CN218999622U - Multifunctional low-voltage operation live display protective glove - Google Patents

Abstract

The utility model relates to a multifunctional low-voltage operation live display protective glove, which comprises: the magnet is arranged on the glove body, and the electrified detection module and the illumination module are insulated from the glove body; the live inspection module includes: the contact electricity testing module and the induction electricity testing module; according to the utility model, the live-line inspection module, the illumination module and the magnet are loaded on the basis of the insulating glove main body, so that functions of the insulating glove are enriched, a worker can conveniently perform operations such as live-line inspection, local illumination, small part picking and the like by using a single glove, operation steps are simplified, and the risk that an operator drops due to weak grabbing of a corresponding operation tool caused by poor operation flexibility of the insulating glove is reduced.

Description

Multifunctional low-voltage operation live display protective glove

[ field of technology ]

The utility model relates to a multifunctional low-voltage operation live display protective glove, and belongs to the field of electric safety appliances.

[ background Art ]

The insulating glove for live working is important individual protective equipment for electric power constructors; with the development of the power industry, the popularization of live working technology, insulating gloves for live working have been widely used;

the traditional insulating glove is integrally made of insulating materials, has a single function, is only used for protection, and can ensure certain thickness for meeting the insulating performance; when the work such as local illumination and whether a test line is electrified is performed, the work needs to be completed by workers through corresponding tools outside the glove, the operation cannot be realized by the glove alone, the flexibility of fingers is limited by the thickness of the insulating glove, the tool is inconvenient to hold and easy to drop in the holding process, and small parts such as screws are inconvenient to pick up.

[ utility model ]

According to the defects in the related art, the technical problems to be solved by the utility model are as follows: in order to solve the problems, the multifunctional low-voltage operation live display protective glove is provided.

The utility model relates to a multifunctional low-voltage operation live display protective glove, which comprises the following components:

a multifunctional low-voltage operation live display protective glove is characterized in that: including the gloves main part, still include:

a magnet arranged on the glove body, and an electrified inspection module and an illumination module which are insulated from the glove body;

the live inspection module includes: the contact electricity testing module and the induction electricity testing module;

the contact electroscope module comprises: the contact, the resistor, the neon tube and the metal wire are electrically connected in series;

the induction electroscope module comprises: the device comprises a near-electric induction alarm, an induction end, a first contact and a second contact, wherein the first contact and the second contact are electrically connected with the near-electric induction alarm and a power supply; the induction end is electrically connected with the induction end of the near-electric induction alarm.

Optionally, the lighting module includes: the LED lamp, the power supply and the switch are electrically connected in series.

Optionally, the glove body is of a multi-layer composite structure, the inner layer of the glove body is made of fabric, and the outer layer of the glove body is an insulating coating;

and ventilation holes are uniformly formed in one side of the back of the glove body, close to the root of the finger, of the glove body.

Optionally, the contact is arranged at the top end of the glove body at the position corresponding to the index finger; the contact is a conductor;

the metal wires are embedded in the wrist of the glove body, and the metal wires are partially exposed to the inner layer of the glove body.

Optionally, the sensing end is arranged on the abdomen part of the index finger on one side of the palm of the glove body.

Optionally, the first contact is disposed on a thumb abdomen portion of a palm side of the glove body; the second contact is arranged on one side of the middle finger of the glove body close to the index finger.

Optionally, a resistor, a neon tube, a near electric induction alarm and a pair of near electric induction alarms are respectively arranged on the back of the hand of the glove body.

Optionally, the LED lamp is arranged on one side of the back of the hand at the tiger mouth position of the glove main body; the power supply and the switch are arranged on the back of the hand of the glove body.

Optionally, the magnet is a strip-shaped magnet piece, and the magnet is arranged at a position, close to the wrist, on one side of the palm of the glove body; the polarities of the magnets on the left hand and the right hand of the glove body are opposite.

Compared with the prior art, the utility model has the following beneficial effects:

according to the multifunctional low-voltage operation live display protective glove, the live inspection module, the lighting module and the magnet are loaded on the basis of the insulating glove body, so that functions of the insulating glove are enriched, workers can conveniently perform operations such as live inspection, local lighting and small part picking by using a single glove, operation steps are simplified, and the risk that operators drop due to the fact that the corresponding operation tools are not firmly grabbed due to poor operation flexibility of the insulating glove is reduced.

[ description of the drawings ]

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

Fig. 1: the structure of the utility model is schematically shown;

fig. 2: the structure of the utility model is schematically shown;

fig. 3: a schematic diagram of a near-electricity induction alarm;

fig. 4: a schematic diagram of a sensing electroscope module.

In the figure:

1. a glove body;

2. ventilation holes;

3. the contact, the resistor 3.1, the neon tube 3.2 and the metal wire 3.3;

LED lamp, power supply 4.1, switch 4.2;

5. the near-electricity induction alarm, the induction end 5.1, the first contact 5.2 and the second contact 5.3;

6. and (3) a magnet.

[ detailed description ] of the utility model

The utility model is further described with reference to the drawings and detailed description which follow:

the present utility model is further illustrated by the following examples, which are not intended to be limiting, but any modifications, equivalents, improvements, etc. within the spirit and principles of the present utility model are intended to be included within the scope of the present utility model.

As shown in fig. 1-4, the multifunctional low-voltage operation live display protective glove comprises:

a magnet 6 arranged on the glove body 1, and an electrified inspection module and an illumination module which are insulated from the glove body 1;

the live inspection module includes: the contact electricity testing module and the induction electricity testing module;

the contact electroscope module comprises: the contact 3, the resistor 3.1, the neon tube 3.2 and the metal wire 3.3 are electrically connected in series, the resistor 3.1 adopts the specification of 1.5 megaohms, and the contact electroscope voltage range is as follows: 60-500v;

the induction electroscope module comprises: the induction system comprises a near-electric induction alarm 5, an induction end 5.1, a first contact 5.2 and a second contact 5.3, wherein the first contact 5.2 and the second contact 5.3 are electrically connected with the near-electric induction alarm 5 and a power supply; the induction end 5.1 is electrically connected with the induction end of the near-electricity induction alarm 5; the near-electric induction alarm adopts YJ-AM-3 type, and the detection range is 220-35kv.

A near-electric induction alarm structure according to the disclosure CN 202025408U: the utility model provides a high tension transmission line approaches alarm, comprises induction chip A, field effect tube T1, triode T2, resistance R, potentiometre W, relay J, diode D, loudspeaker L and pilot lamp H, its characterized in that: the induction piece A is connected with the grid electrode of the field effect tube T1, the drain electrode of the field effect tube T1 is connected with the base electrode of the triode T2, the movable contact of the potentiometer W and one static contact of the potentiometer W, the other static contact of the potentiometer W is connected with one end of the resistor R, and the collector electrode of the triode T2 is connected with one end of the relay J and the anode of the diode D; the other end of the resistor R, the other end of the relay J, the negative electrode of the diode D and one end of a contact of the relay J are connected together and then connected with the positive electrode V+ of the power supply, and the other end of the contact of the relay J is connected with one end of the loudspeaker L; the other end of the loudspeaker L, the emitter of the triode T2 and the source of the field effect transistor T1 are connected together and then connected with a power supply cathode V-; and two ends of the horn L are connected with an indicator lamp H in parallel. "in this embodiment: the sensing end 5.1 corresponds to the metal sheet a.

Fig. 4 is a schematic diagram of an induction electroscope module circuit, the first contact 5.2 and the second contact 5.3 correspond to two switch contacts in the diagram respectively, when the two switch contacts are closed, the circuit is conducted, and the near-electricity induction alarm is electrified, so that the induction electroscope function can be realized.

The lighting module includes: the LED lamp 4, the power supply 4.1 and the switch 4.2 are electrically connected in series. The LED lamp 4 is embedded in the back side of the hand at the tiger mouth position of the glove main body 1, so that the LED lamp 4 is prevented from being installed on the palm side to wear; the power supply 4.1 is a button cell, the switch 4.2 is a patch switch, and when in use, the switch is pressed down to control the LED lamp 4 to locally illuminate.

The glove body 1 is of a multi-layer composite structure, the inner layer of the glove body 1 is made of fabric, and the outer layer is an insulating coating; the glove body 1 adopts a 4-layer composite structure, the first layer of the glove body 1 is made of nylon fabric, the second layer of the glove body is made of rubber coating, and the remaining two layers are repeatedly arranged; 9 breather holes 2 with the diameter of 1.5mm are uniformly formed in the corresponding positions of the first section of fingers on the back side of the glove body 1.

The contact 3 is embedded with a fingertip at a position corresponding to the index finger of the glove main body 1; the contact 3 uses brass as a conductor. The metal wire 3.3 is embedded in the wrist of the glove body 1, and the metal wire 3.3 is partially exposed in the inner layer of the glove body 1 and can be contacted with a human body to form a loop for contacting the electricity testing module.

The induction end 5.1 is arranged on the abdomen part of the index finger of the glove main body 1, and the induction piece 5.1 adopts a copper sheet.

The sensing electricity testing module circuit adopts a normally open circuit to prevent false alarm in the multi-line live working process; the materials of the first contact 5.2 and the second contact 5.3 adopt conductive carbon films as the normal open ends of the near-electric induction alarm 5 circuit; the first contact 5.2 is embedded in the abdomen part of the thumb on the palm side of the glove body 1, and the second contact 5.3 is embedded in the middle finger of the glove body 1 on the side close to the index finger.

The resistor 3.1, the neon tube 3.2 and the near electric induction alarm 5 are respectively adhered to the back of the hand of the glove body 1 by adopting elastic glue,

the LED lamp 4 is embedded in one side of the back of the hand at the tiger mouth position of the glove main body 1; the power supply 4.1 and the switch 4.2 are adhered to the back of the hand of the glove body 1 by elastic glue.

The magnet 6 is a strip-shaped magnet piece, the magnet 6 is adhered to the position, close to the wrist, of the palm side of the glove body 1 by flexible glue, the polarities of the magnet 6 on the left hand and the right hand of the glove body 1 are opposite, small-sized parts such as screws and the like are conveniently adsorbed during operation, and the magnet 6 of the two gloves are abutted and adsorbed together when the use is completed, so that the glove is convenient for logistic storage and arrangement.

When the glove is used, an operator wears the glove, when the glove needs to be contacted and tested for electricity, the contact 3 at the index finger end is used for touching a suspected charged body, the resistor 3.1, the neon tube 3.2, the metal wire 3.3 and the human body form a loop, at the moment, if the neon tube 3.2 is lightened, the electrification is proved, and if the neon tube is not lightened, the electrification is proved to be electroless; when the induction test is needed, after the first contact point 5.2 at the thumb end is in butt joint with the second contact point 5.3 at one side of the middle finger end, the induction end 5.1 on the abdomen of the index finger is close to a suspected charged body, and whether the target is charged or not is judged according to whether the near-point induction alarm 5 emits a ringing alarm and lamplight or not.

The foregoing has shown and described the basic principles, main features and advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (9)

1. A multifunctional low-voltage operation live display protective glove is characterized in that: including glove body (1), still include:

a magnet (6) arranged on the glove body (1), and a live inspection module and a lighting module which are insulated from the glove body (1);

the live inspection module includes: the contact electricity testing module and the induction electricity testing module;

the contact electroscope module comprises: the contact (3), the resistor (3.1), the neon tube (3.2) and the metal wire (3.3) are electrically connected in series;

the induction electroscope module comprises: the induction system comprises a near-electric induction alarm (5), an induction end (5.1), a first contact (5.2), a second contact (5.3) and a power supply, wherein the first contact (5.2) and the second contact (5.3) are electrically connected with the near-electric induction alarm (5) and the power supply; the induction end (5.1) is electrically connected with the induction end of the near-electricity induction alarm (5).

2. The multifunctional low-voltage operation live display protective glove according to claim 1, wherein:

the lighting module includes: the LED lamp (4), the power supply (4.1) and the switch (4.2) are electrically connected in series.

3. The multifunctional low-voltage operation live display protective glove according to claim 1, wherein:

the glove body (1) is of a multi-layer composite structure, the inner layer of the glove body (1) is made of fabric, and the outer layer of the glove body is an insulating coating;

the glove is characterized in that ventilation holes (2) are uniformly formed in one side of the back of the glove body (1) close to the root of the finger.

4. The multifunctional low-voltage operation live display protective glove according to claim 1, wherein:

the contact (3) is arranged at the top end of the glove main body (1) at the position corresponding to the index finger; the contact (3) is a conductor;

the metal wires (3.3) are embedded in the wrist of the glove body (1), and the metal wires (3.3) are partially exposed to the inner layer of the glove body (1).

5. The multifunctional low-voltage operation live display protective glove according to claim 1, wherein:

the sensing end (5.1) is arranged on the abdomen part of the index finger at the palm side of the glove body (1).

6. The multifunctional low-voltage operation live display protective glove according to claim 1, wherein:

the first contact (5.2) is arranged on the thumb abdomen part of the palm side of the glove main body (1); the second contact (5.3) is arranged on one side of the middle finger of the glove main body (1) close to the index finger.

7. The multifunctional low-voltage operation live display protective glove according to claim 1, wherein:

the electric resistance (3.1), the neon tube (3.2), the near electric induction alarm (5) are respectively arranged on the back of the hand of the glove body (1).

8. The multifunctional low-voltage operation live display protective glove according to claim 2, wherein:

the LED lamp (4) is arranged on one side of the back of the hand at the tiger mouth position of the glove main body (1); the power supply (4.1) and the switch (4.2) are arranged on the back of the glove body (1).

9. The multifunctional low-voltage operation live display protective glove according to claim 1, wherein:

the magnet (6) is a strip-shaped magnet piece, and the magnet (6) is arranged at a position, close to the wrist, of one side of the palm of the glove main body (1); the polarities of the magnets (6) on the left hand and the right hand of the glove body (1) are opposite.

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