CN213131608U - Bandage for physiotherapy - Google Patents

Abstract

The utility model relates to a bandage for physical therapy, which comprises a bandage body; the bandage body comprises a bag body with an accommodating cavity; the bottom of the bag body is provided with a first binding strip for binding to a wrist, the top of the bag body is provided with a second binding strip for bending to the back of the hand by bypassing the finger seam, and the left side or the right side of the bag body is provided with a third binding strip for bending to the back of the hand by bypassing the palm; the first binding strip is provided with two free ends, and the two free ends of the first binding strip are adhered through the magic tape to form a lantern ring sleeved on the wrist; the second binding strip and the third binding strip are adhered at the back of the hand through magic tapes; the containing cavity of the bag body is provided with an adhesive sheet; an electrode plate is fixed on the adhesive sheet, and the electrode of the electrode plate is arranged back to the palm. So, can wear medical personnel's hand with the bandage for the physiotherapy, when treating the patient, the removal of electrode piece is controlled through the removal of medical personnel's hand. Realizes the organic combination of manipulation and electrotherapy, and effectively improves the treatment effect.

Description

Bandage for physiotherapy

Technical Field

The utility model relates to the technical field of medical equipment, particularly, relate to a bandage for physiotherapy.

Background

When many patients with hemiplegia or paraplegia carry out rehabilitation treatment, the electrode plate needs to be fixed on the part to be treated by using the binding band, and then the muscles and acupuncture points at the corresponding positions are subjected to continuous electrical stimulation. In this process, the electrode sheet does not move, so that the same muscle is electrically stimulated for a long time continuously, which may cause tolerance, resulting in poor therapeutic effect. Moreover, the electric burn may be generated to the patient during the treatment process, and the electric burn is more obvious when the treatment is performed to the diabetic and the hemiplegic patient.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a physiotherapy bandage which can be worn on the hands of medical personnel, and when a patient is treated, the movement of an electrode plate is controlled by the movement of the hands of the medical personnel; realizes the organic combination of manipulation and electrotherapy, and effectively improves the treatment effect; meanwhile, the incidence of electric burns is effectively reduced.

The utility model adopts the following technical proposal:

a physiotherapy bandage comprises a bandage body;

the bandage body comprises a bag body with an accommodating cavity; the bottom of the bag body is provided with a first binding strip for binding to a wrist, the top of the bag body is provided with a second binding strip for bending to the back of the hand by bypassing the finger seam, and the left side or the right side of the bag body is provided with a third binding strip for bending to the back of the hand by bypassing the palm; wherein the content of the first and second substances,

the first binding strip is provided with two free ends, and the two free ends of the first binding strip are bonded through the magic tape to form a lantern ring sleeved on the wrist;

the second binding strip and the third binding strip are adhered at the back of the hand through magic tapes;

the containing cavity of the bag body is provided with an adhesive sheet; an electrode plate is fixed on the adhesive sheet, and the electrode of the electrode plate is arranged back to the palm.

In one possible embodiment, the material of the adhesive sheet is silica gel; the first binding strip, the second binding strip and the third binding strip are all made of flocking cotton cloth.

In a possible implementation mode, the first binding strip, the second binding strip and the third binding strip are connected with the magic tape in a sewing mode.

In a possible embodiment, one side of the accommodating cavity is an opening structure, and the opening side is provided with a sealing structure.

In a possible implementation mode, the bag body is also provided with a wire passing through hole for a power wire to pass through, one end of the wire passing through hole is communicated with the accommodating cavity, and the other end of the wire passing through hole extends to the outside of the bag body; the power line is electrically connected with the electrode plate.

By adopting the technical scheme, the method at least has the following beneficial effects:

(1) the physiotherapy band can be worn on the hands of medical personnel, and when the physiotherapy band is used for treating a patient, the electrode plates are controlled to move through the movement of the hands of the medical personnel. Realizes the organic combination of manipulation and electrotherapy, and effectively improves the treatment effect. Meanwhile, the incidence of electric burns is effectively reduced.

(2) Accords with human engineering for the bandage for physiotherapy can be better laminated at medical personnel's hand when wearing. In addition, the position stability of the physiotherapy bandage is high when the physiotherapy bandage is worn.

(3) The electrode slice is positioned in the accommodating cavity. In the long-term use process of the binding band, the electrode plate is not easy to fall off from the binding band.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a top view of an embodiment of a physiotherapy band of the present invention;

fig. 2 is a schematic view of the internal structure of the physiotherapy band shown in fig. 1;

FIG. 3 is a schematic view of the physio-band of FIG. 1 as worn;

fig. 4 is a bottom view of the physiotherapy band shown in fig. 1.

Icon: 110. a capsule body; 111. an accommodating chamber; 112. a wire passing through hole; 113. an adhesive sheet; 114. electrode pads, 115, power lines; 120. a second lashing bar; 130. a third lashing bar; 140. a first lashing bar; 150. magic tape.

Detailed Description

The technical solution in the present application will be described below with reference to the accompanying drawings.

Referring to fig. 1, 2, 3 and 4, the present application provides a band for physiotherapy, including a band body, the band body includes a bag body 110 having a receiving cavity 111, a first banding strip 140 for banding on a wrist is provided at the bottom of the bag body 110, a second banding strip 120 for bending to the back of the hand around the finger seam is provided at the top, and a third banding strip 130 for bending to the back of the hand around the palm is provided at the left side or the right side of the bag body 110. Wherein, first ligature strip 140 has two free ends, and two free ends of first ligature strip 140 are adhered through magic subsides 150 in order to form the lantern ring of cover on the wrist, and second ligature strip 120 and third ligature strip 130 are adhered through magic subsides 150 in back of the hand department. An adhesive sheet 113 is arranged in the accommodating cavity 111 of the capsule body 110, an electrode sheet 114 is fixed on the adhesive sheet 113, and the electrode of the electrode sheet 114 is arranged back to the palm.

The electrode sheet 114 is disposed opposite to the palm, and the exposed electrode of the electrode sheet is exposed outside the palm for electrically shocking the affected part.

In this embodiment, the physiotherapy band may be worn on the hand of the medical staff, and when the patient is treated, the movement of the electrode sheet is controlled by the movement of the hand of the medical staff. Realizes the organic combination of manipulation and electrotherapy, and effectively improves the treatment effect. Meanwhile, the incidence of electric burns is effectively reduced.

Overall structure is last, accords with human engineering for the bandage for the physiotherapy can better laminate in medical personnel's hand when wearing. In addition, the position stability of the physiotherapy bandage is high when the physiotherapy bandage is worn.

Taking a nonwoven fabric electrode sheet as an example, the nonwoven fabric electrode sheet may be stuck to the adhesive sheet 113. I.e., the electrode pads 114 are located within the receiving cavities 111. Thus, the electrode sheet 114 is not easily detached from the strap in the long-term use of the strap.

In a possible implementation mode, the material of the adhesive sheet 113 is silica gel, which can be used repeatedly, and the utilization rate of the material is improved. The first binding strip 140, the second binding strip 120 and the third binding strip 130 are all made of flocked cotton cloth. Flocking cotton and silica gel are all softer, and it comes to be more easily to expand in order to better laminating at medical personnel palm.

In a possible implementation, the bandage body is made by a monoblock flocking cotton cloth according to human hand engineering tailoring, and the processing efficiency is extremely high. In addition, the first lashing strip 140, the second lashing strip 120 and the third lashing strip 130 may also be separately manufactured and then sewn or adhered to the capsule body 110. The velcro strips may be sewn to the first, second, and third tie strips 140, 120, 130.

In a possible embodiment, one side of the accommodating cavity 111 is an opening structure, and the opening side is provided with a sealing structure (not shown in the figure). Specifically, the seal structure includes gauze and zip fastener, and wherein the banding is made up through the cloth piece in the edge of gauze, sets up the one side of zip fastener on the banding, and the edge that holds the chamber sets up the another side of zip fastener, is connected through the zip fastener and the edge that holds the chamber promptly.

Because the gauze has larger gaps, the current of the electrode plate can pass through, the electric shock to the affected part is not influenced, and the electrode plate can be firmly packaged.

In a possible embodiment, a wire through hole 112 for passing a power wire 115 is further provided in the capsule body 110, and one end of the wire through hole 112 is communicated with the accommodating cavity 111, and the other end is communicated with the outside of the capsule body 110. The power line 115 is electrically connected to the electrode pad 114. Here, it should be noted that one end of power line 115 located inside bladder 110 is electrically connected to electrode pad 114, and one end located outside bladder 110 is electrically connected to the physiotherapy instrument. Wherein, the wire harness regularity is effectively improved by the wire passing through hole 112.

The installation process of the electrode slice is as follows: the electrode sheet 114 is stuck to the adhesive sheet 113. Then, one end of the power line 115 far away from the electrode plate 114 passes through the through-line through-hole 112 and reaches the outside of the capsule body 110. After the adhesive sheet 113 to which the electrode sheet 114 is attached is placed in the accommodating chamber 111, the fastener chain is closed to seal one side opening of the accommodating chamber 111.

The wearing process of the bandage is as follows: firstly, the capsule body 110 is attached to the palm, then the first banding strip is banded at the wrist by the magic tapes arranged at the two free ends of the first banding strip 140, the second banding strip 120 is bent at the back of the hand after bypassing the gap between the middle finger and the ring finger, and then the strip-shaped third banding strip 130 is bent at the back of the hand after bypassing the gap between the thumb and the index finger. Then, the hook and loop fastener of the second lashing strip 120 is adhered to the hook and loop fastener of the third lashing strip 130. At this time, the bonding position is at the back of the hand. At this point, the wearing of the band is completed. Wherein, two free ends of the first lashing strip 140 can also be connected by adopting a male buckle matched with a female buckle, a hook or direct ligation. Or, the first bandage 120 is directly made into an elastic band with a circular ring structure to be sleeved on the wrist. The second and third bands 120, 130 may also be connected by male and female fasteners, hooks, or direct ligation. Or, the first lashing strip 140 and the second lashing strip 120 are directly replaced into circular structures respectively and used independently; when used alone, the utility model can be respectively sleeved on two fingers of medical staff.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (5)

1. A physiotherapy bandage is characterized by comprising a bandage body;

the strap body comprises a bladder body with a receiving cavity; the bottom of the bag body is provided with a first binding strip for binding to a wrist, the top of the bag body is provided with a second binding strip for bending to the back of the hand by bypassing a finger seam, and the left side or the right side of the bag body is provided with a third binding strip for bending to the back of the hand by bypassing the palm; wherein the content of the first and second substances,

the first binding strip is provided with two free ends, and the two free ends of the first binding strip are adhered through a magic tape to form a lantern ring sleeved on the wrist;

the second binding strip and the third binding strip are adhered at the back of the hand through magic tapes;

an adhesive sheet is arranged in the containing cavity of the bag body; an electrode plate is fixed on the adhesive sheet, and the electrode of the electrode plate is arranged back to the palm of the hand.

2. A physiotherapy bandage according to claim 1, wherein said adhesive sheet is made of silica gel; the first binding strip, the second binding strip and the third binding strip are made of flocking cotton cloth.

3. The bandage of claim 2 wherein said first, second and third straps are sewn to said Velcro strip.

4. A physiotherapy band according to claim 1, wherein said receiving cavity is open on one side and has a closure on the open side.

5. The bandage for physical therapy according to claim 1, wherein said balloon body is further provided with a thread through hole for a power cord to pass through, one end of said thread through hole is communicated with said containing cavity, and the other end of said thread through hole extends to the outside of said balloon body;

the power line is electrically connected with the electrode plate.

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