CN209878234U - Group control wireless type tester for detecting glove integrity - Google Patents

Abstract

The utility model discloses a group control wireless type tester for detecting gloves integrality, including upper housing, lower casing and control software, upper housing and lower casing are lock joint each other, be equipped with the display window on the upper housing surface, the upper housing is inside to be equipped with the air pump, microprocessor, the display screen, the WIFI module, RFID radio frequency scanning module, pressure sensor and solenoid valve, the air pump is located the left top in the upper housing, the display screen is located the upper housing middle part corresponding with the display window, microprocessor is located the display screen top, the WIFI module is located the display screen right side, RFID radio frequency scanning module is located the middle of the upper housing top, pressure sensor is located upper housing right side top, the solenoid valve is located the pressure sensor below, the battery is located the right lower part of upper housing; the back of the lower shell is provided with an inflation inlet, a sealing ring is arranged around the inflation inlet, and the sealing ring and the inflation inlet are connected with an air pump through a double-channel structure which is independent of each other.

Description

Group control wireless type tester for detecting glove integrity

Technical Field

The utility model relates to a group control wireless type tester that is arranged in similar products such as safety protection gloves of protective screen isolation system's gas tightness integrality to test.

Background

At present, safety protection gloves in a barrier isolation system are necessary tools for guaranteeing the personal safety of operators and the cleanness of an operating environment; careful inspection of the integrity of the safety gloves must be performed before the operation can begin.

However, the following problems are common to existing testers for testing the integrity of gloves:

1. the volume is larger and heavier, and the stainless steel is mainly used, so that the use is extremely inconvenient;

2. the operation steps are complicated because the operator needs to be externally connected with compressed air and a power supply, and the test data cannot be integrated into the production report of the user;

3. the testing efficiency is low, thereby causing extreme inconvenience in use;

4. the system does not have the functions of computer verification and audit trail, does not conform to related laws and regulations, and the historical records cannot be traced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a group control wireless type tester for detecting gloves integrality, the volume that can effectual solution existing equipment is big on the left, the step is complicated, defect such as efficiency of software testing is low.

The utility model provides a group control wireless type tester for detecting gloves integrality, including upper housing, lower casing and control software, upper housing and lower casing lock joint each other, be equipped with the display window on the surface of upper housing surface, upper housing is inside to be equipped with air pump, microprocessor, display screen, WIFI module, RFID radio frequency scanning module, pressure sensor, battery and solenoid valve, the air pump is located the left top in the upper housing, the display screen is located the upper housing middle part corresponding with the display window, microprocessor is located the display screen top, the WIFI module is located the display screen right side, RFID radio frequency scanning module is located the middle of upper housing top, pressure sensor is located upper housing right side top, the solenoid valve is located pressure sensor below, the battery is located the right lower part of upper housing;

the back of casing is equipped with the inflation inlet down, be equipped with the sealing washer around the inflation inlet, the sealing washer is connected with the air pump through independent bi-pass structure each other with the inflation inlet.

In the above scheme, the sealing ring is an annular inflatable sealing ring.

In the above scheme, a micro pump is further arranged in the upper shell, and the micro pump is located on the right side of the storage battery.

In the above scheme, the handles are arranged on the two sides of the upper shell and the lower shell.

In the scheme, the outer surface of the top of the upper shell is provided with a network card interface, a power button and an RFID radio frequency identification.

In the above scheme, a self-checking air tightness device is further arranged inside the upper shell.

In the above scheme, the self-checking air tightness device is communicated with the sealing ring.

The utility model has the advantages and the beneficial effects that:

1. the power supply and the air pump are integrated on the equipment main body, so that the equipment is small and convenient in structure, and does not need external compressed air and a power supply, thereby overcoming the defects of larger volume and inconvenient operation of the existing equipment;

2. by setting the control software, a plurality of test ports can be controlled simultaneously, so that the test efficiency is greatly improved;

3. the number and the position of the glove to be detected are automatically identified and read through the code scanning of the RFID radio frequency code scanning module, so that the convenience of operation is enhanced;

4. the control software can be installed in a user computer and can be communicated with user equipment, an unmodifiable test report is integrated into a production report of a user, and a test history record, an alarm record, an operation record and the like can be traced, so that the requirements of industrial regulations, computer verification and audit tracking functions are met.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is the upper shell structure schematic diagram of the wireless type tester of the middle group control of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a side view of the lower case of the wireless tester for group control according to the present invention.

In the figure: 1. upper casing 2, lower casing 3, air pump 4, microprocessor

5. Display screen 6, WIFI module 7, RFID radio frequency scanning module

8. Pressure sensor 9, electromagnetic valve 10, storage battery 11 and micro pump

12. Inflation inlet 13, sealing washer 14, network card interface

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1-3, the utility model relates to a group control wireless type tester for detecting the integrity of gloves, which comprises an upper shell 1, a lower shell 2 and control software, wherein the upper shell 1 and the lower shell 2 are mutually buckled and connected, and a display window (not shown in the figure) is arranged on the surface of the outer surface of the upper shell 1 for the observation and operation of operators and displays an internal display screen 5;

an air pump 3, a microprocessor 4, a display screen 5, a WIFI module 6, an RFID radio frequency scanning module 7, a pressure sensor 8, a storage battery 10 and an electromagnetic valve 9 are arranged inside the upper shell 1, wherein the air pump 3 is located at the left top in the upper shell 1 and used for pressing a glove working cavity and a sealing ring 13 and testing the integrity of the glove through pressure change; the display screen 5 is positioned in the middle of the upper shell 1 corresponding to the display window and is used for displaying the state and the test data of the test glove; the microprocessor 4 is positioned above the display screen 5 and used for processing programs in the test process and controlling each component to execute operation according to program instructions; the WIFI module 6 is positioned on the right side of the display screen 5 and used for providing network signals, so that the test ports are connected with the control software; the RFID radio frequency scanning module 7 is positioned in the middle of the top of the upper shell 1 and used for scanning a chip on equipment and automatically identifying and reading the serial number and the position of the glove; the pressure sensor 8 is positioned at the right top of the upper shell 1 and is used for detecting a pressure signal, converting the pressure signal into a usable output electric signal and transmitting the usable output electric signal to the microprocessor 4; the electromagnetic valve 9 is positioned below the pressure sensor 8; the storage battery 10 is positioned at the right lower part of the upper shell 1 and is used for providing a stable power supply for components in the test port; a micro pump 11 is also arranged in the upper shell 1, and the micro pump 11 is positioned at the right side of the storage battery 10.

In order to perform inflation detection on the glove to be detected, an inflation inlet 12 is arranged at the back of the lower shell 2, a sealing ring 13 is arranged around the inflation inlet 12, and the sealing ring 13 and the inflation inlet 12 are connected with the air pump 3 through mutually independent double-channel structures, so that the inflation inlet 12 and the sealing ring 13 are independently controlled by the air pump 3.

Preferably, the sealing ring 13 is an annular inflatable sealing ring, so that the sealing performance and the adaptability are better, and the sealing ring can be better matched with the glove to be detected.

Both sides of the upper shell 1 and the lower shell 2 are provided with handles, so that the operation of an operator is convenient to hold.

The outer surface of the top of the upper shell is provided with a network card interface 14, a power button and an RFID radio frequency identification which can be connected according to the requirements of users, so that a wireless and wired dual communication mode is provided, the handheld RFID radio frequency identification is arranged, and the users can display the type and the information of radio frequency code scanning by connecting mobile phone software.

Go up the inside self-checking gas tightness device that still is equipped with of casing, communicate each other through self-checking gas tightness device and sealing washer, can carry out real-time detection to the sealed situation of the sealing washer in the testing process, if the sealing washer does not reach appointed pressure, pressure sensor can output signal for microprocessor, and the system can automatic alarm, and then has avoided the interference of other factors in the testing process.

The utility model discloses a theory of operation:

when the test device is used, firstly, the sealing ring 13 at the back of the test port is installed in a glove ring on customer equipment, the RFID radio frequency scanning module 7 automatically identifies and reads the serial number and the position of a tested glove, then the sealing ring 13 is inflated by the air pump 3 for pressure maintaining, so that the test port and the glove ring on the customer equipment are sealed until the pressure of the sealing ring 13 reaches a standard value; the air pump 3 is used for inflating and maintaining the pressure of the glove working cavity, the pressure sensor 8 is used for transmitting a pressure signal to the microprocessor 4 to read a pressure value, the difference value of the pressure value in a period of time is observed, the difference value indicates that the glove integrity test passes in an allowable range, and otherwise, the glove integrity test fails.

The utility model has the advantages that:

1. the power supply and the air pump are integrated on the equipment main body, so that the equipment is small and convenient in structure, and does not need external compressed air and a power supply, thereby overcoming the defects of larger volume and inconvenient operation of the existing equipment;

2. by setting the control software, a plurality of test ports can be controlled simultaneously, so that the test efficiency is greatly improved;

3. the number and the position of the glove to be detected are automatically identified and read through the code scanning of the RFID radio frequency code scanning module, so that the convenience of operation is enhanced;

4. the control software can be installed in a user computer and can be communicated with user equipment, an unmodifiable test report is integrated into a production report of a user, and a test history record, an alarm record, an operation record and the like can be traced, so that the requirements of industrial regulations, computer verification and audit tracking functions are met.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A group control wireless type tester for detecting the integrity of gloves is characterized by comprising an upper shell, a lower shell and control software, the upper shell and the lower shell are mutually buckled and connected, a display window is arranged on the surface of the outer surface of the upper shell, an air pump, a microprocessor, a display screen, a WIFI module, an RFID radio frequency scanning module, a pressure sensor, a storage battery and an electromagnetic valve are arranged in the upper shell, the air pump is positioned at the left top part in the upper shell, the display screen is positioned in the middle of the upper shell corresponding to the display window, the microprocessor is positioned above the display screen, the WIFI module is positioned at the right side of the display screen, the RFID radio frequency scanning module is positioned in the middle of the top of the upper shell, the pressure sensor is positioned at the right top of the upper shell, the electromagnetic valve is positioned below the pressure sensor, and the storage battery is positioned at the right lower part of the upper shell;

the back of casing is equipped with the inflation inlet down, be equipped with the sealing washer around the inflation inlet, the sealing washer is connected with the air pump through independent bi-pass structure each other with the inflation inlet.

2. The group-controlled wireless-type tester for testing the integrity of gloves of claim 1, wherein the seal is an annular inflatable seal.

3. The group-controlled wireless glove integrity tester as claimed in claim 1, wherein a micro-pump is further provided in the upper housing, the micro-pump being located on the right side of the battery.

4. The group control wireless type tester for testing the integrity of gloves of claim 1, wherein the upper and lower housings are provided with handles on both sides.

5. The group control wireless type tester for testing the integrity of gloves of claim 1, wherein the top outer surface of the upper shell is provided with a network card interface, a power button and an RFID radio frequency identification.

6. The group control wireless type tester for detecting the integrity of gloves according to claim 1, wherein the upper shell is further provided with a self-checking airtight device inside.

7. The group control wireless type tester for testing the integrity of gloves according to claim 6, wherein the self-checking airtight device is communicated with the sealing ring.