CN210044242U - Hot compress device and negative pressure massage system and breast pump applying same - Google Patents

Abstract

The utility model provides a negative pressure massage system and breast pump of hot compress device and applied this hot compress device, in the hot compress device includes a heating unit and a maintenance unit. The heat generating unit includes a heat generating portion having an inner side portion and an outer side portion corresponding to the inner side portion. The holding unit includes a holding case, wherein the holding case includes a first side portion, wherein the heat generating portion is disposed at the holding case, and the inner side portion of the heat generating portion corresponds to the first side portion, so that the first side portion separates the heat generating portion and a site to be heated when the heat applying device is used.

Description

Hot compress device and negative pressure massage system and breast pump applying same

Technical Field

The utility model relates to a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein hot compress device's temperature can be warmed up to suitable scope conveniently and fast.

Background

Hot compress is a physical method capable of raising the temperature of a certain part of the body, and is widely used in the fields of health care, medical treatment, etc. because it has the characteristics of expanding blood vessels, improving blood circulation of local parts, promoting metabolism, and facilitating operation. For example, when a soft tissue contusion occurs at a certain part of the body, the part with the soft tissue contusion can be hot-compressed by using a hot-compressing mode, so as to achieve the purposes of relieving muscle spasm and absorbing inflammation.

For example, when a hot water bag is used for hot compress of a certain part of a body, a liquid with a relatively high temperature (for example, hot water) needs to be filled into the hot water bag, or the liquid held in the hot water bag needs to be heated, so that the temperature of the hot water bag rises. Although hot compress can be achieved by using a hot water bag or a hot towel, it has many disadvantages.

Firstly, the way of filling the liquid with higher temperature into the hot water bag and the way of immersing the towel into the liquid with higher temperature are easy to cause waste of water materials.

Secondly, the way of filling the hot water bag with the liquid having a relatively high temperature, the way of heating the liquid held in the hot water bag, and the way of immersing the towel in the liquid having a relatively high temperature cause the actual temperature of the hot water bag or the hot towel to be difficult to determine, for example, when one wishes to perform hot compress on a certain part of the body with a temperature of 50 °, the actual temperature of both the hot water bag and the hot towel is difficult to determine to be 50 °, resulting in relatively poor hot compress effect. In addition, when the actual temperature of the hot water bag or the hot towel is greatly different from the desired hot compress temperature, once the hot water bag or the hot towel is used for hot compress of a certain part of the body, the opposite adverse effect can be achieved.

Thirdly, the way of filling the hot water bag with the liquid with higher temperature, the way of heating the liquid held in the hot water bag and the way of immersing the towel in the liquid with higher temperature cause the actual temperature of the hot water bag or the hot towel to be difficult to maintain, for example, people want to use the same temperature for a long time to carry out hot compress on a certain part of the body, obviously, the actual temperature of the hot water bag or the hot towel will rapidly decrease along with the increase of the use time, and in a short time, the actual temperature of the hot water bag or the hot towel will decrease to be consistent with the body temperature, even the actual temperature of the hot water bag or the hot towel will be lower than the body temperature, which causes the hot compress effect to be poor when hot compress is carried out by using the hot water bag or the hot towel.

Fourthly, the way of filling the liquid with higher temperature into the hot water bag, the way of heating the liquid kept in the hot water bag and the way of immersing the towel into the liquid with higher temperature are troublesome to operate and inconvenient to use.

In addition, since the hot towel is formed by soaking the towel in a liquid with a high temperature, the hot towel has a high temperature and a high humidity, and if the hot towel is in contact with the skin of the body for a long time, the moisture of the hot towel easily damages the physiological tissue of the part of the body to be hot-compressed, and particularly when the hot towel is used for hot compressing a special part of the body, the damage of the moisture of the hot towel to the physiological tissue of the part of the body to be hot-compressed is more obvious, for example, when the hot towel is used for hot compressing the breast of a woman, the moisture carried by the hot towel can bring adverse effects to the breast tissue.

Disclosure of Invention

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein hot compress device's temperature can be conveniently and rise to suitable scope fast.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein hot compress device's temperature can be kept in suitable scope for a long time.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein hot compress device's temperature can be conveniently looked over.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the hot compress device provides a heating unit, the heating unit can make through the mode that produces heat the temperature of hot compress device is conveniently just risen to suitable scope fast.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the heating unit can make through the mode that produces heat continuously the temperature of hot compress device is kept in suitable scope for a long time.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the heating unit can make through the thermal mode of production the temperature of hot compress device is risen, thereby is improving do not need the participation of foreign matter during the temperature of hot compress device, so that the hot compress device is convenient for operate and use.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the unit that generates heat can pass through the inside thermal mode that produces of hot compress device makes the temperature of hot compress device is rised, thereby is favorable to making the temperature of hot compress device is kept in suitable scope for a long time.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the heating element can make the temperature at each position of hot compress device is risen in step and all is kept in suitable scope. An object of the present invention is to provide a hot compress device, wherein the hot compress device provides a holding unit, the heating unit is provided in the holding unit, the heating unit enables the temperature of the holding unit to be raised to a suitable range and to be held in the suitable range.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the heating unit set up in the inside of holding unit, with by the holding unit protection the heating unit to storing, carrying and using during the hot compress device, the holding unit can avoid heating unit and other materials, object direct contact's mode protection the heating unit, in order to improve the reliability and the stability of hot compress device when being used.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the heating unit can be installed in between the first lateral part and the second lateral part of holding unit, so that the heating unit set up in the inside of holding unit.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein keep the unit shaping in the outside of the heating element, thereby make the heating element is kept the inside of keeping the unit.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the holding unit first lateral part is dismantled to allow first lateral part is removable, through such mode, is favorable to guaranteeing the health nature of hot compress device. An object of the utility model is to provide a hot compress device, wherein when the hot compress device is used, the holding unit can keep apart the heating element with by the skin at the health position of hot compress, in order to avoid the skin and subcutaneous tissue are protected to the skin direct contact's of heating element with by the health position of hot compress mode.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the holding unit provides a temperature maintenance portion, the temperature maintenance position in the outside portion of the heating element, thereby the temperature maintenance portion can prevent the heat that the heating element produced radiates outward, so that the heat that the heating element produced can be utilized by the high efficiency.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the temperature keeps the position in the outside portion of the heating element, in order to stop the heat that the heating element produced radiates outward, thereby works as the heating element formula the temperature of hot compress device risees to suitable scope after, even if the heating element does not continue when producing heat, temperature keeps the portion also can avoid the condition that the temperature of hot compress device sharply reduces appears, thereby is favorable to reducing the consume of heating element to the electric energy, is favorable to the miniaturization of hot compress device and improvement the duration of hot compress device.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the hot compress device provides a temperature sensor, in order to monitor the temperature of hot compress device to in succession, make through the mode of digital display the temperature of hot compress device can be looked over directly perceivedly, thereby makes the hot compress device is convenient for to be used.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the hot compress device provides a hot compress space, the pressure in hot compress space can form the negative pressure environment after being reduced to massage this position when carrying out the hot compress to the health position by the hot compress.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the hot compress device can form dry hot compress environment to even if utilize the hot compress device is when carrying out the hot compress to the health position for a long time, the hot compress device also can not produce adverse effect to the skin and the subcutaneous tissue by the health position of hot compress.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the hot compress device can be disposed in a breast pump, in order to pass through when the breast pump is suckleing, the hot compress device can make the temperature of breast rise to let the user utilize the breast pump is more comfortable and the breast is suckleing with putting one's mind to at this in-process, the hot compress device can also relax the mammary gland tissue through the mode of hot compress breast.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the hot compress device can be installed by detachably in the breast pump, thereby be convenient for right the hot compress device with the breast pump is nursed respectively.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the hot compress device is the integral type structure to it is right to use such as liquid such as hot water, steam, antiseptic solution, medical alcohol the hot compress device disinfects the nursing.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein at least a part of holding unit is flexible, makes through the messenger at least a part of holding unit produces the mode of warping the hot compress device is disposed in the breast pump.

An object of the utility model is to provide a hot compress device and applied this hot compress device's negative pressure massage system and breast pump, wherein the holding unit provides a fixed part, wherein the fixed part be used for with the hot compress device dispose in the breast pump.

According to an aspect of the utility model, the utility model provides a hot compress device, it includes:

a heat generating unit, wherein the heat generating unit includes a heat generating portion having an inner portion and an outer portion corresponding to the inner portion; and

a holding unit, wherein the holding unit includes a holding case including a first side portion, wherein the heat generating portion is provided to the holding case, and the inner side portion of the heat generating portion corresponds to the first side portion of the holding case, so that the first side portion separates the heat generating portion and a portion to be heated when the heat application device is used.

According to an embodiment of the present invention, the heat generating portion is provided in the holding case in such a manner that the first side portion is integrally formed on the inner side portion of the heat generating portion.

According to an embodiment of the present invention, the first side of the holding unit forms a hot compress space, and the heat generating part surrounds the hot compress space.

According to an embodiment of the present invention, the holding unit has a communicating passage, and the communicating passage communicates with the hot compress space.

According to an embodiment of the present invention, the holding case includes a second side portion, wherein the heat generating portion is provided to the holding case in such a manner as to be held between the first side portion and the second side portion.

According to an embodiment of the present invention, the first side portion and the second side portion of the holding case are mounted to each other, and the heat generating portion is held between the first side portion and the second side portion.

According to an embodiment of the present invention, the first side portion of the holding case is detachably mounted to the second side portion, and the heat generating portion is held between the first side portion and the second side portion after the first side portion is mounted to the second side portion.

According to an embodiment of the present invention, the first side portion of the holding case is detachably mounted to the heat generating portion, and the heat generating portion is held between the first side portion and the second side portion after the first side portion is mounted to the heat generating portion.

According to an embodiment of the present invention, the first side portion and the second side portion of the holding case are integrally formed at the inner side portion and the outer side portion of the heat generating portion, respectively.

According to an embodiment of the present invention, the holding unit further includes a temperature holding portion, wherein the temperature holding portion is held at the outer side portion of the heat generating portion.

According to an embodiment of the present invention, the holding unit further includes a temperature holding portion, wherein the temperature holding portion is provided between the heat generating portion and the second side portion; or the holding unit further includes a temperature holding portion formed between the heat generating portion and the second side portion; or the holding unit further comprises a temperature holding part, wherein the temperature holding part is formed at the second side part; or the holding unit further comprises a temperature holding part, wherein the temperature holding part and the second side part are integrally formed; or the holding unit further comprises a temperature holding part, wherein the temperature holding part and the second side part are of an integrated structure.

According to an embodiment of the present invention, the hot compress device further includes a power supply unit, wherein the heat generating portion is electrically connected to the power supply unit.

According to another aspect of the utility model, the utility model discloses further provide a negative pressure massage system, it includes:

a negative pressure generating device; and

at least one heat application device, wherein the heat application device is set up in the negative pressure generating device, wherein the heat application device includes a heating unit and a holding unit and has a heat application space and intercommunication a intercommunication passageway in heat application space, wherein the heating unit includes a portion of generating heat, the portion of generating heat have an inside and correspond to an outside of inside, wherein the holding unit includes a holding casing, the holding casing includes a first lateral part, first lateral part forms the heat application space, wherein the portion of generating heat is set up in the holding casing, and the portion of generating heat the inside correspond to the holding casing first lateral part, wherein the negative pressure generating device passes through the intercommunication passageway makes the heat application space forms the negative pressure environment.

According to an embodiment of the present invention, the negative pressure generating device makes the hot compress space of the hot compress device alternately generate a first negative pressure and a second negative pressure, wherein the first negative pressure and the second negative pressure have different values.

According to an embodiment of the present invention, the heat generating part surrounds the hot compress space.

According to an embodiment of the present invention, the holding case includes a second side portion, wherein the heat generating portion is provided to the holding case in such a manner as to be held between the first side portion and the second side portion.

According to an embodiment of the present invention, the first side portion and the second side portion of the holding case are mounted to each other, and the heat generating portion is held between the first side portion and the second side portion; or the first side portion of the holding case is detachably attached to the second side portion, and the heat generating portion is held between the first side portion and the second side portion after the first side portion is attached to the second side portion; or the first side portion of the holding case is detachably mounted to the heat generating portion, and the heat generating portion is held between the first side portion and the second side portion after the first side portion is mounted to the heat generating portion; or the first side portion and the second side portion of the holding case are integrally formed on the inner side portion and the outer side portion of the heat generating portion, respectively.

According to an embodiment of the present invention, the holding unit further includes a temperature holding portion, wherein the temperature holding portion is held at the outer side portion of the heat generating portion.

According to another aspect of the utility model, the utility model discloses further provide a breast pump, it includes:

a breast pump body; and

an at least hot compress device, wherein the hot compress device is set up in the breast pump body, wherein the hot compress device includes a heating unit and a holding unit and has a hot compress space and intercommunication a intercommunication passageway in hot compress space, wherein the heating unit includes a portion of generating heat, the portion of generating heat have an inside and correspond to an outside of inside, wherein the holding unit includes a holding casing, the holding casing includes a first lateral part, first lateral part forms the hot compress space, wherein the portion of generating heat is set up in the holding casing, and the portion of generating heat the inside correspond to the holding casing first lateral part, wherein the breast pump body passes through the intercommunication passageway makes the hot compress space produces the negative pressure.

According to an embodiment of the present invention, the heat generating part surrounds the hot compress space.

According to an embodiment of the present invention, the holding case includes a second side portion, wherein the heat generating portion is provided to the holding case in such a manner as to be held between the first side portion and the second side portion.

According to an embodiment of the present invention, the first side portion and the second side portion of the holding case are mounted to each other, and the heat generating portion is held between the first side portion and the second side portion; or the first side portion of the holding case is detachably attached to the second side portion, and the heat generating portion is held between the first side portion and the second side portion after the first side portion is attached to the second side portion; or the first side portion of the holding case is detachably mounted to the heat generating portion, and the heat generating portion is held between the first side portion and the second side portion after the first side portion is mounted to the heat generating portion; or the first side portion and the second side portion of the holding case are integrally formed on the inner side portion and the outer side portion of the heat generating portion, respectively.

According to an embodiment of the present invention, the holding unit further includes a temperature holding portion, wherein the temperature holding portion is held at the outer side portion of the heat generating portion.

Drawings

Fig. 1 is a schematic cross-sectional view of a hot compress device according to a preferred embodiment of the present invention.

Fig. 2 is a schematic cross-sectional view of a modified embodiment of the fomentation device according to the above preferred embodiment of the present invention.

FIG. 3 is an exploded view of the hot compress device according to the above preferred embodiment of the present invention.

Fig. 4 is a schematic cross-sectional view of another variant of the fomentation device according to the above preferred embodiment of the present invention.

FIG. 5 is a schematic cross-sectional view of a hot compress device according to another preferred embodiment of the present invention.

FIG. 6 is a schematic cross-sectional view of a hot compress device according to another preferred embodiment of the present invention.

FIG. 7 is a schematic cross-sectional view of a hot compress device according to another preferred embodiment of the present invention.

FIG. 8 is a schematic cross-sectional view of a hot compress device according to another preferred embodiment of the present invention.

FIG. 9 is a schematic cross-sectional view of a hot compress device according to another preferred embodiment of the present invention.

FIG. 10 is a schematic cross-sectional view of a hot compress device according to another preferred embodiment of the present invention.

FIG. 11 is a schematic cross-sectional view of a hot compress device according to another preferred embodiment of the present invention.

FIG. 12 is a schematic cross-sectional view of a heat application device according to another preferred embodiment of the present invention.

FIG. 13 is a schematic cross-sectional view of a hot compress device according to another preferred embodiment of the present invention.

FIG. 14 is a schematic view of a mode of use of the heat application device according to the above preferred embodiment of the present invention.

FIG. 15 is a schematic view of another use of the heat application device according to the above preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purposes of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to fig. 1 of the drawings accompanying the present application, a fomentation device 100 according to a preferred embodiment of the present invention is illustrated in the following description, wherein the fomentation device 100 includes a holding unit 10 and a heat generating unit 20, wherein the heat generating unit 20 is disposed at the holding unit 10 to form the fomentation device 100, wherein the heat generating unit 20 can generate heat so that the temperature of the holding unit 10 is raised, thereby providing a fomentation function by the fomentation device 100.

The heat generating unit 20 further includes a heat generating portion 21, wherein the heat generating portion 21 is provided to the holding unit 10, for example, the heat generating portion 21 may be provided inside the holding unit 10, so that when the heat generating portion 21 is supplied with energy to generate heat, the heat generating portion 21 can increase the temperature of the holding unit 10 by heating the holding unit 10. It is understood that the holding unit 10 can be continuously heated by the heat generating portion 21 while the heat generating portion 21 is provided to continuously generate heat.

Preferably, the heat generating unit 20 employs a sectional heating manner to improve the heating efficiency of the heat application device 100 and reduce the energy loss of the heat application device 100. In this particular example of the heat application device 100 of the present invention, the heating process of the heat application device 100 can be divided into two phases, wherein in the first phase of the heating process of the heat application device 100, the heat application device 100 can be heated up quickly, e.g., the temperature of the heat application device 100 can be heated up to 30 ° in 5 seconds, and in the second phase of the heating process of the heat application device 100, the heat application device 100 can be raised up slowly, e.g., the heat application device 100 can be heated up to 40 ° in the next 5 seconds. Of course, it will be understood by those skilled in the art that in other possible examples of the heat application device 100 of the present invention, the heating process of the heat application device 100 may also be divided into more stages, or even in the example where the heating process of the heat application device 100 is divided into two stages, the temperature of the heat application device 100 can be heated to 30 ° in a shorter time in the first stage of the heating process of the heat application device 100, or to a higher temperature, such as but not limited to 35 °, in a 5 second stage of the heating process of the heat application device 100, so that the temperature of the heat application device 100 can be heated to 40 ° in a shorter time, or to 40 ° in a 5 second stage of the heating process of the heat application device 100.

It is worth mentioning that although an example in which the heat generating portions 21 are provided inside the holding unit 10 is shown in fig. 1, it may be understood by those skilled in the art that, in other examples of the heat application device 100, the heat generating portions 21 may be provided to the holding unit 10 in an overlapping manner, and the direction in which the heat generating portions 21 are provided to the holding unit 10 in an overlapping manner is not limited.

Preferably, the heat generating part 21 may be implemented as an electric heat generating part, for example, the heat generating part 21 may be, but is not limited to, an electric heating film, a graphene heat generating film, so that heat can be generated when the heat generating part 21 is supplied with electric energy to heat the holding unit 10 located outside the heat generating part 21.

Referring to fig. 1, the holding unit 10 further includes a holding case 11, wherein the heat generating portion 21 may be disposed inside the holding case 11 so that the heat generating portion 21 can heat the holding case 11 when the heat generating portion 21 is supplied with energy to generate heat.

Specifically, with further reference to fig. 1, the holding case 11 further includes a first side portion 111 and a second side portion 112, wherein the heat generating portion 21 is disposed between the first side portion 111 and the second side portion 112 such that the heat generating portion 21 is disposed inside the holding case 11 to protect the heat generating portion 21 by the holding case 11 in a manner that prevents the heat generating portion 21 from being directly exposed to the external environment, so that a user or other objects do not directly contact the heat generating portion 21 held inside the holding case 11 when carrying, transporting and using the heat applying device 100.

The first side portion 111 and the second side portion 112 of the holding case 11 may be separately manufactured, and then the first side portion 111 and the second side portion 112 are mounted together, and the heat generating portion 21 is mounted between the first side portion 111 and the second side portion 112, so that the heat generating portion 21 is held between the first side portion 111 and the second side portion 112. The mounting manner of the first side 111 and the second side 112 of the holding shell 111 is not limited in the heat application device 100 of the present invention, for example, the first side 111 and the second side 112 of the holding shell 11 can be detachably mounted, for example, but not limited to, the first side 111 and the second side 112 can be mounted together by means of a buckle, or the first side 111 and the second side 112 can be mounted together by means of a screw.

With further reference to fig. 1, after edges of the first and second side portions 111 and 112 of the holding case 11 are fitted to each other so that the first and second side portions 111 and 112 are fitted together and the heat generating portion 21 is held between the first and second side portions 111 and 112, the first and second side portions 111 and 112 of the holding case 11 are not allowed to be detached. In this variant embodiment of the heat application device 100 shown in fig. 2 and 3, however, the first side 111 of the holding case 11 is detachable so that the first side 111 can be washed separately, or so that the first side 111 of the heat application device 100 is allowed to be replaced, in such a way that the cleanliness and hygiene of the heat application device 100 can be ensured.

Preferably, with further reference to fig. 2 and 3, the first side portion 111 of the holding case 11 is detachably mounted to the second side portion 112 so that the first side portion 111 is detachable, and the heat generating portion 21 is held between the first side portion 111 and the second side portion 112 after the first side portion 111 is mounted to the second side portion 112. In other possible examples of the heat application device 100 of the present invention, the first side portion 111 may be detachably mounted to the heat generating portion 21.

It is worth mentioning that the detachable installation manner of the first side portion 111 and the second side portion 112 of the holding case 11 is not limited in the heat application device 100 of the present invention, for example, in the specific example of the heat application device 100 shown in fig. 2 and 3, the edge of the first case 111 has a row of installation grooves 1110, and the edge of the second side portion 112 has a row of installation protrusions 1120, wherein each of the installation protrusions 1120 of the second side portion 112 is respectively installed at each of the installation grooves 1110 of the first case 111, so that the first side portion 111 and the second side portion 112 are installed together.

Unlike the embodiments of the heat application device 100 shown in fig. 1 to 3, in this modified example of the heat application device 100 shown in fig. 4, the first side portion 111 and the second side portion 112 of the holding case 11 may be integrally formed, for example, but not limited to, by first placing the heat generating portion 21 in a molding die, and then forming the holding case 11 wrapping the heat generating portion 21 in such a manner that the molding material wraps the heat generating portion 21 by heating the molding material into the molding die and the molding material is solidified in the molding die, and the holding case 11 simultaneously forms the first side portion 111 and the second side portion 112 in one piece on both sides of the heat generating portion 21. Or the first side portion 111 is formed inside the heat generating portion 21 by the molding die through an injection molding process, and then the second side portion 111 is formed outside the heat generating portion 21 by the molding die through an injection molding process. Or the second side portion 112 may be formed on the outer side of the heat generating portion 21 by the injection molding process through the molding die, and then the first side portion 111 may be formed on the inner side of the heat generating portion 21 by the injection molding process through the molding die.

Preferably, at least one of the first side 111 and the second side 112 of the holding case 11 may be made of a material having a good affinity such as rubber, silicon gel, etc., so that the user does not have a noticeable feeling of foreign materials when the holding case 11 is in contact with the user's body part, to improve comfort when hot compressing is performed by the hot compressing device 100. Alternatively, the first side portion 111 and the second side portion 112 of the holding case 11 are made of the same material.

In addition, at least one of the first side portion 111 and the second side portion 112 of the holding case 11 may be made of a material having a good thermal conductivity, so that the holding case 11 can rapidly conduct heat generated from the heat generating portion 21 to a body part of a user to be hot-compressed, and in this way, the utilization rate of heat generated from the heat generating portion 21 can be improved. For example, the first side 111 of the holding case 11 may be made of a material having superior thermal conductivity, so that the holding case 11 allows the heat generated from the heat generating part 21 to be rapidly conducted to the body part of the user, which needs to be hot-compressed, through the first side 111, and the second side 112 of the holding case 11 may be made of a material having inferior thermal conductivity, in such a manner that the heat generated from the heat generating part 21 can be prevented from being volatilized to the outside through the second side 112, to ensure the utilization of the heat generated from the heat generating part 21, thereby reducing the energy loss of the heat compressing device 100 and improving the endurance of the heat compressing device 100.

In addition, the first side 111 and the second side 112 of the holding case 11 may be made of an inert material, which does not undergo a large deformation when heated and does not affect the physical and chemical properties of the first side 111 and the second side 112 of the holding case 11, thereby ensuring the reliability and stability of the heat application device 100 when it is used.

Further, the heat generating unit 20 includes a conductive portion 22, wherein the conductive portion 22 includes a first conductive member 221, the first conductive member 221 is disposed on the holding case 11, and the heat generating portion 21 and the first conductive member 221 are connected to each other, wherein external electric energy can be supplied to the heat generating portion 21 through the first conductive member 221 of the conductive portion 22, so that the heat generating portion 21 generates heat and can subsequently heat the holding case 11.

It is worth mentioning that the heat generating portion 21 is provided so that the temperature of the holding case 11 of the holding unit 10 is heated to a suitable range, and preferably, the heat generating portion 21 is provided so that the temperature of the holding case 11 of the holding unit 10 is maintained at a suitable range for a long time, so that when the heat application device 100 applies heat to a body part of a user by being attached to the body part, the heat application device 100 can be controlled to a suitable range to prevent damage to the skin and subcutaneous components of the body part of the user while ensuring the heat application effect. That is, the temperature of the heat application device 100 can be maintained at a suitable temperature higher than and not excessively higher than the body temperature of the user when the heat application device 100 is used, to ensure the reliability and stability of the heat application device 100 when it is used for heat application.

When the user is using the hot compress device 100 to compress the body part, the heat generating part 21 and the body part of the user that is compressed are not in direct contact, for example, the first side 111 or the second side 112 of the holding case 11 can be held between the heat generating part 21 and the body of the user, so the heat generated by the heat generating part 21 needs to be heated first the holding case 11, then through the holding case 11 is conducted to the body part of the user that is compressed, and then the damage of the heat generating part 21 to the body part of the user that is compressed is avoided.

With further reference to fig. 1, the heat application device 100 has a heat application space 30 in which heat generated from the heat generating part 21 can be radiated to the heat application space 30 through a portion of the holding case 11, so that the temperature of the heat application space 30 is raised to a suitable range. That is, when the user uses the heat application device 100 to apply heat to a body part, the holding case 11 may not be in contact with the body part of the user to which heat is applied, but applies heat to the body part to which heat is required to be applied by increasing the temperature of the heat application space 30 to a suitable range, so that the heat application device 100 guarantees the reliability of the heat application device 100 when it is used by forming a safety distance between the holding case 11 and the body part to which heat is required to be applied.

It is worth mentioning that although shown in fig. 1 in order to illustrate that the heat application device 100 has one heat application space 300, the present invention illustrates the contents and features of the heat application device 100, in other possible examples of the heat application device 100 of the present invention, the heat application device 100 may also have more than two heat application spaces 300, and adjacent to the relative orientation of the opening of the heat application spaces 300 may be adjusted, or in other possible examples of the heat application device 100 of the present invention, the heat application device 100 may also not have the heat application spaces 300, i.e., the heat application device 100 may be a sheet-like heat application device 100.

Preferably, with continued reference to FIG. 1, the first side 11 of the retaining shell 11 forms the heat application space 30, i.e., the first side 111 of the retaining shell 11 may form an inner side of the retaining shell 11 and the second side 112 of the retaining shell 11 may form an outer side of the retaining shell 11. The heat generating part 21 disposed between the first side 111 and the second side 112 of the holding case 11 can surround the heat application space 30, so that when the heat generating part 21 is supplied with power to generate heat, the heat generating part 21 can generate heat around the heat application space 30 in synchronization, thereby enabling the temperatures of the respective portions of the heat application space 30 to be increased in synchronization and at the same amplitude, and thus improving the comfort of the heat application using the heat application device 100.

It is to be understood that the heat application space 30 can also be used to accommodate at least a portion of a particular body part of a user when the heat application device 100 is used to apply heat to the particular body part of the user. For example, when a user applies heat to a breast using the heat application device 100 of the present invention, at least a portion of the breast can be received within the heat application space 30 of the heat application device 100. That is, the heat application space 30 may be a receiving space.

The first conductive member 221 of the conductive portion 22 is provided to the second side portion 112 of the holding case 11, so that outside the holding case 11, external electric power can be supplied to the heat generating portion 21 through the first conductive member 221 of the conductive portion 22.

Preferably, at least a portion of the first conductive element 221 of the conductive part 22 is disposed to be exposed on the surface of the second side 112 of the holding case 11, so that when the heat pack apparatus 100 is installed in a power supply device, the first conductive element 221 of the conductive part 22 can conduct the power supply device, and thus the power is supplied to the heat generating part 21 through the first conductive element 221 of the conductive part 22 by the power supply device. More preferably, the first conductive member 221 of the conductive part 22 may be automatically turned on the power supply device while the heat application device 100 is mounted to the power supply device. The type of the first conductive member 221 of the conductive part 22 is not limited in the heat application device 100 of the present invention, for example, the first conductive member 221 of the conductive part 22 may be, but is not limited to, a conductive sheet, a conductive point, a conductive ball, etc.

Alternatively, the first conductive component 221 of the conductive part 22 may be hidden inside the holding housing 11, at this time, the second side portion 112 of the holding housing 11 has at least one insertion hole to correspond to the first conductive component 221 of the conductive part 22, so that subsequently, the power supply end of the power supply device can be inserted into the inside of the holding housing 11 through the insertion hole of the second side portion 112 of the holding housing 11 to be conductively connected to the first conductive component 221 of the conductive part 22, so that the power supply device can supply electric energy to the heat generating part 21 through the first conductive component 221 of the conductive part 22.

Nevertheless, in other possible examples of the heat application device 100 of the present invention, the first conductive component 221 may also be hidden inside the holding shell 11, for example, the first conductive component 221 may be hidden inside the holding shell 11 in a manner of being embedded in the second side portion 112, and the first conductive component 221 is a wireless conductive module.

Those skilled in the art can understand that, when the user uses the hot compress device 100 to compress heat, the body part of the user being heated can automatically seal the opening of the hot compress space 30, at this time, it is possible to reduce the air pressure of the hot compress space 30 in such a manner that the negative pressure environment is formed in the hot compress space 30 to massage the body part of the user while hot compressing the body part of the user.

Specifically speaking, hot compress device 100 further has a intercommunication passageway 40, wherein intercommunication passageway 40 communicate in hot compress space 30 and external environment, hot compress device 100 can be installed in a negative pressure generating device and form a negative pressure massage system, so that hot compress space 30 passes through intercommunication passageway 40 with the negative pressure generating device communicates each other, thereby negative pressure generating device can pass through intercommunication passageway 40 reduces hot compress space 30's atmospheric pressure, so that form the negative pressure environment in hot compress space 30, thereby make hot compress device 100 can massage the user's the health part that is carried out the hot compress. It is understood that the power supply device and the negative pressure generating device can be integrated.

It is worth mentioning that, in an example of the hot compress device 100 of the present invention, the negative pressure generating device can pass through the communication channel 40 to make the negative pressure environment and the normal pressure environment are alternately generated in the hot compress space 30 to further improve the massage effect. In another example of the hot compress device 100 of the present invention, the negative pressure generating device can make the first negative pressure and the second negative pressure be alternately generated in the hot compress space 30 through the communication passage 40 to further improve the massage effect.

It is understood that the communication channel 40 may also be formed by the first side 111 of the holding housing 11. That is, the first side 111 of the holding case 11 can simultaneously form the heat applying space 30 and the communication channel 40 communicating with each other.

That is, according to another aspect of the present invention, the utility model discloses a negative pressure massage system is further provided, negative pressure massage system includes one negative pressure generating device with set up in at least one of negative pressure generating device hot compress device 100, wherein negative pressure generating device can pass through intercommunication passageway 40 makes hot compress device 100 hot compress space 30 produces the negative pressure environment, with by when hot compress device 100 carries out the hot compress to user's a health part, utilize the negative pressure that hot compress device 100 produced massages this health part. Preferably, the negative pressure generating device enables the heat application space 30 of the heat application device 100 to alternately generate the first negative pressure and the second negative pressure through the communication passage 40, thereby improving a massage effect.

With further reference to fig. 1, the heat generating portion 21 has an inner side portion 211 and an outer side portion 212, wherein the inner side portion 211 of the heat generating portion 21 corresponds to the first side portion 111 of the holding case 11, and the outer side portion 212 of the heat generating portion 21 corresponds to the second side portion 112 of the holding case 11. The holding unit 10 further includes a temperature holding part 12, the temperature holding part 12 being provided on the outer side part 212 of the heat generating part 21 to prevent the heat generated by the heat generating part 21 from being radiated from the outer side part 212 of the heat generating part 21 to the outside of the heat applying device 100, so that only the heat generated by the heat generating part 21 is radiated from the inner side part 211 of the heat generating part 21 to the first side part 111 of the holding case 11 and into the heat applying space 30, in this way, it is possible to improve the utilization efficiency of the heat generated by the heat generating part 21, and in addition, after the temperature of the first side part 111 of the holding case 11 and the heat applying space 30 is increased to an appropriate range during the heat generated by the heat generating part 21, even when the heat generating part 21 is not continuously supplied with power or is supplied with only a small amount of power, the temperature-maintaining part 12 can prevent the heat of the first side 111 of the holding case 11 and the heat application space 30 from being conducted to the outside of the heat application device 100 at the outer side 212 of the heat generating part 21, thereby enabling the temperature of the first side 111 of the holding case 11 and the heat application space 30 of the heat application device 100 to be maintained in a suitable range for a long time to reduce the loss of electric energy, thereby facilitating the miniaturization of the heat application device 100 and the extension of the endurance time of the heat application device 100.

With continued reference to fig. 1, the temperature-maintaining portion 12 may be a heat insulating layer formed by applying a heat insulating material to the outer portions 212 of the heat generating portion 21. In still other examples of the heat application device 100, the temperature maintenance part 12 may also be formed by coating a heat insulating material on the inner surface and/or the inner surface of the second side part 112 of the maintenance case 11. Nevertheless, it will be understood by those skilled in the art that, in other examples of the heat compressing device 100, the temperature maintaining part 12 may also be formed by applying a heat insulating material to the outer part 212 of the heat generating part 21, the inner surface and the outer surface of the second side part 112 of the holding case 11 at the same time.

Nevertheless, it will be understood by those skilled in the art that the temperature holding part 12 may also be a heat insulating member, i.e., the temperature holding part 12 may be a separate component, wherein the temperature holding parts 12 may be disposed on the outer side portions 212 of the heat generating part 21 so as to overlap each other, such that the temperature holding parts 12 are located on the outer side portions 212 of the heat generating part 21. In other examples of the heat application device 100, the temperature maintaining part 12 may be overlappingly disposed on the inner or outer surface of the second side part 112 of the holding case 11, so that the temperature maintaining part 12 is located on the outer side part 212 of the heat generating part 21.

Fig. 5 shows the heat application device 100 according to another preferred embodiment of the present invention, wherein the heat application device 100 further includes a power supply unit 50, wherein the heat generating portion 21 is connected to the power supply unit 50 to supply electric energy to the heat generating portion 21 by the power supply unit 50, so that the heat generating portion 21 generates heat.

With continued reference to fig. 5, the holding unit 10 further includes a power supply housing 13, wherein the power supply housing 13 is disposed to the holding housing 11. Preferably, the power supply case 13 may integrally extend to the second side portion 112 of the holding case 11, the power supply unit 50 is provided to the power supply case 13 such that the power supply unit 50 is held inside the power supply case 13, and the heat generating portion 21 can be connected to the power supply unit 50 inside the holding unit 10.

The power supply unit 50 further includes a power supply element 51 and an integrated circuit board 52, wherein the power supply element 51 and the heat generating portion 21 are electrically connected to the integrated circuit board 52, respectively, so that the power supply element 51 supplies electric power to the heat generating portion 21 through the integrated circuit board 52, thereby enabling the heat generating portion 21 to generate heat.

It is worth mentioning that the type of the power supply element 51 is not limited in the fomentation device 100 of the present invention, for example, the power supply element 51 may be implemented as, but not limited to, a dry battery, a rechargeable battery, etc., such as a rechargeable lithium battery.

The power supply unit 50 further includes an operation member 53, wherein the operation member 53 is electrically connected to the integrated circuit board 52, for example, the operation member 53 can be electrically connected to the integrated circuit board 52 by being attached to the integrated circuit board 52, wherein a user can control whether the power supply member 51 supplies power to the heating portion 21 and control the manner in which the power supply member 51 supplies power to the heating portion 21 through the operation member 53. It is worth mentioning that the operation member 53 may be, but is not limited to, a touch operation member and a key operation member.

Preferably, a portion of the operating member 53 extends from the inside to the outside of the power supply housing 13 to allow a user to operate the operating member 53 at the outside of the power supply housing 13.

Optionally, the operating component 53 may also provide a receiving module, wherein the operating component 53 can be operatively connected to an electronic device, such as but not limited to a mobile phone, a tablet computer, etc., to allow a user to issue an instruction to the operating component 53 through the electronic device, and the receiving module of the operating component 53 controls whether the power supply element 51 supplies power to the heating portion 21 and controls the manner in which the power supply element 51 supplies power to the heating portion 21 when receiving the instruction issued by the user through the electronic device.

Further, the power supply unit 50 includes a charging terminal 54, wherein the charging terminal 54 is disposed at the power supply housing 13 and is electrically connected to the power supply element 51, for example, the charging terminal 54 may be electrically connected to the power supply element 51 by being electrically connected to the integrated circuit board 52, so as to allow external electric power to be supplemented to the power supply element 51 through the charging terminal 54.

Further, the power supply unit 50 includes a wireless charging module 55, wherein the wireless charging module 55 is disposed on the power supply housing 13 and electrically connected to the power supply element 51, for example, the wireless charging module 55 can be electrically connected to the power supply element 51 by being electrically connected to the integrated circuit board 52, so as to allow external electric energy to be supplemented to the power supply element 51 through the wireless charging module 55.

In addition, the power supply unit 50 includes a sensor 56 and a display 57, wherein the sensor 56 is disposed inside the holding housing 11, the display 57 is disposed on the second side portion 112 of the holding housing 11 or the display 57 is disposed on the power supply housing 13, and the sensor 56 and the display 57 are electrically connected to the integrated circuit board 52, respectively. When the heat application device 100 is used, the sensor 56 can monitor the temperature of the first interior 111 of the holding case 11 and the heat application space 30, and the monitoring result monitored by the sensor 56 can be intuitively displayed through the display screen 57 to be conveniently read by a user, so that the temperature of the heat application device 100 can be controlled within a suitable range to further improve the reliability and stability of the heat application device 100 when used.

Of course, it is understood that in other examples of the heat application device 100 of the present invention, the sensor 56 can also be used to monitor the negative pressure value in the heat application space 30, and the monitored result of the sensor 56 is visually displayed through the display screen 57, so that the user can control the negative pressure in the heat application space 30 to further improve the reliability and stability of the heat application device 100 when in use.

In still other examples of the heat application device 100, the power supply unit 50 may further include a communication module 58, wherein the communication module 58 is electrically connected to the integrated circuit board 52, wherein the communication module 58 is capable of transmitting the monitoring results monitored by the sensor 56 to the electronic device of the user for the user to view the status of the heat application device 100, such as the temperature and pressure values of the heat application space 30, etc., through the electronic device.

Fig. 6 shows the heat application device 100 according to another preferred embodiment of the present invention, the power supply housing 13 can be detachably mounted to the holding housing 11, wherein the conductive portion 22 further includes a second conductive member 222, the second conductive member 222 is disposed on the power supply housing 13 and electrically connected to the power supply element 51, for example, the second conductive member 222 can be electrically connected to the power supply element 51 by being electrically connected to the integrated circuit board 52, wherein when the power supply housing 13 is mounted to the holding housing 11, the first conductive member 221 and the second conductive member 222 of the conductive portion 22 can be conducted to enable the power supply element 51 to supply electric energy to the heat generating portion 21, thereby enabling the heat generating portion 21 to generate heat.

Specifically, the holding case 11 forms a mounting cavity 113, and the first conductive member 221 of the conductive portion 22 is located on an inner wall of the holding case 11 forming the mounting cavity 113, and the second conductive member 222 of the conductive portion 22 is located on an outer wall of the power supply case 13, so that when the power supply case 13 is mounted to the mounting cavity 113 of the holding case 11, the second conductive member 222 and the first conductive member 221 of the conductive portion 22 can be electrically conducted to enable the heat generating portion 21 to be electrically connected to the power supply element 51.

It is worth mentioning that the installation manner of the power supply housing 13 and the holding housing 11 is not limited in the fomentation device 100 of the present invention, for example, at least one of the power supply housing 13 and the holding housing 11 may be installed together by itself generating a slight deformation, or the power supply housing 13 and the holding housing 11 may be installed together by a snap, a screw, or the like.

Fig. 7 shows the heat application device 100 according to another preferred embodiment of the present invention, which is different from the heat application device 100 shown in fig. 6, in this preferred example of the fomentation device 100 shown in fig. 7, the power supply housing 13 forms the mounting cavity 113, and the second conductive component 222 of the conductive part 22 is located on the inner wall of the power supply housing 13 for forming the mounting cavity 113, the first conductive component 221 of the conductive part 22 is located on the outer wall of the second side 112 of the holding housing 11, so that when the second side portion 112 of the holding case 11 is mounted to the mounting cavity 113 of the power supply case 13, the first conductive member 221 and the second conductive member 222 of the conductive portion 22 can be electrically connected so that the heat generating portion 21 can be electrically connected to the power feeding element 51.

Referring to fig. 8 and 14 of the drawings of the specification, a hot compress device 100A according to another preferred embodiment of the present invention is illustrated in the following description, wherein the hot compress device 100A can be installed in a breast pump body 200A to form a breast pump, so that when the breast pump is used for sucking milk, the hot compress device 100A can perform hot compress on the breast of a user, so that the breast exposed in the external environment can be kept warm in a cold weather condition, and the breast tissue can be relaxed in the process of sucking milk. That is, according to another aspect of the utility model discloses, the utility model discloses a according to the utility model discloses a breast pump, wherein the breast pump includes one breast pump body 200A with set up in one of breast pump body 200A hot compress device 100A, wherein use at the user when the breast pump suckles, hot compress device 100A can carry out the hot compress to user's breast, like this, under the colder condition of weather, can keep warm to the breast of being exposed in the external environment to in-process at the breast of suckling relaxes mammary gland tissue.

Specifically, the heat application device 100A includes a holding unit 10A and a heat generating unit 20A, wherein the heat generating unit 20A is provided to the holding unit 10A, and the holding unit 10A can be attached to the breast pump body 200A. Preferably, the holding unit 10A is detachably mounted to the breast pump body 200A so as to respectively care for the hot compress device 100A and the breast pump body 200A in the subsequent stage.

With continued reference to fig. 8, the heat generating unit 20A includes a heat generating portion 21A, in which the heat generating portion 21A is provided in the holding unit 10A, for example, the heat generating portion 21A may be provided inside the holding unit 10A, or the heat generating portion 21A is formed inside the holding unit 10A, and when the heat generating portion 21A is supplied with energy (e.g., supplied with electric energy), the heat generating portion 21A can generate heat and raise the temperature of the holding unit 10A by heating the holding unit 10A.

The holding unit 10A further includes a holding case 11A and a power feeding case 13A, wherein the power feeding case 13A is provided to the holding case 11A, and the power feeding case 13A is detachably mountable to the breast pump body 200A, the heat generating portion 21A is provided inside the holding case 11A, or the heat generating portion 21A is formed inside the holding case 11A. Before the breast pump is used for pumping milk, the heat generating portion 21A can be supplied with electric power to generate heat so that the temperature of the holding case 11A is raised to a suitable range, for example, the temperature of the holding case 11A can be heated to a range corresponding to the body temperature of the user, and then the holding case 11A of the hot compress device 100A is brought into contact with the breast of the user to perform a pumping operation by the breast pump. It will be appreciated that the heat application device 100A generates heat to avoid irritation of the user's breast during use of the breast pump to pump milk.

Further, hot compress device 100A has a hot compress space 30A and a intercommunication passageway 40A, wherein intercommunication passageway 40A communicate in hot compress space 30A, works as power supply casing 13A in order to be installed in breast pump body 200A's mode makes hot compress device 100A installed in breast pump body 200A and formation during the breast pump, hot compress device 100A hot compress space 30A pass through intercommunication passageway 40A with breast pump body 200A communicates. Utilize when the breast pump sucks milk, user's breast can be held in the hot compress space 30A, breast pump body 200A passes through intercommunication passageway 40A makes form the negative pressure environment in the hot compress space 30A, so that breast milk certainly hot compress space 30A with intercommunication passageway 40A enters into in the breast pump body 200A to accomplish the action of sucking milk.

Preferably, at least a part of the hot compress device 100A is deformable, so that when the breast pump body 200A passes through the communication channel 40A makes negative pressure environment is formed in the hot compress space 30A, because the hot compress device 100A's the pressure difference of the hot compress space 30A and external environment makes at least a part of the hot compress device 100A produce deformation, at this moment, after deforming the hot compress device 100A can imitate the sucking action of the baby to extrude breast milk from the breast, so that the extruded breast milk enters into the hot compress space 30A and the communication channel 40A in the breast pump body 200A to accomplish the action of sucking milk.

The heat application device 100A further includes a power supply unit 50A, wherein the power supply unit 50A is provided in the power supply case 13A, and the heat generating portion 21A can be electrically connected to the power supply unit 50A, so that when the power supply unit 50A is provided to supply power to the heat generating portion 21A, the heat generating portion 21A can generate heat to cause at least a part of the holding case 11A and the temperature of the heat application space 30A to be raised to a suitable range.

The holding case 11A further includes a first side portion 111A and a second side portion 112A, wherein the heat generating portion 21A is disposed between the first side portion 111A and the second side portion 112A, so that the heat generating portion 21A is disposed inside the holding case 11A.

In this example of the heat application device 100A shown in fig. 8, the first and second side portions 111A and 112A of the holding case 11A and the power supply case 13A are integrally formed, and the heat generating portion 21A can be formed between the first and second side portions 111A and 112A. For example, the heat generating portion 21A may be placed in a molding die, and then a molding material may be added to the molding die, the molding material wrapping both sides of the heat generating portion 21A in the molding die to form the first side portion 111A and the second side portion 112A of the holding case 11A and the power supply case 13A on both sides of the heat generating portion 21A, so that the heat generating portion 21A is located between the first side portion 111A and the second side portion 112A of the holding case 11A.

It is worth mentioning that, in an example of the fomentation device 100A of the present invention, the power supply unit 50A may be integrally formed inside the power supply housing 13A. In other examples of the fomentation device 100A of the present invention, the power supply case 13A integrally formed with the holding case 11A may first form a receiving space for receiving the power supply unit 50A later.

Of course, in other examples, the heat generating portion 21A may be located between the integrally formed holding cases 11A, and then the power supply case 13A may be mounted on or fixed to the holding cases 11A, but the heat application device 100A of the present invention is not limited in this respect.

After the holding case 11A is formed, the first side 111A of the holding case 11A forms the heat application space 30A and the communication channel 40A communicating with the heat application space 30A. In addition, the retaining shell 11A is flexible to allow at least a portion of the retaining shell 11A to deform, for example, when the air pressure in the hot application space 30A formed by the first side 111A of the retaining shell 11A is reduced, at least a portion of the retaining shell 11A deforms to allow the deformed hot application device 100A to express milk from the breast in a manner that mimics the sucking action of an infant.

The holding unit 10A further includes a temperature-maintaining portion 12A, in which in this example of the heat compressing device 100A shown in FIG. 8, a layer of heat insulating material is applied to the outer portion 212A of the heat generating portion 21A before the holding case 11A is molded by the molding die so that the heat insulating material forms the temperature-maintaining portion 12A, and then the holding case 11A that is wrapped around the inner portion 211A of the heat generating portion 21A and the outer portion 212A is formed by the molding die, wherein the inner portion 211A of the heat generating portion 21A corresponds to the first side portion 111A of the holding case 11A and the outer portion 212A of the heat generating portion 21A2 corresponds to the second side portion 112A of the holding case 11A.

It is understood that the temperature-maintaining portion 12A is located at the outer side portion 212A of the heat-generating portion 21A, in such a manner that the temperature-maintaining portion 12A can prevent the heat generated by the heat-generating portion 21A from being conducted to the external environment of the heat application device 100A to improve the utilization rate of the heat generated by the heat-generating portion 21A.

Nevertheless, it will be understood by those skilled in the art that the heat insulating material may also be applied to the outer surface of the second side portion 112A of the retention housing 11A after the retention housing 11A is formed to form the temperature maintenance portion 12A at the outer surface of the second side portion 112A of the retention housing 11A, referring to FIG. 9.

In other examples, the temperature holding portion 12A may be a single component, which is placed in the molding die at the same time as the heat generating portion 21A and the temperature holding portion 12A overlapped with each other after being overlapped on the outer side portion 212A of the heat generating portion 21A, so that the molding material forms the holding case 11A enclosing the heat generating portion 21A and the temperature holding portion 12A in the molding die, wherein the temperature holding portion 12A is located on the outer side portion 212A of the heat generating portion 21A, thereby preventing the heat generated by the heat generating portion 21A from being conducted to the external environment of the fomentation device 100A by the temperature holding portion 12A to improve the utilization rate of the heat generated by the heat generating portion 21A.

In this example of the heat application device 100A shown in fig. 10, the first side 111A and the second side 112A of the holding case 11A may also be separately formed and then the first side 111A and the second side 112A are mounted together. Specifically, the temperature-maintaining portion 12A is first formed on the outer portion 212A of the heat generating portion 21A by coating the heat insulating material, and then the first side portion 111A and the second side portion 112A are mounted together in such a manner that the inner portion 211A of the heat generating portion 21A corresponds to the first side portion 111A and the outer portion 212A of the heat generating portion 21A corresponds to the second side portion 112A, with the holding case 11A wrapped around the outside of the heat generating portion 21A, and with the temperature-maintaining portion 12A located on the outer portion 212A of the heat generating portion 21A.

Nevertheless, it will be understood by those skilled in the art that the temperature-maintaining portion 12A may be formed first by coating the heat insulating material on the inner and/or outer surfaces of the second side portion 112A, respectively, and then the first and second side portions 111A and 112A may be mounted together with the holding case 11A wrapped around the heat generating portion 21A and the temperature-maintaining portion 12A located on the outer portion 212A of the heat generating portion 21A in such a manner that the inner portion 211A of the heat generating portion 21A corresponds to the first side portion 111A and the outer portion 212A of the heat generating portion 21A corresponds to the second side portion 112A.

In this example of the heat application device 100A shown in fig. 11, the temperature holding portion 12A formed separately may be provided to overlap the outer side portion 212A of the heat generating portion 21A, and then the first side portion 111A and the second side portion 112A may be mounted together in such a manner that the inner side portion 211A of the heat generating portion 21A corresponds to the first side portion 111A and the temperature holding portion 12A corresponds to the second side portion 112A, with the holding case 11A wrapped outside the heat generating portion 21A, and with the temperature holding portion 12A located on the outer side portion 212A of the heat generating portion 21A.

In this example of the heat application device 100A shown in fig. 12, the holding case 11A may have only one first side portion 111A, in which the heat generating portion 21A is disposed between the first side portion 111A and the temperature holding portion 12A which overlap each other so that the inner side portion 211A of the heat generating portion 21A corresponds to the first side portion 111A and the outer side portion 212A of the heat generating portion 21A corresponds to the temperature holding portion 12A, so that the temperature holding portion 12A is located at the outer side portion 212A of the heat generating portion 21A to prevent heat generated by the heat generating portion 21A from being radiated from the outer side portion 212A of the heat generating portion 21A to the outside of the heat application device 100A. However, it will be understood by those skilled in the art that in other examples of the heat application device 100A, the second side 112A of the holding enclosure 11A may also form the temperature-holding portion 12A.

In this embodiment of the heat application device 100A shown in FIG. 13, the power supply housing 13A is detachably mounted to the holding housing 11A. Specifically, the second side portion 112A of the holding case 11A forms a mounting element 1121A, and the power supply case 13A is mounted to the mounting element 1121A of the second side portion 112A.

More specifically, the heat generating unit 20A further includes a conductive portion 22A, wherein the conductive portion 22A includes a first conductive element 221A and a second conductive element 222A, wherein the first conductive member 221A is disposed on the second side portion 112A, and the first conductive member 221A is electrically connected to the heat generating portion 21A, wherein the second conductive member 222A is disposed in the power supply housing 13A, and the second conductive member 222A is electrically connected to the power supply unit 50A, wherein when the power supply unit 50A is mounted to the mounting element 1121A of the holding case 11A, the first conductive component 221A and the second conductive component 222A of the conductive portion 22A are conducted, so that the power supply unit 50A can supply electric power to the heat generating portion 21A to cause the heat generating portion 21A to generate heat.

Preferably, the first conductive element 221A is disposed on the mounting element 1121A, and at least a portion of the first conductive element 221A is exposed to an outer wall of the mounting element 1121A, and at least a portion of the second conductive element 222A is exposed to the power supply housing 13A, wherein when the power supply housing 13A is mounted on the mounting element 1121A, the first conductive element 221A and the second conductive element 222A are conducted due to contact therebetween.

It should be noted that the manner in which the power supply housing 13A is mounted to the mounting element 1121A is not limited in the heat application device 100A of the present invention, for example, the power supply housing 13A may form a mounting cavity so that the mounting element 1121A is inserted into and held in the mounting cavity of the power supply housing 13A, so that the power supply housing 13A is mounted to the mounting element 1121A, and for example, the power supply housing 13A is provided with a magnetic element and the mounting element 1121A is provided with a magnetic element, and the magnetic element of the power supply housing 13A and the magnetic element of the mounting element 1121A are mounted to the mounting element 1121A by being close to each other to generate magnetic attraction force.

In this application of the heat application device 100A shown in FIG. 14, the heat application device 100A is mounted to the breast pump body 200A in such a manner that the mounting elements 1121A are inserted into and held by the breast pump body 200A to form the breast pump.

In this application of the heat application device 100A shown in FIG. 15, the holding unit 10A has at least one fixing portion 14A, wherein the fixing portion 14A can be disposed between the holding case 11A and the trumpet-shaped opening of the breast pump body 200A such that the heat application device 100A is disposed in the holding case 11A by the fixing portion 14A. The type of the fixing portion 14A is not limited in the hot compress device 100A of the present invention, for example, the fixing portion 14A may be glue or double-sided tape, etc., as long as the hot compress device 100A can be fixed to the breast pump body 200A.

It is noted that each of the described heat application devices 100 shown in fig. 1-14 is merely an example, wherein features of different embodiments may be combined with each other to obtain an embodiment that is easily contemplated in accordance with the present disclosure but is not explicitly indicated in the drawings.

Those skilled in the art will appreciate that the embodiments of the present invention illustrated in the drawings and described above are merely examples of the invention and not limitations.

It can thus be seen that the objects of the invention have been fully and effectively accomplished. The embodiments have been fully illustrated and described for the purpose of explaining the functional and structural principles of the present invention, and the present invention is not limited by changes based on the principles of these embodiments. Accordingly, this invention includes all modifications encompassed within the scope and spirit of the following claims.

Claims (25)

1. A heat application device, comprising:

a heat generating unit, wherein the heat generating unit includes a heat generating portion having an inner portion and an outer portion corresponding to the inner portion; and

a holding unit, wherein the holding unit includes a holding case including a first side portion, wherein the heat generating portion is provided to the holding case, and the inner side portion of the heat generating portion corresponds to the first side portion of the holding case, so that the first side portion separates the heat generating portion and a portion to be heated when the heat application device is used.

2. The heat application device of claim 1, wherein the heat generating portion is provided to the holding case in such a manner that the first side portion is integrally formed on the inner side portion of the heat generating portion.

3. The heat application device of claim 1, wherein the first side of the retaining unit forms a heat application space, the heat generating portion surrounding the heat application space.

4. The heat application device of claim 3, wherein the holding unit has a communication channel, the communication channel communicating with the heat application space.

5. The heat application device of claim 1, wherein the holding case includes a second side portion, wherein the heat generating portion is disposed in the holding case in such a manner as to be held between the first side portion and the second side portion.

6. The heat application device of claim 5, wherein the first and second sides of the holding shell are mounted to each other and the heat generating portion is held between the first and second sides.

7. The heat application device of claim 5, wherein the first side of the holding enclosure is detachably mounted to the second side, and the heat generating portion is held between the first side and the second side after the first side is mounted to the second side.

8. The heat application device of claim 5, wherein the first side of the holding case is detachably mounted to the heat generating portion, and the heat generating portion is held between the first side and the second side after the first side is mounted to the heat generating portion.

9. The heat application device of claim 5, wherein the first and second side portions of the holding case are integrally formed at the inner and outer sides of the heat generating portion, respectively.

10. The heat application device according to any one of claims 1 to 9, wherein the holding unit further includes a temperature holding portion, wherein the temperature holding portion is held at the outer side portion of the heat generating portion.

11. The heat application device of any one of claims 5 to 9, wherein the holding unit further includes a temperature holding portion, wherein the temperature holding portion is disposed between the heat generating portion and the second side portion; or the holding unit further includes a temperature holding portion formed between the heat generating portion and the second side portion; or the holding unit further comprises a temperature holding part, wherein the temperature holding part is formed at the second side part; or the holding unit further comprises a temperature holding part, wherein the temperature holding part and the second side part are integrally formed; or the holding unit further comprises a temperature holding part, wherein the temperature holding part and the second side part are of an integrated structure.

12. The heat application device of any one of claims 1 to 9, further comprising a power supply unit, wherein the heat generating portion is electrically connected to the power supply unit.

13. The heat application device of claim 10, further comprising a power supply unit, wherein the heat generating portion is electrically connected to the power supply unit.

14. The heat application device of claim 11, further comprising a power supply unit, wherein the heat generating portion is electrically connected to the power supply unit.

15. A negative pressure massage system, comprising:

a negative pressure generating device; and

at least one heat application device, wherein the heat application device is set up in the negative pressure generating device, wherein the heat application device includes a heating unit and a holding unit and has a heat application space and intercommunication a intercommunication passageway in heat application space, wherein the heating unit includes a portion of generating heat, the portion of generating heat have an inside and correspond to an outside of inside, wherein the holding unit includes a holding casing, the holding casing includes a first lateral part, first lateral part forms the heat application space, wherein the portion of generating heat is set up in the holding casing, and the portion of generating heat the inside correspond to the holding casing first lateral part, wherein the negative pressure generating device passes through the intercommunication passageway makes the heat application space forms the negative pressure environment.

16. The negative pressure massage system of claim 15, wherein the negative pressure generating device causes the heat application space of the heat application device to alternately generate a first negative pressure and a second negative pressure, wherein the first negative pressure and the second negative pressure have different values.

17. The negative pressure massage system of claim 15, wherein the heat generating portion surrounds the heat application space.

18. The negative pressure massage system of claim 17, wherein the retaining housing includes a second side, wherein the heat generating portion is disposed in the retaining housing in a manner that is retained between the first side and the second side.

19. The negative pressure massage system of claim 18, wherein the first and second sides of the retaining housing are mounted to one another and the heat generating portion is retained between the first and second sides; or the first side portion of the holding case is detachably attached to the second side portion, and the heat generating portion is held between the first side portion and the second side portion after the first side portion is attached to the second side portion; or the first side portion of the holding case is detachably mounted to the heat generating portion, and the heat generating portion is held between the first side portion and the second side portion after the first side portion is mounted to the heat generating portion; or the first side portion and the second side portion of the holding case are integrally formed on the inner side portion and the outer side portion of the heat generating portion, respectively.

20. The negative pressure massage system according to any one of claims 15 to 19, wherein the holding unit further comprises a temperature holding portion, wherein the temperature holding portion is held at the outer side portion of the heat generating portion.

21. A breastpump, comprising:

a breast pump body; and

an at least hot compress device, wherein the hot compress device is set up in the breast pump body, wherein the hot compress device includes a heating unit and a holding unit and has a hot compress space and intercommunication a intercommunication passageway in hot compress space, wherein the heating unit includes a portion of generating heat, the portion of generating heat have an inside and correspond to an outside of inside, wherein the holding unit includes a holding casing, the holding casing includes a first lateral part, first lateral part forms the hot compress space, wherein the portion of generating heat is set up in the holding casing, and the portion of generating heat the inside correspond to the holding casing first lateral part, wherein the breast pump body passes through the intercommunication passageway makes the hot compress space produces the negative pressure.

22. The breast pump as set forth in claim 21 wherein the heat is wrapped around the heat application space.

23. The breast pump as set forth in claim 22 wherein the holding housing includes a second side, wherein the heat generating portion is disposed in the holding housing in a manner to be held between the first and second sides.

24. The breast pump as set forth in claim 23 wherein the first and second sides of the retaining housing are mounted to one another and the heat generating portion is retained between the first and second sides; or the first side portion of the holding case is detachably attached to the second side portion, and the heat generating portion is held between the first side portion and the second side portion after the first side portion is attached to the second side portion; or the first side portion of the holding case is detachably mounted to the heat generating portion, and the heat generating portion is held between the first side portion and the second side portion after the first side portion is mounted to the heat generating portion; or the first side portion and the second side portion of the holding case are integrally formed on the inner side portion and the outer side portion of the heat generating portion, respectively.

25. The breast pump as set forth in any one of claims 21 to 24 wherein the holding unit further comprises a temperature holding portion, wherein the temperature holding portion is held at the outer side portion of the heat generating portion.

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