CN113598454A - Nearly electric alarm gloves - Google Patents

Abstract

The invention discloses a pair of near-electricity alarm gloves, which belongs to the technical field of protective gloves and comprises glove bodies, wherein each glove body consists of an inner sleeve and an outer sleeve, a first magic tape and a finger magic tape are sewn on the outer sleeves and connected with the outer sleeves, a first detection assembly, a second detection assembly, a third detection assembly, a fourth detection assembly and a fifth detection assembly are arranged on the outer sleeves, and the pair of near-electricity alarm gloves has the beneficial effects that: through setting up signal reception module three, signal reception module four, signal reception module five, signal reception module one and contrast module one, detect five finger position departments, thereby make detection range wide, can effectively play the risk of protection against electric shock, it is strong to hold the fault nature, user's personal safety has fully been guaranteed, prevent to electrocute, first detecting component, part component among second detecting component and the third detecting component sharing fourth detecting component and the fifth detecting component, thereby make the structure of device simplify.

Description

Nearly electric alarm gloves

Technical Field

The invention relates to the technical field of protective gloves, in particular to a pair of near-electricity alarm gloves.

Background

In the operation, maintenance and overhaul process of the power equipment, the hand has the widest range of motion and is most easy to touch the body organs of the charged equipment, and the safety protection gloves are one of the most common safety protection appliances. Due to the influences of attention, habitual factors and the like, sometimes an operator neglects nearby live equipment, and electric shock accidents are caused. The proportion of human casualty accidents caused by electric shock to the total casualty is very high every year, the life safety of operation and maintenance maintainers is greatly threatened, and a device capable of early warning the live equipment at the body side at any time is needed.

In the existing near-electricity alarm gloves, only one electronic element is arranged, and when one of the electric elements fails, the detection function is lost, so that the gloves do not have the fault tolerance; when one or more elements are damaged, the electric shock alarm cannot play a role in alarming when being worn, so that electric shock accidents are caused.

Disclosure of Invention

The invention provides a pair of near-electricity alarm gloves, which is provided in view of the problems in the existing near-electricity alarm gloves.

Therefore, the invention aims to provide a pair of near-electricity alarm gloves, wherein a signal receiving module is arranged on each of five fingers through arrangement of a first detection assembly, a second detection assembly, a third detection assembly, a fourth detection assembly and a fifth detection assembly, the fourth detection assembly and the fifth detection assembly can work independently, the first detection assembly, the second detection assembly and the third detection assembly can share elements of the fourth detection assembly and the fifth detection assembly, the fault tolerance is enhanced, the normal use of the gloves is ensured, the existing near-electricity alarm gloves are solved, only one electronic element is arranged, and when one of the electrical elements fails, the detection function is lost, so that the glove does not have the fault tolerance; when one or more elements are damaged, the electric shock alarm cannot play a role in alarming when being worn, so that the problem of electric shock accidents is caused.

To solve the above technical problem, according to an aspect of the present invention, the present invention provides the following technical solutions:

a pair of electricity-approaching alarm gloves comprises glove bodies, wherein each glove body is composed of an inner sleeve and an outer sleeve, a first magic tape and a finger magic tape are sewn on the outer sleeve and connected with the outer sleeve, and a first detection assembly, a second detection assembly, a third detection assembly, a fourth detection assembly and a fifth detection assembly are mounted on the outer sleeve;

the first detection assembly comprises a third signal receiving module, a third filtering module and a first strength detection module, and is electrically connected with the fourth detection assembly;

the second detection assembly comprises a signal receiving module IV, a filtering module IV and an intensity detection module IV, and the second detection assembly is electrically connected with the fourth detection assembly and the fifth detection assembly respectively;

the third detection assembly comprises a signal receiving module V, a filtering module V and an intensity detection module V, and is electrically connected with the fifth detection assembly;

the fourth detection assembly comprises a signal receiving module I, a filtering module I, a strength detection module I, a wireless sending module I, a power supply I, an alarm module I, a control chip I, a wireless receiving module I, a storage module I and a comparison module I;

the fifth detection assembly comprises a signal receiving module II, a filtering module II, a strength detection module II, a wireless sending module I, a power supply I, an alarm module II, a control chip I, a wireless receiving module I, a storage module I and a comparison module I.

As a preferable aspect of the glove for a near-electricity alarm according to the present invention, wherein: the third signal receiving module is electrically connected with the third filtering module, and the third filtering module is electrically connected with the first strength detecting module.

As a preferable aspect of the glove for a near-electricity alarm according to the present invention, wherein: the signal receiving module IV is electrically connected with the filtering module IV, and the filtering module IV is electrically connected with the strength detection module IV.

As a preferable aspect of the glove for a near-electricity alarm according to the present invention, wherein: the signal receiving module V is electrically connected with the filtering module V, and the filtering module V is electrically connected with the strength detection module V.

As a preferable aspect of the glove for a near-electricity alarm according to the present invention, wherein: the first signal receiving module is electrically connected with the first filtering module, the first filtering module is electrically connected with the first intensity detection module, the first intensity detection module is electrically connected with the first wireless sending module, the first wireless sending module is electrically connected with the first power supply, the first power supply is electrically connected with the first control chip, the first control chip is electrically connected with the first comparison module and the first storage module, the first wireless sending module is electrically connected with the first wireless receiving module, and the first control chip is electrically connected with the first alarm module.

As a preferable aspect of the glove for a near-electricity alarm according to the present invention, wherein: the second signal receiving module is electrically connected with the second filtering module, the second filtering module is electrically connected with the second intensity detection module, the second intensity detection module is electrically connected with the second wireless sending module, the second wireless sending module is electrically connected with the second power supply, the second power supply is electrically connected with the second control chip, the second control chip is electrically connected with the second comparison module and the second storage module, the second wireless sending module is electrically connected with the second wireless receiving module, and the second control chip is electrically connected with the second alarm module.

As a preferable aspect of the glove for a near-electricity alarm according to the present invention, wherein: the first intensity detection module is electrically connected with the first wireless sending module, and the fifth intensity detection module is electrically connected with the second wireless sending module.

As a preferable aspect of the glove for a near-electricity alarm according to the present invention, wherein: the intensity detection module IV is electrically connected with the first wireless sending module, and the second wireless sending module is electrically connected with the intensity detection module IV.

As a preferable aspect of the glove for a near-electricity alarm according to the present invention, wherein: first detection element, second detection element, third detection element, fourth detection element, fifth detection element all paste through first magic and finger magic and install on the overcoat.

As a preferable aspect of the glove for a near-electricity alarm according to the present invention, wherein: the signal receiving module III, the signal receiving module IV, the signal receiving module V, the signal receiving module I and the signal receiving module I are respectively arranged on five fingers of the outer sleeve.

Compared with the prior art:

1. the signal receiving module III, the signal receiving module IV, the signal receiving module V, the signal receiving module I and the comparison module I are arranged, so that the positions of five fingers are detected, the detection range is wide, and the risk of electric shock can be effectively prevented;

2. because the magnetic field is generated around the charged body, the magnetic field is detected, so that the existence of the magnetic field can be detected when the charged body is not contacted, namely the charged body is far away from the charged body, and the safety is fully ensured;

3. the fourth detection assembly and the fifth detection assembly are arranged. The two assemblies can work independently, so that when one detection assembly fails, the other detection assembly can be used continuously, the fault tolerance is high, the personal safety of a user is fully ensured, and electric shock is prevented;

4. the first detection assembly, the second detection assembly and the third detection assembly share part of elements in the fourth detection assembly and the fifth detection assembly, so that the structure of the device is simplified, detection can be carried out like the fourth detection assembly or the fifth detection assembly, and the practicability is high.

Drawings

FIG. 1 is a schematic structural view provided by the present invention;

FIG. 2 is a disassembled view of the inner and outer sleeves of FIG. 1 provided in accordance with the present invention;

FIG. 3 is a schematic diagram of the detection provided by the present invention;

FIG. 4 is a schematic view of a fourth inspection assembly provided in the present invention;

FIG. 5 is a partial view of a first sensing assembly provided by the present invention;

FIG. 6 is a partial view of a second sensing assembly provided by the present invention;

FIG. 7 is a partial view of a third sensing assembly provided by the present invention;

fig. 8 is a schematic diagram of a fifth detecting assembly provided by the present invention.

In the figure: the device comprises a first detection component 1, a signal receiving module three 11, a filtering module three 12, an intensity detection module three 13, a second detection component 2, a signal receiving module four 21, a filtering module four 22, an intensity detection module four 23, a third detection component 3, a signal receiving module five 31, a filtering module five 32, an intensity detection module five 33, a fourth detection component 4, a comparison module I40, a signal receiving module I41, a filtering module I42, an intensity detection module I43, a wireless transmitting module I44, a power supply I45, an alarm module I46, a wireless receiving module I47, a control chip I48, a storage module I49, a fifth detection component 5, a comparison module I50, a signal receiving module I51, a filtering module I52, an intensity detection module I53, a wireless transmitting module I54, a power supply I55, an alarm module II 56, a wireless receiving module I57, a control chip I58, The glove comprises a first storage module 59, a glove body 6, an outer sleeve 61, a first magic tape 611, a finger magic tape 612 and an inner sleeve 62.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The invention provides a pair of near-electricity alarm gloves, please refer to fig. 1-8, comprising glove bodies 6, wherein each glove body 6 is composed of an inner sleeve 62 and an outer sleeve 61, a first magic tape 611 and a finger magic tape 612 are sewn and connected on each outer sleeve 61, and a first detection assembly 1, a second detection assembly 2, a third detection assembly 3, a fourth detection assembly 4 and a fifth detection assembly 5 are installed on each outer sleeve 61;

the first detection assembly 1 comprises a signal receiving module III 11, a filtering module III 12 and an intensity detection module I13, and the first detection assembly 1 is electrically connected with the fourth detection assembly 4; the third filtering module 12 is a filter of type F4041;

the second detection assembly 2 comprises a signal receiving module four 21, a filtering module four 22 and an intensity detection module four 23, and the second detection assembly 2 is electrically connected with the fourth detection assembly 4 and the fifth detection assembly 5 respectively; the fourth filtering module 22 is a filter of type F4041;

the third detecting element 3 comprises a signal receiving module five 31, a filtering module five 32 and an intensity detecting module five 33, and the third detecting element 3 is electrically connected to the fifth detecting element 5; the fifth filtering module 32 is a filter of type F4041;

the fourth detection component 4 comprises a signal receiving module I41, a filtering module I42, an intensity detection module I43, a wireless sending module I44, a power supply I45, an alarm module I46, a control chip I48, a wireless receiving module I47, a storage module I49 and a comparison module I40; the first alarm module 46 is set to be SF-502; the first filtering module 42 is a filter of type F4041;

the fifth detection component 5 comprises a second signal receiving module 51, a second filtering module 52, a second intensity detection module 53, a first wireless sending module 54, a first power supply 55, a second alarm module 56, a first control chip 58, a first wireless receiving module 57, a first storage module 59 and a first comparison module 50; the second alarm module 56 is set to be SF-502; the second filtering module 52 is a filter of type F4041;

further, the third signal receiving module 11 is electrically connected to the third filtering module 12, and the third filtering module 12 is electrically connected to the first intensity detecting module 13; the third signal receiving module 11 is used for detecting whether a magnetic field exists.

Further, the signal receiving module iv 21 is electrically connected to the filtering module iv 22, and the filtering module iv 22 is electrically connected to the strength detecting module iv 23; the signal receiving module four 21 is used for detecting whether a magnetic field exists.

Further, the signal receiving module five 31 is electrically connected to the filtering module five 32, and the filtering module five 32 is electrically connected to the strength detecting module five 33; the signal receiving module five 31 is used for detecting whether a magnetic field exists.

Further, the first signal receiving module 41 is electrically connected to the first filtering module 42, the first filtering module 42 is electrically connected to the first intensity detecting module 43, the first intensity detecting module 43 is electrically connected to the first wireless transmitting module 44, the first wireless transmitting module 44 is electrically connected to the first power supply 45, the first power supply 45 is electrically connected to the first control chip 48, the first control chip 48 is electrically connected to the first comparison module 40 and the first storage module 49, the first wireless transmitting module 44 is electrically connected to the first wireless receiving module 47, and the first control chip 48 is electrically connected to the first alarm module 46; the first control chip 48 is set to TMS320C 5000; the first filtering module 42 is used for filtering so as to capture the magnetic field more; the first intensity detection module 43 is used for detecting the intensity of the magnetic field; the first power supply 45 is used for supplying power to the element; the first storage module 49 is used for storing a preset magnetic field value; the first comparison module 40 is used for comparing the magnetic field value preset by the first storage module 49 with the magnetic field intensity detected by the first intensity detection module 43; the first wireless sending module 44 and the first wireless receiving module 47 jointly transmit the received magnetic field signal to the first control chip 48; the first alarm module 46 is used for giving an alarm when the magnetic field value preset by the first storage module 49 is larger than the magnetic field intensity detected by the first intensity detection module 43.

Further, the second signal receiving module 51 is electrically connected to the second filtering module 52, the second filtering module 52 is electrically connected to the second intensity detecting module 53, the second intensity detecting module 53 is electrically connected to the second wireless transmitting module 54, the second wireless transmitting module 54 is electrically connected to the second power supply 55, the second power supply 55 is electrically connected to the second control chip 58, the second control chip 58 is electrically connected to the second comparison module 50 and the second storage module 59, the second wireless transmitting module 54 is electrically connected to the second wireless receiving module 57, and the second control chip 58 is electrically connected to the second alarm module 56; the second control chip 58 is set to TMS320C 5000; the second filtering module 52 is used for filtering so as to capture the magnetic field more; the second intensity detection module 53 is used for detecting the intensity of the magnetic field; the second power supply 55 is used for supplying power to the element; the second storage module 59 is used for storing preset magnetic field values; the second comparison module 50 is used for comparing the magnetic field value preset by the second storage module 59 with the magnetic field intensity detected by the second intensity detection module 53; the second wireless sending module 54 and the second wireless receiving module 57 transmit the received magnetic field signal to the second control chip 58; the second alarm module 56 is used for giving an alarm when the magnetic field value preset by the second storage module 59 is greater than the magnetic field intensity detected by the second intensity detection module 53.

Further, the first intensity detection module 13 is electrically connected to the first wireless transmission module 44, and the fifth intensity detection module 33 is electrically connected to the second wireless transmission module 54; the first intensity detection module 13 is used for detecting the intensity of the magnetic field.

Further, the strength detection module iv 23 is electrically connected to the first wireless transmission module 44, and the second wireless transmission module 54 is electrically connected to the strength detection module iv 23; the intensity detection module four 23 is used for detecting the magnetic field intensity.

Further, the first detection assembly 1, the second detection assembly 2, the third detection assembly 3, the fourth detection assembly 4 and the fifth detection assembly 5 are all mounted on the outer sleeve 61 through a first magic tape 611 and a finger magic tape 612; the first detection assembly 1, the second detection assembly 2, the third detection assembly 3, the fourth detection assembly 4 and the fifth detection assembly 5 are wrapped by the first magic tape 611 and the finger magic tape 612, so that the installation and maintenance are facilitated.

Further, the signal receiving module three 11, the signal receiving module four 21, the signal receiving module five 31, the signal receiving module one 41 and the signal receiving module one 51 are respectively installed on five fingers of the outer sleeve 61; the third signal receiving module 11, the fourth signal receiving module 21, the fifth signal receiving module 31, the first signal receiving module 41 and the first signal receiving module 51 are all set as magnetic field sensors of the MPU9250 model, and when current flows around, a magnetic field is generated, so that the magnetic field is induced.

When the detection device is used specifically, for example, when a finger provided with the fourth detection assembly 4 is close to an electric wire or other equipment, when the first signal receiving module 41 detects that a magnetic field exists, the first filtering module 42 filters a magnetic field signal, the first strength detection module 43 detects signal strength, the first wireless sending module 44 sends signal strength information to the first wireless receiving module 47 and further sends the signal strength information to the first control chip 48, the first control chip 48 starts the first comparison module 40 to work, the received magnetic field signal strength is compared with the magnetic field strength preset in the first storage module 49, and when the received magnetic field signal strength is greater than the magnetic field strength preset in the first storage module 49, the first control chip 48 controls the first alarm module 46 to send an alarm to warn that a strong current exists and an electric shock risk exists; when the intensity of the received magnetic field signal is smaller than the intensity of the magnetic field preset in the first storage module 49, no alarm is sent out; when a finger provided with the fifth detection component 5 is close to a wire or other equipment, the working principle is the same as that of the fourth detection component 4; when a finger provided with the first detection assembly 1 approaches an electric wire or other equipment, when the signal receiving module III 11 detects that a magnetic field exists, the filtering module III 12 filters a magnetic field signal, the strength detection module III 13 detects the strength of the signal, and the signal strength information is sent to the wireless receiving module I47 through the wireless sending module I44; when the finger equipped with the second detection component 2 approaches the wire or other equipment, when the signal receiving module four 21 detects the existence of a magnetic field, the filtering module four 22 filters a magnetic field signal, the strength detection module four 23 detects the strength of the signal, and sends the signal strength information to the wireless receiving module one 47 through the wireless sending module one 44, or sends the signal strength information to the wireless receiving module one 57 through the wireless sending module one 54; when the signal receiving module five 31 detects that a magnetic field exists, the filtering module five 32 filters a magnetic field signal, the strength detecting module five 33 detects the strength of the signal, and the signal strength information is transmitted to the wireless receiving module one 57 through the wireless transmitting module one 54.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the various features of the disclosed embodiments of the invention may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. The utility model provides a nearly electric alarm gloves, includes gloves body (6), its characterized in that: the glove body (6) consists of an inner sleeve (62) and an outer sleeve (61), a first magic tape (611) and a finger magic tape (612) are sewn and connected on the outer sleeve (61), and a first detection assembly (1), a second detection assembly (2), a third detection assembly (3), a fourth detection assembly (4) and a fifth detection assembly (5) are mounted on the outer sleeve (61);

the first detection assembly (1) comprises a signal receiving module III (11), a filtering module III (12) and an intensity detection module I (13), and the first detection assembly (1) is electrically connected with the fourth detection assembly (4);

the second detection assembly (2) comprises a signal receiving module IV (21), a filtering module IV (22) and an intensity detection module IV (23), and the second detection assembly (2) is electrically connected with the fourth detection assembly (4) and the fifth detection assembly (5) respectively;

the third detection assembly (3) comprises a signal receiving module five (31), a filtering module five (32) and an intensity detection module five (33), and the third detection assembly (3) is electrically connected with the fifth detection assembly (5);

the fourth detection assembly (4) comprises a signal receiving module I (41), a filtering module I (42), an intensity detection module I (43), a wireless sending module I (44), a power supply I (45), an alarm module I (46), a control chip I (48), a wireless receiving module I (47), a storage module I (49) and a comparison module I (40);

the fifth detection assembly (5) comprises a second signal receiving module (51), a second filtering module (52), a second strength detection module (53), a first wireless sending module (54), a first power supply (55), a second alarm module (56), a first control chip (58), a first wireless receiving module (57), a first storage module (59) and a first comparison module (50).

2. The glove for near-electricity alarm of claim 1, wherein the third signal receiving module (11) is electrically connected to the third filtering module (12), and the third filtering module (12) is electrically connected to the first strength detecting module (13).

3. The glove for near electric alarm of claim 1, wherein the signal receiving module four (21) is electrically connected to the filtering module four (22), and the filtering module four (22) is electrically connected to the strength detecting module four (23).

4. The glove for near-electricity alarm of claim 1, wherein the signal receiving module five (31) is electrically connected to the filtering module five (32), and the filtering module five (32) is electrically connected to the strength detecting module five (33).

5. The glove for near electric alarm of claim 1, wherein the first signal receiving module (41) is electrically connected to the first filtering module (42), the first filtering module (42) is electrically connected to the first intensity detecting module (43), the first intensity detecting module (43) is electrically connected to the first wireless transmitting module (44), the first wireless transmitting module (44) is electrically connected to the first power supply (45), the first power supply (45) is electrically connected to the first control chip (48), the first control chip (48) is electrically connected to the first comparison module (40) and the first storage module (49), the first wireless transmitting module (44) is electrically connected to the first wireless receiving module (47), and the first control chip (48) is electrically connected to the first alarm module (46).

6. The glove for near electric alarm of claim 1, wherein the second signal receiving module (51) is electrically connected to the second filtering module (52), the second filtering module (52) is electrically connected to the second intensity detecting module (53), the second intensity detecting module (53) is electrically connected to the second wireless transmitting module (54), the second wireless transmitting module (54) is electrically connected to the second power supply (55), the second power supply (55) is electrically connected to the second control chip (58), the second control chip (58) is electrically connected to the second comparison module (50) and the second storage module (59), the second wireless transmitting module (54) is electrically connected to the second wireless receiving module (57), and the second control chip (58) is electrically connected to the second alarm module (56).

7. The glove for near-electricity alarm according to claim 1, wherein the first intensity detection module (13) is electrically connected to the first wireless transmission module (44), and the fifth intensity detection module (33) is electrically connected to the second wireless transmission module (54).

8. The glove for near-electricity alarm according to claim 1, wherein the fourth intensity detection module (23) is electrically connected to the first wireless transmission module (44), and the second wireless transmission module (54) is electrically connected to the fourth intensity detection module (23).

9. The electricity-approaching alarm glove according to claim 1, wherein the first detection assembly (1), the second detection assembly (2), the third detection assembly (3), the fourth detection assembly (4) and the fifth detection assembly (5) are all mounted on the outer sleeve (61) through a first magic tape (611) and a finger magic tape (612).

10. The electricity-approaching alarm glove according to claim 1, wherein the signal receiving module three (11), the signal receiving module four (21), the signal receiving module five (31), the signal receiving module one (41) and the signal receiving module one (51) are respectively installed on five fingers of the outer sleeve (61).

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