LOOSE-LEAF GLOVE

Abstract

A loose-leaf glove is provided, including a dorsum top layer and a palm inner layer. The periphery of the dorsum top layer is combined with the periphery of the palm inner layer, and the palm inner layer is formed by plural palm inner surfaces. The peripheries of the plural palm inner surfaces are overlapped and combined. A tear line is imprinted at a place where the periphery of the dorsum top layer is combined with the periphery of the palm inner layer. Each palm inner surface can escape from the dorsum top layer by tearing the tear line apart. The separated palm inner surface is discarded, and a next palm inner surface is used instead.

Claims

1. A loose-leaf glove, comprising a dorsum top layer and a palm inner layer, with that the periphery of the dorsum top layer is combined with the periphery of the palm inner layer, a bottom of the dorsum top layer is a dorsum wrist, a bottom of the palm inner layer is a palm wrist, and the dorsum wrist is not combined with the palm wrist to form an entrance and a holding space; wherein the palm inner layer is formed by plural palm inner surfaces, the peripheries of the plural palm inner surfaces are overlapped and combined except for the dorsum wrist and the palm wrist, a tear line is imprinted at a place where the periphery of the dorsum top layer is combined with the periphery of the palm inner layer, and each palm inner surface escapes from the dorsum top layer by tearing the tear line apart.

2. The loose-leaf glove according to claim 1, wherein an inner side on the palm wrist of the palm inner layer is provided with an adhesive surface.

3. The loose-leaf glove according to claim 1, wherein the periphery of the dorsum top layer and the periphery of the palm inner layer are fused together with ultrasonic.

4. The loose-leaf glove according to claim 1, wherein the dorsum top layer is provided with a dorsum finger part, and the palm inner layer is also provided with a palm finger part.

5. The loose-leaf glove according to claim 1, wherein the palm inner layer is hygroscopic non-woven fabric, and is injected with antibacterial liquid.

6. The loose-leaf glove according to claim 1, wherein the dorsum top layer is elastic non-woven fabric, and is injected with antibacterial liquid.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] FIG. 1 shows a three-dimensional exploded view of the present invention.

[0011] FIG. 2 shows a planar view of an outermost palm inner surface of the present invention.

[0012] FIG. 3 shows a planar view of a next outer palm inner surface of the present invention.

[0013] FIG. 4 shows a planar view of a dorsum top layer of the present invention.

[0014] FIG. 5 shows a cutaway view of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0015] Referring to FIGS. 1 to 4, the present invention discloses a loose-leaf glove, comprising a dorsum top layer 10 and a palm inner layer 20. The periphery of the dorsum top layer 10 is combined with the periphery of the palm inner layer 20 by ultrasonic or high-frequency fusion. The palm inner layer 20 is hygroscopic non-woven fabric and can be injected with antibacterial liquid. The dorsum top layer 10 is elastic non-woven fabric and can be injected with the antibacterial liquid. When a hand is extended into the glove, the dorsum top layer 10 can be expanded, so that the glove can be worn successfully. A bottom of the dorsum top layer 10 is a dorsum wrist 11, and a bottom of the palm inner layer 20 is a palm wrist 21. The dorsum wrist 11 is not combined with the palm wrist 21 to form an entrance 100 (entrance of wrist) and a holding space 101 (for transfixing a palm and fingers) as shown in FIG. 5. The dorsum top layer 10 is provided with a dorsum finger part 12, and the palm inner layer 20 is also provided with a palm finger part 22. The palm inner layer 20 is formed by plural palm inner surfaces 200. For the plural palm inner surfaces 200, the peripheries are overlapped and combined except for the dorsum wrist 11 and the palm wrist 21. In addition, a tear line 30 is imprinted at a place where the periphery of the dorsum top layer 10 is combined with the periphery of the palm inner layer 20. Each palm inner surface 200 can escape from the dorsum top layer 10 by tearing the tear line 30 apart. An inner side on the palm wrist 21 of each palm inner surface 200 is provided with an adhesive surface 201 which is coated with water repellent glue, so that the palm inner surfaces 200 can be sealed, and the dorsum top layer 10 can be sealed with the innermost palm inner surface 200.

[0016] Accordingly, the present invention discloses a loose-leaf glove. Upon using the loose-leaf glove, a hand is extended into the entrance 100 and the holding space 101, fingers are emplaced between the dorsum finger part 12 and the palm finger part 22, a dorsum is put into the dorsum top layer 10, and a palm is emplaced above the palm inner layer 20. When the palm inner surfaces 200 of the palm inner layer 20 touch an object, and the loose-leaf glove is used for a while, the outermost palm inner surface 200 can be lifted up from bottom to open the adhesive surface 201. Next, the outermost palm inner surface 200 is torn apart along the tear line 30 to separate from the palm inner layer 20. The separated single palm inner surface 200 is discarded, and a new palm inner surface 200 (next to the outermost) is used instead. Thus, the second, third, and fourth layer of palm inner surface 200 can be used, without utilizing more pairs of gloves. As only one pair of gloves is used, the time of use and the number of use can be extended. Most importantly, the accumulation of a large quantity of viruses in the same pair of conventional gloves is avoided. In the present invention, each time when a palm inner surface 200 is torn apart to exchange with a new palm inner surface 200 for use, it is used without viruses that the possibility of infecting human bodies is reduced.

[0017] The implementation of the palm inner surfaces 200 can be more than two layers; three, four, five or six layers are all within the range of implementation. The dorsum top layer 10 is elastic non-woven fabric and is used repeatedly. The function of elastic non-woven fabric is that the dorsum top layer 10 can be expanded when the hand is extended into the glove, so that the glove can be worn on the hand successfully. In addition, the palm inner surfaces 200 can be sprayed with germicide, or gel of germicide can be pasted on the palm inner surfaces 200. Therefore, the loose-leaf glove is an effective and active product of sterilization and epidemic prevention. Besides, the present invention is low in cost, can be used in epidemic prevention, is used conveniently and economically, and can reduce the possibility of infecting human bodies without the need for carrying more pairs of conventional gloves.

[0018] In addition to using the loose-leaf glove in epidemic prevention, when the epidemic is over, all kinds of patterns can be transferred on the palm inner surfaces 200 to be used for all kinds of purposes. For example, the palm inner surfaces 200 can be imprinted with mattes to be worn on human hands, using the palm inner surfaces 200 with the mattes as the polished workpieces.

[0019] It is of course to be understood that the embodiments described herein is merely illustrative of the principles of the invention and that a wide variety of modifications thereto may be effected by persons skilled in the art without departing from the spirit and scope of the invention as set forth in the following claims.