CN113080561A - Nearly electric induction audible and visual alarm safety helmet - Google Patents

Abstract

The invention discloses a near-electric induction acousto-optic alarm safety helmet, which comprises: the top of the safety helmet main body is provided with a fixing hole which is through inside and outside; the near-electricity early warning device comprises a warning unit arranged in the fixing hole and a main control unit fixed on the inner side wall of the safety helmet main body; the main control unit comprises a control module and an induction detection module connected with the control module; the induction detection module can acquire a monitoring signal in real time and send the monitoring signal to the control module; when the control module judges that the monitoring signal from the induction detection module reaches a preset threshold value, the control module controls the warning unit to make a corresponding response action. The invention combines the near-electricity induction function with the safety helmet and adds an acousto-optic early warning prompting mode, when an operator is near electricity, the loudspeaker can prompt the operator of the risk of electric shock through sound, and meanwhile, the light emitting diode can effectively remind the operator.

Description

Nearly electric induction audible and visual alarm safety helmet

Technical Field

The invention relates to the technical field of near-electric induction, in particular to a near-electric induction acousto-optic alarm safety helmet.

Background

The safety helmet is a hat which can protect the head of a person from being hurt by falling objects and other specific factors, and the main structure of the safety helmet generally comprises a helmet shell, a helmet liner, a chin strap, accessories and the like. The existing safety helmet has a single protection function and can only be used for protecting the impact risk of falling objects, and has no other safety early warning/warning functions, so that the existing safety helmet is only a protection treatment means after a safety accident occurs and cannot play a role in preventing accidents. However, the electrical construction/maintenance site is often complex in working condition, potential safety hazards are more, especially the safety risk of electric shock is outstanding, and the existing safety helmet has no near-electricity early warning function, so that a safe construction environment can not be provided for workers working near electricity.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the problems occurring in the prior art.

Therefore, the invention aims to provide a safety helmet with a near-electric induction acousto-optic alarm function, which comprises: the top of the safety helmet main body is provided with a fixing hole which is through inside and outside; the near-electricity early warning device comprises a warning unit arranged in the fixing hole and a main control unit fixed on the inner side wall of the safety helmet main body; the main control unit comprises a control module and an induction detection module connected with the control module, and the warning unit is connected with the control module; the induction detection module can acquire a monitoring signal in real time and send the monitoring signal to the control module; when the control module judges that the monitoring signal from the induction detection module reaches a preset threshold value, the control module controls the warning unit to make a corresponding response action.

As a preferred scheme of the near-electric induction acousto-optic alarm safety helmet, the near-electric induction acousto-optic alarm safety helmet comprises the following steps: the warning unit comprises a connecting column inserted in the fixing hole, a light emitting diode fixed at the outer end of the connecting column and a loudspeaker fixed at the inner end of the connecting column; the light emitting diode and the loudspeaker are electrically connected with the control module through wires; when the control module judges that the monitoring signal from the induction detection module reaches a preset threshold value, the control module controls the light emitting diode to emit light and controls the loudspeaker to sound.

As a preferred scheme of the near-electric induction acousto-optic alarm safety helmet, the near-electric induction acousto-optic alarm safety helmet comprises the following steps: the warning unit further comprises a first gland detachably connected to the outer end of the connecting column and a second gland detachably connected to the inner end of the connecting column; the first gland presses the light emitting diode on the outer end face of the connecting column; the second gland presses the loudspeaker on the inner end face of the connecting column; the inner end heads of the first gland and the second gland can be jointly pressed against the periphery of the fixing hole for a circle.

As a preferred scheme of the near-electric induction acousto-optic alarm safety helmet, the near-electric induction acousto-optic alarm safety helmet comprises the following steps: the first gland is connected to the outer end of the connecting column in a threaded fit mode, and the second gland is connected to the inner end of the connecting column in a threaded fit mode; the outer end of the connecting column is provided with a jack matched with the LED lead frame, and a threading channel for fixing the electric wire is arranged inside the connecting column; the edge of the fixing hole is provided with a threading groove which can be opposite to the outer port of the threading channel; one ends of a pair of electric wires connected with the light-emitting diode are fixed in the threading channel, penetrate through the threading groove outwards, and a lead frame inserted into the jack can be contacted with the ends of the electric wires; the center of the second gland is provided with a second window, the outer side wall of the second gland is provided with a through threading opening, and a pair of electric wires connected with the loudspeaker can penetrate through the threading opening.

As a preferred scheme of the near-electric induction acousto-optic alarm safety helmet, the near-electric induction acousto-optic alarm safety helmet comprises the following steps: the electric wire is two sections of mutual connection, wherein one section is connected to the warning unit, the other section is connected to the control module, and the two sections of electric wire form a naked electric wire connecting end respectively and are detachably connected through a wire connector.

As a preferred scheme of the near-electric induction acousto-optic alarm safety helmet, the near-electric induction acousto-optic alarm safety helmet comprises the following steps: the connector includes a housing having an accommodating space therein; the shell comprises a pair of first side plates which are parallel to each other, a pair of end plates which are respectively arranged at two ends of each first side plate, and a second side plate which is connected between the edges of the two first side plates; the two ends of the shell are respectively provided with a first opening and a second opening; the first opening and the second opening are respectively provided with a partition board extending inwards along the longitudinal direction to divide the first opening and the second opening into a pair of first plug wire ports and a pair of second plug wire ports; a pair of power connection sets is symmetrically fixed in the accommodating space along the longitudinal direction, and the two power connection sets are respectively positioned at two sides of the partition board; the power connection group comprises a connection section embedded and fixed on the inner side surface of the first side plate, and a first elastic extrusion head and a second elastic extrusion head which are transversely and symmetrically arranged at two ends of the connection section; the first elastic extrusion heads of the two power connection groups respectively correspond to a pair of first plug wire ports at one end of the shell, and the second elastic extrusion heads of the two power connection groups respectively correspond to a pair of second plug wire ports at the other end of the shell; threading spaces are formed between the first elastic extrusion heads and the second side plate of the shell, and the side faces, corresponding to the threading spaces, of the first elastic extrusion heads and the second elastic extrusion heads are provided with non-return coatings.

As a preferred scheme of the near-electric induction acousto-optic alarm safety helmet, the near-electric induction acousto-optic alarm safety helmet comprises the following steps: the first elastic extrusion head and the second elastic extrusion head are identical in structure and comprise slope plates and pressing plates, the slope plates are fixed to the end portions of the connecting sections and extend inwards, and the pressing plates are fixed to the tail ends of the slope plates; the non-return coating is arranged at the joint of the slope plate and the pressing plate, and a threading space exists between the pressing plate and the second side plate of the shell.

As a preferred scheme of the near-electric induction acousto-optic alarm safety helmet, the near-electric induction acousto-optic alarm safety helmet comprises the following steps: a fastener is arranged between the power receiving groups; the fastener comprises an elastic arc-shaped plate longitudinally spanned between two end plates and a push plate fixed at the center of the elastic arc-shaped plate, and a penetrating opening matched with the push plate is arranged on the second side plate; and an L-shaped elastic angle plate is further fixedly connected between the slope plate and the pressing plate, and the L-shaped elastic angle plate forms a folding angle facing the elastic arc-shaped plate.

As a preferred scheme of the near-electric induction acousto-optic alarm safety helmet, the near-electric induction acousto-optic alarm safety helmet comprises the following steps: the width of the threading space is smaller than the outer diameter of the wire core of the wire connecting end; when the wire connecting ends of two sections of wires are respectively inserted into corresponding threading spaces from the first wire inserting ports and the pair of second wire inserting ports at the two ends of the wire connector, the wire connecting ends can be in contact with the pressing plate, the elastic arc-shaped plate can be enabled to be concave and deformed by pressing the convex elastic arc-shaped plate, the elastic arc-shaped plate is pressed on the folding angle of the L-shaped elastic angle plate, and meanwhile, the pushing plate can penetrate out the threading spaces.

As a preferred scheme of the near-electric induction acousto-optic alarm safety helmet, the near-electric induction acousto-optic alarm safety helmet comprises the following steps: the main control unit is integrated on the circuit board and fixed on the inner side wall of the safety helmet main body.

The invention has the beneficial effects that: the invention combines the near-electricity induction function with the safety helmet and adds the acousto-optic early warning prompting mode, when the operator is near electricity, the loudspeaker can prompt the operator to have the electric shock risk by sound, and meanwhile, the light-emitting diode can effectively remind the operator, so that the safety is more possible. The near-electricity early warning device adopts the modular design and the detachable assembly of the circuit, and can facilitate the replacement/maintenance/installation of the circuit and the components thereof.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

fig. 1 is an overall structure diagram of the near-electric induction audible and visual alarm safety helmet.

FIG. 2 is a sectional view of the near-electric induction acousto-optic alarm safety helmet and a partial detailed view thereof.

Fig. 3 is a detailed view of the structure at a in fig. 2.

Fig. 4 is a structural view of the connector.

Figure 5 is an exploded view of the connector.

Fig. 6 is a structural diagram of the power receiving pack.

Fig. 7 is an internal construction view of the connector housing.

FIGS. 8 to 9 are schematic views showing the connection of the connector to the wires at both ends.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Referring to fig. 1 to 3, an embodiment of the present invention provides a near-electric induction acousto-optic alarm safety helmet, which includes a safety helmet main body 100 and a near-electric early warning device 200.

The helmet body 100 is of a conventional helmet structure, and has a top portion provided with a fixing hole K penetrating inside and outside.

The electric approaching early warning device 200 includes a warning unit 201 installed in the fixing hole K and a main control unit 202 fixed on the inner sidewall of the helmet body 100.

The main control unit 202 includes a control module 202a and a sensing detection module 202b connected to the control module 202a, and the alarm unit 201 is connected to the control module 202 a.

The control module 202a adopts the existing logic controller or single chip microcomputer, and an alarm threshold value is preset in the control module; the sensing detection module 202b adopts an existing electric field sensing sensor, and the sensing detection module 202b can acquire a monitoring signal (electric field information) of an external environment in real time and send the monitoring signal to the control module 202 a; when the control module 202a determines that the monitoring signal from the sensing module 202b reaches the preset threshold, the control module 202a controls the alert unit 201 to perform a corresponding response action. The warning unit 201 is used for making a corresponding acousto-optic response according to a command of the control module 202a, and is used for warning field personnel.

The invention combines the near-electricity induction function with the safety helmet and adds an acousto-optic early warning prompting mode, effectively reminds operators and accompanying personnel when the operators are near the electricity, and reduces the electric shock risk of electric power operation.

Further, the warning unit 201 includes a connection post 201a inserted into the fixing hole K, a light emitting diode 201b fixed at an outer end of the connection post 201a, and a speaker 201c fixed at an inner end of the connection post 201 a.

The connecting column 201a is a short column structure with the outer diameter matched with the fixing hole K, is used for installing and fixing the light emitting diode 201b and the loudspeaker 201c, and is made of insulating materials.

The led 201b and the speaker 201c are electrically connected to the control module 202a through respective wires 201 d; when the control module 202a determines that the monitoring signal from the sensing detection module 202b reaches the preset threshold, the control module 202a controls the light emitting diode 201b to emit light and controls the speaker 201c to emit sound.

Therefore, when the safety helmet is close to electricity, the alarm sound is sent out from the loudspeaker to remind a worker wearing the safety helmet; meanwhile, the diode emits flashing red warning light, and other personnel can confirm that the operator is near to the electricity through light alarm.

Further, the warning unit 201 further includes a first pressing cover 201e detachably connected to the outer end of the connecting column 201a and a second pressing cover 201f detachably connected to the inner end of the connecting column 201 a. Preferably, the first pressing cover 201e is connected to the outer end of the connection pole 201a by screw-fitting, and the second pressing cover 201f is connected to the inner end of the connection pole 201a by screw-fitting.

The first gland 201e presses the outer edge of the light emitting diode 201b on the outer end face of the connecting column 201a, and the center of the first gland 201e is provided with a first window 201e-1 for extending the head of the light emitting diode 201 b; the second pressing cover 201f presses the outer edge of the speaker 201c against the inner end surface of the connection post 201 a;

the inner end heads of the first gland 201e and the second gland 201f can clamp a circle of the periphery of the fixing hole K together, so that the LED 201b, the connecting column 201a and the loudspeaker 201c are clamped together, and the top of the helmet main body 100 is fixed.

Further, the outer end of the connection column 201a is provided with a jack 201a-1 fitted to the lead frame of the light emitting diode 201b, and the interior of the connection column 201a is provided with a threading passage 201a-2 for embedding and fixing a wire 201 d. In addition, the edge of the fixing hole K is provided with a threading groove K-1 which extends radially and can be opposite to the outer port of the threading channel 201 a-2.

One end of the pair of wires 201d is fixed in the threading channel 201a-2 and passes through the threading slot K-1, and the lead frame inserted into the insertion hole 201a-1 can contact with the end of the pair of wires 201d to realize electrical connection.

The second cover 201f has a second window 201f-1 at the center for releasing the sound of the speaker 201 c. The outer side wall of the second gland 201f is provided with a through threading opening 201f-2, and a pair of electric wires 201d connected with the loudspeaker 201c can pass through the threading opening 201f-2 outwards.

Furthermore, each module of the main control unit 202 of the present invention may be separately fixed on the inner sidewall of the helmet main body 100, or may be integrated on a circuit board, and fixed on the inner sidewall of the helmet main body 100 through the circuit board itself or through a housing covering the periphery thereof.

Further, as shown in fig. 2 to 9, the electric wire 201d of the present invention is two segments connected to each other, wherein one segment is connected to the led 201 b/speaker 201c, and the other segment is connected to the control module 202a, and the two segments of electric wire 201d respectively form a bare electric wire connection end, and are detachably connected through the wire connector 300, so as to implement a modular design of circuit connection, and facilitate assembly/replacement of modular electronic devices.

Specifically, the electrical connector 300 includes a housing 301 having a receiving space M therein, and a pair of power modules 302 symmetrically disposed inside the housing 301 along a longitudinal direction.

The housing 301 is a slot structure with an opening at one side, and is made of an insulating material (such as plastic), and includes a pair of first side plates 301a parallel to each other, a pair of end plates 301b respectively disposed at two ends of the first side plates 301a, and a second side plate 301c connected between edges of the two first side plates 301 a.

The end plates 301b at both ends of the housing 301 have a first opening and a second opening, respectively. The first opening and the second opening are respectively provided with a partition board 301d extending inwards along the longitudinal direction to divide the first opening and the second opening into a pair of first plug wire ports M-1 and a pair of second plug wire ports M-2 for inserting exposed wire connecting ends. The partition 301d enables two electric wires inserted into the same end of the housing 301 to be prevented from short-circuiting.

The two power connection sets 302 are symmetrically fixed in the accommodating space M along the longitudinal direction, and the two power connection sets 302 are respectively located at two sides of the partition 301 d.

The electrical connection set 302 includes an engagement section 302a embedded and fixed on the inner side surface of the first side plate 301a, and a first elastic pressing head 302b and a second elastic pressing head 302c symmetrically arranged at both ends of the engagement section 302a along the transverse direction. The engaging section 302a and the first and second elastic squeezing heads 302b and 302c at both ends thereof are preferably integrally formed metal copper members, the engaging section 302a extends longitudinally in the first side plate 301a, and a groove 301a-1 matched with the engaging section 302a is provided in the first side plate 301a for embedding the engaging section 302 a.

A pair of power connection units 302 located on both sides of the partition 301d together include four elastic extrusion heads, specifically: the first elastic extrusion heads 302b of the two power connection sets 302 respectively correspond to a pair of first plug wire ports M-1 at one end of the housing 301, and the second elastic extrusion heads 302c of the two power connection sets 302 respectively correspond to a pair of second plug wire ports M-2 at the other end of the housing 301. The elastic extrusion heads are in one-to-one correspondence with the plug wire ports, so that the electric wire connecting ends inserted into the plug wire ports can be connected with the corresponding elastic extrusion heads, and the electric connection is realized.

Threading spaces M-3 are formed between the first elastic pressing heads 302b and the second elastic pressing heads 302c and the second side plate 301c of the housing 301, and are used for laterally pressing and fixing the inserted electric wire connection ends by the elastic pressing heads, and the side surfaces of the first elastic pressing heads 302b and the second elastic pressing heads 302c corresponding to the threading spaces M-3 are partially provided with check coatings T. The non-return coating T is made of flexible anti-slip materials (such as silica gel and rubber) and used for preventing the anti-slip and anti-drop of the wire connecting end.

Preferably, the first elastic extrusion head 302B and the second elastic extrusion head 302c have the same structure, and both of them include a slope plate B-1 fixed to the end of the engagement section 302a and extending inward, and a pressing plate B-2 fixed to the end of the slope plate B-1; the slope board B-1 and the pressing board B-2 can both generate elastic deformation, and the joint of the slope board B-1 and the pressing board B-2 is bent to form an obtuse angle. The check coating T is arranged at the joint of the slope plate B-1 and the pressure plate B-2, and a threading space M-3 exists between the pressure plate B-2 and the second side plate 301c of the shell 301.

Therefore, after the electric wire connecting end is inserted into the threading space M-3 from any wire inserting port, the corresponding slope plate B-1 can be jacked open and is contacted with the pressing plate B-2; when the electric wire 201d has a tendency of retreating outwards and falling off, the elastic extrusion head can extrude the electric wire 201d in the lateral direction more compactly by the friction force of the non-return coating T, and the electric wire cannot fall off. The invention therefore defines: the width of the threading space M-3 is smaller than the outer diameter of the wire core of the wire connecting end.

Further, in order to facilitate the insertion of the electric wire connection end into the threading space M-3 through any wire insertion port, the present invention provides the outer edge of each partition 301d with an edge shape for wire splitting and guiding (the pair of electric wires 201d are divided into two paths, and inserted into the corresponding threading space M-3 through two first wire insertion ports M-1/a pair of second wire insertion ports M-2 at the same end, respectively).

Further, a fastener 303 is disposed between the power modules 302.

The fastener 303 includes an elastic arc-shaped plate 303a straddling between the two end plates 301b and a push plate 303b fixed at the center of the elastic arc-shaped plate 303 a.

The two ends of the elastic arc-shaped plate 303a are respectively fixed (preferably integrally formed or fixed by ultrasonic welding) with the edges of the two end plates 301b of the housing 301, and the material of the elastic arc-shaped plate is the same as that of the housing 301 and is made of tough plastic. The elastic arc-shaped plates 303a longitudinally span the outer sides of the elastic extrusion heads and are positioned between the connecting sections 302a of the two power receiving sets 302 to form an arc-shaped structure, which can form different convex/concave states through outward/inward deformation. When the elastic arc-shaped plate 303a is in the concave shape, each elastic extrusion head can be pressed simultaneously, and the lateral confining pressure is uniformly applied.

The pushing plate 303b is integrally formed with the elastic arc-shaped plate 303a, perpendicular to the center of the elastic arc-shaped plate 303a, and isolated between the first elastic pressing head 302b and the second elastic pressing head 302c of each power connection set 302.

The second side plate 301c is provided with a through opening 301c-1 matched with the push plate 303 b.

In addition, an L-shaped elastic angle plate B-3 is connected and fixed between the slope plate B-1 and the pressing plate B-2 (one end of the L-shaped elastic angle plate B-3 is integrally formed on the inner side surface of the slope plate B-1, the other end of the L-shaped elastic angle plate B-3 is integrally formed at the tail end of the pressing plate B-2), and the L-shaped elastic angle plate B-3 forms a folding angle B-31 facing the elastic arc-shaped plate 303 a. When the elastic arc-shaped plate 303a is concave, the break angle B-31 of the L-shaped elastic angle plate B-3 can be extruded, and at the moment, the pressure can be respectively transmitted to the slope plate B-1 and the pressing plate B-2 through the L-shaped elastic angle plate B-3, so that the pressing plate B-2 can be more tightly pressed on the outer side surface of the wire connecting end.

In summary, the wiring process of the wire connector 300 of the present invention is as follows: when the wire connecting ends of two segments of wires 201d are inserted into the corresponding threading spaces M-3 from the first wire plugging port M-1 and the pair of second wire plugging ports M-2 at the two ends of the wire connector 300, respectively, the wire connecting ends can contact with the pressing plate B-2, and the elastic arc-shaped plate 303a can be concavely deformed by pressing the outward elastic arc-shaped plate 303a and pressed on the break angle B-31 of the L-shaped elastic angle plate B-3, and meanwhile, the pressing plate 303B can penetrate out of the threading opening 301 c-1.

It should be noted that: when the pressure of the fastening member 303 on each elastic extrusion head needs to be removed, the end of the push plate 303b extending out of the through hole 301c-1 is pressed to push the elastic arc-shaped plate 303a and restore the convex shape (at this time, the elastic arc-shaped plate 303a is separated from each elastic extrusion head).

It is important to note that the construction and arrangement of the present application as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperatures, pressures, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter recited in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of this invention. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present inventions. Therefore, the present invention is not limited to a particular embodiment, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Moreover, in an effort to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those unrelated to the presently contemplated best mode of carrying out the invention, or those unrelated to enabling the invention).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure, without undue experimentation.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. The utility model provides a nearly electric induction audible-visual alarm safety helmet which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

a helmet body (100) having a top portion provided with a fixing hole (K) that is through inside and outside; and the number of the first and second groups,

the electric-approaching early warning device (200) comprises a warning unit (201) installed in the fixing hole (K) and a main control unit (202) fixed on the inner side wall of the safety helmet main body (100); the main control unit (202) comprises a control module (202a) and an induction detection module (202b) connected with the control module (202a), and the warning unit (201) is connected with the control module (202 a);

the induction detection module (202b) can acquire a monitoring signal in real time and send the monitoring signal to the control module (202 a); when the control module (202a) determines that the monitoring signal from the sensing detection module (202b) reaches a preset threshold value, the control module (202a) controls the warning unit (201) to make a corresponding response action.

2. The near-electric induction acousto-optic alarm safety helmet of claim 1, characterized in that: the warning unit (201) comprises a connecting column (201a) inserted in the fixing hole (K), a light emitting diode (201b) fixed at the outer end of the connecting column (201a), and a loudspeaker (201c) fixed at the inner end of the connecting column (201 a);

the light-emitting diode (201b) and the loudspeaker (201c) are electrically connected with the control module (202a) through wires (201 d); when the control module (202a) determines that the monitoring signal from the sensing detection module (202b) reaches a preset threshold value, the control module (202a) controls the light emitting diode (201b) to emit light and controls the loudspeaker (201c) to emit sound.

3. The near-electric induction acousto-optic alarm safety helmet of claim 2, characterized in that: the warning unit (201) further comprises a first gland (201e) detachably connected to the outer end of the connecting column (201a) and a second gland (201f) detachably connected to the inner end of the connecting column (201 a);

the first pressing cover (201e) presses the light emitting diode (201b) on the outer end face of the connection post (201 a); the second gland (201f) presses the speaker (201c) on the inner end face of the connection post (201 a); the inner end heads of the first gland (201e) and the second gland (201f) can be jointly pressed against the periphery of the fixing hole (K) for one circle.

4. The near-electric induction acousto-optic alarm safety helmet according to claim 3, characterized in that: the first gland (201e) is connected to the outer end of the connecting column (201a) in a threaded fit mode, and the second gland (201f) is connected to the inner end of the connecting column (201a) in a threaded fit mode;

the outer end of the connecting column (201a) is provided with a jack (201a-1) matched with a lead frame of the light-emitting diode (201b), and the inside of the connecting column (201a) is provided with a threading channel (201a-2) used for fixing the electric wire (201 d); the edge of the fixing hole (K) is provided with a threading groove (K-1) which can be opposite to the outer port of the threading channel (201 a-2); one end of a pair of electric wires (201d) connected with the light emitting diode (201b) is fixed in the threading channel (201a-2) and penetrates through the threading groove (K-1) outwards, and a lead frame inserted into the insertion hole (201a-1) can be contacted with the end head of the pair of electric wires (201 d);

the center of the second gland (201f) is provided with a second window (201f-1), the outer side wall of the second gland is provided with a through threading opening (201f-2), and a pair of electric wires (201d) connected with the loudspeaker (201c) can pass through the threading opening (201 f-2).

5. The near-electric induction acousto-optic alarm safety helmet according to any one of claims 1 to 4, characterized in that: the electric wire (201d) is in two sections which are connected with each other, wherein one section is connected to the warning unit (201), the other section is connected to the control module (202a), and the two sections of electric wire (201d) respectively form a naked electric wire connecting end and are detachably connected through the wire connector (300).

6. The near-electric induction acousto-optic alarm safety helmet according to claim 5, characterized in that: the wire connector (300) includes a housing (301) having a receiving space (M) therein;

the outer shell (301) comprises a pair of first side plates (301a) parallel to each other, a pair of end plates (301b) respectively arranged at two ends of the first side plates (301a), and a second side plate (301c) jointed between edges of the two first side plates (301 a);

the two ends of the shell (301) are respectively provided with a first opening and a second opening; the first opening and the second opening are respectively provided with a partition plate (301d) extending inwards along the longitudinal direction, and the first opening and the second opening are respectively divided into a pair of first plug wire ports (M-1) and a pair of second plug wire ports (M-2);

a pair of power connection sets (302) are longitudinally and symmetrically fixed in the accommodating space (M), and the two power connection sets (302) are respectively positioned at two sides of the partition plate (301 d);

the electric connection group (302) comprises an engagement section (302a) embedded and fixed on the inner side surface of the first side plate (301a), and a first elastic extrusion head (302b) and a second elastic extrusion head (302c) which are transversely and symmetrically arranged at two ends of the engagement section (302 a); the first elastic extrusion heads (302b) of the two power connection groups (302) respectively correspond to a pair of first plug wire ports (M-1) at one end of the shell (301), and the second elastic extrusion heads (302c) of the two power connection groups (302) respectively correspond to a pair of second plug wire ports (M-2) at the other end of the shell (301);

threading spaces (M-3) are formed between the first elastic extrusion heads (302b) and the second elastic extrusion heads (302c) and the second side plate (301c) of the shell (301), and non-return coatings (T) are arranged on the side faces, corresponding to the threading spaces (M-3), of the first elastic extrusion heads (302b) and the second elastic extrusion heads (302 c).

7. The near-electric induction acousto-optic alarm safety helmet according to claim 6, characterized in that: the first elastic extrusion head (302B) and the second elastic extrusion head (302c) are identical in structure, and both comprise a slope plate (B-1) which is fixed with the end part of the connecting section (302a) and extends inwards and a pressing plate (B-2) which is fixed at the tail end of the slope plate (B-1); the non-return coating (T) is arranged at the joint of the slope plate (B-1) and the pressing plate (B-2), and a threading space (M-3) exists between the pressing plate (B-2) and the second side plate (301c) of the shell (301).

8. The near-electric induction acousto-optic alarm safety helmet according to claim 7, characterized in that: a fastener (303) is arranged between the power receiving groups (302);

the fastener (303) comprises an elastic arc-shaped plate (303a) longitudinally spanned between two end plates (301b) and a push plate (303b) fixed at the center of the elastic arc-shaped plate (303a), and a penetrating opening (301c-1) matched with the push plate (303b) is formed in the second side plate (301 c);

an L-shaped elastic angle plate (B-3) is further fixedly connected between the slope plate (B-1) and the pressing plate (B-2), and the L-shaped elastic angle plate (B-3) forms a folding angle (B-31) facing the elastic arc-shaped plate (303 a).

9. The electric induction acousto-optic alarm safety helmet of claim 7 or 8, characterized in that: the width of the threading space (M-3) is smaller than the outer diameter of the wire core of the wire connecting end;

when the wire connecting ends of two sections of wires (201d) are respectively inserted into the corresponding threading spaces (M-3) from the first wire inserting openings (M-1) and the pair of second wire inserting openings (M-2) at the two ends of the wire connector (300), the wire connecting ends can be in contact with the pressing plate (B-2), the elastic arc-shaped plate (303a) can be inwards concave and deformed by pressing the outwards convex elastic arc-shaped plate (303a), the elastic arc-shaped plate is pressed on the break angle (B-31) of the L-shaped elastic angle plate (B-3), and meanwhile, the pushing plate (303B) can penetrate out of the threading opening (301 c-1).

10. The near-induction acousto-optic alarm safety helmet according to any one of claims 1-4 and 6-8, characterized in that: the main control unit (202) is integrated on a circuit board and fixed on the inner side wall of the helmet main body (100).

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