CN221181254U - PICC patient maintains with arm bearing structure - Google Patents

Abstract

The utility model provides an arm supporting structure for PICC patient maintenance, which comprises an upper fixing pad, a lower fixing pad, a connecting block and an adjustable binding band, wherein the upper surface of the upper fixing pad is downwards sunken to form an upper clamping groove; the upper surface of the lower fixing pad is recessed downwards to form a lower clamping groove; the connecting block is connected between the upper fixing pad and the lower fixing pad, and the upper surface of the connecting block is lower than the bottom of the upper clamping groove and the bottom of the lower clamping groove respectively; the adjustable bandage is connected to the upper fixing pad, so that disinfection and maintenance are prevented from being in place, comfort level can be improved, occupied space is small, sleeves are bound by the adjustable bandage, and sleeves are effectively prevented from sliding down to interfere with disinfection operation.

Description

PICC patient maintains with arm bearing structure

Technical Field

The utility model relates to the technical field of medical auxiliary instruments, in particular to an arm support structure for PICC patient maintenance.

Background

PICC (PERIPHERALLY INSERTED CENTRAL CATHETER, put into central venous catheter through peripheral vein), by peripheral venous puncture intubate for patient provides well long-term venous transfusion data, and need to disinfect etc. maintenance to puncture the pipe after using for a period to patient puncture, and when maintaining the pipe of puncture to the patient, need place patient's arm, thereby make puncture position expose, and then make things convenient for medical personnel to operate.

For example, CN211188602U, entitled PICC maintenance arm support, which supports a patient's arm by an arm support membrane connected between arm support plates, where the back side of the patient's arm is completely attached to the arm support membrane to expose the puncture site on the inner side of the arm. When medical staff needs to disinfect the back side of the arm of a patient, the patient needs to lean on the rotating arm, and the patient needs to be disinfected, dried and the like for a long time, so that the patient in the posture is uncomfortable to maintain. In addition, the arm support frame is large in size, occupies a large area when not in use, and is inconvenient to store and process. In addition, the common patient clothing is limited, so that the sleeves are easy to loose and slide down, and the disinfection operation is disturbed.

Disclosure of utility model

In order to solve the problems, the utility model provides an arm support structure for PICC patient maintenance, which can prevent disinfection and maintenance from being in place, improve comfort and occupy small space.

The utility model provides an arm support structure for PICC patient maintenance, comprising:

the upper surface of the upper fixing pad is recessed downwards to form an upper clamping groove;

the upper surface of the lower fixing pad is recessed downwards to form a lower clamping groove;

The connecting block is connected between the upper fixing pad and the lower fixing pad, and the upper surface of the connecting block is lower than the bottom of the upper clamping groove and the bottom of the lower clamping groove respectively;

an adjustable strap is connected to the upper mounting pad.

As the preferred embodiment, one end of the adjustable bandage is connected to one side of the width direction of the upper fixing pad, a button is arranged on the other side of the width direction of the upper fixing pad, a plurality of holes are formed in the adjustable bandage, and the holes are matched with the buttons.

As a preferred embodiment, the width of the adjustable strap is consistent with the thickness of the upper anchor pad.

As a preferred embodiment, the upper fixing pad includes an upper flexible body and an upper packing body, and the upper packing body is packed outside the upper flexible body;

The lower fixing pad comprises a lower flexible body and a lower inclusion, and the lower inclusion is wrapped outside the lower flexible body.

As a preferred embodiment, the upper flexible body and the lower flexible body are both made of sponge, and the upper wrapping body and the lower wrapping body are both made of leather.

As a preferred embodiment, the first clamping groove penetrates the upper fixing pad in a thickness direction of the upper fixing pad, and the lower clamping groove penetrates the lower fixing pad in a thickness direction of the lower fixing pad.

As a preferred embodiment, the first clamping groove is U-shaped, and the second clamping groove is U-shaped.

As a preferred embodiment, the upper fixing pad, the lower fixing pad, and the connection block are flush on both sides in the width direction.

As a preferred embodiment, the thickness dimension of the lower fixing pad is greater than the thickness dimension of the upper fixing pad.

As a preferred embodiment, the width of the upper fixing pad is 15cm, the thickness is 4cm, and the height is 10cm; the width of the lower fixing pad is 15cm, the thickness is 6cm, and the height is 10cm.

Compared with the prior art, the technical scheme has the following advantages:

The upper arm of patient can be placed in the last draw-in groove of last fixed bolster, the elbow joint is placed in the lower draw-in groove of lower fixed bolster, because the upper surface of connecting block is less than respectively go up the bottom of draw-in groove with the bottom of draw-in groove down, consequently can fully expose the puncture point and encircle disinfection area, no matter be the arm medial surface or the arm dorsal surface promptly, can disinfect, and then improve disinfection qualification rate, prevent polluting arm bearing structure moreover when disinfecting. The sleeves can be bound by the adjustable binding bands, so that the sleeves can be effectively prevented from sliding down to interfere with disinfection operation. In addition, the structure is simple and light, and the flexible storage is convenient. The connecting block is connected between the upper fixing pad and the lower fixing pad, so that the stability of the structure is improved.

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of an arm support structure for PICC patient maintenance according to the present utility model.

In the figure: 100 upper fixing pads, 110 upper clamping grooves, 200 lower fixing pads, 210 lower clamping grooves, 300 connecting blocks, 400 adjustable binding bands and 500 buttons.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the utility model. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the utility model 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 utility model.

As shown in fig. 1, the PICC patient maintenance arm support structure includes:

an upper fixing pad 100, wherein an upper surface of the upper fixing pad 100 is recessed downward to form an upper clamping groove 110;

A lower fixing pad 200, wherein the upper surface of the lower fixing pad 200 is recessed downward to form a lower clamping groove 210;

A connection block 300, wherein the connection block 300 is connected between the upper fixing pad 100 and the lower fixing pad 200, and the upper surface of the connection block 300 is lower than the bottom of the upper clamping groove 110 and the bottom of the lower clamping groove 210, respectively;

an adjustable strap 400, the adjustable strap 400 being attached to the upper mounting pad 100.

The upper arm of the patient can be placed in the upper clamping groove 110 of the upper fixing pad 100, the elbow joint is placed in the lower clamping groove 210 of the lower fixing pad 200, and the upper surface of the connecting block 300 is respectively lower than the bottom of the upper clamping groove 110 and the bottom of the lower clamping groove 210, so that the sterilization area around the puncture point can be fully exposed, namely, the inner side surface or the back side surface of the arm can be sterilized, the sterilization qualification rate is further improved, and the arm supporting structure is prevented from being polluted during sterilization. The sleeves can be bound by the adjustable binding band 400, so that the sleeves can be effectively prevented from sliding down to interfere with disinfection operation. In addition, the structure is simple and light, and the flexible storage is convenient. By connecting the connection block 300 between the upper fixing pad 100 and the lower fixing pad 200, the structural stability is increased.

The upper fixing pad 100 includes an upper flexible body and an upper packing body, the upper packing body being packed outside the upper flexible body; the lower fixing pad 200 includes a lower flexible body and a lower packing body, and the lower packing body is packed outside the lower flexible body.

The upper flexible body and the lower flexible body are both made of sponge, the sponge can be high-density memory sponge (polyurethane), and the upper wrapping body and the lower wrapping body are made of leather, so that the weight is reduced, and the comfort is improved. In addition, the connection block 300 may also include a flexible body and a package wrapped outside the flexible body, where the upper flexible body, the flexible body and the lower flexible body are integrally formed into a flexible whole, and the upper package, the package and the lower package may also be integrally wrapped outside the integral flexible whole, so that the structural integrity is ensured, and the stability and reliability of the structure are ensured.

The leather has the protection effects of water resistance, moisture resistance and collision resistance, is easy to wipe, and further prolongs the service life.

As shown in fig. 1, the upper fixing pad 100, the lower fixing pad 200, and the connection block 300 have identical widths, and the upper fixing pad 100, the lower fixing pad 200, and the connection block 300 are flush on both sides in the width direction, so that the structure is lighter.

The first clamping groove 110 penetrates the upper fixing pad 100 along the thickness direction of the upper fixing pad 100, and the lower clamping groove 210 penetrates the lower fixing pad 200 along the thickness direction of the lower fixing pad 200. Since the elbow joint is placed on the lower clamping groove 210 of the lower fixing pad 200, the lower fixing pad 200 provides a main force, so that the thickness dimension of the lower fixing pad 200 is greater than that of the upper fixing pad 100, and the contact area between the lower fixing pad 200 and the elbow joint is increased to increase the force.

The first clamping groove 110 is U-shaped, and the second clamping groove 210 is U-shaped to accommodate the elbow joint and the upper wall. The connection block 300 may have a rectangular parallelepiped shape, and its lower surfaces are flush with the lower surfaces of the upper and lower fixing pads 100 and 200, respectively, to ensure the stability of placement.

The width of the upper fixing pad 100 is 15cm, the thickness is 4cm, and the height is 10cm; the lower fixing pad 200 has a width of 15cm, a thickness of 6cm, and a height of 10cm. The height of the connection block 300 is 4cm.

As shown in fig. 1, one end of the adjustable strap 400 is connected to one side of the width direction of the upper fixing pad 100, a button 500 is disposed on the other side of the width direction of the upper fixing pad 100, a plurality of holes are formed in the adjustable strap 400, and the holes are matched with the button 500.

The adjustable strap 400 may be an elastic band that increases comfort and allows the patient's sleeves to be properly secured by the strap. The holes are arranged at intervals along the length direction of the adjustable binding band 400, and the holes are matched with the buttons 500 through the differences, so that the size enclosed by the adjustable binding band 400 and the first clamping groove 110 is adjusted, patients with different arm circumferences are applied, and applicability is improved. In addition, the adjustable binding band 400 and the upper fixing pad 100 may be adjustably fixed by a velcro or a snap fastener in addition to the button 500.

The width of the adjustable strap 400 is consistent with the thickness of the upper fixing pad 100, so that the stability of the binding is ensured.

The using method of the PICC patient maintenance arm support structure comprises the following steps:

the patient takes the supine position, the arms are straightened and abducted as much as possible, and the disinfection area around the puncture point is fully exposed.

The upper fixing pad 100 with the adjustable strap 400 attached thereto is placed on the upper arm of the patient, the lower fixing pad 200 is placed on the elbow joint of the patient, and the upper arm is placed in the upper clamping groove 110 of the upper fixing pad 100, and the elbow joint is placed in the lower clamping groove 210 of the lower fixing pad 200.

The adjustable strap 400 is adjusted to a suitable tightness to bind the patient's cuffs to fully expose and disinfect the area surrounding the puncture site.

In summary, since the upper surface of the connection block 300 is lower than the bottom of the upper clamping groove 110 and the bottom of the lower clamping groove 210, the disinfection area around the puncture point, i.e. the inner side surface or the back side surface of the arm, can be fully exposed, so that the disinfection yield is improved, and the arm supporting structure is prevented from being polluted during disinfection. The sleeves can be bound by the adjustable binding band 400, so that the sleeves can be effectively prevented from sliding down to interfere with disinfection operation. The arm support frame is superior to the previous arm support frame, light and convenient in use, small in occupied space and convenient to store. The comfort level of a patient is improved due to the special material and the special double-U-shaped clamping groove design, and the qualification rate of PICC catheter maintenance and standard disinfection is improved due to the design of the adjustable binding bands of humanized sleeves, so that the medical experience of the patient is effectively improved.

The above-described embodiments are only for illustrating the technical spirit and features of the present utility model, and it is intended to enable those skilled in the art to understand the content of the present utility model and to implement it accordingly, and the scope of the present utility model as defined by the present embodiments should not be limited only by the present embodiments, i.e. equivalent changes or modifications made in accordance with the spirit of the present utility model will still fall within the scope of the present utility model.

Claims (10)

1. An arm support structure for PICC patient maintenance, comprising:

An upper fixing pad (100), wherein the upper surface of the upper fixing pad (100) is recessed downwards to form an upper clamping groove (110);

The upper surface of the lower fixing pad (200) is recessed downwards to form a lower clamping groove (210);

The connecting block (300), the said connecting block (300) connects between said upper fixed pad (100) and said lower fixed pad (200), the upper surface of the said connecting block (300) is lower than the bottom of the said upper clamping groove (110) and bottom of the said lower clamping groove (210) separately;

An adjustable strap (400), the adjustable strap (400) being connected to the upper mounting pad (100).

2. The PICC patient maintenance arm support structure according to claim 1, wherein one end of the adjustable strap (400) is connected to one side of the upper fixing pad (100) in the width direction, a button (500) is provided on the other side of the upper fixing pad (100) in the width direction, and a plurality of holes are provided in the adjustable strap (400), and the holes are matched with the button (500).

3. The PICC patient care arm support structure according to claim 1, wherein the width of the adjustable strap (400) corresponds to the thickness of the upper fixing pad (100).

4. The PICC patient care arm support structure according to claim 1, wherein the upper fixing pad (100) includes an upper flexible body and an upper inclusion, the upper inclusion being wrapped outside the upper flexible body;

the lower fixing pad (200) includes a lower flexible body and a lower packing body, which is packed outside the lower flexible body.

5. The PICC patient care arm support structure of claim 4, wherein the upper flexible body and the lower flexible body each use a sponge, and wherein the upper and lower flexible bodies each use leather. .

6. The PICC patient care arm support structure according to claim 1, wherein the first card slot (110) penetrates the upper fixing pad (100) in a thickness direction of the upper fixing pad (100), and the lower card slot (210) penetrates the lower fixing pad (200) in a thickness direction of the lower fixing pad (200).

7. The PICC patient care arm support structure of claim 1, wherein the first card slot (110) is U-shaped and the second card slot (210) is U-shaped.

8. The PICC patient maintenance arm support structure according to claim 1, wherein the upper fixing pad (100), the lower fixing pad (200), and the connection block (300) are flush on both sides in the width direction.

9. The PICC patient care arm support structure according to claim 1, wherein the thickness dimension of the lower fixing pad (200) is greater than the thickness dimension of the upper fixing pad (100).

10. The PICC patient care arm support structure according to claim 1, wherein the upper fixing pad (100) has a width of 15cm, a thickness of 4cm, and a height of 10cm; the width of the lower fixing pad (200) is 15cm, the thickness is 6cm, and the height is 10cm.