CN210871228U - Constant temperature intelligence bathing device based on carbon fiber - Google Patents
Constant temperature intelligence bathing device based on carbon fiber Download PDFInfo
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- CN210871228U CN210871228U CN201921586375.5U CN201921586375U CN210871228U CN 210871228 U CN210871228 U CN 210871228U CN 201921586375 U CN201921586375 U CN 201921586375U CN 210871228 U CN210871228 U CN 210871228U
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Abstract
The utility model provides a constant temperature intelligence bathing device based on carbon fiber, bathing device's main part adopts bathtub formula structure, mainly includes: a bathing mechanism, a heating mechanism and a control mechanism; the bath mechanism comprises a bath tub body, wherein the bath tub body is provided with a bath tub back cushion, a handrail, a water inlet, an overflow hole and a water outlet; the control mechanism comprises a temperature sensor, a temperature control panel and an intelligent temperature controller, and the intelligent temperature controller is in signal connection with the temperature sensor and the temperature control panel; the heating mechanism comprises a carbon fiber heating wire and a heat insulation plate; the carbon fiber heating wire is arranged in a clamping groove formed in the outer wall of the bathtub body in a winding mode, the heat insulation plate is arranged on the periphery of the carbon fiber heating wire, and the outer layer of the heat insulation plate is provided with a bathtub shell. The utility model discloses mainly used domestic bathing has overcome in the past constant temperature bath apparatus heat conversion efficiency low, and the heating is slow, and defects such as heating range is inhomogeneous can also produce the health care effect to the human body through the far infrared.
Description
Technical Field
The utility model relates to a bathing equipment field especially relates to a constant temperature intelligence bathing device based on carbon fiber.
Background
With the improvement of the life quality of people, the requirements of people on the life quality are higher and higher. Through busy day, people always can alleviate the fatigue of a day through bathing, and the constant temperature bathtub takes place. At present, products appearing on the market are heated and kept at constant temperature through two main machines on the bottom surface. The main machine at the bottom of the barrel transmits short-range magnetic waves to penetrate through the bottom of the barrel, and the short-range magnetic waves are reflected by a stainless steel sheet below a hip bath stool in the barrel to form resonance to generate heat, and the short-range magnetic wave heating device belongs to space heating and is also called pulse heating. Although the existing constant-temperature bath tub can be added with water according to the self requirement to set the temperature, the power of the two main machines is overlarge, and a high-power socket is needed; moreover, the existing product can only heat the warm water in the barrel for a short time, is not suitable for large-scale cold water heating, and has low heat conversion efficiency.
Therefore, in view of the above, there is a need to provide a new bathing device to solve the deficiencies of the prior art.
SUMMERY OF THE UTILITY MODEL
According to the technical problem provided by the invention, the constant-temperature intelligent bathing device based on the carbon fiber is provided. The utility model mainly utilizes the carbon fiber heating wire to heat, which not only improves the heat conversion efficiency, but also can uniformly heat cold water or cold and hot mixed water; the heating nonuniformity of similar products on the market is improved, and the heating speed is increased. And after the carbon fiber generates heat and generates far infrared rays which are absorbed by a human body, the carbon fiber can enhance the activity of cells and promote metabolism, and has good health-care and treatment effects on rheumatism and scapulohumeral periarthritis. The utility model discloses a technical means as follows:
the utility model provides a constant temperature intelligence bathing device based on carbon fiber, bathing device's main part adopts bathtub formula structure, mainly includes: a bathing mechanism, a heating mechanism and a control mechanism;
the bath mechanism comprises a bathtub body, a bathtub headrest is arranged at the upper end part of the bathtub body, and armrests are symmetrically arranged on the side walls of the two sides of the bathtub body in the direction close to the bathtub headrest; the upper end surface of the middle part of the bathtub body is provided with a water inlet used for injecting warm water into the bathtub body; an overflow hole is arranged below the water inlet and on the side wall of the bathtub body and used for overflowing excessive water when the water level in the bathtub reaches a set height; the bottom of the bathtub body is provided with a water outlet used for discharging water in the bathtub body after bathing is finished;
the control mechanism comprises a temperature sensor, a temperature control panel and an intelligent temperature controller; the temperature sensor is arranged at the bottom of the bathtub body and used for monitoring the temperature of water in the bathtub body; the temperature control panel is arranged at the upper end part of the bathtub body, is close to the bathtub headrest, and is used for setting the temperature of bath water, namely the temperature of a constant-temperature bathtub; the intelligent temperature controller is arranged on the outer wall of the bathtub body, is in signal connection with the temperature sensor and the temperature control panel and is used for processing information transmitted by the temperature sensor and the temperature control panel;
the heating mechanism comprises a carbon fiber heating wire and a heat insulation plate; the carbon fiber heating wire is arranged in a clamping groove formed in the inner part of the outer wall of the bathtub body in a winding mode and is in signal connection with the intelligent temperature controller; the heat insulation plate is arranged at the periphery of the carbon fiber heating wire and used for insulating the heat of the carbon fiber heating wire and reducing the heat loss of the heating wire to the outside of the bathtub body; the outer layer of heat insulating board is equipped with the bathtub shell for heat insulating board and heating wire encapsulation inside, improve the safety in utilization of bathtub.
Furthermore, the number of the overflow holes is at least 3, and the overflow holes are arranged side by side in the horizontal direction.
Furthermore, the same number of overflow holes are symmetrically arranged on the side walls of the two sides of the bathtub body.
Further, the carbon fiber heating wire is arranged at the bottom of the bathtub body or arranged on the outer wall and the bottom of the bathtub body.
Furthermore, the main body of the bathing device adopts a bath barrel type structure.
Further, the temperature sensor is provided with at least 1.
Further, the carbon fiber material of the carbon fiber heating wire is replaced by graphene material.
Compared with the prior art, the utility model has the advantages of it is following:
1. the utility model discloses a constant temperature intelligence bathing device based on carbon fiber, the domestic bathing of mainly used has overcome constant temperature bathing device heat conversion efficiency in the past and has hanged down, and the heating is slow, and shortcoming such as heating range is inhomogeneous can also produce the health care effect to the human body through the far infrared.
2. The carbon fiber-based constant-temperature intelligent bathing device has the advantages that the adopted carbon fiber heating wire has quick temperature rise, high electrothermal conversion efficiency, high temperature resistance, oxidation resistance and long service life; the carbon fiber heating wire has strong penetrability and can efficiently transfer heat in a heat radiation mode.
3. The constant-temperature intelligent bathing device based on the carbon fiber of the utility model has the advantages that the bathtub surrounded by the carbon fiber can uniformly heat; the carbon fiber heating wire has strong toughness, is not easy to break and is easy to install and arrange; the carbon fiber heating wire needs less power, and the household voltage can meet the requirement.
4. The carbon fiber-based constant-temperature intelligent bathing device has the advantages that the heat insulation plate is arranged outside the bathtub, so that the heat loss can be effectively reduced; far infrared rays generated by the heat of the carbon fibers have good treatment and health care effects on rheumatism and scapulohumeral periarthritis; the broken carbon fiber heating wire does not start arcing, and fire can be effectively avoided.
Based on the reason, the utility model discloses can extensively promote in fields such as bathing equipment.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a front view of the present invention.
Fig. 3 is a top view of the present invention.
Fig. 4 is a left side view of the present invention.
Fig. 5 is a schematic structural view of the outer wall of the bathtub body of the present invention.
Fig. 6 is a schematic diagram of the length of the carbon fiber heating wire of the ring-shaped bathtub of the present invention.
In the figure: 1. a bathtub body; 2. a temperature control panel; 3. a water inlet hole; 4. an overflow hole; 5. a carbon fiber heating wire; 6. a handrail; 7. a bathtub headrest; 8. a water outlet; 9. a temperature sensor; 10. an intelligent temperature controller; 11. a heat insulation plate; 12. a bathtub shell; 13. a bathtub surface; 14. a clamping groove.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
As shown in fig. 1-6, the utility model provides a constant temperature intelligence bathing device based on carbon fiber, bathing device's main part adopts bathtub formula structure, mainly includes: a bathing mechanism, a heating mechanism and a control mechanism;
the bath mechanism comprises a bath body 1, a bath headrest 7 is arranged at the upper end part of the bath body 1, and armrests 6 are symmetrically arranged on the side walls of the two sides of the bath body 1 in the direction close to the bath headrest 7; the upper end surface of the middle part of the bathtub body 1 is provided with a water inlet 3 for injecting warm water into the bathtub body 1; an overflow hole 4 is arranged below the water inlet 3 and on the side wall of the bathtub body 1 and used for overflowing excessive water when the water level in the bathtub reaches a set height; the bottom of the bathtub body 1 is provided with a water outlet 8 for discharging water in the bathtub body 1 after bathing;
the control mechanism comprises a temperature sensor 9, a temperature control panel 2 and an intelligent temperature controller 10; the temperature sensor 9 is arranged at the bottom of the bathtub body 1 and used for monitoring the temperature of water in the bathtub body 1; the temperature control panel 2 is arranged at the upper end part of the bathtub body 1, is close to the bathtub headrest 7, and is used for setting the temperature of bath water, namely the temperature of a constant temperature bathtub; the intelligent temperature controller 10 is arranged on the outer wall of the bathtub body 1, is in signal connection with the temperature sensor 9 and the temperature control panel 2, and is used for processing information transmitted by the temperature sensor 9 and the temperature control panel 2;
the heating mechanism comprises a carbon fiber heating wire 5 and a heat insulation plate 11; the carbon fiber heating wire 5 is arranged in a clamping groove 14 formed in the circumferential direction of the outer wall of the bathtub body 1 in a winding manner, and the carbon fiber heating wire 5 is in signal connection with the intelligent temperature controller 10; the heat insulation plate 11 is arranged at the periphery of the carbon fiber heating wire 5 and used for insulating the heat of the carbon fiber heating wire 5 and reducing the heat loss of the heating wire to the outside of the bathtub body 1; the outer layer of the heat insulation plate 11 is provided with a bathtub shell 12 used for encapsulating the heat insulation plate 11 and the heating wire inside, so that the use safety of the bathtub is improved.
The number of the overflow holes 4 is at least 3, and the overflow holes are arranged side by side in the horizontal direction.
The same number of overflow holes 4 are symmetrically arranged on the side walls of the two sides of the bathtub body 1.
The carbon fiber heating wire 5 is arranged at the bottom of the bathtub body 1 or the carbon fiber heating wire 5 is arranged on the outer wall and the bottom of the bathtub body 1.
The main body of the bathing device adopts a bath barrel type structure.
The number of the temperature sensors 9 is at least 1.
The carbon fiber material of the carbon fiber heating wire 5 is replaced by graphene material.
Example 1
In this embodiment, the bathing device is in the form of a bathtub and comprises a bathtub body 1. As shown in fig. 3, a bathtub headrest 7 is arranged at the left end of the upper part of the bathtub body 1, armrests 6 are symmetrically arranged on the side walls of the two sides of the bathtub body 1 near the bathtub headrest 7, a water inlet 3 is arranged on the upper end surface of the middle part of the front side of the bathtub body 1, 3 overflow holes 4 are arranged on the side wall of the bathtub body 1 below the water inlet 3, and the 3 overflow holes 4 are arranged side by side in the horizontal direction and used for overflowing redundant water when the water level in the bathtub reaches a set height. The right side of the bottom of the bathtub body 1 is provided with a water outlet 8 for discharging water in the bathtub body 1 after bathing.
A temperature sensor 9 is arranged at the right side of the water outlet 8 and is arranged at the bottom of the bathtub body 1 for monitoring the temperature of the water in the bathtub body 1, and the model of the temperature sensor 9 is MF 53. A temperature control panel 2 is arranged at the upper end part of the bathtub body 1 close to the headrest 7 of the bathtub and is used for setting the temperature of bath water, namely the temperature of the constant temperature bathtub. As shown in fig. 4, the intelligent temperature controller 10 is arranged at the left end of the outer wall of the bathtub body 1 and is located below the headrest 7 of the bathtub, the model of the intelligent temperature controller 10 is E5CC-RX2ASM-800, the intelligent temperature controller 10 is stable in performance, visual touch screen operation is more convenient and faster, the algorithm is advanced, and the intelligent temperature controller can be perfectly attached to the functions of the constant temperature bathtub. The intelligent temperature controller 10 is in signal connection with the temperature sensor 9 and the temperature control panel 2 and is used for processing information transmitted by the temperature sensor 9 and the temperature control panel 2.
As shown in FIG. 5, the outer wall of the tub body 1 has three layers, namely, a tub surface 13, an insulating panel 11, and a tub cover 12. A plurality of circles of clamping grooves 14 are formed in the circumferential direction of the outer wall of the bathtub body 1, the clamping grooves 14 are located between the bathtub surface 13 and the heat insulation plate 11, the distance between the clamping grooves 14 is set according to the power calculation result, and the carbon fiber heating wire 5 is clamped in the clamping grooves 14 in a winding mode during installation. The carbon fiber heating wire 5 has good toughness, the carbon fiber heating wire 5 is in signal connection with the intelligent temperature controller 10, and the fiber heating wire is connected with the electric wire through the copper pipe and is connected to the household switch. The heat insulation plate 11 is arranged on the periphery of the carbon fiber heating wire 5, so that the heat of the carbon fiber heating wire 5 is isolated from the outside, and the heat loss of the heating wire to the outside of the bathtub body 1 is reduced. The outer layer of the heat insulation plate 11 is provided with the bathtub shell 12, and the heat insulation plate 11, the heating wire and some electric control devices are packaged inside the outer wall of the bathtub body 1 by the bathtub shell 12, so that the use safety of the bathtub is improved.
The above power calculation satisfies the following formula:
P=φ1+φ2;
φ1=K·F·ΔT;
wherein P is total power (W) of the carbon fiber heating wire, phi1Is the heat loss (W) between the water surface and the air2The power (W) required for heating water at 35 ℃ to 45 ℃, K is the comprehensive heat exchange coefficient of water vapor and air, and F is the area (m) of the water surface2) DeltaT is the temperature difference (DEG C), c is the specific heat capacity (J/(kg DEG C)) of water, T is the heating time(s), and m is the mass (kg) of water.
And (3) calculating:
the value of the comprehensive heat exchange coefficient K of the vapor and the air is 10, the length of the bathtub is 1.5m, the width of the bathtub is 0.54m, the height of the water in the bathtub is 0.6m, and the value of the area F of the water surface is 1.5 × 0.54.54 which is 0.81m2The temperature difference delta T is 45-35 ℃ to 10 ℃, the specific heat capacity c of the water is 4200J/(kg DEG C), the heating time T is 3600s, and the density of the water is 1000kg/m3The volume of water is 1.5 × 0.54 × 0.6.6-0.486 m3Therefore, the mass m of water is 486 kg.
The heat loss phi between the water surface and the air1Is composed of
φ1=K·F·ΔT=10×0.81×10=81W;
The power phi required for heating water at 35 ℃ to 45 DEG C2Comprises the following steps:
the total power P of the carbon fiber heating wire 5 is thus:
P=φ1+φ2=81+5670=5751W。
since there is heat loss in other structures such as the water surface and the wall surface of the bathtub, P is 5800W to compensate for other losses.
The specification of the carbon fiber heating wire 5 is as follows: the model is 24K, the product resistance is 33.0 omega/m, the encapsulation diameter is 2.2mm, and the qualitative parameter is 24000 conductors. The length of each carbon fiber heating wire 5 is 6.5m, and the power of a single carbon fiber heating wire 5 is 280W.
The number n of the carbon fiber heating wires 5 is:
the total length of the carbon fiber heating wire 5 is:
21×6.5=136.5m;
calculating the length of the carbon fiber heating wire 5 of one circle of the bathtub, as shown in fig. 6, the bathtub can be equivalent to an isosceles trapezoid, the height H of the isosceles trapezoid is 70cm, the length L of the bottom side is 160cm, and the included angle theta between the bottom side and the oblique side is 110 degrees.
The length of the middle carbon fiber heating wire 5 is taken as an average value to calculate:
the total length of the carbon fiber heating wire 5 wound around the bathtub is as follows:
1.72×2+0.7×2=4.84m;
the total number of turns is:
the pitch of the carbon fiber heating wires 5 thus obtained is:
the height of the bathtub is 70cm, the upper part is 10cm, the lower part is 10cm, and the blank area is not wound by the carbon fiber heating wire 5, so the distance between the carbon fiber heating wires 5 is 1.8 cm.
Example 2
In this embodiment, overflow holes 4 having the same number are symmetrically provided on both side walls of the bathtub body 1, wherein 5 overflow holes 4 are provided, and are arranged side by side in the horizontal direction.
Example 3
In this embodiment, the clamping grooves 14 are formed in the circumferential direction of the outer wall of the bathtub body 1 and at the bottom of the bathtub body 1, the distance between the clamping grooves 14 is set according to the power calculation result, and the carbon fiber heating wire 5 is placed in the clamping grooves 14.
Example 4
In this embodiment, the clamping groove 14 is only formed at the bottom of the bathtub body 1, and the carbon fiber heating wire 5 is only arranged at the clamping groove 14 at the bottom of the bathtub body 1.
Example 5
In the embodiment, the bathtub is used as the main body of the bathing device, the shape and the size of the bathtub can be changed, and due to the physical characteristics of the carbon fiber heating wire 5, the bathtub can be replaced into a bathtub and other shapes, namely, the bathtub is used as the main body of the bathing device, and the design requirement can be met by correspondingly changing the arrangement mode of the carbon fiber heating wire 5.
Example 6
In this embodiment, temperature sensor 9 is equipped with 2, and temperature sensor 9's the position of placing can change as required, can set up the left and right sides in bathtub body 1 bottom respectively, and it is more accurate to use 2 temperature sensor 9 temperature measurements. The same applies to the tub.
Example 7
In this embodiment, the carbon fiber material of the carbon fiber heating wire 5 is replaced by the graphene material, so that the same heating effect can be achieved.
As shown in fig. 1, warm water is injected into the inside of the tub body 1 through the water inlet 3, and when the amount of injected water reaches a designated level, the water starts overflowing while automatically closing the water inlet 3. After the water adding process is finished, the target heating temperature is set through the temperature control panel 2 at the end part of the bathtub, and scientific research shows that the optimum bathing temperature of the human body is 40 ℃, so that the target heating temperature is set to be 40 ℃. As shown in fig. 3, a temperature sensor 9 is placed in the bathtub to monitor the change of the water temperature at any time, and an intelligent temperature controller 10 controls the working power of the carbon fiber heating wire 5 according to the real-time data of the temperature sensor 9. When the measured water temperature does not reach the set temperature, the carbon fiber heating wire 5 is in a heating state; when the measured water temperature reaches the set temperature, the heat preservation mode is started to realize the real constant temperature effect; after bathing is finished, the switch of the water outlet 8 is manually opened to discharge water in the bathtub, and meanwhile, the intelligent temperature controller 10 automatically breaks off short circuit.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.
Claims (7)
1. The utility model provides a constant temperature intelligence bathing device based on carbon fiber which characterized in that, bathing device's main part adopts bathtub formula structure, mainly includes: a bathing mechanism, a heating mechanism and a control mechanism;
the bath mechanism comprises a bathtub body (1), a bathtub headrest (7) is arranged at the upper end part of the bathtub body (1), and armrests (6) are symmetrically arranged on the side walls of the two sides of the bathtub body (1) in the direction close to the bathtub headrest (7); the upper end surface of the middle part of the bathtub body (1) is provided with a water inlet (3) for injecting warm water into the bathtub body (1); an overflow hole (4) is arranged below the water inlet (3) and on the side wall of the bathtub body (1) and used for overflowing excessive water when the water level in the bathtub reaches a set height; the bottom of the bathtub body (1) is provided with a water outlet (8) for discharging water in the bathtub body (1) after bathing is finished;
the control mechanism comprises a temperature sensor (9), a temperature control panel (2) and an intelligent temperature controller (10); the temperature sensor (9) is arranged at the bottom of the bathtub body (1) and is used for monitoring the temperature of water in the bathtub body (1); the temperature control panel (2) is arranged at the upper end part of the bathtub body (1), is close to the bathtub headrest (7) and is used for setting the temperature of bath water; the intelligent temperature controller (10) is arranged on the outer wall of the bathtub body (1) and is in signal connection with the temperature sensor (9) and the temperature control panel (2);
the heating mechanism comprises a carbon fiber heating wire (5) and a heat insulation plate (11); the carbon fiber heating wire (5) is arranged in a clamping groove (14) formed in the inner part of the outer wall of the bathtub body (1) in a winding mode, and the carbon fiber heating wire (5) is connected with the intelligent temperature controller (10) through a lead; the heat insulation plate (11) is arranged on the periphery of the carbon fiber heating wire (5) and used for insulating the heat of the carbon fiber heating wire (5) and reducing the heat loss of the heating wire to the outside of the bathtub body (1); the outer layer of the heat insulation plate (11) is provided with a bathtub shell (12) used for packaging the heat insulation plate (11) and the heating wire inside.
2. The carbon fiber-based constant-temperature intelligent bathing device as claimed in claim 1, wherein at least 3 overflow holes (4) are provided, and are arranged side by side in the horizontal direction.
3. The carbon fiber-based constant-temperature intelligent bathing device according to claim 1 or 2, wherein the same number of overflow holes (4) are symmetrically arranged on both side walls of the bathtub body (1).
4. Carbon fiber based thermostatic intelligent bathing arrangement according to claim 1, wherein the carbon fiber heating wire (5) is arranged at the bottom of the bathtub body (1) or the carbon fiber heating wire (5) is arranged at both the outer wall and the bottom of the bathtub body (1).
5. The carbon fiber-based constant-temperature intelligent bathing device of claim 1 wherein the bathing device body is of a tub-type structure.
6. Carbon fiber based constant temperature intelligent bathing apparatus according to claim 1, wherein there is at least 1 temperature sensor (9).
7. The carbon fiber-based constant-temperature intelligent bathing device according to claim 1, wherein the carbon fiber material of the carbon fiber heating wire (5) is replaced with graphene material.
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CN112869603A (en) * | 2021-01-11 | 2021-06-01 | 威海蕴富贸易有限公司 | Turnover type bathtub |
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CN112869603A (en) * | 2021-01-11 | 2021-06-01 | 威海蕴富贸易有限公司 | Turnover type bathtub |
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Effective date of registration: 20221215 Address after: 116000 floor 2-6 (Room 203, floor 2), No. 6, Honggang Road, Ganjingzi District, Dalian City, Liaoning Province Patentee after: Dalian duodian Thermal Control Engineering Co.,Ltd. Address before: 116028 No. 794, the Yellow River Road, Shahekou District, Liaoning, Dalian Patentee before: Dalian Jiaotong University |