CN213641536U - Perineum hot compress pad - Google Patents

Abstract

The utility model belongs to the technical field of hot compress pad, a perineum hot compress pad is disclosed, including the layer that generates heat, the layer that generates heat includes at least one deck network fiber structure, inlay in network fiber structure's iron powder, salt and active carbon, and apply in the rubber coating layer on the network fiber structure layer, so that iron powder, salt and active carbon fixed set up in network fiber structure place layer. The utility model discloses a perineum hot compress pad distributes evenly, and the travelling comfort is strong, and the use pliability is strong.

Description

Perineum hot compress pad

Technical Field

The utility model belongs to the technical field of hot compress pad, more specifically says, the utility model relates to a perineum hot compress pad.

Background

In the prior art, before and after the natural delivery of a lying-in woman, the pain can cause the tension of muscles of the perineum, the tension of the muscles before the delivery is not beneficial to the spontaneous labor, the redness and swelling and edema of the perineum often appear after the delivery, and the swelling of the redness and swelling of the perineum is required to be reduced. After delivery, most of the patients are applied with gauze soaked by hot compress liquid at the perineum, and the period of detumescence is usually several days and is relatively long.

SUMMERY OF THE UTILITY MODEL

To the weak point that exists in the above-mentioned technique, the utility model provides a perineum hot compress pad can be used for before the childbirth and the use of lying-in woman after the childbirth, slows down muscle tension, slows down edema and red swelling.

In order to achieve these objects and other advantages in accordance with the present invention, the present invention provides a method for manufacturing a semiconductor device, comprising:

the utility model discloses a perineum hot compress pad, including the layer that generates heat, the layer that generates heat includes at least one deck reticular fiber structure, inlays in reticular fiber structure's iron powder, salt and active carbon to and scribble the rubber coating layer on the reticular fiber structure layer, so that iron powder, salt and active carbon are fixed to be set up in reticular fiber structure place layer.

Further, the perineum hot compress pad also comprises a non-woven fabric layer, a water absorption layer and a waterproof layer, wherein the non-woven fabric layer is coated on the periphery of the heating layer; the water absorption layer is arranged on one side of the non-woven fabric layer; the waterproof layer is arranged on the other side of the non-woven fabric layer.

Preferably, the layer that generates heat includes two-layer above reticular fiber structure, and the setting is folded to two-layer above reticular fiber structure, and every layer of reticular fiber structure all coats one deck rubber coating layer, and every layer of reticular fiber structure all inlays and has iron powder, salt and active carbon.

More preferably, the edges of the two or more layers of reticular fiber structures are adhered by a flexible adhesive, so that the two or more layers of reticular fiber structures are fixed.

Preferably, the perineum hot compress pad also comprises an air bag, and the air bag is loaded with gas and is expanded by heating; the non-woven fabric layer forms a bag structure, the air bag and the heating layer are arranged in the bag structure, and when the air bag is not heated, the bag structure is not filled with the air bag and the heating layer.

Wherein the reticular fiber structure is polyethylene fiber, and the rubber coating layer is xanthan gum rubber coating layer.

Wherein the flexible adhesive is Arabic gum.

Wherein, the water absorption layer is fluff pulp, and the water barrier layer is a PE film.

Furthermore, perineum hot compress pad still includes the polymer resin layer that absorbs water, and the polymer resin layer that absorbs water cladding is in the water barrier and absorbs water the layer periphery.

Further, the perineum hot compress pad further comprises an adhesive layer, and the adhesive layer is arranged on the high-molecular water-absorbing resin layer close to one side of the waterproof layer.

The utility model discloses at least, include following beneficial effect:

the utility model discloses a perineum hot compress pad, the layer that generates heat can be so that iron powder, salt and active carbon inlay in network structure's net through setting up network fiber structure, and iron powder, salt and active carbon etc. in the layer of avoiding generating heat are concentrated because of the action of gravity and are piled up the perineum hot compress pad that causes and generate heat inhomogeneous. This application embodiment can further assist and make iron powder, salt and active carbon etc. adhere to reticular fiber structure through the one side coating rubber coating layer at reticular fiber structure, and can guarantee reticular fiber structure's pliability. Thereby avoiding the discomfort of the perineum caused by the use of the user due to the over-hardness of the hot compress cushion in the prior art, and simultaneously avoiding the discomfort brought to the user due to the uneven height of the hot compress cushion caused by the scattered arrangement of the heating material in the hot compress cushion and the uneven heating caused by the accumulation of the heating material.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the heating layer of the perineum hot compress pad of the present invention;

fig. 2 is a schematic sectional structure view of a first embodiment of the perineum hot compress pad of the present invention;

fig. 3 is a schematic cross-sectional view of another embodiment of the heating layer of the perineum hot compress pad of the present invention;

fig. 4 is a schematic sectional view of a second embodiment of the perineum hot compress pad of the present invention;

fig. 5 is a schematic sectional view of a third embodiment of the perineum hot compress pad of the present invention;

fig. 6 is a schematic sectional view showing a fourth embodiment of the perineum hot compress pad of the present invention.

In the figure: 10. a heat generating layer; 11. a network fiber structure; 12. iron powder; 13. salt; 14. activated carbon; 15. gluing layers; 20. a non-woven fabric layer; 30. a water-absorbing layer; 40. a water barrier layer; 111. a first network of fibrous structures; 112. a second network of fibrous structures; 151. a first glue layer; 152. a second glue coating layer; 113. a flexible adhesive; 114. a hollow cavity; 50. a polymeric water absorbent resin layer; 60. and (6) an adhesive layer.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

< example 1>

As shown in fig. 1, the utility model provides a perineum hot compress pad, the utility model discloses a perineum hot compress pad, including layer 10 that generates heat, layer 10 that generates heat includes at least one deck reticular fiber structure 11, inlays in the iron powder 12, salt 13 and the active carbon 14 of reticular fiber structure 11 to and scribble the rubber coating layer 15 on reticular fiber structure 11 layer, so that iron powder 12, salt 13 and active carbon 14 are fixed to be set up in reticular fiber structure 11 place layer.

The perineum hot compress pad is the core content of the embodiment of the application, can be used for hot compressing the perineum of a puerpera 24h before delivery and 24h after delivery, and can relieve pain, so that the muscles of the perineum are relaxed. The heating layer 10 of the embodiment of the application can enable iron powder 12, salt 13 and active carbon 14 to be inlaid in the grid of the reticular fiber structure 11 by arranging the reticular fiber structure 11, and avoid uneven heating of the perineum hot compress pad caused by the concentrated accumulation of the iron powder 12, the salt 13, the active carbon 14 and the like in the heating layer 10 due to the gravity action. The embodiment of the present application can further assist in adhering the iron powder 12, the salt 13, the activated carbon 14, and the like to the reticular fiber structure 11 by coating the glue coating layer 15 on one side of the reticular fiber structure 11, and can ensure the flexibility of the reticular fiber structure 11. Thereby avoiding the discomfort of the perineum caused by the use of the user due to the over-hardness of the hot compress cushion in the prior art, and simultaneously avoiding the discomfort brought to the user due to the uneven height of the hot compress cushion caused by the scattered arrangement of the heating material in the hot compress cushion and the uneven heating caused by the accumulation of the heating material.

The heating layer 10 of the embodiment of the application can generate heat after contacting with air, the temperature is easy to control, the temperature is about 40 ℃, the duration time is 20-30 minutes, the duration time is longer, and the effect of hot compress is better.

Further, as shown in fig. 2, the perineum hot compress pad further comprises a non-woven fabric layer 20, a water absorption layer 30 and a water-proof layer 40, wherein the non-woven fabric layer 20 is coated on the periphery of the heating layer 10; the water absorption layer 30 is arranged on one side of the non-woven fabric layer 20; the water-barrier layer 40 is disposed on the other side of the non-woven fabric layer 20. This application embodiment is through setting up non-woven fabrics layer 20 for the parcel generates heat layer 10, and one step of fixing is carried out to layer 10 that generates heat, and simultaneously, the non-woven fabrics gas permeability is good, is favorable to generating heat layer 10's heat transfer. Through setting up layer 30 that absorbs water in non-woven fabrics layer 20 one side for when using postpartum, can absorb user's lochia on the one hand, on the other hand, after absorbing user's lochia, can make the moisture in the absorbed lochia see through non-woven fabrics layer 20 to layer 10 that generates heat, be favorable to generating heat of layer 10. Set up water barrier 40 through the opposite side at the non-woven fabrics, do not influence layer 10 that generates heat and absorb moisture on the one hand and carry out self-heating, on the other hand, can prevent that the excessive opposite side that permeates to the non-woven fabrics of lochia from causing the perineum hot compress pad to be unable to use, reduces the risk that lochia flows to on clothes or bedding.

As another preferred embodiment of the present application, as shown in fig. 3, the heat generating layer 10 includes two or more layers of reticular fiber structures 11, the two or more layers of reticular fiber structures 11 are stacked, each layer of reticular fiber structure 11 is coated with a glue coating layer 15, and each layer of reticular fiber structure 11 is embedded with iron powder 12, salt 13 and activated carbon 14. Through setting up two-layer or multilayer reticular fiber structure 11, every layer of reticular fiber structure 11 all coats a glue coat 15 and inlays and have iron powder 12, salt 13 and active carbon 14, can increase the total amount of the inlayed iron powder 12 of layer 10 that generates heat, salt 13 and active carbon 14, can use the thinner material of reticular fiber structure 11 simultaneously, and the stack more than two-layer can improve the pliability of material.

More preferably, the edges of two or more layers of reticular fiber structures 11 are adhered by the flexible adhesive 113, so that the two or more layers of reticular fiber structures 11 are fixed. This application embodiment is through pasting two-layer or multilayer reticular fiber structure 11's edge through flexible gluing agent 113 for reticular fiber structure 11 can reciprocal anchorage, in order to prevent reticular fiber structure 11 in the hot compress pad use, because the emergence of the individual layer folded condition of being kneaded out appears in the friction, avoids reticular fiber structure 11 to form unevenly. The edge of reticular fiber structure 11 in the embodiment of the application is pasted through flexible adhesive 113 for adjacent reticular fiber structure 11 forms a closed system, thereby can make reticular fiber structure can be effectual seal iron powder 12, salt 13 and active carbon 14 in the closed system that two-layer fiber structure formed, avoid iron powder 12, salt 13 and active carbon 14 to appear a small amount of piles that drop and cause in the reaction process, can effectual dispersion and be fixed in a certain fixed closed system with it. Specifically, in the embodiment of the present application, two reticular fiber structures 11 and two glue-coated layers 15 are taken as examples, and for convenience of distinction, in the embodiment of the present application, the two reticular fiber structures 11 are respectively named as a first reticular fiber structure 111 and a second reticular fiber structure 112; the two rubberized layers 15, respectively designated a first rubberized layer 151 and a second rubberized layer 152, which, in the present example, the periphery between the first reticular fiber structure 111 and the second reticular fiber structure 112 is provided with a flexible adhesive 113, a first adhesive coating layer 151 is arranged on one side of the first reticular fiber structure 111 away from the second reticular fiber structure 112, a second adhesive coating layer 152 is arranged on one side of the second reticular fiber structure 112 away from the first reticular fiber structure 111, a hollow cavity 114 is formed between the first reticular fiber structure 111 and the second reticular fiber structure 112, so as to accommodate the iron powder 12, the salt 13 or the activated carbon 14 protruding from the reticular fibrous structure 11, in the embodiment of the present invention, the first glue coating layer 151 and the second glue coating layer 152 are disposed outside the first reticular fibrous structure 111 and the second reticular fibrous structure 112 (on the side away from the hollow cavity 114), so as to prevent the iron powder 12, the salt 13 or the activated carbon 14 from falling off and overflowing. In other embodiments, the first rubber-coated layer 151, the first web-shaped fiber structure 111, the second rubber-coated layer 152, and the second web-shaped fiber structure 112 may be sequentially stacked, and the flexible adhesive 113 is disposed at the edge of the first web-shaped fiber structure 111 and the second rubber-coated layer 152.

In the embodiment of the present application, the material of the reticular fiber structure 11 is polyethylene fiber, the reticular polyethylene fiber has high structural strength, and is easy to be used for fixing a heating material, and the polyethylene fiber has high heat resistance and is not easy to deform when heated. In other embodiments, the material of the reticular fiber structure 11 can also be glass fiber or carbon fiber. In the embodiment of the present application, the rubber-coated layer 15 is xanthan gum, which has strong heat resistance, and the thickness of each rubber-coated layer 15 of xanthan gum in the embodiment of the present application is controlled to be 10nm to 10 μm, and in other embodiments, the rubber-coated layer 15 may also be a mixture of xanthan gum and arabic gum, or may also be arabic gum.

In the embodiment of the present application, the flexible adhesive 113 is an epoxy adhesive.

In the embodiment of the present application, the water-absorbing layer 30 is made of fluff pulp, and has good water absorption, rapid diffusion and good flexibility. The water-proof layer 40 is a polyethylene PE film, and the water-proof effect is good.

In the embodiment of the present application, as shown in fig. 4, the perineum hot compress pad further includes a high molecular water absorbent resin layer 50, and the high molecular water absorbent resin layer 50 is coated on the periphery of the water-resisting layer 40 and the water-absorbing layer 30. Specifically, in the embodiment of the present application, the high molecular water absorbent resin layer 50 covers the water-stop layer 40, the water-absorbent layer 30 and the nonwoven fabric layer 20, and the high molecular water absorbent resin layer 50 is disposed to further absorb the lochia liquid, thereby achieving a further protection effect.

Further, as shown in fig. 5 and 6, the perineum hot compress pad further comprises an adhesive layer 60, wherein the adhesive layer 60 is disposed on the high polymer water absorbent resin layer 50 near one side of the water-proof layer 40. Through setting up the sticky layer 60, be convenient for fix the clothing of user wearing with the hot compress of private yin pad, be convenient for fix.

In the embodiment of the application, each perineum hot compress pad can be provided with a waterproof outer package (not shown), when the perineum hot compress pad is not used, the invasion of water vapor is prevented, the outer package is opened when the perineum hot compress pad is used, and water oxygen in the air is combined with the heating layer 10 to generate heat.

While embodiments of the invention have been disclosed above, it is not intended to be limited to the applications listed in the specification and the examples. It can be applicable to various and be fit for the utility model discloses a field completely. Additional modifications will readily occur to those skilled in the art. The invention is therefore not to be limited to the specific details and illustrations shown and described herein, without departing from the general concept defined by the claims and their equivalents.

Claims (9)

1. A perineal hot compress pad, comprising:

generate heat layer (10), generate heat layer (10) include at least one deck reticular fiber structure (11), inlay in iron powder (12), salt (13) and active carbon (14) of reticular fiber structure (11), and apply in rubber coating layer (15) on reticular fiber structure (11) layer, so that iron powder (12), salt (13) and active carbon (14) fixed set up in reticular fiber structure (11) place layer, reticular fiber structure (11) are polyethylene fiber.

2. The perineal hot compress pad of claim 1 further comprising:

the non-woven fabric layer (20), the non-woven fabric layer (20) is coated on the periphery of the heating layer (10);

the water absorption layer (30), the water absorption layer (30) is arranged on one side of the non-woven fabric layer (20);

the waterproof layer (40), the waterproof layer (40) sets up in non-woven fabrics layer (20) the other side.

3. A perineum hot compress pad as claimed in claim 1, wherein the heat-generating layer (10) comprises more than two layers of reticular fiber structures (11), the more than two layers of reticular fiber structures (11) are arranged in a stacked mode, each layer of reticular fiber structure (11) is coated with a glue-coated layer (15), and each layer of reticular fiber structure (11) is embedded with iron powder (12), salt (13) and activated carbon (14).

4. A perineal hot compress pad as claimed in claim 3 wherein the edges of the two or more layers of reticulated fibre structures (11) are adhered by a flexible adhesive (113) to secure the two or more layers of reticulated fibre structures (11).

5. A perineal hot compress as claimed in claim 1 wherein the rubber coated layer (15) is xanthan and/or gum arabic.

6. A perineal hot compress as claimed in claim 4 wherein the flexible adhesive (113) is an epoxy adhesive.

7. A perineal hot compress pad as claimed in claim 2 wherein the water absorbent layer (30) is fluff pulp and the water barrier layer (40) is a polyethylene film.

8. A perineal hot compress pad as claimed in claim 2 further comprising a high molecular water absorbent resin layer (50), wherein the high molecular water absorbent resin layer (50) is coated on the periphery of the water-proof layer (40) and the water-absorbent layer (30).

9. A perineal hot compress pad as claimed in claim 8, characterized by comprising an adhesive layer (60), wherein the adhesive layer (60) is arranged on the high molecular water absorbent resin layer (50) on the side close to the water-proof layer (40).

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