CN219846675U - Proliferation scar elastic device for displaying compression pressure - Google Patents

Abstract

The utility model discloses a hypertrophic scar elastic device for displaying compression pressure, which comprises an elastic sleeve body and a pressure testing assembly, wherein the elastic sleeve body is in contact with the skin of a patient, the pressure testing assembly comprises a display module, a pressure sensor module, a wire sleeve and a connecting rope, the display module is positioned on the outer surface of the elastic sleeve body, the pressure sensor module is positioned between the elastic sleeve body and the skin, the display module is connected with the pressure sensor module, the inner end of the connecting rope is connected with the pressure sensor module, the outer end of the connecting rope is positioned outside the elastic sleeve body, the wire sleeve is of a hollow structure and sleeved outside the connecting rope, and the length of the wire sleeve is smaller than or equal to that of the connecting rope. The pressure testing component provided by the utility model measures the specific value of the pressing pressure applied by the elastic sleeve body to the scar, and the elastic sleeve body is replaced when the pressure reduction is detected, so that the treatment effect is ensured and the economic burden of a patient is reduced.

Description

Proliferation scar elastic device for displaying compression pressure

Technical Field

The utility model belongs to the technical field of medical rehabilitation instruments, and particularly relates to a hypertrophic scar elastic device for displaying compression pressure.

Background

After the wound surface on the skin heals, a more obvious scar is left, the image of a patient is affected, and therefore, the scar is very necessary to be eliminated. At present, the treatment mode for reducing and eliminating the scar is commonly carried out by using medicine treatment and adopting an elastic sleeve for treatment. Elastic sleeves are widely used because of low cost, small side effects and the like, but the elastic sleeves can have a pressure reduction phenomenon in use, and at the moment, a new elastic sleeve needs to be replaced to maintain the required compression pressure. The process of reducing the compression pressure of the elastic sleeve is difficult to find in time. There are also elastic sleeves capable of displaying pressure, such as the pressure garment for preventing hypertrophic scars of patent CN214966159U, but the pressure testing component of the pressure garment (elastic sleeve) with such a structure is integrated with the body of the elastic garment, while the pressure can be adjusted, the whole cost is very high, if the pressure garment is damaged, the pressure garment must be replaced integrally, the economical pressure of the patient is high, and in addition, the pressure garment with such a structure is very bulky and inconvenient to use. Therefore, it is necessary to provide an elastic sleeve device which is low in cost and can display the compression pressure in time.

Disclosure of Invention

In order to solve the technical problems, the utility model aims to provide the hypertrophic scar elastic device for displaying the compression pressure, the pressure testing component and the elastic sleeve body are of a split type structure, the pressure testing component measures the specific value of the compression pressure applied to the scar by the elastic sleeve body, and the elastic sleeve body is replaced when the pressure reduction is detected, so that the treatment effect is guaranteed and the economic burden of a patient is reduced.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a show hyperplasia scar resilient means of oppression pressure, includes elastic sleeve body and pressure test subassembly, elastic sleeve body and patient's skin contact, pressure test subassembly includes display module, pressure sensor module, wire sleeve and connects the rope, display module is in elastic sleeve body surface, pressure sensor module is in between elastic sleeve body and the skin, display module with pressure sensor module connects, the inner and the pressure sensor module of connecting the rope are connected, the outer end of connecting the rope is in outside the elastic sleeve body, the wire sleeve is hollow structure, and the cover is established outside connecting the rope, wire sleeve's length is less than or equal to the length of connecting the rope.

Preferably, the pressure sensor module comprises a wafer type pressure sensor and a substrate, wherein the wafer type pressure sensor is fixedly arranged on the substrate, the wafer type pressure sensor is connected with the display module through a circuit, and the substrate is connected with the connecting rope.

Preferably, the inner side surface of the elastic sleeve body is provided with shielding cloth, the transverse left side and the transverse right side of the shielding cloth are connected with the inner side surface of the elastic sleeve body, and a space for accommodating the pressure sensor module is formed between the shielding cloth and the elastic sleeve body.

Preferably, the surface of the shielding cloth facing the elastic sleeve body is a smooth surface.

Preferably, a first storage bag is arranged on the outer surface of the elastic sleeve body, a bag opening of the first storage bag faces upwards, and the display module is positioned in the storage bag.

Preferably, a pulling part is arranged at the outer end of the connecting rope, and the size of the pulling part is smaller than the inner diameter of the wire sleeve.

Preferably, a clamping notch is formed in the side face of the outer end portion of the wire sleeve.

Preferably, a second storage bag is arranged on the outer surface of the elastic sleeve body.

Preferably, the wire sleeve comprises a plurality of sub-sleeves, and a plurality of sub-sleeves are connected end to end.

The beneficial effects are that:

the pressure testing component and the elastic sleeve body are of a split type structure, the elastic sleeve body can realize the function of applying pressure to the skin scar, the pressure testing component is used for testing the value of the pressure applied to the skin scar by the elastic sleeve body, and the elastic sleeve body can be directly replaced when the pressure applied to the skin by the old elastic sleeve body is reduced due to lower production cost of the elastic sleeve body.

Drawings

FIG. 1 is a schematic view of the inner surface of the elastomeric sleeve body of the present utility model;

FIG. 2 is a schematic view showing a shielding cloth arranged on the inner surface of an elastic sleeve body;

FIG. 3 is a schematic view of the outer surface of the elastomeric sleeve body of the present utility model;

fig. 4 shows a schematic view of the outer end of the wire sleeve of the present utility model.

Reference numerals: the device comprises a 1-elastic sleeve body, a 2-display module, a 3-circuit, a 4-substrate, a 5-wafer type pressure sensor, a 6-wire sleeve, a 7-connecting rope, an 8-shielding cloth, a 9-first storage bag, a 10-second storage bag, a 11-clamping notch and a 12-pulling part.

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the following description will explain the specific embodiments of the present utility model with reference to the accompanying drawings. It is evident that the drawings in the following description are only examples of the utility model, from which other drawings and other embodiments can be obtained by a person skilled in the art without inventive effort.

The technical scheme of the utility model is described in detail in the following by specific embodiments.

The utility model provides a hypertrophic scar elastic device for displaying compression pressure, which can be used for scar removal of limbs or trunk areas, as shown in fig. 1-4, and comprises an elastic sleeve body 1 and a pressure testing component, wherein the elastic sleeve body 1 is in direct contact with the skin of a patient, pressure is applied to the scar position, the pressure testing component is connected with the elastic sleeve body 1 in a detachable mode, and concretely comprises a display module 2 and a pressure sensor module, the display module 2 is connected with the pressure sensor module, the pressure sensor module is positioned between the elastic sleeve body 1 and the skin, the display module 2 is positioned outside the elastic sleeve body 1, a power supply is easily understood in the display module 2, the display module 2 displays the numerical value measured by the pressure sensor module, and the display module 2 is a conventional display with the power supply.

The pressure sensor module comprises a wafer type pressure sensor 5 and a substrate 4, wherein the wafer type pressure sensor 5 is fixedly arranged on the substrate 4, the wafer type pressure sensor 5 is connected with the display module 2 through a circuit 3, the pressure test assembly further comprises a wire sleeve 6 and a connecting rope 7, one end of the connecting rope 7 is connected with the substrate 4, the wire sleeve 6 is of a hollow structure and sleeved outside the connecting rope 7, the length of the wire sleeve 6 is smaller than or equal to that of the connecting rope 7, and one end of the wire sleeve 6 is abutted to the substrate 4.

In the utility model, the pressure testing component and the elastic sleeve body 1 are of a split type structure, the elastic sleeve body 1 can realize the function of applying pressure to the skin scar, and the pressure testing component is used for testing the value of the pressure applied by the elastic sleeve body 1 to the skin scar, so that the elastic sleeve body 1 can be replaced in time.

The utility model has two use states, namely a rapid measurement mode and a continuous measurement mode, which are determined by the time that the pressure sensor module stays on the skin and the elastic sleeve body 1, and takes the scar as an example, the use method of the utility model is as follows:

wearing the elastic sleeve body 1 to enable the elastic sleeve body 1 to cover and press scars at the arm;

the connecting rope 7 passes through the wire sleeve 6 to extend out, and one end of the wire sleeve 6 is abutted with the base of the pressure testing assembly;

the substrate 4 of the pressure testing assembly is inserted between the skin and the elastic body along the edge of the elastic sleeve body 1, the wafer-type pressure sensor 5 is positioned between the substrate 4 and the elastic sleeve body 1, and then the substrate 4 is pushed into the middle position of the elastic body through the wire sleeve 6, so that the substrate 4 and the wafer-type pressure sensor 5 are close to scars, and the display module 2 is positioned outside the elastic sleeve body 1

After the substrate 4 and the wafer type pressure sensor 5 are pushed in place, the wire sleeve 6 is pulled out, one end of the connecting rope 7, which is not connected with the substrate 4, is positioned outside the elastic sleeve body 1, and then the wafer type pressure sensor 5 is used for measuring the compression pressure exerted by the elastic sleeve body 1 near the scar; finally, the substrate 4 and the wafer-type pressure sensor 5 are pulled out by the connection string 7.

In the process of pushing the substrate 4 by the guide sleeve and pulling out the substrate 4 by the connecting rope 7, the circuit 3 between the wafer type pressure sensor 5 and the display module 2 is hardly subjected to excessive pulling force, so that the connection between the wafer type sensor and the display module 2 is reliable, and poor contact condition can not occur due to the movement of the substrate 4 in the elastic sleeve body 1.

The production cost of the elastic sleeve body 1 is lower, when the old elastic sleeve body 1 is found to reduce the pressing pressure to the skin, the elastic sleeve body 1 can be directly replaced, and the pressure test assembly is also suitable for the new elastic sleeve body 1.

For the rapid measurement mode, the pressure test assembly can be suitable for pressure measurement of the elastic sleeve body 1 at different positions of a human body; for the continuous measurement mode, the display module 2 is connected and fixed with the outer side surface of the elastic sleeve body 1, so that the influence on the daily life of a patient is reduced as much as possible.

The thickness and volume of the substrate 4 and the wafer-type pressure sensor 5 are small, and the diameters of the connection string 7 and the line 3 are small, so that the substrate 4, the wafer-type pressure sensor 5, the connection string 7, and the line 3 are located between the skin and the elastic body, and the influence on the skin is small. In order to further reduce the influence on the skin and prevent sweat allergy at the contact position with the skin, the inner side surface of the elastic sleeve body 1 is provided with shielding cloth 8, the transverse left and right sides of the shielding cloth 8 are connected with the inner side surface of the elastic sleeve body 1, and a space for accommodating the substrate 4 and the wafer type pressure sensor 5 is formed between the shielding cloth 8 and the elastic sleeve body 1. Since the substrate 4 is not in direct contact with the skin, the substrate 4 does not cause skin allergy, and even in the continuous measurement mode, the influence of the presence of the substrate 4, the connection cord 7 and the wiring 3 on the skin is minimized.

It is easy to understand that, as shown in fig. 2, the longitudinal length of the shielding cloth 8 is greater than or equal to the longitudinal length of the elastic sleeve body 1, so that the substrate 4 is pushed between the shielding cloth 8 and the elastic sleeve body 1, and further, in order to reduce the resistance of pushing and pulling the substrate 4, the surface of the shielding cloth 8 facing the elastic sleeve body 1 is a smooth surface.

In order to ensure the stable connection between the display module 2 and the elastic sleeve body 1, as shown in fig. 3, a first storage bag 9 is disposed on the outer surface of the elastic sleeve body 1, and the opening of the first storage bag 9 faces upwards, so that the display module 2 is located in the storage bag.

The utility model designs the connection mode of the wire sleeve 6 and the connecting rope 7 passing through the wire sleeve 6, in the utility model, the wire sleeve 6 has the function of pushing the substrate 4 and the wafer type pressure sensor 5 into the elastic sleeve body 1, in the pushing process, the wire sleeve 6 needs to adjust the position of the substrate 4 between the elastic sleeve body 1 and the skin, the wire sleeve 6 needs to be separated from the substrate 4 after the pushing operation is finished, the indirect connection of the wire sleeve 6 and the substrate 4 can be realized in the mode that the connecting rope 7 passes through the wire sleeve 6, and in the process of adjusting the position of the substrate 4, the wire sleeve 6 is not separated from the substrate 4, and the quick separation of the wire sleeve 6 and the substrate 4 is also realized. Further, in order to improve the connection mode between the connection rope 7 and the wire sleeve 6, as shown in fig. 4, a pulling part 12 is disposed at the outer end of the connection rope 7, the size of the pulling part 12 is smaller than the inner diameter of the wire sleeve 6, a clamping notch 11 is disposed on the side surface of the outer end of the wire sleeve 6, and the pulling part 12 is located outside the clamping notch 11, so that the connection rope 7 and the wire sleeve 6 are fixedly connected. It is easy to understand that in the process of pushing or adjusting the substrate 4, the pulling part 12 pulls the connecting rope 7 to be clamped at the clamping notch 11 of the wire sleeve 6, the connecting rope 7 and the wire sleeve 6 form a whole, and when the wire sleeve 6 is pulled out, the pulling part 12 pulls the connecting rope 7 to be separated from the clamping notch 11 of the wire sleeve 6, and the pulling part 12 passes through the wire sleeve 6, so that the wire sleeve 6 is separated from the connecting rope 7.

In order to facilitate storage of the wire sleeve 6, as shown in fig. 3, a second storage pocket 10 is provided on the outer surface of the elastic sleeve body 1, and the wire sleeve 6 is inserted into the second storage pocket 10.

In order to be suitable for the elastic sleeve body 1 of different size specifications, wire sleeve 6 is the structure of multistage connection, and the drawing is not shown, including a plurality of sub-sleeves, sub-sleeve's one end sets up the internal thread face, and another end sets up the external thread face, and adjacent sub-sleeve passes through threaded connection and realizes fixedly, can increase and decrease sub-sleeve's quantity as required.

The embodiments of the present utility model are described in detail above. The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the core concepts of the utility model. It should be noted that it will be apparent to those skilled in the art that the present utility model may be modified and adapted without departing from the principles of the present utility model, and that such modifications and adaptations are intended to be within the scope of the appended claims.

Claims (9)

1. The utility model provides a show hyperplasia scar resilient means of oppression pressure, its characterized in that includes elastic sleeve body (1) and pressure test subassembly, pressure test subassembly includes display module (2), pressure sensor module, wire sleeve (6) and connecting rope (7), display module (2) are in elastic sleeve body (1) surface, pressure sensor module is in between elastic sleeve body (1) and the skin, display module (2) with pressure sensor module connects, the inner and the pressure sensor module of connecting rope (7) are connected, the outer end of connecting rope (7) is outside elastic sleeve body (1), wire sleeve (6) are hollow structure, and the cover is established outside connecting rope (7), the length of wire sleeve (6) is less than or equal to the length of connecting rope (7).

2. The hypertrophic scar elastic device for displaying compression pressure according to claim 1, wherein the pressure sensor module comprises a wafer-type pressure sensor (5) and a base plate (4), the wafer-type pressure sensor (5) is fixedly arranged on the base plate (4), the wafer-type pressure sensor (5) is connected with the display module (2) through a circuit (3), and the base plate (4) is connected with a connecting rope (7).

3. The hypertrophic scar elastic device for displaying compression pressure according to claim 1, wherein the inner side surface of the elastic sleeve body (1) is provided with shielding cloth (8), the lateral left and right sides of the shielding cloth (8) are connected with the inner side surface of the elastic sleeve body (1), and a space for accommodating a pressure sensor module is formed between the shielding cloth (8) and the elastic sleeve body (1).

4. A hypertrophic scar elastic device exhibiting compression pressure according to claim 3, wherein the side of the shielding cloth (8) facing the elastic sleeve body (1) is a smooth side.

5. The hypertrophic scar elastic device for displaying compression pressure according to claim 1, wherein the outer surface of the elastic sleeve body (1) is provided with a first storage bag (9), the bag mouth of the first storage bag (9) faces upwards, and the display module (2) is positioned in the storage bag.

6. The hypertrophic scar elastic device displaying compression pressure according to claim 1, wherein the outer end of the connecting rope (7) is provided with a pulling part (12), and the pulling part (12) is smaller in size than the inner diameter of the wire sleeve (6).

7. The elastic device for indicating the compression pressure hypertrophic scar according to claim 6, wherein the lateral surface of the outer end of the wire sleeve (6) is provided with a clamping notch (11).

8. The elastic device for hypertrophic scar exhibiting compression pressure according to claim 1, wherein the outer surface of the elastic sleeve body (1) is provided with a second storage pocket (10).

9. The hypertrophic scar elastic device exhibiting compression pressure according to claim 1, wherein the wire sleeve (6) comprises a plurality of sub-sleeves, which are connected end to end.