阅读说明：本技术 一种基于5g网络的具有视频信号传输功能的智能消防头盔结构 (Intelligent fire-fighting helmet structure with video signal transmission function based on 5G network ) 是由 赵洁 于 2021-06-18 设计创作，主要内容包括：本发明提供一种基于5G网络的具有视频信号传输功能的智能消防头盔结构,涉及消防设备技术领域,解决了不能够在实现辅助防护的同时实现采风以及风力导流不能够通过拼接式结构来实现头盔的上下缓冲,且该缓冲结构不能够实现放置时头盔的防滚动的问题。一种基于5G网络的具有视频信号传输功能的智能消防头盔结构,包括头盔主体；所述头盔主体为罩状结构。因弹性垫顶端面与座体接触,且弹性垫组成了防护结构的缓冲结构,从而当重物砸在防护结构上时弹性垫实现缓冲；因弹性垫的外径大于挡板以及座体的外径,且弹性垫组成了头盔主体和防护结构的防磕碰结构,从而在放置时通过弹性垫的缓冲可避免头盔主体和防护结构磕碰损坏。(The invention provides an intelligent fire fighting helmet structure with a video signal transmission function based on a 5G network, relates to the technical field of fire fighting equipment, and solves the problems that the upper and lower buffering of a helmet cannot be realized through a splicing structure while auxiliary protection cannot be realized, and the rolling prevention of the helmet cannot be realized when the helmet is placed through the buffering structure. An intelligent fire-fighting helmet structure with a video signal transmission function based on a 5G network comprises a helmet main body; the helmet main body is of a cover-shaped structure. The top end face of the elastic cushion is contacted with the seat body, and the elastic cushion forms a buffer structure of the protection structure, so that the elastic cushion realizes buffering when a heavy object is smashed on the protection structure; because of the external diameter of cushion is greater than the external diameter of baffle and pedestal, and the cushion has constituteed helmet main part and protective structure's the structure of preventing colliding with to can avoid helmet main part and protective structure to collide with the damage through the buffering of cushion when placing.)

1. The utility model provides an intelligence fire helmet structure that has video signal transmission function based on 5G network which characterized in that: comprises a helmet main body (1);

the helmet main body (1) is of a hood-shaped structure;

the helmet main body (1) includes:

the baffle (101), the baffle (101) is a ring-shaped structure, and the baffle (101) is welded on the helmet main body (1);

protective structure (2), protective structure (2) cup joints on helmet main part (1), and protective structure (2) comprises pedestal (201) and helmet (202).

2. The intelligent fire-fighting helmet structure with video signal transmission function based on 5G network as claimed in claim 1, wherein: the protective structure (2) comprises:

the helmet comprises a seat body (201), wherein the seat body (201) is of an annular structure, and the seat body (201) is sleeved on a helmet main body (1);

the protective cap (202), the protective cap (202) is a cover-shaped structure, and the protective cap (202) is welded on the base body (201); the protective cap (202) is sleeved on the helmet main body (1), and the inner wall of the protective cap (202) is not in contact with the outer wall of the helmet main body (1).

3. The intelligent fire-fighting helmet structure with video signal transmission function based on 5G network as claimed in claim 1, wherein: the protective structure (2) further comprises:

eight through holes C (20201), wherein the number of the through holes C (20201) is eight, and the eight through holes C (20201) are all in a rectangular hole-shaped structure; the eight through holes C (20201) are arranged on the protective cap (202) in an annular array, and the eight through holes C (20201) jointly form a wind collecting structure of the protective cap (202).

4. The intelligent fire-fighting helmet structure with video signal transmission function based on 5G network as claimed in claim 1, wherein: the helmet body (1) further comprises:

the helmet comprises a helmet main body (1), and is characterized in that eight through holes A (102) are formed in the helmet main body (1), and the eight through holes A (102) are arranged on the outer wall of the helmet main body in an annular array;

eight through holes B (103) are formed in the helmet body (1), and the eight through holes B (103) are arranged on the outer wall of the helmet body (1) in an annular needle shape;

the through holes A (102) and the through holes B (103) are arranged in a staggered manner, and the through holes A (102) and the through holes B (103) jointly form a ventilation structure of the helmet main body (1);

an elastic pad (3) is adhered to the upper part of the helmet main body (1).

5. The intelligent fire-fighting helmet structure with video signal transmission function based on 5G network as claimed in claim 4, wherein: the through hole A (102) and the through hole B (103) are both cylindrical hole-shaped structures, the through hole A (102) and the through hole B (103) are both obliquely formed, and the forming angles of the through hole A (102) and the through hole B (103) are 45 degrees and-45 degrees respectively.

6. The intelligent fire-fighting helmet structure with video signal transmission function based on 5G network as claimed in claim 4, wherein: the elastic pad (3) is of an annular structure, the top end face of the elastic pad (3) is in contact with the seat body (201), and the elastic pad (3) forms a buffer structure of the protective structure (2).

7. The intelligent fire-fighting helmet structure with video signal transmission function based on 5G network as claimed in claim 6, wherein: the elastic cushion (3) is of an annular structure, the outer diameter of the elastic cushion (3) is larger than the outer diameters of the baffle (101) and the seat body (201), and the elastic cushion (3) forms a collision prevention structure of the helmet main body (1) and the protection structure (2).

8. The intelligent fire-fighting helmet structure with video signal transmission function based on 5G network as claimed in claim 7, wherein: the elastic pad (3) comprises:

the grooves (301) are arranged on the elastic pad (3) in an annular array shape, the grooves (301) are of a semi-cylindrical groove-shaped structure, and the grooves (301) arranged in the annular array shape jointly form an anti-rolling structure of the helmet main body (1) and the protective structure (2);

the lower position of the elastic pad (3) is provided with a fixed structure (4), and the fixed structure (4) is arranged on the protective structure (2).

9. The intelligent fire-fighting helmet structure with video signal transmission function based on 5G network as claimed in claim 8, wherein: the fixing structure (4) comprises:

the strap A (401), the strap A (401) is bound on the base body (201);

the bandage B (402), the bandage B (402) is bound on the base body (201);

the band A (401) and the band B (402) jointly form a wearing structure of the device and a separation-preventing structure when the helmet main body (1) and the protective structure (2) are worn;

control box (5) is installed to the top of fixed knot structure (4), and control box (5) are installed on pedestal (201).

10. The intelligent fire-fighting helmet structure with video signal transmission function based on 5G network as claimed in claim 9, wherein: the control box (5) comprises:

the microprocessor (501), the microprocessor (501) is installed in the control box (5);

the probe (502), the probe (502) is installed on the control box (5);

the alarm (503), the alarm (503) is installed in the control box (5);

the 5G module (504), the 5G module (504) is installed in the control box (5);

probe (502), alarm (503) and 5G module (504) all link to each other with microprocessor (501) electrical property, and can give microprocessor (501) with the signal transmission when dangerous signal is caught to probe (502), and microprocessor (501) steerable alarm (503) are operating condition.

Technical Field

The invention belongs to the technical field of fire fighting equipment, and particularly relates to an intelligent fire fighting helmet structure with a video signal transmission function based on a 5G network.

Background

The fire-fighting helmet is composed of a helmet shell, a mask, a shawl, a buffer layer and the like, is designed in a half helmet mode, is novel in style, has the performances of preventing sharp object impact, preventing corrosion, preventing heat radiation, reflecting light, being insulating, being light and the like, and has the ubiquitous functions of signal detection and signal conduction at present.

As in application No.: the invention discloses a CN202010835215.0, relates to the technical field of fire fighting equipment, and particularly relates to an intelligent fire fighting helmet with an adjustable structure. According to the structure-adjustable intelligent fire-fighting helmet, the arc-shaped guide sliding groove used for being connected with the external multifunctional box in a sliding mode is formed in the outer arc-shaped surface, the arc-shaped connecting plate with the built-in sliding balancing weight is fixedly connected between the built-in multifunctional box and the built-in power supply box inside the helmet body, the external multifunctional box is driven to slide on the outer arc-shaped surface of the helmet body through the sliding balancing weight, and the external multifunctional box is automatically controlled to move according to the angle of the helmet, so that a camera device on the external multifunctional box can shoot forwards normally when a fire fighter lowers the head, and the shooting stability is greatly improved.

The intelligent fire helmet similar to the above application has the following disadvantages:

one is that although the existing device can realize multiple protection of the helmet, other protection structures cannot realize wind collection and wind power diversion while realizing auxiliary protection; moreover, the existing device cannot realize the up-and-down buffering of the helmet through a splicing structure, and the buffering structure cannot realize the rolling prevention of the helmet during placement; finally, in the existing device, although the air holes are formed in the helmet, dust easily enters the exposed air holes.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and an intelligent fire fighting helmet structure with a video signal transmission function based on a 5G network is provided, so as to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides an intelligent fire-fighting helmet structure with a video signal transmission function based on a 5G network, which aims to solve the problem that although the existing device can realize multiple protection of a helmet, other protection structures cannot realize wind collection and wind power diversion while realizing auxiliary protection; moreover, the existing device cannot realize the up-and-down buffering of the helmet through a splicing structure, and the buffering structure cannot realize the rolling prevention of the helmet during placement; finally, in the existing device, although the air holes are formed in the helmet, dust easily enters the exposed air holes.

The invention relates to a purpose and an effect of an intelligent fire-fighting helmet structure with a video signal transmission function based on a 5G network, which are achieved by the following specific technical means:

an intelligent fire-fighting helmet structure with a video signal transmission function based on a 5G network comprises a helmet main body;

the helmet main body is of a cover-shaped structure;

the helmet main body includes:

the baffle is of an annular structure and is welded on the helmet main body in a welding mode;

the protective structure is sleeved on the helmet main body and consists of a seat body and a protective cap;

further, the protective structure comprises:

the seat body is of an annular structure and is sleeved on the helmet main body;

the protective cap is of a cover-shaped structure and is welded on the seat body; the helmet is sleeved on the helmet main body, and the inner wall of the helmet is not in contact with the outer wall of the helmet main body, so that the helmet forms a buffering protection structure of the helmet main body.

Further, the protective structure further comprises:

eight through holes C are formed in the through holes C, and the eight through holes C are all in a rectangular hole-shaped structure; eight through-holes C are arranged on the helmet in an annular array shape, and the eight through-holes C jointly form the wind collecting structure of the helmet, so that wind collection of the helmet can be realized through the eight through-holes C.

Further, the helmet body further includes:

the helmet comprises a helmet main body, eight through holes A and eight through holes A, wherein the eight through holes A are arranged on the outer wall of the helmet main body in an annular array;

eight through holes B are formed in the helmet main body, and the eight through holes B are formed in the outer wall of the helmet main body in an annular needle shape;

the through holes A and the through holes B are arranged in a staggered manner, and the through holes A and the through holes B jointly form a ventilation structure of the helmet main body, so that gas can enter the helmet main body through the through holes A and the through holes B, and the comfort of a wearer is improved;

the elastic pad is adhered to the upper part of the helmet main body.

Furthermore, the through hole A and the through hole B are both cylindrical hole-shaped structures, the through hole A and the through hole B are both obliquely arranged, and the arrangement angles of the through hole A and the through hole B are 45 degrees and-45 degrees respectively, so that the wind collection effect of the through hole A and the through hole B is improved.

Further, the fixing structure includes:

the bandage A is bound on the seat body;

the bandage B is bound on the base body;

the binding band A and the binding band B jointly form a wearing structure of the device and a separation-preventing structure when the helmet main body and the protective structure are worn, so that the helmet main body and the protective structure can be prevented from separating from each other;

the control box is installed to fixed knot constructs's top, and the control box is installed on the pedestal.

Further, the control box includes:

the microprocessor is arranged in the control box;

the probe is arranged on the control box;

the alarm is arranged in the control box;

the 5G module is arranged in the control box;

probe, alarm and 5G module all link to each other with microprocessor electrical property, and can give microprocessor with signal transmission when the probe catches danger signal, and the steerable alarm of microprocessor is operating condition to microprocessor still can give 5G module with signal transmission, finally give mobile terminal with signal transmission by 5G module.

Furthermore, the elastic cushion is of an annular structure, the top end face of the elastic cushion is in contact with the seat body, and the elastic cushion forms a buffer structure of the protection structure, so that when a heavy object is hammered on the protection structure, the buffer can be realized through the elastic cushion besides the self buffer of the protection structure.

Further, the cushion is the loop configuration, and the external diameter of cushion is greater than the external diameter of baffle and pedestal, and the cushion has constituteed helmet main part and protective structure's the structure of preventing colliding with to can avoid helmet main part and protective structure to collide with the damage through the buffering of cushion when placing.

Further, the elastic pad includes:

the grooves are arranged on the elastic pad in an annular array manner, are of a semi-cylindrical groove-shaped structure, and jointly form an anti-rolling structure of the helmet main body and the protective structure, so that the helmet main body and the protective structure are prevented from rolling everywhere when placed;

the fixed structure is installed to the below position of cushion, and fixed structure installs on protective structure.

Compared with the prior art, the invention has the following beneficial effects:

through the arrangement of the protective cap, firstly, the protective cap is in a cover-shaped structure and is welded on the seat body; the protective cap is sleeved on the helmet main body, and the inner wall of the protective cap is not contacted with the outer wall of the helmet main body, so that the protective cap forms a buffer protection structure of the helmet main body; secondly, because eight through-holes C are set up on the helmet for the annular array form, and eight through-holes C have constituteed the structure of taking a breath of helmet jointly to can realize the wind-collecting of helmet through eight through-holes C.

Through the arrangement of the through holes A and the through holes B, firstly, the through holes A and the through holes B are arranged in a staggered manner, and the through holes A and the through holes B jointly form a ventilation structure of the helmet main body, so that gas can enter the helmet main body through the through holes A and the through holes B, and the comfort of a wearer is improved; secondly, the through hole A and the through hole B are both cylindrical hole-shaped structures, the through hole A and the through hole B are both obliquely arranged, and the arrangement angles of the through hole A and the through hole B are 45 degrees and-45 degrees respectively, so that the wind collecting effect of the through hole A and the through hole B is improved.

Through the arrangement of the elastic cushion, firstly, the elastic cushion is of an annular structure, the top end face of the elastic cushion is in contact with the seat body, and the elastic cushion forms a buffer structure of the protective structure, so that when a heavy object is hammered on the protective structure, the buffer can be realized through the elastic cushion besides the self buffer of the protective structure; and secondly, the outer diameter of the elastic pad is larger than that of the baffle and the seat body, and the elastic pad forms a collision prevention structure of the helmet main body and the protection structure, so that the helmet main body and the protection structure can be prevented from colliding and being damaged through the buffering of the elastic pad when being placed.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a schematic axial view of the present invention.

Fig. 3 is a schematic view of the present invention in a broken axial view.

Fig. 4 is a left side view of the structure of fig. 3 according to the present invention.

Fig. 5 is a schematic axial view of the present invention, taken transversely.

Fig. 6 is an enlarged schematic view of fig. 5 a according to the present invention.

Fig. 7 is an axial view of the present invention in a disassembled configuration.

Fig. 8 is a schematic diagram of the system structure of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a helmet main body; 101. a baffle plate; 102. a through hole A; 103. a through hole B; 2. a protective structure; 201. a base body; 202. a protective cap; 20201. a through hole C; 3. an elastic pad; 301. a groove; 4. a fixed structure; 401. a binding band A; 402. a binding band B; 5. a control box; 501. a microprocessor; 502. a probe; 503. an alarm; 504. and 5G module.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Example (b):

as shown in figures 1 to 8:

the invention provides an intelligent fire-fighting helmet structure with a video signal transmission function based on a 5G network, which comprises a helmet main body 1;

the helmet main body 1 is of a hood-shaped structure;

the helmet body 1 includes:

the baffle 101, the baffle 101 is a ring structure, and the baffle 101 is welded on the helmet body 1;

the protective structure 2 is sleeved on the helmet main body 1, and the protective structure 2 consists of a seat body 201 and a protective cap 202;

referring to fig. 1 and 3, the shielding structure 2 includes:

the seat body 201 is of an annular structure, and the seat body 201 is sleeved on the helmet main body 1;

the protective cap 202, the protective cap 202 is a cover-shaped structure, and the protective cap 202 is welded on the seat body 201; the helmet 202 is sleeved on the helmet body 1, and the inner wall of the helmet 202 is not in contact with the outer wall of the helmet body 1, so that the helmet 202 forms a buffering protection structure of the helmet body 1.

Referring to fig. 8, the control box 5 includes:

the microprocessor 501, the microprocessor 501 is installed in the control box 5;

the probe 502, the probe 502 is installed on the control box 5;

the alarm 503 is installed in the control box 5;

5G module 504, 5G module 504 is installed in control box 5;

the probe 502, the alarm 503 and the 5G module 504 are electrically connected to the microprocessor 501, and when the probe 502 captures a dangerous signal, the probe can transmit the signal to the microprocessor 501, the microprocessor 501 can control the alarm 503 to be in a working state, the microprocessor 501 can also transmit the signal to the 5G module 504, and finally the 5G module 504 transmits the signal to the mobile terminal.

With reference to fig. 1, the protective structure 2 further comprises:

eight through holes C20201 are formed in the through hole C20201, and the eight through holes C20201 are all rectangular hole-shaped structures; the eight through holes C20201 are arranged on the helmet 202 in an annular array, and the eight through holes C20201 constitute a wind collecting structure of the helmet 202, so that wind collection of the helmet 202 can be realized through the eight through holes C20201.

Referring to fig. 7, the helmet body 1 further includes:

eight through holes A102 are formed in the through holes A102, and the eight through holes A102 are arranged on the outer wall of the helmet main body 1 in an annular array shape;

eight through holes B103 are formed in the total number of the through holes B103, and the eight through holes B103 are formed in the outer wall of the helmet main body 1 in an annular needle shape;

the through holes A102 and the through holes B103 are arranged in a staggered manner, and the through holes A102 and the through holes B103 jointly form a ventilation structure of the helmet main body 1, so that gas can enter the helmet main body 1 through the through holes A102 and the through holes B103, and the comfort of a wearer is improved;

an elastic pad 3 is adhered to the upper side of the helmet main body 1.

Referring to fig. 5 and 6, the through hole a102 and the through hole B103 are both cylindrical hole-shaped structures, the through hole a102 and the through hole B103 are both obliquely formed, and the forming angles of the through hole a102 and the through hole B103 are 45 degrees and-45 degrees, respectively, so that the wind collecting effect of the through hole a102 and the through hole B103 is improved.

Referring to fig. 1, the elastic pad 3 is a ring structure, the top end surface of the elastic pad 3 contacts with the seat body 201, and the elastic pad 3 constitutes a buffer structure of the protective structure 2, so that when a heavy object is hammered on the protective structure 2, the buffer can be realized by the elastic pad 3 in addition to the self buffer of the protective structure 2.

Referring to as in fig. 1, the elastic pad 3 is of an annular structure, the outer diameter of the elastic pad 3 is larger than the outer diameters of the baffle 101 and the seat body 201, and the elastic pad 3 constitutes the anti-collision structure of the helmet main body 1 and the protective structure 2, so that the helmet main body 1 and the protective structure 2 can be prevented from colliding and being damaged through the buffering of the elastic pad 3 when being placed.

Referring to fig. 5, the elastic pad 3 includes:

the grooves 301 are arranged on the elastic pad 3 in an annular array shape, the grooves 301 are in a semi-cylindrical groove-shaped structure, and the grooves 301 arranged in the annular array shape jointly form an anti-rolling structure of the helmet main body 1 and the protective structure 2, so that the helmet main body 1 and the protective structure 2 are prevented from rolling everywhere when placed;

a fixing structure 4 is installed at a lower position of the elastic pad 3, and the fixing structure 4 is installed on the protection structure 2.

Referring to fig. 5, the fixing structure 4 includes:

a strap A401, wherein the strap A401 is bound on the base body 201;

the strap B402 is bound on the base body 201;

the belt A401 and the belt B402 jointly form a wearing structure of the device and a separation-preventing structure when the helmet main body 1 and the protective structure 2 are worn, so that the helmet main body 1 and the protective structure 2 can be prevented from separating from each other;

the control box 5 is installed above the fixed structure 4, and the control box 5 is installed on the seat body 201.

In another embodiment, the fixing structure 4 composed of the band a401 and the band B402 can be realized by an elastic band, which is stretched when worn, and hooks the chin when worn, so that the wearing is more convenient and faster.

The specific use mode and function of the embodiment are as follows:

when the mobile terminal is used, when the probe 502 captures a danger signal, the signal can be transmitted to the microprocessor 501, the microprocessor 501 can control the alarm 503 to be in a working state, the microprocessor 501 can also transmit the signal to the 5G module 504, and finally the 5G module 504 transmits the signal to the mobile terminal;

in the using process, firstly, the protective cap 202 is in a cover-shaped structure, and the protective cap 202 is welded on the seat body 201; the protective cap 202 is sleeved on the helmet main body 1, and the inner wall of the protective cap 202 is not in contact with the outer wall of the helmet main body 1, so that the protective cap 202 forms a buffer protection structure of the helmet main body 1; secondly, the eight through holes C20201 are arranged on the helmet 202 in an annular array, and the eight through holes C20201 form a wind collecting structure of the helmet 202 together, so that wind collection of the helmet 202 can be realized through the eight through holes C20201; thirdly, the through holes A102 and the through holes B103 are arranged in a staggered manner, and the through holes A102 and the through holes B103 jointly form a ventilation structure of the helmet main body 1, so that gas can enter the helmet main body 1 through the through holes A102 and the through holes B103, and the comfort of a wearer is improved; fourthly, the through hole A102 and the through hole B103 are both cylindrical hole-shaped structures, the through hole A102 and the through hole B103 are obliquely arranged, and the arrangement angles of the through hole A102 and the through hole B103 are 45 degrees and-45 degrees respectively, so that the wind collecting effect of the through hole A102 and the through hole B103 is improved; fifthly, as the elastic cushion 3 is of an annular structure, the top end face of the elastic cushion 3 is in contact with the seat body 201, and the elastic cushion 3 forms a buffer structure of the protective structure 2, when a heavy object is hammered on the protective structure 2, the buffer can be realized through the elastic cushion 3 in addition to the self buffer of the protective structure 2;

when placing, because of the external diameter of cushion 3 is greater than the external diameter of baffle 101 and pedestal 201, and cushion 3 has constituteed helmet main body 1 and protective structure 2's the structure of preventing colliding with to can avoid helmet main body 1 and protective structure 2 to collide with the damage through cushion 3's buffering when placing.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.