CN209951528U - Physiotherapy cabin with uniformly distributed heat - Google Patents

Abstract

The utility model provides a heat evenly distributed's physiotherapy cabin, including the cabin body, the cabin body is the arc and arranges, the cabin body encloses into the physiotherapy cavity, the cabin body is provided with openly in radial side, uncovered and physiotherapy cavity intercommunication, the internal device that generates heat that is provided with of cabin gathers the subassembly, it includes a plurality of energy collectors to gather the subassembly, a plurality of energy collectors distribute along circumference, a plurality of energy collectors are arranged towards the physiotherapy cavity, the device that generates heat is located gathering the inboard that leans on of subassembly, the device that generates heat is used for exporting the heat to the physiotherapy cavity, the device that generates heat is including being the aluminium foil piece and the heater that the arc extends, the heater evenly arranges on the aluminium foil piece. Through the aluminum foil and the heating wire that the arc extends for the health position that is located the physiotherapy cabin can be followed wide angle on a large scale and carry out the energy polymerization effect of thermotherapy and energy collector, and the heat is more even, thereby effectively improves physiotherapy effect.

Description

Physiotherapy cabin with uniformly distributed heat

Technical Field

The utility model relates to a physiotherapy apparatus field especially relates to a heat evenly distributed's physiotherapy cabin.

Background

The existing physiotherapy box comprising a far infrared light source, an ultraviolet disinfection lamp, a lighting lamp and a seat can carry out far infrared irradiation on the whole body of a human body, but because the whole human body is arranged in the physiotherapy box, the direct irradiation on the head and the heart of the human body can generate adverse consequences. The physiotherapy box is inconvenient to carry, large in occupied area, capable of being fixedly installed and arranged, inconvenient to use in a home and not beneficial to popularization and use.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a physiotherapy cabin of heat evenly distributed.

In order to realize the utility model discloses a purpose, the utility model provides a heat evenly distributed's physiotherapy cabin, including the cabin body, the cabin body is the arc and arranges, the cabin body encloses into the physiotherapy cavity, the cabin body is provided with uncovered in radial side, uncovered and physiotherapy cavity intercommunication, the internal device and the energy subassembly that gathers that generate heat that are provided with of cabin, gather the subassembly and include a plurality of energy wares, a plurality of energy wares are distributed along circumference, a plurality of energy wares are gathered and are arranged towards the physiotherapy cavity, the device that generates heat is located gathering the inboard that leans on of subassembly, the device that generates heat is used for exporting the heat to the physiotherapy cavity, the device that generates heat is including being aluminium foil and the heater that the arc extends, the heater is.

By the above scheme, it is visible, through the physiotherapy cabin that the arc was arranged, make the human body can be when lying flat, the physiotherapy cabin can overlap outside the human body, and can be along human length direction adjusting position, then can realize carrying out the physiotherapy to different positions, it can more have pointed physiotherapy, and aluminum foil and heater through the arc extension, make the health position that is located the physiotherapy cabin can follow the energy polymerization effect that carries out thermotherapy and energy collector wide-angle ground on a large scale, and the heat is more even, thereby effectively improve the physiotherapy effect.

The cabin body further comprises an outer ring piece and an inner ring piece, wherein the inner ring piece is positioned on the inner side of the outer ring piece, the inner ring piece and the outer ring piece form a device placing cavity in a surrounding mode, the heating device and the energy collecting assembly are placed in the device placing cavity, the heating device is arranged on the inner wall of the inner ring piece, and the energy collecting assembly is arranged on the inner wall of the outer ring piece.

It is from top to bottom visible, place the energy gathering subassembly on the position that leans on the outside, and the device that generates heat sets up on the position that leans on the inboard for the gathering energy of energy gathering subassembly can cooperate the heat better to act on the required position of human body, improves physiotherapy effect.

In a further scheme, the inner ring piece extends in an arc shape, and the aluminum foil piece is attached to the inner wall of the inner ring piece.

In a further proposal, the heating wire is positioned between the aluminum foil and the inner ring piece.

Still further, the aluminum foil is arranged in an arc extending manner.

In a further aspect, the heating wire extends in a serpentine manner.

It is thus clear that the position through aluminium foil and heater is arranged to and aluminium foil arc is paved and is arranged fully, and the heater is the setting of wriggling form, effectively improves thermal evenly distributed.

According to a further scheme, the heating wire comprises a plurality of straight line sections and a plurality of bent sections, one bent section is connected between the two straight line sections, two end parts of one straight line section are respectively provided with a bonding piece, and the heating wire is fixed on the aluminum foil by the bonding pieces.

According to a further scheme, the straight line sections are arranged along the axial direction of the cabin body, and the straight line sections are arranged side by side along the circumferential direction.

In a further proposal, two joints of the heating wire are both positioned at the same edge of the aluminum foil.

From top to bottom, the straightway is arranged along the axial for the heating wire is crooked as few as possible, and utilizes the adhesive part to carry out end fixing, improves the durability of heating wire, and also makes aluminium foil and heater laminate with interior ring spare better, is favorable to thermal transmission, and the position setting of joint is favorable to walking the line overall arrangement convenience.

In a further scheme, the cabin body is provided with a main control circuit board, and heat insulation cotton is arranged between the main control circuit board and the heating device.

Therefore, the main control circuit board can be subjected to heat insulation protection through the heat insulation cotton, the operation stability of the circuit and the equipment is improved, and the power supply element is prevented from being accelerated and aged at high temperature for a long time.

Drawings

Fig. 1 is a structural diagram of the embodiment of the physiotherapy cabin of the utility model.

Fig. 2 is a structural diagram of the embodiment of the physiotherapy cabin of the utility model at another visual angle.

Figure 3 is an exploded view of the embodiment of the physiotherapy cabin of the utility model.

Figure 4 is a structural diagram of the leg part in the embodiment of the physiotherapy cabin of the utility model.

Fig. 5 is a structural diagram of the main body in the embodiment of the physiotherapy cabin of the utility model.

Figure 6 is an exploded view of the embodiment of the physiotherapy cabin of the present invention located at the radial end.

Figure 7 is an exploded view of an embodiment of the physiotherapy cabin of the present invention at another view of the radial end.

Figure 8 is a cross-sectional view of the embodiment of the physiotherapy cabin of the utility model at the connecting piece.

Figure 9 is a sectional view of the embodiment of the physiotherapy cabin of the utility model.

Fig. 10 is an enlarged view at a in fig. 9.

Figure 11 is an exploded view of the main body of the embodiment of the physiotherapy cabin of the present invention.

Figure 12 is a structural diagram of the physiotherapy cabin of the utility model without the outer ring part.

Fig. 13 is a structural view of an embodiment of the assembling jig of the present invention.

Figure 14 is a block diagram of an embodiment of the assembly fixture of the present invention from another perspective.

Fig. 15 is an exploded view of an embodiment of the assembly jig of the present invention.

Fig. 16 is a structural view of a heat generating device in an embodiment of the assembling jig of the present invention.

The present invention will be further explained with reference to the drawings and examples.

Detailed Description

Referring to fig. 1 to 3, physiotherapy cabin 1 includes the cabin body, and the cabin body is the arc and arranges, and the cabin body includes main part 2 and two leg parts 3, and two leg parts 3 are detachably connected respectively on two radial tip of main part 2, and the cabin body encloses into physiotherapy cavity 11, and the cabin body is provided with uncovered 12 in radial side, and uncovered 12 is located between two leg parts 3, uncovered 12 and physiotherapy cavity 11 intercommunication. The main body 2 and the two leg members 3 extend in an arc shape, and the main body 2 and the two leg members 3 are arranged along an arc line and coaxially, so that the assembled cabin body is arranged in a semicircular shape, the main body 2 is provided with an operation interface 13 and a power interface 14 on the outer surface, and the operation interface 13 and the power interface 14 are arranged on two sides which are opposite to each other in the radial direction.

Referring to fig. 3 and 4, the two leg members 3 are arranged in a symmetrical structure, the two leg members 3 are respectively disposed on the radial end portions of the main body 2, and as will be described below with reference to one leg member 3, the leg member 3 is provided with three second locking portions on the radial end surface 32, the second locking portions are locking blocks 31 in this embodiment, the three locking blocks 31 are axially distributed, the locking blocks 31 are arranged in a trapezoidal block shape, and the lower ends of the trapezoidal blocks are gradually and largely arranged toward the upper ends.

Referring to fig. 5 to 8, firstly, the radial end of the main body 2 is explained, the main body 2 includes a main shell, two end caps 23, six connecting pieces 24 and two arc-shaped connecting pieces 25, the main shell includes an outer ring piece 21 and an inner ring piece 22, the inner ring piece 22 is located at the inner side of the outer ring piece 21, the inner ring piece 22, the outer ring piece 21, the two end caps 23 and the two arc-shaped connecting pieces 25 define a device placing cavity, and the six connecting pieces 24, the heat generating device and the energy collecting assembly are arranged in the device placing cavity of the cabin.

Six connecting pieces 24 are installed respectively on the radial tip of main part 2, connecting piece 24 is provided with the second card portion, the second card portion is draw-in groove 241, draw-in groove 241 includes the entry groove 2411 and the locking groove 2412 that communicate each other, entry groove 2411 is greater than locking groove 2412, locking groove 2412 is trapezoidal arranging, the trapezoidal cross section of locking groove 2412, its inboard is greater than and arranges outside, the diapire of draw-in groove 241 is provided with transversely extends locking strip 2413 between entry groove 2411 and locking groove 2412, connecting piece 24 is provided with first locating hole 243 in draw-in groove 241, specifically, first locating hole 243 is located entry groove 2411 department, connecting piece 24 is provided with four second locating holes 242 outside draw-in groove 241, two second locating holes 242 set up respectively on the both sides of draw-in groove 241.

The two end covers 23 are respectively installed on the radial end parts of the main body 2, the end covers 23 are arranged in a 7 shape, the end covers 23 are provided with end faces, openings 231 are arranged on the end faces in a penetrating mode, fixing holes 232 are arranged on two sides of the inner side end faces of the end covers 23 at the positions of the openings 231, and positioning strips 233 are arranged on the inner side end faces of the end covers 23 between the two openings 231.

The inner ring member 22 is provided with three positioning grooves 221 at two radial ends, the three positioning grooves 221 are distributed along the axial direction, the outer ring member 21 is provided with three fixing holes 211 at the inner side end faces of the two radial ends, and the three fixing holes 211 are distributed along the axial direction and are all located in the device placing cavity. When the connecting member 24 and the end cap 23 are assembled, the connecting member 24 is first mounted on the end cap 23, that is, the connecting member 24 is mounted at the opening 231 by passing a screw through the second positioning hole 242 and connecting with the second fixing hole 232, the opening 231 is communicated with the clamping groove 241, then the end cap 23 is mounted on the radial end of the main body 2, and the positioning bar 233 is engaged with the positioning groove 221 and connected with the first fixing hole 211 by passing a screw through the first positioning hole 243. And then the assembly of the end cover 23 and the connecting member 24 is completed, and it can be seen that the end cover 23 covers the connecting member 24 and closes the end opening of the device placing cavity, in addition, the connecting member 24 is arranged along the axial direction of the cabin body, and the plurality of clamping grooves 241 all extend along the axial direction of the cabin body.

Referring to fig. 9 and 10, when the leg members 3 are coupled with the body 2, the two leg members 3 are respectively mounted on the radial end portions of the body 2, and the latch 31 is fitted with the latch groove 241 to achieve stable mounting.

Referring to fig. 11 and 12, the radial side and the axial end of the main body 2 will be described first, the outer ring member 21 and the inner ring member 22 are both arranged in an arc shape, seven mounting grooves 214 are provided on the inner wall of the outer ring member 21, a reinforcing rib 215 is provided between two adjacent mounting grooves 214, the energy concentrating assembly includes seven energy concentrators 217, one energy concentrator 217 is mounted in one mounting groove 214, so that three energy concentrators 217 are arranged in a row in the circumferential direction on the first axial end of the nacelle body, the other three energy concentrators 217 are arranged in a row in the circumferential direction on the second axial end of the nacelle body, and one energy concentrator 217 is provided between the two rows of energy concentrators 217 and in the middle of the circumferential direction.

The structural arrangement of the energy concentrator 217 can refer to the energy concentrator disclosed in CN205516023U, a square column array is arranged in the energy concentrator 217, the energy concentrator is a square column array composed of 64 columns, the columns are uniformly and vertically arranged at the bottom of the first energy concentrating cover, the column spacing between the columns is the same, the column height sum on the diagonal positions of a plurality of columns forming any rectangle in the square column array is equal, the height sum of each 32 columns in the upper half part, the lower half part, the left half part and the right half part in the force column array is equal to half of the total height of the columns, the height sum of each 16 columns in the left upper part, the right upper part, the left lower part and the right lower part of the square column array is equal to 1/4 of the total height of the columns, the energy concentrator 217 can be used for realizing energy concentration, and the energy concentrators 217 are distributed along the circumferential direction and.

The inner ring piece 22 is located on the inner side of the outer ring piece 21, the arc-shaped connecting piece 25 comprises a radial bearing plate 251 and an axial limiting plate 252, the two arc-shaped connecting pieces 25 are arranged on the axial end portion of the outer ring piece 21, the inner ring piece 22 is arranged on the radial bearing plate 251, the inner ring piece 22 is located on the inner side of the axial limiting plate 252, a first clamping strip 254 is arranged on the inner wall of each arc-shaped connecting piece 25, a first clamping groove 222 is arranged on the axial end portion of each inner ring piece 22, the first clamping strip 254 is matched with the first clamping groove 222, a second clamping strip 213 is arranged on the inner wall of the outer ring piece 21, a second clamping groove 253 is arranged on the outer wall of each arc-shaped connecting piece 25.

Referring to fig. 13 to 16, a mounting jig for a heat generating device and the heat generating device will be described. The assembly jig of the heating device comprises a first clamping plate 5 and a second clamping plate 6, wherein the first clamping plate 5 is provided with a wire slot 51 in a penetrating mode, the wire slot 51 extends in a winding mode, the wire slot 51 comprises a plurality of straight line segments 511 and a plurality of bending segments 512, the bending segments 512 extend in a 180-degree bending mode, one bending segment 512 is connected between the two straight line segments 511, two ends of one straight line segment 511 are respectively provided with an operating hole 54, two ends of the straight line segment 511 of the wire slot 51 are respectively provided with an operating hole 54 in a penetrating mode, and the wire slot 51 is communicated with the operating holes 54.

Four border position departments that the first splint 5 was arranged to the rectangle are provided with four stopper 52, stopper 52 encloses into the mounting groove, first splint 5 is provided with operation groove 55 on the both sides edge of wire casing 51 respectively, operation groove 55 all is located the middle part, stopper 52 sets up on one side of operation groove 55, and two relative stoppers 52 are located the relative both sides of operation groove 55, these two relative stoppers 52 run through and are provided with the locating hole, be provided with adjusting screw 53 in the locating hole, make adjusting screw 53 be mutual disposition, and adjusting screw 53 all is close to operation groove 55 and sets up.

Second splint 6 is provided with a plurality of fretwork holes 61, installs in the mounting groove when second splint 6 for second splint 6 lid closes back on wire casing 51 and handle hole 54, second splint 6 and stopper 52 clearance fit, adjusting screw 53 borders on with second splint 6, and on second splint 6 lid closed operation groove 55, the lateral wall of second splint 6 can also be provided with locating hole 62, adjusting screw 53 can cooperate with locating hole 62, then realize the rigidity of second splint.

When the heating device is assembled, the assembling method of the assembling clamp comprises the following steps:

the heating wire 42 is placed in the wire groove 51 such that the heating wire 42 extends in a meandering shape;

covering a plate on the wire groove 51, wherein the plate can be an inner ring piece 22 in the scheme, the inner ring piece 22 is covered on the wire groove 51 in a fully spread mode, and the inner ring piece 22 can have certain deformation, so that the inner ring piece is planar during assembly, and the aluminum foil 41 can be attached to the end face of the inner ring piece 22;

pressing the second clamping plate on the inner ring piece 22, namely placing the second clamping plate 6 in the mounting groove, pressing the second clamping plate 6 on the aluminum foil and the inner ring piece 22, and fixing the position through the adjusting screw 53;

the first clamping plate 5 and the second clamping plate 6 are turned over simultaneously, the bonding piece is placed at the operation hole 54, the heating wire 42 is fixed on the inner ring piece through the bonding piece, the high-temperature-resistant bonding piece can be adopted as the bonding piece, the heating wires can be evenly and stably fixed on the aluminum foil 41 through the fixation of the bonding piece on each key part, and the heating wire is fixed on the plate through the bonding piece.

The first clamp is then removed and the heater is covered with an aluminium foil, the whole aluminium foil covering the inner side of the inner ring 22 and the heater.

Referring to fig. 16, the manufactured heating device includes an aluminum foil 41 and heating wires 42, wherein the heating wires 42 are uniformly arranged on the aluminum foil 41, and the heating wires 42 extend in a meandering manner. Specifically, the heating wire 42 includes a plurality of straight segments 421 and a plurality of bent segments 422, one bent segment 422 is connected between two straight segments 421, and adhesive members 423 are respectively disposed at two ends of one straight segment 421, and the adhesive members 423 fix the heating wire 42 to the inner ring member. And a section of heating wire arranged transversely is arranged at the edge, so that two joints 424 of the heating wire 42 are positioned at the same edge of the inner ring piece, and the wiring is convenient.

The heating device is attached to the inner wall of the inner ring member 22, the aluminum foil 41 is adjacent to the inner wall of the inner ring member 22, the heating wire 42 is also adjacent to the inner wall of the inner ring member 22, the heating wire 42 is located between the aluminum foil 41 and the inner ring member 22, the aluminum foil 41 is located on the outer side of the heating wire, and the inner ring member 22 extends in an arc shape when being assembled on the cabin body, so that the aluminum foil 41 extends in an arc shape. The straight segments 421 are arranged along the axial direction of the cabin, and a plurality of straight segments 421 are arranged side by side along the circumferential direction. In addition, a main control circuit board 216 is arranged on the inner side of the operation interface of the inner wall of the outer ring member 21, heat insulation cotton (not shown) is arranged between the main control circuit board and the heating device, and the heat insulation cotton can be laid in a large area, namely, the heat insulation cotton is arranged in the cabin body and covers the aluminum foil, so that the heat insulation efficiency is improved.

From top to bottom, the physiotherapy cabin of arranging through the arc, make the human body can be when lying flatly, the physiotherapy cabin can overlap outside the human body, and can be along the length direction adjusting position of human body, then can realize carrying out the physiotherapy to different positions, it can more have pointed physiotherapy, and the human body can also be when standing or sitting upright, also can carry out the physiotherapy to different positions through dexterous physiotherapy cabin, and utilize the cooperation of energy collector and the device that generates heat to use, the physical structure that utilizes the energy collector can produce the amazing energy polymerization effect and the thermotherapy of the device that generates heat, thereby effectively improve the physiotherapy effect, and arranging of energy collector is not limited to 7, can adopt 5, arrange 1 in the middle of promptly, each 2 is arranged on both sides. The energy gathering devices are ingeniously distributed, so that the energy gathering effect can be improved, and the physical therapy effect can be improved. Utilize the mounting groove can be fixed to the concentrator steadily, and the structural rigidity of the cabin body can be improved in setting up of strengthening rib to and its use that can be more convenient of half curved design, and the more user groups of adaptation. The energy-gathering component is placed on the position close to the outer side, and the heating device is arranged on the position close to the inner side, so that the gathered energy of the energy-gathering component can be better matched with heat to act on the required part of a human body, and the physical therapy effect is improved. The arc-shaped connecting piece is matched with the clamping strip and the clamping groove, so that the outer ring piece and the inner ring piece are more fixedly arranged, and the assembling structure is simple.

In addition, and be connected two leg spare detachably and main part, because main part and two leg spare all are the arc setting for inside the arc of main part can be placed to the leg spare, can effectively reduce packing transportation space, also portable for transportation, more effective using widely. The clamping grooves are axially arranged and distributed, so that the assembly is simpler and more convenient, and the structure consistency after the assembly is better. The trapezoidal longitudinal limiting function is utilized, and the transverse limiting function is carried out on the clamping block through the locking strip, so that the leg piece and the main body are connected more tightly and stably. The connecting piece is covered by the end cover, so that the inner space of the main body is more closed, the connecting piece is better covered, and the overall attractive flatness is improved. Through the setting of locating hole and fixed orifices for the outward appearance of main part does not have the connection screw, guarantees its pleasing to the eye roughness, and utilizes the cooperation of location strip and constant head tank, makes the location installation of end cover more accurate.

And, through the aluminium foil and the heater that the arc extends for the health position that is located the physiotherapy cabin can be followed wide angle on a large scale and carry out the energy polymerization effect of thermotherapy and concentrator, and the heat is more even, thereby effectively improves physiotherapy effect. The aluminum foil and the heating wire are arranged in positions, the aluminum foil is arranged in an arc-shaped paving manner, and the heating wire is arranged in a winding manner, so that the uniform distribution of heat is effectively improved. The straightway is arranged along the axial direction, so that the heating wire is bent as little as possible, the end part is fixed by utilizing the bonding piece, the durability of the heating wire is improved, the aluminum foil and the heating wire are better attached to the inner ring piece, the heat transmission is facilitated, and the position of the joint is convenient for wiring layout. The main control circuit board can be subjected to heat insulation protection through the heat insulation cotton, so that the running stability of the circuit and the equipment is improved, and the power supply element is prevented from being accelerated and aged at high temperature for a long time.

Furthermore, through setting up the wire casing on first splint, the wire casing is used for the mode heater, and be used for the plate between first splint and the second splint, and utilize two splint to carry out the centre gripping to it and fix, the centre gripping overturns after finishing, then conveniently place the adhesive member from the handle hole, can carry out the rigidity to the heater through the adhesive member steadily, cover the aluminium foil piece on the heater at last, and also cover on the plate, thereby assembly fixture can realize more simple high-efficient stable assembly, be favorable to improving the yields of product. The second clamping plate can be stably fixed through the limiting block, and the position can be finely adjusted or fastened through the adjusting screw. Through the fretwork of operation groove, can conveniently cover to close, separate and the upset to the second splint. The line of walking to the heater through the wire casing carries on spacing fixedly, arranges through the position of aluminium foil and heater to and the heater is the setting of wriggling form, effectively improves thermal evenly distributed.

Claims (10)

1. A physiotherapy cabin with uniformly distributed heat comprises a cabin body, wherein the cabin body is arranged in an arc shape, the cabin body encloses a physiotherapy cavity, an opening is formed in the radial side of the cabin body, and the opening is communicated with the physiotherapy cavity;

the method is characterized in that:

a heating device and an energy gathering assembly are arranged in the cabin body, the energy gathering assembly comprises a plurality of energy gathering devices, the plurality of energy gathering devices are distributed along the circumferential direction, and the plurality of energy gathering devices are arranged towards the physiotherapy cavity;

the heating device is positioned at the inner side of the energy gathering component and used for outputting heat to the physiotherapy cavity, the heating device comprises an aluminum foil sheet and heating wires, the aluminum foil sheet extends in an arc shape, and the heating wires are uniformly arranged on the aluminum foil sheet.

2. The physiotherapy cabin of claim 1, wherein:

the cabin body comprises an outer ring piece and an inner ring piece, the inner ring piece is positioned on the inner side of the outer ring piece, the inner ring piece and the outer ring piece enclose a device placing cavity, and the heating device and the energy collecting assembly are placed in the device placing cavity;

the heating device is arranged on the inner wall of the inner ring piece, and the energy gathering assembly is arranged on the inner wall of the outer ring piece.

3. The physiotherapy cabin of claim 2, wherein:

the inner ring piece is arranged in an arc-shaped extending mode, and the aluminum foil piece is attached to the inner wall of the inner ring piece.

4. The physiotherapy cabin of claim 3, wherein:

the heating wire is positioned between the aluminum foil and the inner ring piece.

5. The physiotherapy cabin of claim 4, wherein:

the aluminum foil is arranged in an arc extending manner.

6. The physiotherapy cabin of claim 5, wherein:

the heating wire extends in a winding shape.

7. The physiotherapy cabin of claim 6, wherein:

the heating wire comprises a plurality of straight line sections and a plurality of bent sections, one bent section is connected between two straight line sections, two end parts of one straight line section are respectively provided with a bonding piece, and the heating wire is fixed on the aluminum foil by the bonding pieces.

8. The physiotherapy cabin of claim 7, wherein:

the straight line sections are arranged along the axial direction of the cabin body, and the straight line sections are arranged side by side along the circumferential direction.

9. The physiotherapy cabin of claim 8, wherein:

and two joints of the heating wire are positioned at the same edge of the aluminum foil.

10. The physiotherapy cabin of any one of claims 1 to 9, wherein:

the cabin body is provided with a main control circuit board, and heat insulation cotton is arranged between the main control circuit board and the heating device.

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