CN210833161U - Novel bow-shaped heat exchange tube of temperature control variable furnace - Google Patents

Abstract

The utility model provides a novel bow-shaped heat exchange tube of a temperature control change furnace, which comprises a heat exchange tube, wherein the heat exchange tube comprises a turning tube, an engagement tube and a bottom tube, the turning tube is matched with the engagement tube, the engagement tube is screwed with the turning tube, the engagement tube is positioned at two ends of the turning tube, the bottom tube is screwed with the engagement tube and positioned at one end of the engagement tube, and the turning tube comprises a heat preservation tube body; in the use process, the bottom pipe can be screwed on the connecting pipe, then the connecting pipe is screwed on the turning pipe, in the installation process, a user selects different numbers of turning pipes, connecting pipes and bottom pipes to use according to different objects, and then the lengths of the turning pipes, the connecting pipes and the bottom pipes are different according to different numbers, so that the heat exchange pipe can be applied to furnace bodies with different models and sizes, and the application range of the heat exchange pipe is enlarged.

Description

Novel bow-shaped heat exchange tube of temperature control variable furnace

Technical Field

The utility model belongs to the heat exchange tube field especially relates to a novel bow-shaped heat exchange tube of accuse temperature change stove.

Background

The heat exchange tube is one of the elements of the heat exchanger, is arranged in the cylinder and is used for exchanging heat between two media. Has high thermal conductivity and good isothermal property. It is a device that can rapidly transfer heat energy from one point to another with little heat loss, and is therefore called a heat-transfer superconductor, which has a thermal conductivity several thousand times that of copper.

The heat exchange tube on the existing market is using, and most of heat exchange tube length all is fixed after production, causes the use that same heat exchange tube can not the most furnace bodies of adaptation, makes the multiple use that has reduced the heat exchange tube.

SUMMERY OF THE UTILITY MODEL

The utility model provides a novel bow-shaped heat exchange tube of accuse temperature change stove aims at solving the heat exchange tube on the existing market and is using, and most heat exchange tube length all is fixed after production, causes the use of the big furnace body of same heat exchange tube unable adaptation, makes the multiple use that has reduced the heat exchange tube. And (5) problems are solved.

The utility model is realized in such a way, a novel bow-shaped heat exchange tube of a temperature-controlled variable furnace comprises a heat exchange tube, wherein the heat exchange tube comprises a turning tube, an adapting tube and a bottom tube, the turning tube is matched with the adapting tube, the adapting tube is screwed with the turning tube, the adapting tube is positioned at two ends of the turning tube, the bottom tube is screwed with the adapting tube and positioned at one end of the adapting tube, the turning tube comprises a heat-insulating tube body, the heat-insulating tube body is fixedly connected with a convection disc and positioned inside the heat-insulating tube body, the convection disc is fixedly connected with the heat-conducting tube, the convection disc is positioned at one end of the heat-conducting tube, the other end of the heat-conducting tube is provided with the adapting disc, the adapting disc is fixedly connected with the heat-conducting tube, one end of the heat-insulating tube body is provided with a spiral ring, the spiral ring and the heat-insulating tube body are integrally formed, a spiral groove is arranged, and the spiral groove is positioned above the convection disc.

Preferably, the bending tube is bent at ninety degrees, and both ends of the bending tube are disposed on the spiral ring.

Preferably, the outer surface of the spiral ring is provided with threads, and the spiral ring is matched with the thread groove and is in threaded connection with the thread groove through the threads.

Preferably, the convection disc and the connection disc are internally provided with butt joint holes, and the butt joint holes are cylindrical and penetrate through the convection disc and the connection disc.

Preferably, the number of the butt joint holes is multiple, and the butt joint holes are circularly and equidistantly arranged around the upper surfaces of the convection disc and the adapter disc.

Preferably, the number of the heat conduction pipes is multiple, and the heat conduction pipes are butted with the butting holes on the convection disc and the connection disc one by one.

Preferably, both ends of the turning pipe and the connecting pipe are provided with sealing rings.

Preferably, the convection disk and the spiral ring are in a shape of a circular ring and are butted with each other.

Compared with the prior art, the beneficial effects of the utility model are that: the bottom pipe is screwed with the connecting pipe, and the connecting pipe is screwed with the turning pipe, so that the bottom pipe can be screwed on the connecting pipe in the using process, and then the connecting pipe is screwed on the turning pipe, and in the installing process, a user can select different numbers of turning pipes, connecting pipes and bottom pipes to use according to different objects in use, and the matched lengths among the turning pipes, the connecting pipes and the bottom pipe are different according to different numbers, so that the heat exchange pipe can be applied to furnace bodies with different types and sizes, and the application range of the heat exchange pipe is enlarged.

It should be understood that the foregoing is illustrative of the preferred embodiments of the present invention and that numerous changes and modifications may be made by those skilled in the art without departing from the principles of the invention, which are also to be considered as within the scope of the invention.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the bottom tube structure of the present invention;

FIG. 3 is a schematic cross-sectional view of the connecting tube of the present invention;

in the figure: 100. a heat exchange pipe; 1. a bending tube; 2. connecting the pipe; 3. a bottom tube; 11. a heat-insulating pipe body; 12. a butt joint hole; 13. a convection tray; 14. a splice tray; 15. a spiro ring; 16. a heat conducting pipe; 17. and (4) a spiral groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present invention and for simplicity in description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1-3, the present invention provides a technical solution: a novel bow-shaped heat exchange tube of a temperature control change furnace comprises a heat exchange tube 100, the heat exchange tube 100 comprises a turning tube 1, a connecting tube 2 and a bottom tube 3, the turning tube 1 is matched with the connecting tube 2, the connecting pipe 2 is screwed with the turning pipe 1, the connecting pipe 2 is positioned at the two ends of the turning pipe 1, the bottom pipe 3 is screwed with the connecting pipe 2, and is positioned at one end of the connecting pipe 2, the bend pipe 1 comprises a heat preservation pipe body 11, the heat preservation pipe body 11 is fixedly connected with the convection disc 13 and is positioned inside the heat preservation pipe body 11, the convection disc 13 is fixedly connected to the heat conduction pipe 16, the convection disc 13 is located at one end of the heat conduction pipe 16, the other end of the heat conduction pipe 16 is provided with an engagement disc 14, the engagement disc 14 is fixedly connected to the heat conduction pipe 16, one end of the heat preservation pipe body 11 is provided with a spiral ring 15, the spiral ring 15 and the heat preservation pipe body 11 are integrally formed, a spiral groove 17 is formed in the heat preservation pipe body 11, and the spiral groove 17 is located above the convection disc 13.

In this embodiment, the two ends of the connecting tube 2 are respectively provided with the spiral groove 17 and the spiral ring 15, one end of the bottom tube 3 is provided with the spiral groove 17 and is matched with the spiral ring 15 on the connecting tube 2, the two ends of the turning tube 1 are respectively provided with the spiral ring 15, when a user carries out butt joint, the spiral groove 17 on the bottom tube 3 and the spiral ring 15 on the connecting tube 2 need to be carried out, and further, when the user carries out installation on the heat exchanging tube 100, the bottom tube 3, the connecting tube 2 and the turning tube 1 can be sequentially butted, and different numbers of the bottom tubes 3, the connecting tubes 2 and the turning tubes 1 can be selected for use according to used objects.

In this embodiment, when installing the heat exchange tube 100, since the bottom end of the inner portion of the bottom tube 3 is provided with the spiral groove 17, and the two ends of the connection tube 2 are respectively provided with the spiral groove 17 and the spiral ring 15, the user can screw the spiral ring 15 on the connection tube 2 into the spiral groove 17, and then fix the connection tube 2 to the bottom tube 3, and then the user can select different numbers of connection tubes 2 to use according to the object, and then screw the spiral ring 15 between the two connection tubes 2 with the spiral groove 17, so as to fix the two connection tubes 2 to each other, and at the same time, the two ends of the turning tube 1 are respectively provided with the spiral ring 15, so that the turning tube 1 can be installed at one end of the spiral ring 15, so that the connection tube 2 and the turning tube 1 are fixed to each other, and in the installation process, the user can select different numbers of turning tubes 3, connection tubes 2 and bottom tubes 1 to use according to different use objects, furthermore, the lengths of the turning pipe 3, the connecting pipe 2 and the bottom pipe 1 are different according to different quantities, so that the heat exchange pipe 100 can be applied to furnace bodies of different models and sizes, the heat conducting pipes 16 are arranged in the bottom pipe 1, the connecting pipe 2 and the turning pipe 3, two ends of each heat conducting pipe 16 are respectively and fixedly connected to the connecting disc 14 and the convection disc 13, and after the connecting pipe 2 and the bottom pipe 3 are mutually fixed, the spiral ring 15 is in contact with the convection disc 13, so that the heat conducting pipes 16 can be mutually communicated, and the normal use of the whole heat exchange pipe 100 can be ensured.

Furthermore, the bending tube 1 is bent at ninety degrees, and both ends of the bending tube 1 are disposed on the spiral ring 15.

In the present embodiment, during the use process, the angle of the heat exchange tube 100 can be adjusted by the angle setting of the turning tube 1, and the connection tube 2 can be fixed on the heat exchange tube 100 by providing the spiral rings 15 at both ends of the turning tube 1.

Further, the outer surface of the spiral ring 15 is provided with threads, and the spiral ring 15 is matched with the thread groove 17 and is screwed with the thread groove 17 through the threads.

In the present embodiment, since the spiral ring 15 is provided at both ends of the connecting tube 2 and the bending tube 1 by the provision of the spiral groove 17, the spiral ring 15 can be fixed to the spiral groove 17 to fix the ground tube 3, the connecting tube 2, and the bending tube 1 to each other.

Furthermore, the convection disc 13 and the connecting disc 14 are internally provided with butt joint holes 12, and the butt joint holes 12 are cylindrical and penetrate through the convection disc 13 and the connecting disc 14; the number of the butt joint holes 12 is a plurality, and the butt joint holes are circularly and equidistantly arranged on the upper surfaces of the convection disc 13 and the connecting disc 14; the heat conduction pipes 16 are plural in number and are butted against the butting holes 12 of the convection tray 13 and the adapter tray 14 one by one.

In this embodiment, during the use process, the docking hole 12 of the convection coil 13 corresponds to the docking hole 12 of the adapter plate 14, and the two ends of the heat conduction pipe 16 are respectively fixedly connected to the convection coil 13 and the adapter plate 14 and inserted into the docking hole 12, and after the turning pipe 3, the adapter pipe 2 and the bottom pipe 1 are connected with each other, the turning pipe 3, the adapter pipe 2 and the heat conduction pipe 16 in the bottom pipe 1 are communicated with each other through the convection coil 13 and the adapter plate 14.

Furthermore, two ends of the turning pipe 1 and the connecting pipe 2 are both provided with a sealing ring.

In the present embodiment, after the bending tube 3, the connecting tube 2 and the bottom tube 1 are fixed to each other, the bending tube 3, the connecting tube 2 and the bottom tube 1 are hermetically connected by the sealing ring.

Further, the convection disk 13 and the spiral ring 15 are annular and are butted against each other.

In this embodiment, the two ends of the connecting tube 2 are respectively provided with the spiral groove 17 and the spiral ring 15, one end of the bottom tube 3 is provided with the spiral groove 17 and is matched with the spiral ring 15 on the connecting tube 2, the two ends of the turning tube 1 are respectively provided with the spiral ring 15, when a user carries out butt joint, the spiral groove 17 on the bottom tube 3 and the spiral ring 15 on the connecting tube 2 need to be carried out, and further, when the user carries out installation on the heat exchanging tube 100, the bottom tube 3, the connecting tube 2 and the turning tube 1 can be sequentially butted, and different numbers of the bottom tubes 3, the connecting tubes 2 and the turning tubes 1 can be selected for use according to used objects.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. A novel bow-shaped heat exchange tube of a temperature control change furnace is characterized in that: comprises a heat exchange tube (100), the heat exchange tube (100) comprises a turning tube (1), an engagement tube (2) and a bottom tube (3), the turning tube (1) is matched with the engagement tube (2), the engagement tube (2) is in threaded connection with the turning tube (1), the engagement tube (2) is arranged at two ends of the turning tube (1), the bottom tube (3) is in threaded connection with the engagement tube (2) and is arranged at one end of the engagement tube (2), the turning tube (1) comprises a heat preservation tube body (11), the heat preservation tube body (11) is fixedly connected with a convection disc (13) and is arranged in the heat preservation tube body (11), the convection disc (13) is fixedly connected with a heat conduction tube (16), the convection disc (13) is arranged at one end of the heat conduction tube (16), and the other end of the heat conduction tube (16) is provided with an engagement disc (14), the joining plate (14) is fixedly connected to the heat conduction pipe (16), a spiral ring (15) is arranged at one end of the heat insulation pipe body (11), the spiral ring (15) and the heat insulation pipe body (11) are integrally formed, a spiral groove (17) is formed in the heat insulation pipe body (11), and the spiral groove (17) is located above the convection plate (13).

2. The novel bow-shaped heat exchange tube of the temperature-controlled variable furnace as claimed in claim 1, wherein: the bending pipe (1) is bent at ninety degrees, and two ends of the bending pipe (1) are arranged on the spiral ring (15).

3. The novel bow-shaped heat exchange tube of the temperature-controlled variable furnace as claimed in claim 1, wherein: the outer surface of the spiral ring (15) is provided with threads, the spiral ring (15) is matched with the thread groove (17), and the spiral ring is screwed with the thread groove (17) through the threads.

4. The novel bow-shaped heat exchange tube of the temperature-controlled variable furnace as claimed in claim 1, wherein: the convection disc (13) and the connection disc (14) are internally provided with butt joint holes (12), and the butt joint holes (12) are cylindrical and penetrate through the convection disc (13) and the connection disc (14).

5. A novel bow-shaped heat exchange tube of a temperature control shift furnace as claimed in claim 4, characterized in that: the number of the butt joint holes (12) is multiple, and the butt joint holes are circularly and equidistantly arranged on the upper surfaces of the convection disc (13) and the connecting disc (14).

6. A novel bow-shaped heat exchange tube of a temperature control shift furnace as claimed in claim 4, characterized in that: the heat conducting pipes (16) are multiple in number and are butted with the butting holes (12) on the convection disc (13) and the adapter disc (14) one by one.

7. The novel bow-shaped heat exchange tube of the temperature-controlled variable furnace as claimed in claim 1, wherein: and sealing rings are arranged at two ends of the turning pipe (1) and the connecting pipe (2).

8. The novel bow-shaped heat exchange tube of the temperature-controlled variable furnace as claimed in claim 1, wherein: the convection disc (13) and the spiral ring (15) are annular, and are in butt joint with each other.

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