JP3165199U - Glove pinhole inspection device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pinhole inspection device for a glove, which has a simple configuration, a low manufacturing cost, easy inspection, and can be attached reliably and without damaging the glove. SOLUTION: A main body 10 in which a pipe 11 for sending a high pressure gas H is arranged, and a high pressure gas H erected from the upper surface of the main body 10 and sent from the pipe 11 are sent from an upper end portion of a glove G. A disc-shaped fixing plate 30 that is horizontally fixed below the upper end of the supply shaft 20 and that is ejected inside, and is tightly fitted with the hem G1 of the glove G reaching the lower surface 31. And, a fixing member 42 is provided in a horizontal direction below the fixing plate 30 of the supply shaft 20, is movable up and down, and is fixed to the supply shaft 20, and is between the upper surface 41 and the lower surface 31 of the fixing plate 30. A substantially disk-shaped elevating plate 40 for sandwiching the hem portion G1 of the glove G is provided. [Selection diagram] Fig. 1

Description

  The present invention relates to an inspection device for inspecting the presence or absence of pinholes in rubber or resin gloves.

  For example, as a glove for performing an operation to touch an electric device or performing an operation, a rubber or resin-made glove having excellent insulation and water resistance is often used. These gloves must be used in the presence of pinholes because of the need to prevent electric shock and infection.

  Therefore, conventionally, an inspection apparatus for inspecting whether or not a pinhole is present in such a glove has been used (see, for example, Patent Documents 1 and 2).

  As described in claim 9, the inspection device described in Patent Document 1 is a synthetic resin or rubber glove that is mounted in a gastight manner on a holder that fits the opening, and a high-pressure gas is introduced inside. An ultrasonic detector detects the presence of pinholes by detecting the ultrasonic waves generated by the leakage of the high-pressure gas by using an ultrasonic detector.

  Similarly, in the inspection apparatus described in Patent Document 2, as described in Claim 1, the opening of the glove is covered with a holder, and high-pressure gas is sealed in the inside to inflate the ultrasonic detector. The presence or absence of a pinhole is detected by.

JP-A-7-218377 JP 7-151635 A

  However, the inspection apparatuses according to the above two conventional techniques have a big problem to be solved. That is, since both inspection apparatuses inspect for the presence or absence of pinholes using an ultrasonic detector, the apparatus becomes complicated, requiring equipment such as the ultrasonic detector, and the manufacturing cost increases accordingly. Also, the inspection itself is large and troublesome.

  Moreover, in the inspection apparatus described in Patent Document 1, since the glove is attached with its opening covered on the holder, there is a problem that the glove is easily detached from the holder due to the pressure of the high-pressure gas.

  Moreover, in the inspection apparatus described in Patent Document 2, the hem of the glove is pinched in a line contact state by the sharp edge of the movable clasp and the inclined surface of the fixed clasp. There is a problem that is easily damaged. For example, surgical gloves are extremely thin, so the risk is high.

  In addition, in order to bring the movable fastener edge and the inclined surface of the fixed fastener into line contact uniformly over the entire length, high precision processing technology and assembly technology are inevitably required. It is. In addition, for example, if the assembling varies, uniform line contact cannot be obtained, so that high-pressure gas leaks from the hem of the glove, and accurate inspection cannot be performed.

  The present invention was devised in view of these problems, has a simple structure, is inexpensive to manufacture, can be easily and accurately inspected, and can be attached securely and without damage. It is an object to provide a pinhole inspection apparatus.

  This will be described with reference to FIGS. The glove pinhole inspection device 1 according to claim 1 is a device for inspecting the presence or absence of a pinhole in a rubber or resin glove G, and a box in which a pipe 11 for sending a high-pressure gas H is arranged. Main body 10, a supply shaft 20 that is erected from the upper surface of the main body 10 and that is fed from the pipe 11 to the inside of the glove G from its upper end, and the supply shaft 20 A disc-shaped fixing plate that is fixed horizontally below the upper end of the glove, has a larger outer diameter than the hem G1 of the glove G, and fits tightly in a state where the hem G1 reaches the lower surface 31. 30 and a fixing member 42 that is provided in a horizontal direction below the fixing plate 30 of the supply shaft 20 and is movable up and down and fixed to the supply shaft 20. Larger outer diameter And comprises a substantially disc-shaped lifting plate 40 sandwiching the skirt G1 of the glove G between the upper surface 41 and lower surface 31 of the fixed plate 30.

  The glove pinhole inspection device 1 according to claim 2 is a device for inspecting the presence or absence of a pinhole of a rubber or resin glove G, and a box in which a pipe 11 for sending a high-pressure gas H is arranged. Main body 10, a supply shaft 20 that is erected from the upper surface of the main body 10 and that is fed from the pipe 11 to the inside of the glove G from its upper end, and the supply shaft 20 A disc-shaped fixing plate that is fixed horizontally below the upper end of the glove, has a larger outer diameter than the hem G1 of the glove G, and fits tightly in a state where the hem G1 reaches the lower surface 31. 30 and a fixing member 42 that is provided in a horizontal direction below the fixing plate 30 of the supply shaft 20 and is movable up and down and fixed to the supply shaft 20. Larger outer diameter And, and a substantially disc-shaped lifting plate 40 sandwiching the skirt G1 of the glove G between the upper surface 41 and lower surface 31 of the fixed plate 30.

  A first valve body 51 is provided upstream of the supply shaft 20 of the pipe 11, and a first switch 52 for opening and closing the first valve body 51 is provided on the upper surface of the body portion 10. A first valve mechanism 50 is provided. Further, a second valve main body 61 is provided on the downstream side of the supply shaft 20 of the pipe 11, and a second switch 62 for opening and closing the second valve main body is provided on the upper surface of the main body portion 10. A two-valve mechanism 60 is provided.

  Since the device according to claim 1 is provided with the main body 10, the supply shaft 20, the fixing plate 30 and the lifting plate 40, the glove G is attached to the fixing plate 30 and the skirt G1 is the fixing plate. After tightly fitting in a state of reaching the lower surface 31 of 30, the skirt G1 is sandwiched between the lower surface 31 of the fixing plate 30 and the upper surface 41 of the lifting plate 40, and a predetermined amount of glove G is fed from the supply shaft 20 to the inside of the glove G. By supplying the high-pressure gas H, the presence or absence of pinholes can be inspected.

  Therefore, it is possible to provide an inspection apparatus having a simple configuration and low manufacturing costs. Moreover, since the presence or absence of a pinhole can be confirmed by whether or not the glove G supplied with the high-pressure gas H contracts, the inspection can be easily performed.

  Furthermore, since the bottom G1 of the glove G is sandwiched between the lower surface 31 of the fixed plate 30 and the upper surface 41 of the elevating plate 40, the glove G is not detached by the pressure of the high-pressure gas H.

  In addition, since the skirt G1 of the glove G is sandwiched between the flat end surface (the lower surface 31 of the fixed plate 30) and the flat end surface (the upper surface 41 of the lifting plate 40), it covers a wide range compared to the line contact of the prior art. Can be sandwiched by surface contact. Thereby, it is possible to accurately inspect the pinhole without damaging the glove G.

  The glove pinhole inspection apparatus 1 according to claim 2 exhibits the same effect as the device according to claim 1. Since the first valve mechanism 50 and the second valve mechanism 60 are provided, the first valve is operated to supply a predetermined amount of high-pressure gas H from the supply shaft 20 to the inside of the glove G, and the second valve The mechanism 60 can be operated to discharge the high-pressure gas H from the inside of the glove G. Thereby, the inspection of the pinhole can be performed more easily.

It is a front view which shows embodiment of the pinhole test | inspection apparatus of the glove which concerns on this invention. It is a top view of the inspection apparatus shown in FIG. It is a partially cutaway right view of the inspection apparatus shown in FIG. FIG. 3 is an enlarged view of an essential part of a cross section taken along line XX in FIG. 2.

  1 to 4 show an embodiment of a glove pinhole inspection apparatus 1 according to the present invention. This is, for example, a device 1 for inspecting the presence or absence of pinholes in a rubber or resin glove G that is used in contact with an electrical device or in an operation, and includes a main body 10, a supply shaft 20, and a fixed A plate 30, a lift plate 40, a first valve mechanism 50 and a second valve mechanism 60 are provided.

  The main body 10 is a flat rectangular metal box, and a pipe 11 through which high-pressure gas (high-pressure air) H sent from an air pump 2 installed outside is sent. The supply shaft 20 is erected from the upper surface of the main body 10 and has a lower end connected to the pipe 11 and forms a passage 21 through which the high-pressure gas H passes. Thereby, the high-pressure gas H sent from the pipe 11 is ejected from the ejection port 22 which is the upper end portion of the passage 21.

  The fixing plate 30 has a disc shape, is fixed in a horizontal direction with the supply shaft 20 penetrating through a central portion thereof slightly below the upper end portion of the supply shaft 20, and has a larger outer diameter than the hem portion G1 of the glove G. It is made of metal. In the present embodiment, the inner diameter of the hem G1 of the glove G is about 70 mm, whereas the outer diameter of the fixing plate 30 is set to about 110 mm. Accordingly, the skirt G1 of the glove G is pulled and widened, and in this state, it is placed on the fixing plate 30 and attached. The fixing plate 30 can be replaced with one having a different outer diameter so as to be compatible with various gloves G having different sizes and materials.

  Note that the fixing plate 30 in the present embodiment protrudes downward along the entire circumference of the outer peripheral end portion of the lower surface 31 thereof, and has a step portion 32 having a flat lower surface 33, and the lower surface of the step portion 32. 33 and the upper surface 41 of the elevating plate 40 sandwich the hem G1 of the glove G by surface contact (see FIG. 4).

  Further, by providing the stepped portion 32 around, the concave portion 34 is formed on the inner side of the stepped portion 32 of the fixed plate 30. The end part of the skirt part G1 of the glove G is usually provided with a thick part G2 that is thicker than other parts. In the present embodiment, by positioning the thick portion G2 in the concave portion 34, the entire circumference of the hem portion G1 can be uniformly sandwiched between the lower surface 31 of the fixed plate 30 and the upper surface 41 of the elevating plate 40. The glove G does not come off due to the pressure of the high-pressure gas. Further, even when the skirt G1 is pulled outward by the pressure of the high-pressure gas H, the thick-walled portion positioned in the recess 34 engages with the step portion 32, so that the glove G can be further prevented from coming off. it can. A smooth arc surface R is formed on the outer peripheral end of the fixing plate 30 and the peripheral end of the stepped portion 32 in order to prevent damage to the glove G contacting the portion.

  The elevating plate 40 is made of a substantially disk-like metal, and is provided in a horizontal direction in a state where the supply shaft 20 is fitted and inserted into the lower portion of the fixing plate 30 of the supply shaft 20 at the center thereof, along the supply shaft 20. Can be moved up and down. Moreover, the fixing member 42 for fixing to the supply shaft 20 is integrally provided in the lower end. The lift plate 40 has the same outer diameter as the fixed plate 30, but can be made larger than that.

  The fixing member 42 includes a member main body 42 a, a screw member 43 having an eccentric portion (protruding portion) (not shown) at a distal end portion, and a handle 44 provided at a proximal end portion of the screw member 43. , The eccentric portion of the screw member 43 strongly contacts the supply shaft 20, thereby fixing the lifting plate 40 to the supply shaft 20. The configuration of the fixing member 42 is not limited to this. For example, a screw hole reaching the supply shaft 20 is formed in the member main body 42a, a bolt is screwed into the screw hole, and a tip portion of the bolt Can be fixed to the supply shaft 20 by strongly contacting the outer peripheral surface of the supply shaft 20.

  The first valve mechanism 50 is provided inside the main body 10 on the upstream side of the supply shaft 20 of the pipe 11 and on the upper surface of the main body 10, and opens and closes the first valve main body 51. The first switch 52 is used for operation. In the present embodiment, the first valve body 51 that is normally closed by the elasticity of a spring material (not shown) is opened when the first switch 52 is pushed down, and the mechanical valve configured to allow the high-pressure gas H to pass therethrough. Is used.

  The second valve mechanism 60 includes a second valve main body 61 provided on the downstream side of the supply shaft 20 of the pipe 11 and a second switch 62 provided on the upper surface of the main body portion 10 for opening and closing the second valve main body 61. It consists of and. In the present embodiment, similarly to the first valve mechanism 50, the second valve body 61 is a mechanical valve configured to be opened by pressing the second switch 62 down.

  The operation of the glove pinhole inspection apparatus 1 according to this embodiment will be described. First, the hem G1 of the glove G is spread by hand and covered with the fixing plate 30. At that time, the thick portion G2 which is the end portion of the skirt portion G1 is placed so as to contact the lower surface 31 of the fixing plate 30 (in this embodiment, the lower surface of the concave portion 34). In this state, the skirt G1 of the glove G is contracted by its elasticity and assembled to the fixed plate 30.

  Next, after raising and lowering the lifting plate 40 by hand and pressing the upper surface 41 against the skirt G1 of the glove G, the handle 44 of the fixing member 42 is rotated and fixed to the supply shaft 20. As a result, the skirt G1 of the glove G is sandwiched between the lower surface 31 of the fixing plate 30 (step 32) and the upper surface 41 of the elevating plate 40.

  Subsequently, the first switch 52 of the first valve mechanism 50 is pushed down to open the first valve body 51, and the high pressure gas H supplied from the air pump 2 is sent to the supply shaft 20, from which the jet port 22 is sent. To the inside of the glove G. After supplying a predetermined amount of the high-pressure gas H, the first valve body 51 is closed by opening the first switch 52 and the supply of the high-pressure gas H is stopped. Thereby, the glove G forms an expanded state by the high-pressure gas H supplied to the inside thereof.

  This inflated state is maintained for a predetermined time, and it is confirmed whether or not the glove G contracts. If there is no contraction, it is determined that there is no pinhole in the glove G, and if there is contraction, it is determined that it exists.

  After confirming the presence or absence of the pinhole, the second switch 62 of the second valve mechanism 60 is pushed down to open the second valve body 61, and the high-pressure gas H accumulated in the glove G is released to the outside. Thereby, the inspection for the presence or absence of pinholes is completed.

DESCRIPTION OF SYMBOLS 1 Pinhole inspection apparatus 2 Air pump 10 Main body part 11 Pipe 20 Supply shaft 21 Passage 22 Jet port 30 Fixed plate 31 The lower surface of a fixed plate 32 Step part 33 The lower surface of a step part 34 Recessed part 40 Elevator plate 41 The upper surface of an elevator board 42 Fixed member 42a member main body 43 screw member 44 handle 50 first valve mechanism 51 first valve main body 52 first switch 60 second valve mechanism 61 second valve main body 62 second switch G gloves G1 skirt G2 thick part H high pressure gas R arc surface

Claims (2)

  A device for inspecting the presence or absence of pinholes in rubber or resin gloves (G), and a box-shaped main body (10) in which a pipe (11) for sending high-pressure gas (H) is disposed. A supply shaft (20) that is erected from the upper surface of the main body and that is fed from the pipe to the inside of the glove from the upper end, and horizontally below the upper end of the supply shaft A disk-shaped fixing plate (30) that is fixed and has a larger outer diameter than the hem (G1) of the glove and is tightly fitted in a state where the skirt reaches the lower surface; and the supply shaft A fixing member (42) is provided horizontally in a lower part of the fixing plate, is movable up and down, is fixed to the supply shaft, has an outer diameter equal to or larger than the fixing plate, Clamp the bottom of the glove between the bottom surface of the fixing plate Pinhole inspection apparatus of the glove, characterized in that it comprises a substantially disc-shaped lifting plate (40), the that.   A device for inspecting the presence or absence of pinholes in rubber or resin gloves (G), and a box-shaped main body (10) in which a pipe (11) for sending high-pressure gas (H) is disposed. A supply shaft (20) that is erected from the upper surface of the main body and that is fed from the pipe to the inside of the glove from the upper end, and horizontally below the upper end of the supply shaft A disk-shaped fixing plate (30) that is fixed and has a larger outer diameter than the hem (G1) of the glove and is tightly fitted in a state where the skirt reaches the lower surface; and the supply shaft A fixing member (42) is provided horizontally in a lower part of the fixing plate, is movable up and down, is fixed to the supply shaft, has an outer diameter equal to or larger than the fixing plate, Clamp the bottom of the glove between the bottom surface of the fixing plate And a first valve body (51) provided upstream of the supply shaft of the pipe and a first switch (52) for opening and closing the first valve body. , A first valve mechanism (50) provided on the upper surface of the main body, and a second valve main body (61) provided downstream of the supply shaft of the pipe to open and close the second valve main body. A glove pinhole inspection device comprising: a switch (62); and a second valve mechanism (60) provided on an upper surface of the main body.

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