KR101935962B1 - Glove Leak Tester - Google Patents

Abstract

Disclosed is a glove leak tester, comprising: an insertion hole installed on an inner surface of a fastener to which the open end portion of a glove is fixedly installed to enable the hand of a worker to be inserted into the glove; a gasket installed on a side surface of the insertion hole and coming in close contact with the inner surface of the fastener; an injection hole installed in the insertion hole and injecting air into the glove; an absorption hole installed in the insertion hole and absorbing air in the glove; and a sensor unit installed in the insertion hole and measuring air pressure within the glove. Accordingly, glove leak inspection recording information is autonomously generated as a document file like a PDF file so that user convenience and reliability in inspection recording can be secured. Moreover, accuracy of the glove leak inspection can be increased.

Description

{Glove Leak Tester}

More particularly, the present invention relates to a glove leak check apparatus and a glove leak check apparatus, which are capable of ensuring convenience of a user and reliability of check records by generating glove leak check history information as a document file such as a PDF file, And more particularly, to a glove leakage check device that can improve the accuracy of leak checking.

In the pharmaceutical, chemical, and biotechnological industries, gloves that are worn in the hands of workers are widely used to protect workers and prevent contamination.

Generally, such a glove is made of a soft material in order to secure workability. In some cases, a minute leakage hole is formed in the glove due to local damage to the glove during the work process.

Such leakage of the glove may not only jeopardize the safety of the worker but may also lead to pollution of the working environment. Therefore, it is necessary to regularly check whether the glove is leaking and to manage it.

Meanwhile, the glove leakage check equipment according to the prior art is a large equipment that operates by receiving power from an external power source, and there are restrictions on the movement of the glove. Therefore, it is inconvenient for the inspector to check the gloves installed in a plurality of places .

In addition, the glove leakage inspection apparatus according to the related art requires not only to install a separate vacuum line for glove leakage inspection but also to transmit measurement data to a separate analyzer, There was a hassle to analyze.

In addition, there has been a technical limitation that the precision of the leak check is not high due to the simplification of the measuring method of the glove leakage checking apparatus according to the prior art.

Therefore, it is an object of the present invention to provide an information recording / reproducing apparatus and a recording / reproducing apparatus that can generate glove leakage check history information by itself as a document file such as a PDF file to secure user convenience and reliability of check records, And a glove leakage check device for enabling the glove leakage check device to be provided.

In order to accomplish the above object, according to the present invention, there is provided an apparatus for inspecting a glove leakage, comprising: an insertion port (110) installed on an inner surface of a fastener (50) to which an open end of the glove is fixed so that an operator can insert a hand into the glove; A gasket 120 installed on a side surface of the insertion port 110 and closely contacting the inner surface of the fixture 50; An injection port (111) installed in the insertion port (110) and injecting air into the glove; A suction port 113 installed in the insertion port 110 to suck air in the glove; And a sensor unit 115 installed at the insertion port 110 for measuring the air pressure inside the glove.

Preferably, the control unit further includes a control unit for generating a document file including the measured value of the sensor unit 115.

The controller 115 further includes a controller for determining the injection of air through the injection port 111 and the intake of air through the inlet 113 based on the measured value of the sensor unit 115.

According to the present invention, the glove leakage check history information is generated as a document file such as a PDF file, thereby ensuring convenience of the user and reliability of check records.

In addition, according to the present invention, it is possible to improve the accuracy of the glove leak check.

FIG. 1 is a view showing a work machine in which a glove leakage check apparatus according to an embodiment of the present invention is installed,
FIG. 2 is a view showing a state in which a glove leakage checking apparatus according to an embodiment of the present invention is installed in a work equipment in FIG. 1;
3 is a view showing a rear structure of a glove leakage check device according to an embodiment of the present invention,
FIG. 4 is a functional block diagram showing a structure of a glove leakage check apparatus according to an embodiment of the present invention,
FIG. 5 is a flowchart illustrating an operation of the glove leakage check apparatus according to an embodiment of the present invention, and FIG.
FIG. 6 is a diagram illustrating a touch-type display of an input unit in a glove leakage check apparatus according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 1 is a view showing a work machine in which a glove leakage check apparatus according to an embodiment of the present invention is installed. Referring to FIG. 1, a work machine in which a glove leakage check apparatus 100 according to an embodiment of the present invention is installed includes a glove 10, a shield panel 30, and a fixture 50.

The blocking panel 30 is a transparent panel installed to block the working environment in the pharmaceutical, chemical, and biotechnology industries from external contamination. The operator inserts his or her hand into the work hole 35 formed in the blocking panel 30 The glove 10 is fixed by the fixture 50 so that the work can be performed.

That is, the fixture 50 is installed at a boundary portion of the work hole 35 formed in the cut-off panel 30 and the open end of the glove 10 is fixed to the fixture 50 so that the operator can insert the hand into the glove 10, Respectively.

FIG. 2 is a view showing a state in which a glove leakage checking apparatus according to an embodiment of the present invention is installed in the work equipment in FIG. 1. FIG. 2, the glove leakage check apparatus 100 according to the embodiment of the present invention is installed in the work hole 35 so as to be in close contact with the inner surface of the fixture 50, It is checked whether or not the glove 10 has leaked.

3 is a view illustrating a rear structure of a glove leakage check apparatus according to an embodiment of the present invention. 3, the glove leakage check apparatus 100 according to the embodiment of the present invention is provided with a cylindrical insertion port 110 inserted into the work hole 35 so as to be in close contact with the inner surface of the fixture 50, And a gasket 120 having a tubular structure which is in close contact with the inner surface of the fixture 50 is provided on a side surface of the cylindrical insertion hole 110. [

A grip 130 is formed at the left and right ends of the glove leakage check apparatus 100 so that the glove leakage check apparatus 100 can be held by the user for insertion into the work hole 35.

3, the handle 130 is inserted into the insertion hole 110 to prevent the user's finger from gripping the handle 130 when inserting the insertion port 110 into the work hole 35, It is preferable to provide a concave surface formed by protruding from the body surface of the glove leakage testing apparatus 100. [

It is also preferable that a finger-like concavo-convex portion is formed on the concave surface of the handle 130 so that the user can firmly grasp the glove leakage check device 100 through the handle 130. [

3, an injection port 111, a suction port 113, and a sensor unit are provided on the upper surface of the cylindrical insertion port 110. As shown in FIG.

The injection port 111 functions to inject air into the glove 10 through the work hole 35 to inspect the leakage of the glove 10 and the intake port 113 performs a leakage inspection process of the glove 10 The air in the glove 10 is sucked in.

The sensor unit is provided with a differential pressure sensor and measures the air pressure inside the glove 10 due to injection of air through the injection port 111 or suction of air through the suction port 113. [

4 is a functional block diagram illustrating a structure of a glove leakage check apparatus according to an embodiment of the present invention. 4, a glove leakage check apparatus 100 according to an embodiment of the present invention includes an input unit 140, a storage unit 150, a communication unit 160, an air motor unit 170, a controller 180, and a power supply unit 190.

The input unit 140 may be implemented in the form of a touch-type display device through which a user can input user ID information, ID information of the work equipment to be inspected, and operation setting information of the glove leakage check apparatus 100, 150 stores various input information input through the input unit 140, a pressure value change recording in the glove 10 measured by the sensor unit during the leak check process, and a result of the control unit 180 determining whether or not to leak.

The communication unit 160 may include a USB port or a Wi-Fi module as a communication module for transmitting a glove leak check stored in the storage unit 150 and a leak record determination report to the outside.

The air motor unit 170 is provided with an air pump for injecting air into the gasket 120 so that the air pressure inside the gasket 120 becomes a predetermined pressure value (for example, 3.0 bar) An exhaust motor for supplying air to the inside of the glove 10 and an intake motor for sucking air inside the glove 10 through the intake port 113 are preferably provided.

The control unit 180 controls the air pump, the exhaust motor, and the intake motor provided in the air motor unit 170 based on the setting information input through the input unit 140 and the pressure information inside the glove 10 measured through the sensor unit. The leakage of the glove 10 is checked.

The power supply unit 190 supplies the operating power of the input unit 140, the air motor unit 170, and the controller 180 as the self power of the glove leakage check apparatus 100 according to the present invention, The glove leakage check apparatus 100 can be used without being connected to an external power source, thereby ensuring portability and mobility.

FIG. 5 is a flowchart illustrating an operation procedure of the glove leakage check apparatus according to an embodiment of the present invention. Hereinafter, an operation process of the glove leakage check apparatus 100 according to an embodiment of the present invention will be described with reference to FIG.

2, the user inserts the insertion port 110 of the glove leakage check apparatus 100 into the work hole 35 of the work equipment to be inspected and then installs the user 110 installed in the input unit 140 of FIG. The user ID and the ID information of the work equipment to be checked are sequentially inputted through the ID information input icon (ID Set Up) and the ID information input icon (L_ID Set Up) of the work equipment to be checked.

Next, as the user inputs an inspection start command through the input unit 140, the controller 180 controls the gasket 120 attached to the inner surface of the fixture 50 to a predetermined pressure (for example, 3.0 bar To drive the air pump provided in the air motor unit 170 (S510).

The air pressure value of the gasket 120 may be preset by the user through the gasket 120 for setting the air pressure value of the gasket 120 provided in the input unit 140 of FIG. .

As the air pressure of the gasket 120 reaches the predetermined pressure, the insertion port 110 of the glove leakage check apparatus 100 not only firmly maintains the closed state with the fixture 50, 100 are firmly fixed to the work hole 35 of the work equipment to be inspected through the insertion port 110. [

Next, the control unit 180 drives the exhaust motor provided in the air motor unit 170 to inject air into the glove 10 through the injection port 111 (S520). Meanwhile, when the air pressure inside the glove 10 reaches a first reference value (for example, 700 Pa), the controller 180 measures the air pressure inside the glove 10 during the execution of the above- The air injection into the glove 10 is stopped.

The first reference value may be preset by a user through a glove pressure value setting icon (Glove P) of the input unit 140 of FIG. 6, It is preferable that the air injection pressure value into the glove 10 can be preset by the user through the injection pressure value setting icon (Injection P) provided in the input unit 140 in FIG.

If the air pressure inside the glove 10 does not reach the first reference value within a predetermined maximum injection time (for example, 120 seconds) in the execution of the above-described step S520, the controller 180 controls the glove 10 Is in the leakage state, and stops the driving of the exhaust motor.

In carrying out the present invention, it is preferable that the predetermined maximum injection time is preset by a user through an injection time setting icon (Injection T) provided in the input unit 140 in FIG.

If the internal air pressure of the glove 10 reaches the first reference value in step S520, the control unit 180 stops the air injection, and if the air pressure inside the glove 10 reaches the second reference value (for example, 650pa) is reached (S530).

In carrying out the present invention, the difference value 50pa between the first reference value and the second reference value is a pressure variation value generated in the process of stabilizing the air pressure inside the glove 10, It is preferable that the user can preset the pressure variation value by using the pressure variation value setting icon (Stable P) provided in the input unit 140 in FIG.

The glove 10 of the elastic material is extended to a certain extent according to the pressure of the air injected into the glove 10 through the injection port 111. As a result, Is stabilized to the second reference value.

As described above, according to the present invention, since the air pressure stabilization process in step S530 is separately performed, it is possible to prevent the glove 10 from being misdirected due to a decrease in the air pressure during the air pressure stabilization process.

On the other hand, when the air pressure in the glove 10 reaches the second reference value after the execution of the air pressure stabilization process in step S530 is completed, the controller 180 sequentially drives the exhaust motor and the intake motor to alternate, (For example, twice) a pulse-type pneumatic pressure application process, which is a process of repeatedly injecting and sucking air into the main body 10, at step S540.

In the meantime, in the practice of the present invention, the pulse-type air pressure application count in the above-described step S540 may also be determined by the user through the pulse-type air pressure application count setting icon (Pulsing C) It may be desirable to be able to set it.

As described above, in the present invention, by removing the corrugation formed on the glove 10 through the execution of the pulse-type pneumatic pressure application process in the above-described step S540, more precise glove leakage check can be performed thereafter.

After the execution of the above-described step S540, the control unit 180 waits for a first time until the air pressure inside the glove 10 reaches the second reference value (e.g., 650 Pa) (S550) Until the air pressure inside the glove 10 reaches a third reference value (a value within an error range of ± 50 pa at 600 Pa, for example, 620 Pa) for a predetermined time (for example, 60 seconds) (S560).

In the meantime, in implementing the present invention, the secondary stabilization wait time (60 seconds) in the above-described step S560 may also be set to a predetermined value by the user via the stabilization waiting time setting icon (Stable T) It may be desirable to be able to set it.

If the air pressure inside the glove 10 drops below the fourth reference value (for example, 550 Pa) during the second waiting time of 60 seconds in the above-described step S560, the controller 180 controls the glove 10 It is judged that it is in a leak state and the inspection is stopped.

On the other hand, when the air pressure inside the glove 10 reaches the third reference value during the second waiting time in step S560 described above, the control unit 180 then determines whether the air pressure inside the glove The change of the air pressure inside the engine 10 is monitored, and the first test for the leakage of the glove is performed (S570).

If the air pressure inside the glove 10 is reduced by the fourth reference value (for example, 10 pa) during the first test time, the controller 180 determines that the glove 10 is in a leakage state and stops the inspection .

If the air pressure inside the glove 10 is reduced within the range of the fifth reference value (for example, 2 Pa) during the first test time, The second test is performed by monitoring the change in the air pressure inside the glove 10 (S580).

If the air pressure inside the glove 10 is reduced within the range of the fifth reference value (for example, 2 Pa) during the second test time, the controller 180 determines that the glove 10 is not leaked, And terminates.

In the meantime, in the practice of the present invention, the number of consecutive tests in steps S570 and S580 may be preset by the user through the continuous test number setting icon (Continous C) provided in the input unit 140 in FIG. .

In addition, in implementing the present invention, the test time in steps S570 and S580 may be preset by a user through a test time setting icon (Test Time) provided in the input unit 140 in FIG. 6 Lt; / RTI >

In addition, in implementing the present invention, the fourth reference value and the fifth reference value in the above-described steps S570 and S580 may also be set by the user through an offset setting icon (U / D Offset) So that it can be preset.

Then, the control unit 180 stores the pressure measurement value information in the glove 10 measured and recorded in the process of performing the above-described steps S510 to S580, together with the measurement time information and the leakage determination recording information of the controller 180 And the control unit 180 generates the inspection record information stored in the storage unit 150 as a document file such as a PDF file.

In the meantime, in implementing the present invention, the document file generated by the control unit 180 includes the ID information of the user (examiner) inputted by the user through the input unit 140 before execution of the step S510, Information is preferably included.

The user can then transmit a document file such as a PDF file stored in the storage unit 150 to the outside through a USB port or the like provided in the communication unit 160.

As described above, according to the present invention, since the control unit 180 generates leak check data of the glove 10 as a document file such as a PDF file, the user does not need to process data through a separate device such as a PC, 3 It is possible to block the possibility of arbitrarily editing or operating the self-checking data.

5 is installed in the storage unit 150 and the control unit 180 executes the program stored in the storage unit 150. The control unit 180 executes the programs stored in the storage unit 150, It is preferable to perform the above steps.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

10: glove, 30: shielding panel,
35: work hole, 50: fixture,
100: Glove leakage check device, 110: Inlet port,
111: jet opening, 113: suction opening,
115: sensor part, 120: gasket,
130: handle portion, 140: input portion.

Claims (3)

An insertion port 110 installed on an inner surface of a fastener 50 to which an open end of the glove is fixed so that an operator can insert a hand into the glove;
A gasket 120 installed on a side surface of the insertion port 110 and closely contacting the inner surface of the fixture 50;
An injection port (111) installed in the insertion port (110) and injecting air into the glove;
A suction port 113 installed in the insertion port 110 to suck air in the glove;
A sensor unit 115 installed at the insertion port 110 for measuring the air pressure inside the glove; And
A control unit for determining the injection of air through the injection port 111 and the suction of air through the suction port 113 based on the measured value of the sensor unit 115,
/ RTI >
The control unit injects air into the glove through the injection port (111) until the air pressure inside the glove reaches a first reference value, and the air pressure inside the glove It is determined that the glove is in a leakage state,
When the air pressure inside the glove reaches the first reference value within the maximum injection time, the control unit interrupts the air injection into the glove and the air pressure inside the glove is less than the first reference value by a predetermined difference value The air injection stop state is maintained until the second reference value, which is a small value, is reached,
Wherein when the air pressure inside the glove reaches the second reference value, the control unit performs a pulse pressure pneumatic pressure application process that is a process of repeatedly injecting and sucking air in the glove by a predetermined number of times Device.
The method according to claim 1,
Wherein the control unit generates a document file including a measurement value of the sensor unit (115).
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