CN219070874U - Inflatable supercharged incision hernia binder - Google Patents

Abstract

The utility model discloses an inflatable supercharged incision hernia binder, and relates to the technical field of incision hernia binders. The inflatable abdominal belt comprises an abdominal belt component, an inflatable pressurizing component, a fastening component and a ventilation component, wherein the left side and the right side of the abdominal belt component are symmetrically connected with a binding belt component, the inside of the binding belt component is connected with the ventilation component, the inside of the binding belt component is connected with the inflatable pressurizing component, and one side of the ventilation component is connected with the fastening component. According to the abdomen belt, the inflatable pressurization assembly is arranged, the inflatable pressurization effect is achieved, the abdomen belt is stably bound on the abdomen of a patient, the abdomen belt is prevented from moving on the abdomen of the patient, recovery of an abdomen wound of the patient is facilitated, the abdomen belt is convenient to wear on the abdomen position by a patient by self through the fastening assembly, further, the workload of medical staff is reduced, and the ventilation effect of the abdomen belt bound on the abdomen of the patient is improved through the ventilation assembly, and further, anaphylactic reaction of the patient caused by long wearing time of the abdomen belt is avoided.

Description

Inflatable supercharged incision hernia binder

Technical Field

The utility model belongs to the technical field of incision hernia binder, and particularly relates to an inflatable supercharged incision hernia binder.

Background

Incisional hernias are external hernias that form under the action of intra-abdominal pressure, typically seen in anterior abdominal wall incisions, due to the non-healing of the fascia or muscle layers of the surgical incision in the abdominal wall; during the treatment of hernia, the binder is an effective and convenient treatment tool.

However, the following drawbacks still exist in practical use:

1. the existing incisional hernia binder has a single structure, so that the existing incisional hernia binder cannot be subjected to inflation pressurization adjustment, and further the pressure on the incisional hernia can not be adjusted, and recovery of wounds of patients is not facilitated;

2. the existing incisional hernia binder adopts the magic tape for binding, but the viscosity of the magic tape is easy to be reduced after repeated long-time sticking, so that the binder is loosened, and part of binder adopts the hook snap fastener, so that the patient is not easy to wear the binder by himself;

3. the ventilation effect of the traditional incision hernia binder after being worn is poor, so that anaphylactic reaction is easy to generate when a patient wears the traditional incision hernia binder for a long time, and the wound recovery of the patient is not facilitated.

Therefore, the conventional incisional hernia binder cannot meet the needs in practical use, so that there is an urgent need for an improved technique in the market to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide an inflatable supercharged incision hernia binder, which solves the problems that the pressure on an incision hernia part cannot be regulated, a patient is not easy to wear by himself or herself, and anaphylactic reaction is easy to occur when the patient wears the conventional incision hernia binder for a long time due to the arrangement of an inflatable supercharged assembly, a fastening assembly and a ventilation assembly.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to an inflatable supercharged incision hernia binder, which comprises a binder component, an inflatable supercharging component, a fastening component and a ventilation component, wherein the left side and the right side of the binder component are symmetrically connected with the binder component, the inside of the binder component is connected with the ventilation component, the inside of the binder component is connected with the inflatable supercharging component, and one side of the ventilation component is connected with the fastening component.

Further, the bellyband component comprises an elliptic anti-slip strip, cotton cloth and a massage ball; the outside of cotton front side is connected with oval antislip strip, and inside equidistant distribution of cotton front side has the massage ball, and first rectangle slot has all been seted up to cotton left and right sides, and specifically, oval antislip strip is the silica gel material, and silica gel has fine viscidity, has promoted the stability of cotton parcel behind patient's belly, and then has prevented that the cotton from shifting.

Further, the strap assembly comprises a rectangular insert, a strap and a protruding rod; the rectangular inserting block is connected with the binding belt in an up-down symmetrical mode, the protruding rod is connected to the inner side of the binding belt, and specifically, the binding belt is used for binding cotton cloth on the abdomen of a patient, so that the cotton cloth can wrap the abdomen of the patient stably, and the massaging ball is used for massaging the abdomen of the patient, so that comfort of the patient when the patient uses the bellyband is improved.

Further, the overall dimension of the rectangular inserting block is matched with the internal dimension of the first rectangular inserting groove, the rectangular inserting block is inserted into the first rectangular inserting groove, and particularly, the rectangular inserting block is matched with the first rectangular inserting groove, so that the position between cotton cloth and the binding belt can be conveniently determined, and the cotton cloth and the binding belt can be conveniently sewn.

Further, the ventilation assembly comprises mesh ventilation cloth, grooves and second rectangular slots; the mesh ventilation cloth is located and ties up the area inboard, and the mesh ventilation cloth upper and lower both sides are all seted up flutedly, and the second rectangle slot has been seted up in the mesh ventilation cloth outside, specifically, the existence of mesh ventilation cloth has promoted the ventilative effect that this binder was tied up on patient's belly, and then has avoided the anaphylactic reaction that the patient produced because of wearing this binder for a long time.

Further, the external dimension of the convex rod is matched with the internal dimension of the groove, the convex rod is spliced with the groove, and particularly, the convex rod and the groove are arranged, so that the position between the mesh ventilation cloth and the binding belt can be conveniently determined, and the mesh ventilation cloth and the binding belt can be conveniently sewn.

Further, the inflating and pressurizing assembly comprises an air inlet pipe, a T-shaped rubber plug and a U-shaped air bag; the U-shaped air bag rear side is connected with the tie belt front side, and U-shaped air bag upper portion one side intercommunication has the intake pipe, has filled T shape rubber buffer in the intake pipe, specifically, the existence of intake pipe for inject the inside gassing of U-shaped air bag, the existence of T shape rubber buffer for outside gas needle gets into inside the intake pipe, and has avoided the inside gaseous discharge of U-shaped air bag, and then has realized the effect of inflation pressure boost, and then makes the tie belt more stable with this binder bandage in patient's belly.

Further, the fastening component comprises a first lug, a first buckle, a second buckle and a second lug; the first buckle inboard side has the second buckle, and first buckle outside is connected with first lug, and the second buckle outside is connected with the second lug, specifically, the existence of first buckle and second buckle for connect two mesh ventilative cloth, and then bind this binder at patient's belly.

Further, the overall dimension of the first lug and the overall dimension of the second lug are matched with the internal dimension of the second rectangular slot, the first lug and the second lug are respectively inserted into the second rectangular slot on the mesh ventilation cloth on the left side and the right side of the cotton cloth, specifically, the first lug and the second rectangular slot are convenient to determine the position between the first buckle and the mesh ventilation cloth, and further the sewing of the first buckle and the mesh ventilation cloth is facilitated, the second lug and the second rectangular slot are convenient to determine the position between the second buckle and the mesh ventilation cloth, and further the sewing of the second buckle and the mesh ventilation cloth is facilitated.

The utility model has the following beneficial effects:

1. according to the utility model, the inflatable pressurizing assembly is arranged, so that when a user inflates the U-shaped air bag, the inflatable pressurizing effect is realized, and the binding belt is more stably bound on the abdomen position of the patient, namely, the stability of the binding of the binder on the abdomen of the patient is improved, the binder is prevented from moving on the abdomen of the patient, and the recovery of the wound of the abdomen of the patient is facilitated.

2. According to the abdomen belt, the fastening component is arranged, so that a patient can wear the abdomen belt on the abdomen by himself, and the workload of medical staff is reduced;

3. according to the abdomen belt, the ventilation assembly is arranged, so that the ventilation effect of the abdomen belt bound on the abdomen of a patient is improved, anaphylactic reaction of the patient due to long wearing time of the abdomen belt is avoided, and comfort of the patient wearing the abdomen belt is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an inflatable supercharged incision hernia binder;

FIG. 2 is a schematic view of the configuration of the binder assembly;

FIG. 3 is a schematic structural view of the strap assembly;

FIG. 4 is a schematic structural view of a ventilation assembly;

FIG. 5 is a schematic diagram of a ventilation assembly;

FIG. 6 is a schematic structural view of a plenum assembly;

figure 7 is a schematic structural view of a fastening assembly.

In the drawings, the list of components represented by the various numbers is as follows:

1. a binder assembly; 11. an elliptical antiskid strip; 12. cotton cloth; 13. a first rectangular slot; 14. a massage ball; 2. a plenum assembly; 21. an air inlet pipe; 22. t-shaped rubber plugs; 23. u-shaped air bags; 3. a strap assembly; 31. rectangular inserting blocks; 32. binding belts; 33. a protruding rod; 4. a fastening assembly; 41. a first bump; 42. a first buckle; 43. a second buckle; 44. a second bump; 5. a ventilation assembly; 51. mesh ventilation cloth; 52. a groove; 53. and a second rectangular slot.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1 to 7, the utility model discloses an inflatable supercharged incision hernia binder, which comprises a binder component 1, an inflatable supercharged component 2, a fastening component 4 and a ventilation component 5, wherein the left side and the right side of the binder component 1 are symmetrically connected with a binding band component 3, the inside of the binding band component 3 is connected with the ventilation component 5, the inside of the binding band component 3 is connected with the inflatable supercharged component 2, and one side of the ventilation component 5 is connected with the fastening component 4;

specifically, the user aims the inner side of the bellyband assembly 1 at the abdominal wound of the patient, wraps the cotton cloth 12 at the abdominal wound of the patient, and the massaging ball 14 massages the abdomen of the patient, and the elliptic anti-slip strip 11 is tightly attached to the abdomen of the patient;

the user wraps the bandage assembly 3 around the patient's waist, i.e., the bandage 32 is wrapped around the patient's waist, and the mesh ventilation cloth 51 is wrapped around the patient's waist;

the user applies external force to the binding belt 32 in the direction close to the back side of the waist of the patient by hand, and the free end of the binding belt 32 and the outer end of the mesh ventilation cloth 51 are gradually close to the back side of the waist of the patient;

the user applies opposite external force to the first buckle 42 and the second buckle 43, the first buckle 42 and the second buckle 43 are buckled, namely the buckling assembly 4 is closed, and the abdominal belt is primarily bound on the abdomen of the patient;

the user pierces the T-shaped rubber plug 22 with the air needle on the external inflator and gets into inside the intake pipe 21, and the user controls the external inflator and inflates to the intake pipe 21 inside, and U-shaped air bag 23 is the bulge gradually, has realized the effect of inflating the pressure boost promptly, and the position of tie-up area 32 on the patient's belly is more stable.

As shown in fig. 1, 2 and 3, the bellyband assembly 1 comprises an elliptical antiskid strip 11, cotton cloth 12 and massage balls 14; the outside of the front side of the cotton cloth 12 is connected with an elliptical anti-slip strip 11, massage balls 14 are distributed at equal intervals in the inside of the front side of the cotton cloth 12, and first rectangular slots 13 are formed in the left side and the right side of the cotton cloth 12;

the strap assembly 3 comprises a rectangular insert 31, a binding band 32 and a protruding rod 33; the outer side of the rectangular insertion block 31 is symmetrically connected with a binding belt 32 up and down, and the inner side of the binding belt 32 is connected with a convex rod 33;

the external dimension of the rectangular inserting block 31 is matched with the internal dimension of the first rectangular inserting groove 13, and the rectangular inserting block 31 is inserted into the first rectangular inserting groove 13;

specifically, the user inserts the rectangular insert 31 into the first rectangular slot 13, and the user sews the rectangular insert 31 into the first rectangular slot 13 using an external needle and thread, and the binder band 32 is connected with the cotton cloth 12, and the binder band assembly 3 is connected with the binder band assembly 1.

Wherein, as shown in fig. 1, 3, 4 and 5, the ventilation assembly 5 comprises a mesh ventilation cloth 51, a groove 52 and a second rectangular slot 53; the mesh ventilation cloth 51 is positioned at the inner side of the binding belt 32, grooves 52 are formed at the upper side and the lower side of the mesh ventilation cloth 51, and a second rectangular slot 53 is formed at the outer side of the mesh ventilation cloth 51;

the external dimension of the convex rod 33 is matched with the internal dimension of the groove 52, and the convex rod 33 is inserted into the groove 52;

specifically, the user inserts the male bar 33 into the inside of the groove 52, the user sews the male bar 33 into the inside of the groove 52 using an external needle and thread, the mesh ventilation cloth 51 is connected with the binder band 32, and the ventilation assembly 5 is connected with the binder band assembly 3.

As shown in fig. 1 and 6, the air charging and pressurizing assembly 2 comprises an air inlet pipe 21, a T-shaped rubber plug 22 and a U-shaped air bag 23; the rear side of the U-shaped air bag 23 is connected with the front side of the binding belt 32, one side of the upper part of the U-shaped air bag 23 is communicated with an air inlet pipe 21, and the air inlet pipe 21 is filled with a T-shaped rubber plug 22;

specifically, the user pierces the T-shaped rubber plug 22 through the air needle on the external inflator and enters the air inlet pipe 21, the user controls the external inflator to inflate the air inlet pipe 21, the U-shaped air bag 23 gradually bulges, the effect of inflation pressurization is achieved, and the position of the binding belt 32 on the abdomen of the patient is more stable;

when the user discharges the T-shaped rubber plug 22 from the air inlet pipe 21, the air in the U-shaped air bag 23 is discharged from the air inlet pipe 21, and the U-shaped air bag 23 is gradually shrunken, so that the effect of exhausting and reducing pressure is realized.

Wherein, as shown in fig. 1, 5 and 7, the fastening component 4 comprises a first bump 41, a first buckle 42, a second buckle 43 and a second bump 44; the inner side of the first buckle 42 is provided with a second buckle 43, the outer side of the first buckle 42 is connected with a first lug 41, and the outer side of the second buckle 43 is connected with a second lug 44;

the external dimensions of the first protruding block 41 and the external dimensions of the second protruding block 44 are matched with the internal dimensions of the second rectangular slot 53, and the first protruding block 41 and the second protruding block 44 are respectively inserted into the second rectangular slot 53 on the mesh ventilation cloth 51 at the left side and the right side of the cotton cloth 12;

specifically, the user inserts the first protruding block 41 into the second rectangular slot 53, and the user sews the first protruding block 41 into the second rectangular slot 53 by using external needles and threads, and the first buckle 42 is in sewing connection with the mesh ventilation cloth 51;

the user inserts the second protruding block 44 into the second rectangular slot 53, the user uses the external needle and thread to sew the second protruding block 44 into the second rectangular slot 53, and the second buckle 43 is connected with the mesh ventilation cloth 51;

the user aligns the first buckle 42 and the second buckle 43, applies opposite external force to the first buckle 42 and the second buckle 43, and the first buckle 42 and the second buckle 43 are clamped, namely the fastening component 4 is connected, and the two mesh ventilation cloths 51 are connected; conversely, the fastening assembly 4 is disassembled.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (9)

1. The utility model provides an aerify booster-type incision hernia binder, includes binder subassembly (1), aerify booster assembly (2), fastening component (4) and ventilative subassembly (5), its characterized in that: the bellyband assembly (1) left and right sides symmetry is connected with bandage subassembly (3), bandage subassembly (3) internally connected has ventilative subassembly (5), bandage subassembly (3) inboard is connected with aerifys supercharging subassembly (2), ventilative subassembly (5) one side is connected with fastening subassembly (4).

2. An inflatable supercharged incision hernia binder as defined in claim 1, wherein: the bellyband assembly (1) comprises an elliptical antiskid strip (11), cotton cloth (12) and massage balls (14); the novel massage device is characterized in that the outside of the front side of the cotton cloth (12) is connected with the elliptical anti-slip strips (11), the massage balls (14) are distributed in the inside of the front side of the cotton cloth (12) at equal intervals, and the left side and the right side of the cotton cloth (12) are provided with first rectangular slots (13).

3. An inflatable supercharged incision hernia binder as defined in claim 1, wherein: the binding band assembly (3) comprises a rectangular insertion block (31), a binding band (32) and a convex rod (33); the outer side of the rectangular inserting block (31) is vertically symmetrically connected with the binding belt (32), and the inner side of the binding belt (32) is connected with the protruding rod (33).

4. A gas-filled, supercharged, incisional hernia binder as claimed in claim 3, wherein: the external dimension of the rectangular inserting block (31) is matched with the internal dimension of the first rectangular inserting groove (13), and the rectangular inserting block (31) is inserted into the first rectangular inserting groove (13).

5. An inflatable supercharged incision hernia binder as defined in claim 1, wherein: the ventilation assembly (5) comprises mesh ventilation cloth (51), a groove (52) and a second rectangular slot (53); the mesh ventilation cloth (51) is located at the inner side of the binding belt (32), grooves (52) are formed in the upper side and the lower side of the mesh ventilation cloth (51), and second rectangular slots (53) are formed in the outer side of the mesh ventilation cloth (51).

6. A gas-filled, supercharged, incisional hernia binder as claimed in claim 3, wherein: the external dimension of the protruding rod (33) is matched with the internal dimension of the groove (52), and the protruding rod (33) is inserted into the groove (52).

7. An inflatable supercharged incision hernia binder as defined in claim 1, wherein: the inflatable pressurization assembly (2) comprises an air inlet pipe (21), a T-shaped rubber plug (22) and a U-shaped air bag (23); the rear side of the U-shaped air bag (23) is connected with the front side of the binding belt (32), one side of the upper part of the U-shaped air bag (23) is communicated with the air inlet pipe (21), and the air inlet pipe (21) is filled with the T-shaped rubber plug (22).

8. An inflatable supercharged incision hernia binder as defined in claim 1, wherein: the fastening component (4) comprises a first lug (41), a first buckle (42), a second buckle (43) and a second lug (44); the first buckle (42) is provided with the second buckle (43) at the inner side, the first lug (41) is connected to the outer side of the first buckle (42), and the second lug (44) is connected to the outer side of the second buckle (43).

9. The inflatable supercharged incision hernia binder of claim 8 wherein: the external dimensions of the first protruding block (41) and the external dimensions of the second protruding block (44) are matched with the internal dimensions of the second rectangular slot (53), and the first protruding block (41) and the second protruding block (44) are respectively inserted into the second rectangular slot (53) on the mesh ventilation cloth (51) at the left side and the right side of the cotton cloth (12).

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