CN211610049U - Disposable gloves for orthopedic surgery - Google Patents

Abstract

The utility model relates to a disposable glove for orthopedic surgery, which comprises a glove body made of latex, the glove body comprises a wrist sleeve part, a palm sleeve part and five finger sleeve parts, an anti-drop flange is integrally arranged on the wrist sleeve part, the palm sleeve part is arranged at the tiger mouth of a palm and a little fish thenar and is respectively provided with a first fiber protective layer, a space is reserved between the first fiber protective layer at the tiger mouth and the first fiber protective layer of a little fish thenar, each first fiber protective layer is fixed on the inner wall of the holding surface of the palm sleeve part, the palm center of the palm sleeve part is provided with a plurality of anti-slip salient points, the far phalanx parts of the thumb sleeve parts of the five finger sleeve parts are provided with a second fiber protective layer, the far phalanx parts, the middle phalanx parts and the near phalanx parts of the other four finger sleeve parts are respectively provided with a second fiber protective layer, gaps are reserved between the second fiber protective layers on the four finger sleeve parts, each second fiber protective layer is fixed on the inner wall of the holding surface of the finger sleeve, the fingertip ends of the five finger sleeve parts, which are positioned at the distal phalanx, are not provided with the fiber protective layer.

Description

Disposable gloves for orthopedic surgery

Technical Field

The utility model relates to a disposable medical article, in particular to a disposable glove for orthopedic surgery.

Background

Disposable protective gloves are required to be worn during surgery to isolate the bacterial source from wound infection. At present, the disposable gloves for orthopedic surgery have the defect of easy breakage. Because most instruments used in orthopedic surgery are sharp instruments, such as scalpels, bone scissors, grinding drills, circuit breakers and the like, and the operation can be realized only by applying a large force to the sharp instruments during the surgery, the gloves are easy to be damaged in the process of repeated force application operation. After the glove skin is damaged, the instrument can be in direct contact with the hand of a doctor, the condition that the fingers or the palm of the doctor are abraded occurs, and the operation quality is reduced. Even the finger or palm of the hand can be cut by the instrument or the suture line, so that the operation can be suspended, the risk of germ infection is increased, and secondary injury is brought to the patient. Currently, there are gloves that are protected from breakage by attaching a layer of fabric to the inner wall of the glove that engages the skin of the doctor. However, the inner wall of the glove is fully covered by the layer of fiber, so that the movement of the hands of a doctor is inconvenient in the operation process, the flexibility and the perception of fingers are greatly reduced, and the operation quality is directly influenced.

Disclosure of Invention

The utility model aims at the not enough of prior art, provide a disposable glove is used in orthopedic operation, it not only can prevent that the hand from being hurt by the apparatus when performing the operation, still can guarantee good flexibility ratio of finger and perception degree, provides convenience for the operation.

The technical scheme of the utility model is that: a disposable glove for orthopedic surgery comprises a glove body integrally made of latex, wherein the glove body comprises a wrist sleeve part, a palm sleeve part and five finger sleeve parts, an anti-drop flange is integrally arranged on the wrist sleeve part of the glove body, the palm sleeve part of the glove body is positioned at the first web and the hypothenar of a palm and is respectively provided with a first fiber protective layer, a space is reserved between the first fiber protective layer at the first web and the first fiber protective layer at the hypothenar, each first fiber protective layer is fixed on the inner wall of the holding surface of the palm sleeve part, the outer surface of the holding surface of the palm sleeve part is provided with a plurality of anti-slip salient points, the far phalanx part of the thumb sleeve part of the five finger sleeve parts of the glove body is provided with a second fiber protective layer, the far phalanx, the middle phalanx and the near phalanx of the other four finger sleeve parts are respectively provided with a second fiber protective layer, and gaps for the movement of finger joints are reserved between the second fiber protective layers on the four finger sleeve parts, all the second fiber protective layers are fixed on the inner wall of the finger sleeve holding surface, and the finger tip ends of the five finger sleeve parts, which are positioned at the far phalanx, are not provided with the fiber protective layers.

The first fiber protective layer and the second fiber protective layer are 100-mesh sieroke mesh layers.

The first fiber protective layer and the second fiber protective layer are fixed on the inner wall of the glove body holding surface through hot melting.

The first fiber protective layer and the second fiber protective layer are fixed on the inner wall of the glove body holding surface through bonding.

The first fiber protective layer and the second fiber protective layer are integrally formed and fixed on the inner wall of the glove body holding surface through a latex forming die of the glove.

The outer surface of the glove body is a matt surface.

Adopt above-mentioned technical scheme: comprises a glove body integrally made of latex, the glove body comprises a wrist sleeve part, a palm sleeve part and five finger sleeve parts, an anti-drop flange is integrally arranged on the wrist sleeve part of the glove body, the palm sleeve part of the glove body is positioned at the tiger mouth and the hypothenar of a palm and is respectively provided with a first fiber protective layer, a space is reserved between the first fiber protective layer at the tiger mouth and the first fiber protective layer at the hypothenar, each first fiber protective layer is fixed on the inner wall of a holding surface of the palm sleeve part, the outer surface of the holding surface of the palm sleeve part is provided with a plurality of anti-slip salient points, the far phalanx part of the thumb sleeve part of the five finger sleeve parts of the glove body is provided with a second fiber protective layer, the far phalanx, the middle phalanx and the near phalanx part of the other four finger sleeve parts are respectively provided with a second fiber protective layer, and gaps for the movement of finger joints are reserved between the second fiber protective layers on the four finger sleeve parts, all the second fiber protective layers are fixed on the inner wall of the finger sleeve holding surface, and the finger tip ends of the five finger sleeve parts, which are positioned at the far phalanx, are not provided with the fiber protective layers. The end of the wrist sleeve part is provided with an opening, and when in use, a hand can be inserted from the opening of the wrist sleeve part. The first fiber inoxidizing coating that sets up on disposable gloves is difficult damaged with the second fiber inoxidizing coating, has increased the firm degree of gloves, even the latex layer of gloves has been broken to surgical instruments, the effect of keeping apart is played to the fibre inoxidizing coating in addition, has avoided the condition of apparatus with doctor's hand direct contact, and gloves still can play the effect of protection doctor's hand, has prevented the condition of fraying, provides the guarantee for high quality operation. Moreover, the tiger's mouth and the hypothenar of the hand are multi-stress parts, the first fiber protective layer of the glove just protects the part, the condition that the glove is damaged when the force application operation instrument is applied to the glove is avoided, the palm cannot be cut by the suture line when the wound is sutured, the normal operation of the operation is ensured, and the condition that the germ infection is caused by cutting is prevented. Meanwhile, the distance is reserved between the first fiber protective layers at the first web and the first web at the hypothenar, so that the flexibility and the perception of the palm are improved, the touch feeling of the palm is good, and the operation of a doctor is facilitated. Moreover, the fingertip parts of the five fingers are not provided with the fiber protective layer, and the good perceptibility and sensitivity of the fingertip parts can be ensured. The distance is reserved between the second fiber protective layers on the finger sleeve parts of the glove, the distance is just positioned at the joints between the phalanges, the normal bending of fingers is guaranteed, the flexibility of the joints of the fingers is increased, convenience is provided for operation, and the smoothness of the operation action of a doctor is guaranteed. Moreover, all the fiber protective layers are fixed on the holding surface of the glove body, and the fiber protective layer is not arranged on the other surface of the glove body. When the holding surface of the glove body is taken or operated in a bending mode, the surface of the glove, which is contacted with a surgical instrument, is in contact with the hand, so that the protection of the fiber protective layer to the hand is realized, the injury of the instrument to the hand is avoided, the material is saved, the material is fully utilized, and the cost is reduced. Finally, the anti-drop flange arranged on the wrist sleeve part can prevent the gloves from dropping in the operation process, and the normal operation of the operation is ensured. The anti-skid salient points of the palm sleeve part can play an anti-skid role, and are beneficial to holding and taking of various instruments by hands.

The first fiber protective layer and the second fiber protective layer are 100-mesh stark mesh layers, and the 100-mesh stark mesh layers can ensure good protective performance and flexibility of the gloves.

The first fiber protective layer and the second fiber protective layer are fixed on the inner wall of the glove body holding surface through hot melting. Or the first fiber protective layer and the second fiber protective layer are fixed on the inner wall of the glove body holding surface through bonding. The connection of hot melting and bonding is firm. Or the first fiber protective layer and the second fiber protective layer are integrally formed and fixed on the inner wall of the glove body holding surface through a latex forming die of the glove. During forming, the fiber protective layers are fixed in fixing grooves formed in the forming hand mold, the hand mold with the fixed fiber protective layers is dipped with glue, the fiber protective layers are integrally formed on the glove body after demolding, and forming is fast and convenient.

The outer surface of the glove body is a matt surface, and the glove with the matt surface does not influence the vision of a doctor due to light reflection because lamplight illumination is needed in the whole course of an operation, and the matt surface is favorable for the normal operation of the doctor.

The disposable glove for orthopedic surgery has good protective performance and low manufacturing cost. The first fiber protective layer and the second fiber protective layer increase the firmness degree of the glove, can play a role in protecting the hands of doctors, and provides guarantee for high-quality operations. Moreover, the glove has good flexibility and perception, provides convenience for operation, and ensures the smoothness of the operation action of the doctor.

The invention is further described with reference to the drawings and the specific embodiments.

Drawings

Fig. 1 is a schematic structural view of the present invention;

in the attached drawing, 1 is the glove body, 2 is the wrist cover portion, 3 is the palm cover portion, 4 is the dactylotheca portion, 5 is first fibre inoxidizing coating, 6 is the second fibre inoxidizing coating, 7 is the pointed end, 8 is the anticreep flange, 9 is anti-skidding bump.

Detailed Description

Referring to fig. 1, the disposable glove for orthopedic surgery comprises a glove body 1 integrally made of latex, wherein the outer surface of the glove body 1 is a matte surface. Because the whole operation needs lamplight illumination, the vision of a doctor cannot be influenced by the gloves with the matt surfaces due to light reflection, and the matt surfaces are beneficial to the normal operation of the doctor. The glove body 1 comprises a wrist sleeve part 2, a palm sleeve part 3 and five finger sleeve parts 4. An anti-falling flange 8 is integrally arranged on the wrist sleeve part 2 of the glove body 1, and the anti-falling flange 8 can prevent the glove from falling off in the operation process, so that the normal operation of the operation is ensured. The end of the wrist sleeve part 2 is provided with an opening, and when in use, a hand can be inserted from the opening of the wrist sleeve part 2. The palm sleeve part 3 of the glove body 1 is positioned at a tiger mouth and a hypothenar of a palm and is respectively provided with a first fiber protective layer 5, a distance is reserved between the first fiber protective layer 5 at the tiger mouth and the first fiber protective layer 5 at the hypothenar, and each first fiber protective layer 5 is fixed on the inner wall of the holding surface of the palm sleeve part 3. The outer surface of the holding surface of the palm sleeve part 3 is provided with a plurality of anti-skid convex points 9, and the anti-skid convex points 9 of the palm sleeve part 3 can play a role of skid resistance, thereby being beneficial to holding and taking of various instruments by hands. The far knuckle phalanx positions of the thumb finger sleeve parts of the five finger sleeve parts 4 of the glove body 1 are provided with second fiber protective layers 6, the far knuckle phalanx positions, the middle knuckle phalanx positions and the near knuckle phalanx positions of the other four finger sleeve parts are respectively provided with second fiber protective layers 6, and gaps for movement of finger joints are reserved among the second fiber protective layers 6 on the four finger sleeve parts. The second fiber protective layers 6 of the five finger sleeve parts 4 are all fixed on the inner wall of the holding surface of the finger sleeve part 4, and the fingertip ends 7 of the five finger sleeve parts 4 positioned at the distal phalanx are not provided with the fiber protective layers. The first fiber protective layer 5 and the second fiber protective layer 6 are 100-mesh stark mesh layers, and the 100-mesh stark mesh layers can not only ensure good protective performance of the gloves, but also ensure good flexibility of the gloves. The first fiber protective layer 5 and the second fiber protective layer 6 are fixed on the inner wall of the holding surface of the glove body 1 through hot melting. Or the first fiber protective layer 5 and the second fiber protective layer 6 are fixed on the inner wall of the holding surface of the glove body 1 through bonding. The connection of hot melting and bonding is firm. Or the first fiber protective layer 5 and the second fiber protective layer 6 are integrally formed and fixed on the inner wall of the holding surface of the glove body 1 through a latex forming die of the glove. In this embodiment, the fiber protective layer is fixed on the inner wall of the gripping surface of the glove body 1 by integrally molding the latex mold of the glove body 1. During forming, the fiber protective layers are fixed in fixing grooves formed in the forming hand mold, the hand mold with the fixed fiber protective layers is dipped in glue, the fiber protective layers are integrally formed on the glove body 1 after demolding, and forming is rapid and convenient.

First fibre inoxidizing coating 5 and the 6 difficult quilt damages of second fibre inoxidizing coating that set up on this disposable gloves have increased the firm degree of gloves, even the latex layer of gloves has been broken to surgical instruments, the effect of keeping apart has also been played to the fibre inoxidizing coating, has avoided the condition of apparatus with doctor's hand direct contact, and gloves still can play the effect of protection doctor's hand, has prevented the condition of fraying, provides the guarantee for high quality operation. Moreover, the tiger's mouth and the hypothenar of the hand are multi-stress parts, the first fiber protective layer 5 of the glove just protects the part, the condition that the glove is damaged when a force application operation instrument is used by the glove is avoided, the palm cannot be cut by a suture line when a wound is sutured, the normal operation of the operation is ensured, and the condition that the germ infection is caused by the cut is prevented. Meanwhile, the distance is reserved between the first fiber protective layers 5 at the first web and the hypothenar, so that the flexibility and the perception of the palm are improved, the touch feeling of the palm is good, and the operation of a doctor is facilitated. Moreover, the fingertip ends 7 of the five fingers are not provided with a fiber protective layer, and the good perceptibility and sensitivity of the finger tip ends 7 can be ensured. The distance is reserved between the second fiber protective layers 6 on the finger sleeve parts 4 of the glove, the distance is just positioned at the joints between the phalanges, the normal bending of fingers is guaranteed, the flexibility of the joints of the fingers is increased, convenience is provided for operation, and the smoothness of operation actions of doctors is guaranteed. Moreover, each fiber protection layer is fixed on the holding surface of the glove body 1, and the other surface of the glove body 1 is not provided with the fiber protection layer. When the holding surface of the glove body 1 is taken or operated in a bending mode, the surface of the glove, which is contacted with a surgical instrument, is in contact with the hand, so that the protection of the fiber protective layer to the hand is realized, the injury of the instrument to the hand is avoided, the material is saved, the material is fully utilized, and the cost is reduced.

Claims (6)

1. The utility model provides a disposable glove for orthopedic surgery, includes glove body (1) that forms by the integrative preparation of latex, glove body (1) includes wrist cover portion (2), palm cover portion (3) to and five finger sleeve portions (4), its characterized in that: an anti-dropping flange (8) is integrally arranged on a wrist sleeve part (2) of the glove body (1), a palm sleeve part (3) of the glove body (1) is positioned at the tiger mouth and the hypothenar of a palm and is respectively provided with a first fiber protective layer (5), a space is reserved between the first fiber protective layer (5) at the tiger mouth and the first fiber protective layer (5) at the hypothenar, each first fiber protective layer (5) is fixed on the inner wall of a holding surface of the palm sleeve part (3), a plurality of anti-skidding salient points (9) are arranged on the outer surface of the holding surface of the palm sleeve part (3), a second fiber protective layer (6) is arranged at the far phalanx of the thumb sleeve part of five finger sleeve parts (4) of the glove body (1), second fiber protective layers (6) are respectively arranged at the far phalanx, middle phalanx and near phalanx of the other four finger sleeve parts, and gaps for the movement of finger joints are reserved between the second fiber protective layers (6) on the four finger sleeve parts, all the second fiber protective layers (6) are fixed on the inner wall of the holding surface of the finger sleeve parts (4), and the finger tip ends of the five finger sleeve parts (4) positioned at the far phalanx are not provided with the fiber protective layers.

2. The orthopedic disposable glove of claim 1, wherein: the first fiber protective layer (5) and the second fiber protective layer (6) are 100-mesh sieroke mesh layers.

3. The orthopedic disposable glove of claim 1, wherein: the first fiber protective layer (5) and the second fiber protective layer (6) are fixed on the inner wall of the holding surface of the glove body (1) through hot melting.

4. The orthopedic disposable glove of claim 1, wherein: the first fiber protective layer (5) and the second fiber protective layer (6) are fixed on the inner wall of the holding surface of the glove body (1) through bonding.

5. The orthopedic disposable glove of claim 1, wherein: the first fiber protective layer (5) and the second fiber protective layer (6) are integrally formed on the inner wall of the holding surface of the glove body (1) through a latex forming die of the glove.

6. The orthopedic disposable glove of claim 1, wherein: the outer surface of the glove body (1) is a matt surface.

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