other side by a longitudinal partition plate. The front end surfaces of the heat placing unit chamber and the electric appliance chamber are respectively provided with a cabinet door. The first partition board and the second partition board are arranged in the heat placing unit chamber transversely and vertically at a spacing distance, and the first partition board and the second partition board divide the space in the heat placing unit chamber into an upper heat placing unit chamber, a middle heat placing unit chamber and a lower heat placing unit chamber which are distributed vertically. The heating module devices in the heat unit chambers are respectively fixed with the first partition plate and the second partition plate by screws. The hot water outlets of the heating module devices in the heat-placing unit chambers are correspondingly arranged on the same side, the hot water parallel pipes are sequentially connected in parallel, the hot water outlets of the heating module devices in the heat-placing unit chambers sequentially penetrate through the first partition plate, the second partition plate and the upper end face of the cabinet body, and the output ports of the hot water parallel pipes are positioned outside the upper end face of the cabinet body. The cold water parallel pipes are sequentially connected in parallel to be positioned at water inlet pipe orifices of the heating module devices in each heat-placing unit chamber and sequentially penetrate through the first partition plate, the second partition plate and the cabinet body of the corresponding part, and output ports of the cold water parallel pipes are positioned outside the side end face of the cabinet body.

A notch groove is formed in one side edge of the heat preservation layer corresponding to the electric connection notch, the heat preservation layer is made of slag wool, rock wool or aluminum silicate wool, and the thickness of the heat preservation layer is 5-10 mm. And a layer of reflective aluminum film is arranged on the outer side surface of the heat-insulating layer. The cross sections of the two hot water pipes, the two cold water pipes, the upper through pipe and the lower through pipe are rectangular. The four supporting columns are the same in length, and the length of each supporting column is larger than that of the quartz heating pipe. The cross section of the supporting upright post is rectangular. And cabinet body connecting sheets are arranged at four corners of the lower end surface of the lower circulating water channel, and screw holes are formed in the cabinet body connecting sheets. The structure achieves the purpose of the utility model.

The utility model discloses can conveniently wrap on quartz heating pipe periphery wall and establish insulation material and change the heat supply water volume according to user's heat supply area's change, have simple structure, the equipment is convenient, labour saving and time saving, excellent in use effect and the high advantage of heat utilization ratio.

The utility model discloses a heat preservation cover with be located the heat preservation between heat preservation cover and the quartz heating pipe periphery wall, can keep warm outside the quartz heating pipe effectively, can prevent that the heat that electrically conductive rete produced from dispelling in to the air outward, and wrap up labour saving and time saving. The utility model discloses constitute a heating module device's module frame by upper and lower circulation water course and four support posts to set up the quartzy heating tube of several and form a heating module device in module frame, and can change the internal heating module device's of cabinet quantity according to user heat supply area's change, reached the purpose that changes the supply hot water volume according to user heat supply area's change, the utility model provides high heat utilization rate more than 10%, it is effectual to have good energy-conservation.

Drawings

Fig. 1 is a schematic view of the structure of the heat preservation jacket of the present invention.

Fig. 2 is the schematic view of the heat-insulating layer structure of the present invention.

Fig. 3 is a schematic view of the structure of the thermal insulation cover in use.

Fig. 4 is a schematic structural view of the heating module device of the present invention.

Fig. 5 is a schematic structural view of a rear side of the heating module device of the present invention.

Fig. 6 is a schematic diagram of the distribution structure of the heating module device in the cabinet body according to the present invention.

Fig. 7 is a schematic diagram of the distribution structure of the heating module device in another cabinet of the present invention.

Detailed Description

As shown in fig. 1 to 7, a module combination heat-preservation heating pipe type heating device includes a heat-preservation device, a heating module device, a cabinet, a quartz heating pipe, a bolt 16 and a fixing nut 17, wherein:

as shown in fig. 1 to 3, the heat retaining device: used for heat preservation of the heating pipe. The heat preservation device consists of a heat preservation sleeve and a heat preservation layer 19 positioned between the heat preservation sleeve and the outer peripheral wall of the quartz heating pipe. The insulating sleeve is formed by mutually buckling a first shell 2 and a second shell 4. The first shell and the second shell are respectively a semi-circular shell. The two ends of the first shell and the second shell are provided with convex edge parts 8 corresponding to the pipe orifice sealing sleeves 24 at the two ends of the quartz heating pipe so as to conveniently wrap the pipe orifice sealing sleeves and the quartz heating pipe. The quartz heating tube comprises a quartz tube and a semiconductor conductive film layer.

One side edge of the first shell is provided with hinge clamping lugs 7 at a spacing distance, and the other side edge of the first shell is provided with connecting lugs 6 at a spacing distance. One side edge of the second shell is provided with hinge ring lugs 3 at intervals corresponding to the hinge clamping lugs, strip-shaped holes 5 for clamping the corresponding hinge clamping lugs are formed in the hinge ring lugs, and the other side edge of the second shell is provided with connecting lugs at intervals. The side edges of the first shell and the second shell which are provided with the connecting lugs are provided with electric connecting notches 9 corresponding to the lead connectors of the conductive rings. The connecting lug is provided with a bolt hole 1.

A notch groove 192 is formed in one side edge of the heat insulation layer corresponding to the electric connection notch. The outer side surface of the heat preservation layer is provided with a layer of reflection aluminum film 191 to conveniently reflect heat emitted by the electric film layer to the quartz heating pipe and preserve heat, the reflection aluminum film is a product sold in the market, and the reflection aluminum film and the outer side surface of the heat preservation layer are integrated into a whole by glue. The reflecting aluminum film can be replaced by a heat-insulating aluminum-plastic composite aluminum-plated adhesive tape of a product sold in the market. The heat-insulating layer is made of slag wool, rock wool or aluminum silicate wool. The thickness of the heat preservation layer is 5-10 mm. The heat-insulating sleeve is made of heat-resistant plastics, such as polyethylene, POB and the like.

Fig. 3 is a schematic view of a connection structure of a quartz heating tube in the heating module device.

The utility model discloses a quartz heating pipe 22's both ends are equipped with the mouth of pipe big envelope 24 of making with resistant plastics, and the mouth of pipe big envelope passes through silica gel sealing washer 21 and corresponds the quartz tube end connection of end. The middle part of the pipe orifice sealing sleeve at the lower end is provided with a water inlet pipe 23 communicated with the inner bottom surface of the quartz pipe, and the water inlet pipe is communicated with a cold water pipe 26 through an oil union joint and a butt joint pipe 25 of the cold water pipe. The outer periphery of one end of the butt joint pipe of the cold water pipe is welded with the periphery of the cold water pipe hole of the corresponding part into a whole, and the other end of the butt joint pipe of the cold water pipe is in butt joint communication with the water inlet pipe through the oil union.

Similarly, the middle part of the pipe orifice sealing sleeve at the upper end is provided with a water outlet pipe 13 communicated with the inner top surface of the quartz pipe, the water outlet pipe is communicated with the interior of the hot water pipe 10 through an oil union 12 and a butt joint pipe 11 of the hot water pipe, namely, the periphery of one end of the butt joint pipe of the hot water pipe is integrated with the periphery of the corresponding hot water pipe hole, and the other end of the butt joint pipe of the hot water pipe is communicated with the water outlet pipe through the oil union. The outer peripheral wall of the quartz tube is provided with a semiconductor conductive film layer 20, the upper end, the middle part and the lower end of the semiconductor conductive film layer on the outer peripheral wall of the quartz tube are respectively provided with a conductive ring 14, each conductive ring is provided with a lead connector 15 for communicating a power supply, and a water heating channel 18 is arranged in the quartz heating tube and is of a traditional structure, so that the description is not repeated.

During the use, with the heat preservation parcel on mouth of pipe big envelope and the quartz heating pipe periphery wall of upper and lower extreme, align the lead connector that is equipped with on each notch groove of heat preservation and the conductive ring of corresponding part, each lead connector is located the notch groove of corresponding part promptly to guarantee lead connector connection power. Then the first shell and the second shell are buckled and sealed on the outer side surface of the heat insulation layer reflection aluminum film, namely, a hinge clamping lug on the first shell is clamped into a strip-shaped hole on a hinge ring lug at the corresponding position of the second shell in a penetrating manner; at the moment, the electric connection notches on the first and second shells after being buckled are aligned with the notch grooves on the corresponding parts on the heat insulation layer, and the lead connectors are exposed. And after aligning each engaging lug on first, second casing, reuse each bolt 16 and pass each bolt hole on the engaging lug and compress tightly each engaging lug with fixation nut 17, make the heat preservation cover seal the heat preservation and wrap up on mouth of pipe big envelope and the quartz heating pipe periphery wall of upper and lower extreme, accomplish the heat preservation to the quartz heating pipe.

As shown in fig. 4 to 5, the heating module device: for forming a heating pipe heating unit. Two ends of two hot water pipes 10 arranged side by side at a certain distance are communicated with each other through two upper through pipes 27 to form a rectangular upper circulation water channel, one side of the upper end of the upper circulation water channel is provided with a hot water outlet 32, and the height of the upper through pipe with the hot water outlet can be larger than that of the other upper through pipe for convenient butt joint. Two ends of two cold water pipes 26 arranged side by side at a certain distance are communicated with each other through two lower through pipes to form a rectangular lower circulating water channel, and one side of the lower circulating water channel is provided with a cold water inlet 29. The upper ends of the four supporting stand columns 28 are respectively fixed with the four corners of the lower end of the upper circulating water channel into a whole through welding, and the lower ends of the four supporting stand columns are respectively fixed with the four corners of the upper end of the lower circulating water channel into a whole through welding. Obviously, the upper and lower circulating water channels are sealed circulating water channels.

The lower end surfaces of the two hot water pipes between the supporting upright posts are provided with four butt joint pipes of the hot water pipes at intervals, namely the butt joint pipes of the hot water pipes are communicated with the two hot water pipes and are fixed on the two hot water pipes at corresponding positions in a welding and sealing manner. The upper ends of the two cold water pipes between the supporting columns are provided with four butt joint pipes 25 of the cold water pipes at intervals, namely the butt joint pipes of the cold water pipes are communicated with the two cold water pipes and are fixed on the two cold water pipes at corresponding positions in a welding and sealing manner. The eight quartz heating pipes are arranged between the two hot water pipes and the two cold water pipes side by side, namely four quartz heating pipes are arranged between one hot water pipe and one cold water pipe which vertically correspond to the upper part and the lower part side by side. The water outlet pipe at the upper end of each quartz heating pipe is connected with the butt joint pipe 11 of the hot water pipe through an oil union 12. The water inlet pipe at the lower end of each quartz heating pipe is connected with the butt joint pipe 25 of the cold water pipe through another oil union.

The cross sections of the two hot water pipes, the two cold water pipes, the upper through pipe and the lower through pipe are rectangular. The four supporting columns are the same in length, and the length of each supporting column is larger than that of the quartz heating pipe. The cross section of the supporting upright post is rectangular. And cabinet body connecting sheets 30 are arranged at four corners of the lower end surface of the lower circulating water channel, and screw holes 31 are formed in the cabinet body connecting sheets and used for being fixed with the cabinet body by means of screws.

Above-mentioned structure constitutes the utility model discloses a heating module device.

As shown in fig. 6 to 7, the cabinet 37: the combination is used for heating the module device and the electric appliance. The volume of the cabinet body is matched with the number of the combined heating module devices. The space in the cabinet body is divided into a heat unit chamber 35 on one side and an electric appliance chamber 36 on the other side by a longitudinal partition plate 38. The front end surfaces of the heat placing unit chamber and the electric appliance chamber are respectively provided with a cabinet door 34.

Or the space in the cabinet body is divided into a heat-placing unit chamber at one side and an electric appliance chamber at the other side by a longitudinal partition plate, and the front end faces of the heat-placing unit chamber and the electric appliance chamber are respectively provided with a cabinet door. A first partition plate 39 and a second partition plate 41 are arranged in the heat-holding unit chamber transversely and vertically at a spacing distance, and two ends of each partition plate and the inner wall of the cabinet body of the corresponding part are fixed into a whole by welding or riveting. The first partition plate and the second partition plate divide the space in the heat unit chamber into an upper heat unit chamber 46, a middle heat unit chamber 44 and a lower heat unit chamber 45 which are distributed up and down. Heating module devices in the heat-placing unit chambers are respectively fixed with the first partition plate and the second partition plate by screws, namely, the screws penetrate through screw holes formed in connecting sheets of the cabinet bodies and then are fixedly connected with the first partition plate and the second partition plate in a threaded mode.

The hot water outlets of the heating module devices in the heating unit chambers are correspondingly arranged on the same side, the hot water parallel pipes 40 are sequentially connected in parallel with the hot water outlets of the heating module devices in the heating unit chambers and sequentially penetrate through the first partition plate, the second partition plate and the upper end face of the cabinet body, and the output ports 33 of the hot water parallel pipes are positioned outside the upper end face of the cabinet body; the cold water parallel pipes are sequentially connected in parallel with water inlet pipe orifices 29 of the heating module devices in each heat-placing unit chamber and sequentially penetrate through the first partition plate, the second partition plate and the cabinet body of the corresponding part, and the output ports of the cold water parallel pipes are positioned outside the side end face of the cabinet body.

The electric appliance chamber is used for placing electric appliance elements such as a control electric appliance for controlling the starting time and the temperature of the electric heating film quartz heating tube, a temperature controller and the like, and each control button 43 and the state display meter 42 are positioned on a cabinet door of the electric appliance chamber so as to facilitate the operation. The principles and wiring circuits of electric elements in an electric appliance room and quartz heating tubes for controlling an electric heating film are all the conventional technologies, so the description is omitted.

As shown in fig. 6, the module device is adapted to be installed in a heat-placing unit chamber in a cabinet, and a cabinet connecting piece is fixed to the heat-placing unit chamber by means of screws. The heat supply area is below 100 square meters.

Referring to fig. 7, in order to increase the internal space of the cabinet, when the volume of the cabinet is increased, the space in the heat unit chamber may be divided into an upper heat unit chamber, a middle heat unit chamber and a lower heat unit chamber by the first partition plate and the second partition plate. The volume of each heat-receiving unit chamber is preferably adapted to fit a modular arrangement. Is used for heating areas of more than 100 square meters.

Obviously, each heat unit chamber can be arranged up and down, or arranged back and forth, or arranged up and down and back and forth, and is set according to the heat supply area change of the user.

The preparation method of the utility model comprises the following steps:

(1) respectively preparing a heating pipe heat preservation device, a heating module device and a cabinet body.

(2) And the heat-insulating layer is wrapped on the pipe orifice envelopes at the upper end and the lower end and the peripheral wall of the quartz heating pipe. And aligning each notch groove of the heat-insulating layer with the lead connectors arranged on the conductive rings on the peripheral wall of the quartz heating pipe of the corresponding part, wherein each lead connector is positioned in the notch groove of the corresponding part. And then the first shell and the second shell are buckled and sealed on the outer side surface of the heat-insulating layer reflection aluminum film. And the hinge clamping lug on the first shell is inserted into the strip-shaped hole on the hinge ring lug at the corresponding position of the second shell, and the electric connection notches on the first shell and the second shell after being buckled are aligned with the notch grooves of the corresponding part on the heat insulation layer and all lead connectors are exposed. After aligning each engaging lug on first, the second casing, reuse each bolt and pass each bolt hole on the engaging lug and compress tightly each engaging lug with fixation nut, make the insulating sheath seal the heat preservation parcel on mouth of pipe big envelope and the quartz heating pipe periphery wall of upper and lower extreme, accomplish the heat preservation to a quartz heating pipe.

(3) Respectively installing a quartz heating pipe with a heat insulation sleeve in a heating module frame consisting of an upper circulating water channel, a lower circulating water channel and four supporting stand columns. The lower end surfaces of the two hot water pipes between the supporting stand columns are butt joint pipes provided with the hot water pipes at intervals, and the upper end surfaces of the two cold water pipes between the supporting stand columns are butt joint pipes provided with the cold water pipes at intervals. The quartz heating pipes are arranged between the two hot water pipes and the two cold water pipes in parallel. The water outlet pipe at the upper end of each quartz heating pipe is connected with the butt joint pipe of the hot water pipe through an oil union, and the water inlet pipe at the lower end of each quartz heating pipe is connected with the butt joint pipe of the cold water pipe through an oil union.

(4) And selecting cabinet bodies for placing different heating module devices according to the heat supply area of a user, and preparing electrical components of the electrical appliance room connected with the cabinet bodies. The heat supply unit chambers can be arranged up and down, or arranged in parallel front and back, or arranged in parallel up and down and back, and are set according to the heat supply area change of users. When in use, a plurality of heat-placing unit chambers can be vacant according to the change of the heat supply area of a user. Only two heating module devices are arranged in the three heat-placing unit chambers as shown in fig. 7, and the empty heat-placing unit chambers can be used for placing objects and are set according to the change of the heat supply area of the user.

(5) And assembling the heating module device in the cabinet body according to the heat supply area of the user on the user site. The heating module devices in the heat unit chambers are respectively fixed with the first partition plate and the second partition plate by screws. The hot water outlets on the heating module devices in the heat-placing unit chambers are correspondingly arranged at the same side. The hot water parallel pipes are sequentially connected in parallel to be positioned at hot water outlets of the heating module devices in each heat-placing unit chamber and sequentially penetrate through the first partition plate, the second partition plate and the upper end face of the cabinet body of the corresponding part, and output ports of the hot water parallel pipes are positioned outside the upper end face of the cabinet body. The cold water parallel pipes are sequentially connected in parallel to be positioned at water inlet pipe orifices of the heating module devices in each heat-placing unit chamber and sequentially penetrate through the first partition plate, the second partition plate and the cabinet body of the corresponding part, and output ports of the cold water parallel pipes are positioned outside the side end face of the cabinet body.

(6) The output port of the hot water parallel pipe is communicated with the hot water inlet of the user radiator through a guide pipe, and the water inlet of the cold water parallel pipe is communicated with the water return port of the user radiator through a guide pipe and a water pump.

(7) The circuit for connecting the quartz heating tube with the electrical element of the electrical chamber is connected with a user heating circuit, and the traditional connection method is adopted, so the description is not repeated. The steps (5) and (7) can be tested in a factory.

In a word, the utility model discloses can conveniently wrap the insulation material and change the heat supply water volume according to user's heat supply area's change on the quartz heating pipe periphery wall, have simple structure, the equipment is convenient, labour saving and time saving, excellent in use effect and the high advantage of heat utilization efficiency. Can be popularized and used.

Claims (9)

1. The utility model provides a module combination heat preservation heating tubular heating system, includes the cabinet body and quartz heating pipe, its characterized in that:

heating pipe heat preservation device: the heat preservation device is used for preserving heat of a heating pipe and consists of a heat preservation sleeve and a heat preservation layer positioned between the heat preservation sleeve and the outer peripheral wall of a quartz heating pipe, wherein the heat preservation sleeve is formed by mutually buckling a first shell and a second shell, the first shell and the second shell are respectively semi-circular shells, the pipe orifice sleeve parts of two ends of the first shell and the second shell, which correspond to two ends of the quartz heating pipe, are provided with convex edge parts, one side edge of the first shell is provided with hinge clamping lugs at intervals, the other side edge of the first shell is provided with connecting lugs at intervals, one side edge of the second shell is provided with hinge ring lugs at intervals, strip-shaped holes for clamping the corresponding hinge clamping lugs are arranged on the hinge ring lugs, the other side edge of the second shell is provided with connecting lugs at intervals, and electric connection notches are arranged at the positions, which correspond to lead connectors of conductive rings, on the side edges of the first shell, the connecting lug is provided with a bolt hole;

a heating module device: the device is used for forming a heating pipe heating unit, two ends of two hot water pipes which are arranged side by side at a spacing distance are mutually communicated through two upper through pipes to form a rectangular upper circulating water channel, one side of the upper end of the upper circulating water channel is provided with a hot water outlet, two ends of two cold water pipes which are arranged side by side at a spacing distance are mutually communicated through two lower through pipes to form a rectangular lower circulating water channel, one side of the lower circulating water channel is provided with a cold water inlet, the upper ends of four supporting upright posts are respectively fixed with the four corners of the lower end of the upper circulating water channel into a whole, the lower ends of the four supporting upright posts are respectively fixed with the four corners of the upper end of the lower circulating water channel into a whole, the lower ends of the two hot water pipes which are arranged between the supporting upright posts are provided with butt joint pipes of the hot water pipes at a spacing distance, the upper ends of the two cold water pipes which are arranged between the supporting upright, the water outlet pipe at the upper end of each quartz heating pipe is connected with the butt joint pipe of the hot water pipe through an oil union, and the water inlet pipe at the lower end of each quartz heating pipe is connected with the butt joint pipe of the cold water pipe through an oil union;

the cabinet body is used for combining the heating module devices and placing electric appliances, the volume of the cabinet body is matched with the number of the combined heating module devices, the space in the cabinet body is divided into a heat placing unit chamber at one side and an electric appliance chamber at the other side by a longitudinal partition plate, and cabinet doors are respectively arranged on the front end faces of the heat placing unit chamber and the electric appliance chamber; or the space in the cabinet body is divided into a heat placing unit chamber at one side and an electric appliance chamber at the other side by a longitudinal partition plate, the front end surfaces of the heat placing unit chamber and the electric appliance chamber are respectively provided with a cabinet door, the heat placing unit chamber is internally provided with a first partition plate and a second partition plate which are transversely arranged at intervals up and down, the first partition plate and the second partition plate divide the space in the heat placing unit chamber into an upper heat placing unit chamber, a middle heat placing unit chamber and a lower heat placing unit chamber which are distributed up and down, heating module devices in the heat placing unit chambers are respectively fixed with the first partition plate and the second partition plate by screws, hot water outlets on the heating module devices in the heat placing unit chambers are correspondingly arranged at the same side, hot water parallel pipes are sequentially connected in parallel with the hot water outlets of the heating module devices in each heat placing unit chamber and sequentially penetrate through the first partition plate, the second partition plate and the upper end surface of the cabinet body, and output ports of the, the cold water parallel pipes are sequentially connected in parallel to be positioned at water inlet pipe orifices of the heating module devices in each heat-placing unit chamber and sequentially penetrate through the first partition plate, the second partition plate and the cabinet body of the corresponding part, and output ports of the cold water parallel pipes are positioned outside the side end face of the cabinet body.

2. The modular combination thermal tube heater of claim 1, wherein: a notch groove is formed in one side edge of the heat insulation layer corresponding to the electric connection notch.

3. The modular combination thermal tube heater of claim 1, wherein: and a layer of reflective aluminum film is arranged on the outer side surface of the heat-insulating layer.

4. The modular combination thermal tube heater of claim 1, wherein: the cross sections of the two hot water pipes, the two cold water pipes, the upper through pipe and the lower through pipe are rectangular.

5. The modular combination thermal tube heater of claim 1, wherein: the four supporting columns are the same in length, and the length of each supporting column is larger than that of the quartz heating pipe.

6. The modular combination thermal tube heater of claim 1, wherein: the cross section of the supporting upright post is rectangular.

7. The modular combination thermal tube heater of claim 1, wherein: and cabinet body connecting sheets are arranged at four corners of the lower end surface of the lower circulating water channel, and screw holes are formed in the cabinet body connecting sheets.

8. The modular combination thermal tube heater of claim 1, wherein: the heat-insulating layer is made of slag wool, rock wool or aluminum silicate wool.

9. The modular combination thermal tube heater of claim 1, wherein: the thickness of the heat preservation layer is 5-10 mm.

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