阅读说明：本技术 用于洗浴装置的储热体用保温介质及储热体及洗浴装置 (Heat preservation medium for heat storage body of bathing device, heat storage body and bathing device ) 是由 林�智 于 2020-06-11 设计创作，主要内容包括：本发明提供了一种用于洗浴装置的储热体用保温介质,包括水,所述水中加入木质纤维素、棕榈蜡、硬脂酸甘油酯、水性抗氧剂。本发明还提供了一种储热体及其洗浴装置。(The invention provides a heat preservation medium for a heat storage body of a bathing device, which comprises water, wherein lignocellulose, palm wax, glyceryl stearate and a water-based antioxidant are added into the water. The invention also provides the heat storage body and a bathing device thereof.)

1. The heat preservation medium for the heat storage body of the bathing device is characterized by comprising water, wherein lignocellulose, palm wax, glyceryl stearate and a water-based antioxidant are added into the water.

2. The thermal insulation medium for heat storage bodies according to claim 1, wherein the palm wax is a palm wax emulsion; and/or adding the glyceryl stearate into the water after stirring, shaking and dispersing by using hot water; and/or the water-based antioxidant is antioxidant 2450 DW; and/or, further comprising calcium sulfate; and/or, further comprising a thickener 2016205602806 comprising hydroxyethyl cellulose; and/or, further comprising a coupling agent; and/or, further comprising silicon carbide; and/or, further comprising a filler of iron sesquioxide; and/or the manufacturing process of the heat preservation medium comprises the following steps: dissolving the lignocellulose in water, adding the palm wax and the glyceryl stearate, and then adding the calcium sulfate and the water-based antioxidant; then adding hydroxyethyl cellulose for thickening, then adding silicon carbide and ferric oxide filler, finally adding a coupling agent, and mixing and stirring uniformly.

3. The heat preservation medium for the heat storage body of the bathing device is characterized by comprising 60-85% of water, 10-25% of lignocellulose, 2-8% of palm wax, less than 1% of glyceryl stearate and less than 1% of water-based antioxidant by mass, wherein the sum of the mass percentages of the water, the lignocellulose, the palm wax, the glyceryl stearate and the water-based antioxidant is less than 1;

alternatively, the first and second electrodes may be,

according to the mass percentage, the oil-water composite material comprises 70-80% of water, 15-18% of lignocellulose, 3-6% of palm wax, less than 0.5% of glyceryl stearate and less than 0.3% of water-based antioxidant, wherein the sum of the mass percentages of the water, the lignocellulose, the palm wax, the glyceryl stearate and the water-based antioxidant is less than 1; alternatively, the first and second electrodes may be,

the anti-oxidation agent comprises, by mass, 74.2 +/-3% of water, 16.1 +/-1% of lignocellulose, 4.2 +/-0.5% of palm wax, 0.3 +/-0.1% of glyceryl stearate and 0.1 +/-0.05% of a water-based antioxidant, wherein the sum of the mass percentages of the water, the lignocellulose, the palm wax, the glyceryl stearate and the water-based antioxidant is less than 1.

4. The thermal insulation medium for heat storage bodies according to claim 3, wherein the palm wax is a palm wax emulsion; and/or, further comprising less than 3% calcium sulfate; and/or, further comprising less than 3% of a thickening agent; and/or, the thickener comprises hydroxyethyl cellulose; and/or, further comprising less than 1% of a coupling agent; and/or the coupling agent is a silane coupling agent KH 550; and/or, further comprising less than 3% silicon carbide; and/or, further comprising less than 5% ferric oxide filler; and/or the antioxidant is antioxidant 264; and/or the manufacturing process of the heat preservation medium comprises the following steps: dissolving the lignocellulose in water, adding the palm wax and the glyceryl stearate, and then adding the calcium sulfate and the water-based antioxidant; then adding hydroxyethyl cellulose for thickening, then adding silicon carbide and ferric oxide filler, finally adding a coupling agent, and mixing and stirring uniformly.

5. The thermal insulation medium for heat storage bodies according to claim 3, wherein the palm wax is a palm wax emulsion; and/or, also comprises 0.5-2% of calcium sulfate; and/or, also comprises 0.5-2% of thickening agent; and/or, further comprising 0.5% or less of a coupling agent; and/or, further comprising 0.5-2% silicon carbide; and/or, also comprises 1-3% of ferric oxide filler.

6. The thermal insulation medium for heat storage bodies according to claim 3, wherein the palm wax is a palm wax emulsion; and/or, also comprises 1.1 plus or minus 0.2 percent of calcium sulfate; and/or, further comprising 1 plus or minus 0.2% of thickening agent; and/or, further comprising 0.2 plus or minus 0.05% of a coupling agent; and/or, further comprising 1 ± 0.2% of silicon carbide; and/or, also comprises 1.8 +/-0.3 percent of ferric oxide filler.

7. A heat storage body for a bathing device, which is characterized in that the heat storage body comprises a heat preservation bag, wherein a heat preservation medium is filled in the heat preservation bag, and the heat preservation medium adopts the heat preservation medium for the heat storage body as claimed in any one of claims 1 to 6.

8. The heat storage body according to claim 7, wherein the thermal bag is a microwave heatable thermal bag; and/or the heat storage body comprises an anti-scald shell, the heat-preservation bag is arranged in the anti-scald shell, and the anti-scald shell is provided with a plurality of through holes so as to facilitate the contact of water and the heat storage body main body; and/or the anti-scald shell comprises an upper shell and a lower shell which are detachably connected, an accommodating space is arranged between the upper shell and the lower shell, and the heat storage body main body is arranged in the accommodating space; and/or the upper shell and the lower shell are connected by a buckle, one of the upper shell and the lower shell is provided with a hole groove structure, and the other one is provided with a clamping part clamped in the hole groove structure; and/or the shell is a plastic shell; and/or the shell is a plastic shell made of PP material; and/or a clamping protrusion used for being clamped on a bathing device is arranged on the side part of the heat storage body, and the clamping protrusion is in clamping fit with the clamping groove after the heat storage body is installed in the installation groove; and/or the clamping protrusion is elastic, and the outer surface of the clamping protrusion is an arc surface, a spherical surface or a conical surface; and/or, the card protruding with the heat accumulation body is split type structure, heat accumulation body lateral part is equipped with the holding the protruding storage tank of card, be equipped with the perforation in the storage tank, protruding one side integral type of card is formed with the connecting portion that have card portion, connecting portion pass the perforation is blocked through card portion on the heat accumulation body.

9. The bathing device with the heat preservation function comprises a main body, wherein the main body is provided with a bottom part and a side part connected with the bottom part, and a bathing space for bathing is defined between the bottom part and the side part.

10. An ablutionary installation according to claim 9 wherein, the heat storage body and the main body are snap fit or plug fit or magnetic attraction fit; and/or the main body is provided with a mounting groove, the heat storage body is detachably mounted in the mounting groove, and a holding part is arranged on the heat storage body so as to be beneficial to taking the heat storage body down from the mounting groove; and/or a clamping groove is formed in the side wall of the mounting groove, a clamping protrusion is arranged on the side part of the heat storage body, and the clamping protrusion is in clamping fit with the clamping groove after the heat storage body is mounted in the mounting groove; and/or the clamping protrusion is elastic, and the outer surface of the clamping protrusion is an arc surface, a spherical surface or a conical surface; and/or the clamping protrusion and the heat storage body are of a split structure, the side part of the heat storage body is provided with a containing groove for containing the clamping protrusion, a through hole is arranged in the containing groove, one side of the clamping protrusion is integrally formed with a connecting part with a clamping part, and the connecting part penetrates through the through hole and is clamped on the heat storage body through the clamping part; and/or the heat storage body comprises a heat storage body main body and an anti-scalding shell for accommodating the heat storage body main body, and the anti-scalding shell is provided with a plurality of through holes so as to be beneficial to the contact of water and the heat storage body main body; and/or the anti-scald shell comprises an upper shell and a lower shell which are detachably connected, an accommodating space is arranged between the upper shell and the lower shell, and the heat storage body main body is arranged in the accommodating space; and/or the upper shell and the lower shell are connected by a buckle, one of the upper shell and the lower shell is provided with a hole groove structure, and the other one is provided with a clamping part clamped in the hole groove structure; and/or the heat storage body comprises a heat storage body main body, and the heat storage body main body comprises a heat preservation bag and a heat preservation medium filled in the heat preservation bag; and/or the heat preservation bag is a heat preservation bag which can be heated by a microwave oven.

Technical Field

The invention relates to a heat preservation medium for a heat storage body of a bathing device, the heat storage body and the bathing device.

Background

The bath is a common bath mode, not only has the sanitary function of cleaning the body, but also has the health-care effects of eliminating fatigue, relaxing muscles and tendons, promoting blood circulation and enhancing the metabolism.

The existing bathing devices (bath barrel and bathtub) provide some solutions for solving the problem of too fast water temperature drop.

For example, chinese patent publication No. CN210383717U discloses a press folding type dual-side supporting child sitting and lying bath tub, which is characterized in that a heat insulation cover is sleeved on an upper opening of a tub body for heat insulation to prevent the water temperature from dropping too fast; for another example, chinese patent No. CN207980002U discloses a bath tub, which is insulated by a double-layer cotton clip for heat insulation in the tub. However, the above structure has high cost or unsatisfactory heat preservation effect.

In addition, the structure that the electric heating component is arranged in the barrel has high requirement on waterproofness, and particularly, when the using object is an infant, the safety hidden danger exists.

Disclosure of Invention

The invention aims to provide a heat preservation medium for a heat storage body of a bathing device.

Another object of the present invention is to provide a heat storage body.

Another object of the present invention is to provide a bathing apparatus.

In order to achieve the purpose, the invention adopts the following technical scheme:

the heat preservation medium for the heat storage body of the bathing device comprises water, wherein lignocellulose, palm wax, glyceryl stearate and a water-based antioxidant are added into the water.

Preferably, the palm wax is a palm wax emulsion.

Preferably, the glyceryl stearate is added to the water after being stirred, shaken and dispersed with hot water.

Preferably, the water-based antioxidant is antioxidant 2450 DW.

Preferably, calcium sulfate is also included.

Preferably, a thickener is also included.

Preferably, the thickener comprises hydroxyethyl cellulose.

Preferably, a coupling agent is also included.

Preferably, silicon carbide is also included.

Preferably, a filler of ferric oxide is also included.

Preferably, the manufacturing process of the heat preservation medium comprises the following steps: dissolving the lignocellulose in water, adding the palm wax and the glyceryl stearate, and then adding the calcium sulfate and the water-based antioxidant; then adding hydroxyethyl cellulose for thickening, then adding silicon carbide and ferric oxide filler, finally adding a coupling agent, and mixing and stirring uniformly.

Preferably, the oil-water composite material comprises, by mass, 70-80% of water, 15-18% of lignocellulose, 3-6% of palm wax, less than 0.5% of glyceryl stearate and less than 0.3% of aqueous antioxidant, wherein the sum of the mass percentages of the water, the lignocellulose, the palm wax, the glyceryl stearate and the aqueous antioxidant is less than 1.

Preferably, the palm wax is a palm wax emulsion.

Preferably, the calcium sulfate is also contained by 0.5-2%.

Preferably, the water-soluble polyurethane also comprises 0.5-2% of thickening agent.

Preferably, the adhesive further comprises less than 0.5% of a coupling agent.

Preferably, the silicon carbide also comprises 0.5-2%.

Preferably, the iron oxide composite also comprises 1-3% of ferric oxide filler.

Preferably, the anti-oxidation agent comprises 70-78% of water, 15.5-17% of lignocellulose, 3.5-5% of palm wax, 0.2-0.4% of glyceryl stearate and less than 0.2% of aqueous anti-oxidation agent by mass percent, and the sum of the mass percent of the water, the lignocellulose, the palm wax, the glyceryl stearate and the aqueous anti-oxidation agent is less than 1.

Preferably, the palm wax is a palm wax emulsion.

Preferably, the calcium sulfate also comprises 0.8-1.5 percent of calcium sulfate.

Preferably, 0.8-1.5% of thickening agent is also included.

Preferably, the adhesive further comprises less than 0.3% of a coupling agent.

Preferably, the silicon carbide also comprises 0.8-1.5%.

Preferably, the iron oxide composite material also comprises 1.5-2% of ferric oxide filler.

Preferably, the anti-oxidation agent comprises, by mass percent, 74.2% of water (error range 3%), 16.1% of lignocellulose (error range 1%), 4.2% of palm wax (error range 0.5%), 0.3% of glycerol stearate (error range 0.1%), 0.1% of water-based anti-oxidation agent (error range 0.05%), and the sum of the mass percent of the water, the lignocellulose, the palm wax, the glycerol stearate and the water-based anti-oxidation agent is less than 1.

Preferably, the palm wax is a palm wax emulsion.

Preferably, the calcium sulfate content is 1.1% (error range is 0.2%).

Preferably, 1% of thickening agent is also included (error range 0.2%).

Preferably, the composition further comprises less than 0.2% of a coupling agent (error range of 0.05%).

Preferably, the silicon carbide powder also comprises 1 percent of silicon carbide (the error range is 0.2 percent).

Preferably, the iron oxide filler is further included by 1.8% (error range 0.3%).

Preferably, the manufacturing process of the heat preservation medium comprises the following steps: dissolving the lignocellulose in water, adding the palm wax and the glyceryl stearate, and then adding the calcium sulfate and the water-based antioxidant; then adding hydroxyethyl cellulose for thickening, then adding silicon carbide and ferric oxide filler, finally adding a coupling agent, and mixing and stirring uniformly.

The heat accumulation body, the heat accumulation body includes the insulated bag, the insulated bag is equipped with the heat preservation medium in the interior, the heat preservation medium adopts as above heat preservation medium for the heat accumulation body.

Preferably, the heat storage body includes heat storage body main part and holding the shell of preventing scalding of heat storage body main part, prevent scalding the shell and be equipped with a plurality of through-holes in order to do benefit to water and the contact of heat storage body main part.

Preferably, the heat-preservation bag is a heat-preservation bag capable of being heated by a microwave oven.

Preferably, prevent scalding the shell and include epitheca and inferior valve, detachable connects between epitheca and the inferior valve, be equipped with the accommodation space between epitheca and the inferior valve, heat storage body main part is arranged in the accommodation space.

Preferably, the upper shell and the lower shell are connected through a buckle, one of the upper shell and the lower shell is provided with a hole groove structure, and the other one of the upper shell and the lower shell is provided with a clamping part clamped in the hole groove structure.

Preferably, the housing is a plastic housing.

Preferably, the shell is a plastic shell made of PP.

Preferably, the upper and/or lower housing is an integrally formed housing.

Preferably, the heat storage body is provided with a clamping protrusion at a side part thereof, the clamping protrusion is clamped on the bathing device, and the heat storage body is arranged behind the mounting groove and is in clamping fit with the clamping groove.

Preferably, the clamping protrusion is an elastic clamping protrusion, and the outer surface of the clamping protrusion is an arc surface, a spherical surface or a conical surface.

Preferably, the protruding with the heat accumulation body is split type structure, heat accumulation body lateral part is equipped with the holding the protruding storage tank of card, be equipped with the perforation in the storage tank, protruding one side integral type of card is formed with the connecting portion that have card portion, connecting portion pass the perforation and through card portion card on the heat accumulation body.

The bathing device comprises a main body, wherein the main body is provided with a bottom and a side part connected with the bottom, a bathing space for bathing is defined between the bottom and the side part, a heat storage body capable of dissipating heat is detachably or removably arranged in the main body, the heated heat storage body is arranged in the main body during bathing, and the reduction speed of the water temperature in the bathing space is delayed through continuous heat dissipation of the heat storage body.

Preferably, the heat storage body is in clamping fit or plug fit or magnetic attraction fit with the main body.

Preferably, the main part is equipped with the mounting groove, heat accumulation body detachable install in the mounting groove, be equipped with the portion of gripping on the heat accumulation body so as to do benefit to with the heat accumulation body is followed the mounting groove is taken off.

Preferably, the mounting groove lateral wall is equipped with the draw-in groove, heat accumulation body lateral part is equipped with the card protrudingly, the heat accumulation body install in behind the mounting groove, the card protrudingly with draw-in groove buckle cooperation.

Preferably, the clamping protrusion is an elastic clamping protrusion, and the outer surface of the clamping protrusion is an arc surface, a spherical surface or a conical surface.

Preferably, the protruding with the heat accumulation body is split type structure, heat accumulation body lateral part is equipped with the holding the protruding storage tank of card, be equipped with the perforation in the storage tank, protruding one side integral type of card is formed with the connecting portion that have card portion, connecting portion pass the perforation and through card portion card on the heat accumulation body.

Preferably, the heat storage body includes heat storage body main part and holding the shell of preventing scalding of heat storage body main part, prevent scalding the shell and be equipped with a plurality of through-holes in order to do benefit to water and the contact of heat storage body main part.

Preferably, prevent scalding the shell and include epitheca and inferior valve, detachable connects between epitheca and the inferior valve, be equipped with the accommodation space between epitheca and the inferior valve, heat storage body main part is arranged in the accommodation space.

Preferably, the upper shell and the lower shell are connected through a buckle, one of the upper shell and the lower shell is provided with a hole groove structure, and the other one of the upper shell and the lower shell is provided with a clamping part clamped in the hole groove structure.

Preferably, the heat storage body comprises a heat storage body main body, and the heat storage body main body comprises a heat preservation bag and a heat preservation medium filled in the heat preservation bag.

Preferably, the heat-preservation bag is a heat-preservation bag capable of being heated by a microwave oven.

Advantageous effects

After the technical scheme is adopted, the heat storage body has good heat storage and heat dissipation effects by optimizing the formula of the heat preservation medium in the heat storage body; when bathing, the heated heat storage body is arranged in the main body, and the speed of reducing the water temperature in the bathing space in the main body is delayed through continuous heat dissipation of the heat storage body, so that the bathing machine is very practical and convenient.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a cross-sectional view of the structure shown in FIG. 1;

fig. 3 is a schematic structural diagram of the heat storage body.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in conjunction with the accompanying drawings, so that how to implement the embodiments of the present invention by using technical means to solve the technical problems and achieve the technical effects can be fully understood and implemented.

Certain terms are used herein to refer to particular components, and it should be understood by those skilled in the art that the present specification and claims do not distinguish between components by virtue of differences in name, but rather by virtue of differences in function of components. It should be noted that, when an element is described as being "provided with" or "disposed on" another element, it may mean that the element is directly provided or disposed on the other element or intervening elements may be present, and may be a unitary structure or a split structure, unless otherwise specified. When an element is described as being "connected" to another element, it can be directly connected or connected through intervening elements, or it can be integrally connected or separately connected. When an element is referred to as being "on" another element, it does not mean that the element is necessarily on top of or above the other element, or in other locations.

As used herein, the terms "upper", "lower", "left", "right", "top", "bottom" and the like are used with reference to a normal resting state of a product and are for convenience of description only. The term "plurality" as used herein refers to two or more numbers. The terms "vertical," "horizontal," and the like as used herein refer to a substantially vertical or substantially horizontal condition within reasonable tolerances and are not necessarily exact.

Referring to fig. 1 to 3, the bathing device with the heat preservation function of the invention mainly comprises a main body, wherein the main body is provided with a bottom part 1 and a side part 2 connected with the bottom part, a bathing space for bathing is defined between the bottom part and the side part, and the bottom part and/or the side part are/is of a foldable structure so that the main body can be folded.

Referring to fig. 1, the lateral part includes bucket along 21, first lateral wall 22, second lateral wall 23 and third lateral wall 24, the bucket along with first lateral wall rigid plastic structure as an organic whole, bottom and third lateral wall rigid plastic structure as an organic whole, the second lateral wall is for connecting the soft rubber portion between first lateral wall and the third lateral wall, the bucket is along last movably being connected with scalable or not telescopic stabilizer blade 3, the stabilizer blade is relative the bucket is along the activity makes the stabilizer blade can outwards expand in order to support the main part with folding inwards, under the fold condition, the third lateral wall is located first lateral wall inboard after upwards rolling over the second lateral wall in the corresponding extrusion, the stabilizer blade is located after folding inwards bottom below.

And a locking structure is arranged between the bucket edge and the support legs, and the bucket edge and the support legs are relatively fixed in an unfolded state by the locking structure. For example, the locking structure is a knob disposed between the bucket rim and the support leg, and the bucket rim is fixed to the support leg by tightening the knob in the unfolded state, or a toggle disposed between the bucket rim and the support leg, and the bucket rim is fixed to the support leg by toggling the knob in the unfolded state, and so on.

In other embodiments, the second side wall may be a soft rubber portion only at a connection portion with the first side wall and the third side wall, and the other portion may be a hard plastic structure.

A heat storage body 4 capable of dissipating heat is detachably or removably arranged in the main body as shown in fig. 1.

Referring to fig. 2 and 3, the heat storage body includes heat storage body main part 41 and holding the scald preventing shell 42 of heat storage body main part, heat storage body main part comprises the PVC insulated bag and stores the heat-retaining medium in the PVC insulated bag inside, prevent scalding the plastic casing that the shell is the PP material, prevent scalding the shell and be equipped with a plurality of through-holes 43 in order to do benefit to water and the contact of heat storage body main part. Wherein, prevent scalding the shell with the joint cooperation or grafting cooperation or magnetism between the main part are inhaled the cooperation and are makeed heat storage body can be taken off. In other embodiments, the through-hole may also be an adjustable sized through-hole.

The shell includes epitheca 421 and inferior valve 422, detachable connects between epitheca and the inferior valve, be equipped with the accommodation space between epitheca and the inferior valve, heat storage body main part is arranged in the accommodation space. In fig. 3, the upper shell and the lower shell are connected by a buckle, one of the upper shell and the lower shell is provided with a hole-groove structure, and the other one is provided with a clamping part clamped in the hole-groove structure. In other embodiments, the reversible connection or the drawable connection between the upper case and the lower case allows the receiving space to be opened or closed by a number of movements between the upper case and the lower case.

Referring to fig. 2, the main body is provided with a mounting groove 5, the heat storage body is detachably mounted in the mounting groove, and a holding portion 44 is provided on the heat storage body to facilitate the heat storage body to be taken down from the mounting groove.

The mounting groove lateral wall is equipped with draw-in groove 51, heat accumulation body lateral part is equipped with card protruding 45, the heat accumulation body install in behind the mounting groove, the card protruding with draw-in groove buckle cooperation.

Referring to fig. 3, the card protruding with the heat accumulation body is split type structure, the card protruding is protruding for having elastic card, the card protruding is the spheroid, the protruding surface of card is the sphere, in other embodiments, the protruding surface of card still can be cambered surface or conical surface, heat accumulation body lateral part is equipped with the holding the protruding storage tank of card, be equipped with the perforation in the storage tank, protruding one side integral type of card is formed with the connecting portion 46 that has card portion 47, connecting portion pass the perforation and through card portion card on the heat accumulation body.

Before bathing, the heat storage body is heated in a microwave oven to a certain temperature (higher than the water temperature in a bathing space), for example, more than 70 degrees, then the heated heat storage body is arranged in the anti-scald shell, the heat storage body is arranged in the body during bathing, and the speed of reducing the water temperature in the bathing space is delayed through the continuous heat dissipation of the heat storage body.

In this embodiment, the heat preservation medium includes water, and lignocellulose, palm wax, glyceryl stearate, a water-based antioxidant, calcium sulfate, a thickener, a coupling agent, silicon carbide, and an iron sesquioxide filler are added to the water

Wherein, because the palm wax is not easy to disperse in water, the palm wax emulsion can be used and can be directly used; the glyceryl stearate is not easy to disperse in cold water, and can be dispersed by stirring with hot water and shaking. Because the antioxidant 261 is insoluble in water, the antioxidant can be an aqueous antioxidant, such as antioxidant 2450DW, and the thickener can be hydroxyethyl cellulose.

Preferably, the manufacturing process of the heat preservation medium comprises the following steps: dissolving the lignocellulose in water, adding the palm wax and the glyceryl stearate, and then adding the calcium sulfate and the water-based antioxidant; then adding hydroxyethyl cellulose for thickening, then adding silicon carbide and ferric oxide filler, finally adding a coupling agent, and mixing and stirring uniformly.

As a preferable mixture ratio of the heat preservation medium, the heat preservation medium can comprise 70-80% of water, 15-18% of lignocellulose, 3-6% of palm wax, less than 0.5% of glyceryl stearate, less than 0.3% of aqueous antioxidant, 0.5-2% of calcium sulfate, 0.5-2% of thickening agent, less than 0.5% of coupling agent, 0.5-2% of silicon carbide and 1-3% of ferric oxide filler by mass percentage, and the sum of the mass percentages of the water, the lignocellulose, the palm wax, the glyceryl stearate, the aqueous antioxidant, the calcium sulfate, the thickening agent, the coupling agent, the silicon carbide and the ferric oxide filler is less than 1.

As another preferable mixture ratio of the heat preservation medium, the heat preservation medium comprises, by mass, 70-78% of water, 15.5-17% of lignocellulose, 3.5-5% of palm wax, 0.2-0.4% of glyceryl stearate, less than 0.2% of aqueous antioxidant, 0.8-1.5% of calcium sulfate, 0.8-1.5% of thickening agent, less than 0.3% of coupling agent, 0.8-1.5% of silicon carbide and 1.5-2% of ferric oxide filler, wherein the sum of the mass percentages of the water, the lignocellulose, the palm wax, the glyceryl stearate, the aqueous antioxidant, the calcium sulfate, the thickening agent, the coupling agent, the silicon carbide and the ferric oxide filler is less than 1.

The other preferable mixture ratio of the heat preservation medium comprises, by mass, 74.2% of water (error range 3%), 16.1% of lignocellulose (error range 1%), 4.2% of palm wax (error range 0.5%), 0.3% of glyceryl stearate (error range 0.1%), 0.1% of water-based antioxidant (error range 0.05%), 1.1% of calcium sulfate (error range 0.2%), 1% of thickening agent (error range 0.2%), less than 0.2% of coupling agent (error range 0.05%), 1% of silicon carbide (error range 0.2%), 1.8% of ferric oxide filler (error range 0.3%), and the sum of the mass percentages of the water, the lignocellulose, the palm wax, the glyceryl stearate, the water-based antioxidant, the calcium sulfate, the thickening agent, the coupling agent, the silicon carbide and the ferric oxide filler is less than 1.

In other embodiments, the bottom of the bathing device can also be made of soft rubber material.

In other embodiments, the bathing device can also be made of a rigid framework and a soft waterproof material such as PVC mesh cloth, the framework can be folded and stored when the bathing device is folded, and the heat storage body can be placed at the bottom of the bathing barrel.

In other embodiments, the bathing device may also be an integrally formed rigid plastic tub (basin).

While the preferred embodiments of the present invention have been described above, the above embodiments may be combined with each other without conflict.

It is to be understood that the invention is not limited to the particular embodiments described above, in that devices and structures not described in detail are understood to be implemented in a manner common in the art; it will be understood by those skilled in the art that various changes and modifications may be made, or equivalents may be modified, without departing from the spirit of the invention.

Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.