CN218354749U - Protecting against shock clothes with impact force detects sensor - Google Patents

Abstract

The utility model provides a protecting against shock clothes with impact force detects sensor, include: the front piece of the impact-resistant suit and the rear piece of the impact-resistant suit are connected through a connecting structure; a first piezoelectric ceramic sensor is arranged in the front piece of the impact-resistant suit, and a second piezoelectric ceramic sensor is arranged in the rear piece of the impact-resistant suit. The utility model discloses all be provided with piezoceramics sensor in the protecting against shock clothes anter of protecting against shock clothes and protecting against shock clothes back piece, when the workman of wearing protecting against shock clothes receives the impact force, first piezoceramics sensor and second piezoceramics sensor receive impact pressure earlier, first piezoceramics sensor and second piezoceramics sensor produce electric charge or voltage, detect this electric charge or voltage, convert its impact pressure to the electric quantity output of direct proportional relation, therefore can be with the impact force conversion output of difference, the realization is mastered the understanding that personnel received the degree of impact.

Description

Protecting against shock clothes with impact force detects sensor

Technical Field

The utility model relates to a protecting against shock clothes technical field specifically is a protecting against shock clothes with impact force detects sensor.

Background

At present, workers under high-risk occupational work have poor working environment, and the individual safety protection of the workers still face different degrees of harm. Usually, workers only wear safety helmets, the safety helmets only can protect the heads, body protection does not have corresponding safety protection measures, and personal injury is easily caused to the workers.

The existing riding protective clothing using the air bags and the impact-resistant protection pads protects human bodies by the air bags and the impact-resistant protection pads when the device is used for normal starting of the air bag protective clothing in a falling accident. When the air bag suit cannot work normally, the impact-resistant protection pad can still protect key parts such as the spine and the like, so that damage is reduced; although the device can provide the protection for the human body simultaneously through gasbag and impact-resistant protection pad, the gasbag on the device is the same with current protecting against shock clothes, or through special surface fabric or realize the impact of resisting external force through the gasbag, holistic shock resistance can be strong inadequately to present protecting against shock clothes can only be used for simple protection, can't detect the impact strength that receives, do not well control personnel injured's condition, make the protecting effect very limited.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the problem that the protecting against shock clothes does not have external force detection, provide a protecting against shock clothes with impact force detection sensor.

The utility model discloses a following technical scheme realizes:

an impact suit with an impact force detection sensor, comprising: the front piece of the impact-resistant suit and the rear piece of the impact-resistant suit are connected through a connecting structure;

a first piezoelectric ceramic sensor is arranged in the front piece of the impact-resistant suit, and a second piezoelectric ceramic sensor is arranged in the rear piece of the impact-resistant suit.

Preferably, a first hard protection plate, a first nano energy-absorbing buffer layer and a first cotton-wool interlayer are sequentially arranged in the front piece of the impact-resistant suit from the rear side to the front side, and the first piezoelectric ceramic sensor is fixedly clamped between the first nano energy-absorbing buffer layer and the first cotton-wool interlayer.

Preferably, a second hard protection plate, a second nano energy-absorbing buffer layer and a second cotton wool interlayer are sequentially arranged in the rear piece of the impact-resistant garment from the front side to the rear side, and the second piezoelectric ceramic sensor is fixedly clamped between the second nano energy-absorbing buffer layer and the second cotton wool interlayer.

Further, the nano energy-absorbing buffer layer comprises an outer cladding layer and a nano energy-absorbing material positioned in the outer cladding layer.

Preferably, three first piezoelectric ceramic sensors are arranged, and the three first piezoelectric ceramic sensors are distributed in an inverted triangle state.

Preferably, the material of protecting against shock clothes anter and protecting against shock clothes back part is fire-retardant cloth.

Preferably, waterproof layers are arranged on the outer sides of the front piece and the rear piece of the impact-resistant suit respectively.

Preferably, the equal fixed mounting in protecting against shock clothes anter both sides has first connecting band, all is equipped with the magic subsides on the first connecting band, and the equal fixed mounting in protecting against shock clothes back part both sides has the second connecting band, is equipped with the magic subsides on the second connecting band, and the second connecting band sets up with first connecting band one-to-one.

Furthermore, a safety buckle is fixedly arranged on the second connecting belt.

Preferably, the front side of the front piece of the impact-resistant suit is fixedly provided with a first reflective strip, and the rear side of the rear piece of the impact-resistant suit is fixedly provided with a second reflective strip.

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

the utility model discloses all be provided with piezoceramics sensor in the protecting against shock clothes anter and protecting against shock clothes back piece of protecting against shock clothes, when the workman of wearing protecting against shock clothes receives the impact force, first piezoceramics sensor and second piezoceramics sensor receive impact pressure earlier, first piezoceramics sensor and second piezoceramics sensor produce electric charge or voltage, detect this electric charge or voltage, convert its impact pressure to the electric quantity output of direct ratio, therefore can be with the impact strength conversion output of difference, the realization is mastered personnel's understanding of receiving impact degree, according to the size of impact force, decide whether need carry out health monitoring or health detection to personnel, with the assurance personnel safety and health of at utmost.

Further, the utility model discloses set up the cotton fibre intermediate layer, nanometer energy-absorbing buffer layer, a plurality of guard plates, wherein nanometer energy-absorbing buffer layer is when receiving the impact force, nanometer energy-absorbing material can transient response, external impact power can make the liquid that non-soaks get into the hole of nanometer solid particle, dissipate external kinetic energy on solid-liquid interface, and stereoplasm guard plate anti-impact force is strong, the human body is at the cotton fibre intermediate layer this moment, nanometer energy-absorbing buffer layer, a plurality of stereoplasm guard plate successive layers decrease the injury of impact force to the human body progressively steadily, impact load is effectively slowed down, realize the individual protection to the workman.

Further, first piezoceramics sensor sets up threely, and three first piezoceramics sensor distributes and is the state of falling triangle, and the position of its triangle state sets up respectively in two and belly one in the front to can detect the impact force in many positions, realize mastering personnel's understanding of receiving the impact degree, according to the big or small position of impact force, decide whether need carry out health monitoring or health detection to personnel.

Further, the utility model discloses an use fire-retardant cloth material, can prevent effectively to burn safety protection clothes and injury the person under the condition that catches fire.

Further, the utility model discloses a set up the waterproof layer, can prevent that the rainy day from at the during operation, first piezoceramics sensor and the inefficacy of second piezoceramics sensor in the protecting against shock clothes for whole protecting against shock clothes safe and reliable, suitability are strong, the quality is light.

Further, the hook and loop fastener is attached to the anti-impact clothes tightly through the hook and loop fasteners on the first connecting belt and the second connecting belt, the anti-impact clothes are strengthened and fixed through the safety buckle, and the anti-impact clothes are prevented from falling off when workers work.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the front piece of the impact-resistant suit of the present invention;

FIG. 3 is an exploded view of the front panel of the impact protection suit of the present invention;

FIG. 4 is a cross-sectional view of the rear piece of the impact garment of the present invention;

FIG. 5 is an exploded view of the rear piece of the ballistic suit of the present invention;

fig. 6 is a schematic view of the connection structure of the present invention.

In the figure:

1. front piece of the anti-impact garment; 11. a first connecting belt; 12. a first light-reflecting strip; 13. a nameplate; 14. a first piezoelectric ceramic sensor; 15. a first hard guard plate; 16. a first nano energy-absorbing buffer layer; 17. a first batt interlayer;

2. a rear piece of the impact-resistant suit; 21. a second connecting band; 22. a safety buckle; 23. a second reflective strip; 24. a second piezoelectric ceramic sensor; 25. a second hard guard plate; 26. a second nano energy-absorbing buffer layer; 27. a second batt interlayer;

3. a connecting structure; 31. connecting the shoulder pad; 32. an adjusting buckle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and for simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1, the present invention provides a technical solution:

an impact suit with an impact force detection sensor, comprising: protecting against shock clothes anter 1, protecting against shock clothes back part 2, protecting against shock clothes anter 1 and protecting against shock clothes back part 2 pass through connection structure 3 to be connected.

Like fig. 2, the equal fixed mounting in 1 left and right sides of protecting against shock clothes anter has first splicing tape 11, all is equipped with the magic subsides on the first splicing tape 11, and 1 front side fixed mounting in protecting against shock clothes anter has first reflection of light strip 12, and 1 front side left fixed mounting in protecting against shock clothes anter has data plate 13, and 1 internal fixed mounting in protecting against shock clothes anter has first piezoceramics sensor 14.

As fig. 4, 1 rear side in protecting against shock clothes anter is located to protecting against shock clothes back part 2, and the equal fixed mounting in the 2 left and right sides in protecting against shock clothes back part has second connecting band 21, also is equipped with the magic subsides on the second connecting band 21, and fixed mounting has safety button 22 on the second connecting band 21, and 2 rear side fixed mounting in protecting against shock clothes back part have the reflection of light strip of second 23, and 2 inside dead backs fixed mounting in protecting against shock clothes back part have second piezoceramics sensor 24.

In a specific embodiment, two first connecting belts 11 are fixedly mounted on the left and right sides of the front piece 1 of the impact protection suit, the first connecting belts 11 on the two sides are symmetrically arranged, and the second connecting belts 21 on the left and right sides of the rear piece 2 of the impact protection suit are arranged in one-to-one correspondence with the first connecting belts 11. In a specific embodiment, three first reflective strips 12 are fixedly installed on the front side of the front piece 1 of the impact-resistant suit along the horizontal direction, the three first reflective strips 12 are parallel, three second reflective strips 23 are fixedly installed on the rear side of the rear piece 2 of the impact-resistant suit along the horizontal direction, and the three second reflective strips 23 are parallel. In a specific embodiment, three first piezoelectric ceramic sensors 14 which are equally distributed are fixedly mounted in the front piece 1 of the impact-resistant suit, the three first piezoelectric ceramic sensors 14 are distributed in an inverted triangle state, and the positions of the triangle state are respectively arranged on two first piezoelectric ceramic sensors in front of the chest and one first piezoelectric ceramic sensor in the abdomen, so that impact force can be detected at multiple positions, and effective protection on important parts of a human body is realized.

As shown in fig. 3, a first hard protection plate 15, a first nano energy-absorbing buffer layer 16 and a first cotton wool interlayer 17 are sequentially arranged in the front piece 1 of the impact-resistant suit from the rear side to the front side, and a first piezoceramic sensor 14 is fixedly clamped between the first nano energy-absorbing buffer layer 16 and the first cotton wool interlayer 17. As shown in fig. 5, a second hard protection plate 25, a second nano energy-absorbing buffer layer 26 and a second cotton wool interlayer 27 are sequentially arranged in the rear piece 2 of the impact-resistant suit from the front side to the rear side, and the second piezoelectric ceramic sensor 24 is fixedly clamped between the second nano energy-absorbing buffer layer 26 and the second cotton wool interlayer 27. The hard protection plate is made of high-density polyethylene. The nano energy absorption buffer layer comprises an outer cladding layer and a nano energy absorption material positioned in the outer cladding layer, and the nano energy absorption material comprises a nano porous material and non-wetting functional liquid.

Protecting against shock clothes anter 1 and protecting against shock clothes back part 2 are made by fire-retardant cloth, and the fire-retardant cloth outside all is equipped with the waterproof layer.

Firstly, the anti-impact clothes are tightly buckled and attached to a human body through the magic tapes on the first connecting belt 11 and the second connecting belt 21, the safety buckle 22 is used for reinforcing and fixing to prevent the anti-impact clothes from falling off when a worker works, when the worker is impacted, the first piezoelectric ceramic sensor 14 and the second piezoelectric ceramic sensor 24 are impacted, the first piezoelectric ceramic sensor 14 and the second piezoelectric ceramic sensor 24 generate charges or voltages to detect the charges or voltages and convert the impact pressures into proportional electric quantity to be output, so that different impact forces can be converted and output to realize effective protection of the human body, wherein when the nanometer energy absorption buffer layer is impacted, the nanometer energy absorption material can instantaneously respond, external impact power can make non-wetting liquid get into the hole of nanometer solid particle, dissipate external kinetic energy on solid-liquid interface, and stereoplasm guard plate impact resistance is strong, the human body is at the cotton fibre intermediate layer this moment, nanometer energy-absorbing buffer layer, a plurality of stereoplasm guard plates successive layer decrease progressively and reduce the injury of impact force to the human body, effectively slow down impact load, realize individual protection to the workman, and protecting against shock clothes anter 1 and protecting against shock clothes back piece 2 are made by fire-retardant cloth, and the fire-retardant cloth outside all is equipped with the waterproof layer, can effectively prevent to burn safety protection clothes and injury the person under the condition of catching fire, also can prevent that rainy day is at the during operation, first piezoceramics sensor 14 and second piezoceramics sensor 24 in the protecting against shock clothes are inefficacy, make whole protecting against shock clothes safe and reliable, the suitability is strong, the quality is light.

As fig. 6, connection structure 3 is equipped with bilateral symmetry's two, and connection structure 3 locates between the front piece 1 of protecting against shock clothes and 2 tops of protecting against shock clothes back part, and every connection structure 3 includes: connect shoulder pad 31, connect shoulder pad 31 and accord with human shoulder shape, and connect shoulder pad 31 bottom fixed mounting in last protecting against shock clothes anter 1 and protecting against shock clothes back part 2 top, connect and to connect the last fixed mounting of shoulder pad 31 and adjust and detain 32.

Note that the material of the connecting shoulder pad 31 is the same as the material of the front impact suit 1 and the rear impact suit 2. The length of the connecting shoulder pad 31 can be adjusted by adjusting the adjusting buckle 32, so that workers with different shapes can conveniently wear the connecting shoulder pad, the impact-resistant suit can be more attached to the bodies of the workers, and the protective effect is achieved.

When the anti-impact protective device is used specifically, firstly, the length of the connecting shoulder pad 31 can be adjusted by adjusting the adjusting button 32 according to the body shape of a worker, the anti-impact garment is enabled to be more fit with the body of the worker, then the magic tapes on the first connecting belt 11 and the second connecting belt 21 are attached, the front piece 1 and the rear piece 2 of the anti-impact garment are tightly buckled and attached to the front and the rear of the human body, after attachment, the front piece and the rear piece of the anti-impact garment are strengthened and fixed through the safety button 22, the anti-impact garment is prevented from falling off when the worker works, when the worker is impacted, the first piezoelectric ceramic sensor 14 and the second piezoelectric ceramic sensor 24 are firstly impacted by the work impact force, the first piezoelectric ceramic sensor 14 and the second piezoelectric ceramic sensor 24 generate electric charges or voltages, the electric charges or voltages are detected, the impact pressures are converted into electric quantity output in a direct proportion relation, when the nanometer energy-absorbing buffer layer is impacted, the nanometer energy-absorbing material can respond, the external impact force can enable non-absorbing liquid to enter pores of nanometer solid particles, the external impact force is dissipated on a solid-liquid interface, and the human body is strong in an anti-absorbing interlayer, the nanometer energy buffer layer, the instant protective device can reduce the impact force of the multiple worker, and the impact force of the individual impact force, and the impact force is reduced effectively.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only preferred examples of the present invention, and is not intended to limit the present invention, and that the present invention can have various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall into the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides an protecting against shock clothes with impact force detects sensor which characterized in that includes: the front piece (1) of the impact-resistant suit is connected with the rear piece (2) of the impact-resistant suit through a connecting structure (3);

a first piezoelectric ceramic sensor (14) is arranged in the front piece (1) of the impact-resistant suit, and a second piezoelectric ceramic sensor (24) is arranged in the rear piece (2) of the impact-resistant suit.

2. The impact-resistant suit with impact force detection sensors according to claim 1, wherein a first hard protection plate (15), a first nano energy-absorbing buffer layer (16) and a first cotton-wool interlayer (17) are sequentially arranged in the front piece (1) of the impact-resistant suit from the rear side to the front side, and the first piezoceramic sensor (14) is fixedly clamped between the first nano energy-absorbing buffer layer (16) and the first cotton-wool interlayer (17).

3. The impact suit with impact force detection sensors according to claim 1, wherein a second hard protection plate (25), a second nano energy-absorbing buffer layer (26) and a second cotton wool interlayer (27) are sequentially arranged in the rear piece (2) of the impact suit from the front side to the rear side, and the second piezoelectric ceramic sensor (24) is fixedly clamped between the second nano energy-absorbing buffer layer (26) and the second cotton wool interlayer (27).

4. The ballistic suit with impact force detection sensors of claim 2 or 3, wherein the nano energy-absorbing buffer layer comprises an outer covering and a nano energy-absorbing material located within the outer covering.

5. The impact protection suit with impact force detection sensors according to claim 1, wherein three first piezoceramic sensors (14) are provided, and the three first piezoceramic sensors (14) are distributed in an inverted triangular shape.

6. The impact protection suit with an impact force detection sensor according to claim 1, wherein the front piece (1) and the rear piece (2) of the impact protection suit are made of flame retardant cloth.

7. The impact suit with an impact force detection sensor according to claim 1, wherein waterproof layers are provided on the outer sides of the front piece (1) and the rear piece (2) of the impact suit.

8. The impact-resistant suit with an impact force detection sensor according to claim 1, wherein first connecting belts (11) are fixedly mounted on both sides of a front piece (1) of the impact-resistant suit, magic tapes are disposed on the first connecting belts (11), second connecting belts (21) are fixedly mounted on both sides of a rear piece (2) of the impact-resistant suit, the magic tapes are disposed on the second connecting belts (21), and the second connecting belts (21) and the first connecting belts (11) are arranged in a one-to-one correspondence manner.

9. The ballistic suit with impact force detection sensor according to claim 8, characterized in that the second connecting strap (21) is fixedly provided with a safety catch (22).

10. The impact protection suit with an impact force detection sensor according to claim 1, wherein a first reflective strip (12) is fixedly mounted on the front side of the front piece (1) of the impact protection suit, and a second reflective strip (23) is fixedly mounted on the rear side of the rear piece (2) of the impact protection suit.

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