CN215309813U - Safety belt for high-altitude operation - Google Patents

Abstract

The utility model discloses a safety belt for high-altitude operation, which comprises a safety belt body and an equipment accommodating part, wherein the safety belt body comprises a safety belt body seat and a safety belt seat; the equipment portion of holding set up in the safety belt body and configuration are used for holding check out test set, check out test set includes at least one in laser range finder, highlight flashlight, bobbing, resiliometer, sclerometer, coating calibrator, supersound calibrator and the box chi. Specifically, the equipment accommodating part comprises a laser range finder accommodating bag, a highlight hand capacitance accommodating bag, a small hammer accommodating bag, a resiliometer accommodating bag, a hardness meter accommodating bag, a coating thickness meter accommodating bag, an ultrasonic thickness meter accommodating bag and a box ruler hook. The safety belt for high-altitude operation can improve the detection efficiency on the premise of meeting the safety operation requirement, avoid potential safety hazards to personnel and equipment caused by high-altitude vertical transportation operation, and save the working cost.

Description

Safety belt for high-altitude operation

Technical Field

The utility model relates to the technical field of high-altitude operation, in particular to a safety belt for high-altitude operation.

Background

The high-altitude operation inspection and evaluation items include safety helmets, safety nets, full belts and the like. The safety belt is a necessary protective article for preventing falling and casualties of high-altitude operation personnel.

The conventional safety belt mainly comprises a belt body, a safety matching rope, a buffer bag and metal accessories, and is suitable for high-altitude operation of general construction and maintenance workers.

The detection and inspection work of the building relates to high-altitude operation, and various detection equipment and tools are required to be used for detecting various parameters of the building or the component to be detected in the high-altitude operation process. The detection and inspection method comprises the following working steps: the inspection personnel generally can scramble earlier to the eminence, fixes the back according to the regulation with the safety belt, puts the rope and hangs check out test set to the eminence and use, waits to put the rope again after this check out test set accomplishes and delivers to ground this check out test set, and ground personnel are lifted this check out test set off the back and are fixed again and bind another check out test set and supply check out test set to carry out next check out test set and use. The problems of this method are: need many people to operate, improved working cost, also reduced work efficiency simultaneously, on the other hand, still have the risk that the equipment in transit dropped from the eminence.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the problems in the prior art, and provides a safety belt for high-altitude operation, which can improve the detection efficiency, avoid potential safety hazards to personnel and equipment caused by high-altitude vertical transportation operation and save the working cost on the premise of meeting the safety operation requirement.

In order to achieve the above object, the present invention provides a harness for high-altitude work, comprising a harness body and an equipment housing portion; the equipment portion of holding set up in the safety belt body and configuration are used for holding check out test set, check out test set includes at least one in laser range finder, highlight flashlight, bobbing, resiliometer, sclerometer, coating calibrator, supersound calibrator and the box chi.

Optionally, the equipment accommodating part comprises a laser range finder accommodating bag, a highlight manual capacitance accommodating bag, a small hammer accommodating bag, a resiliometer accommodating bag, a hardness meter accommodating bag, a coating thickness meter accommodating bag, an ultrasonic thickness meter accommodating bag and a box ruler hook.

Optionally, the laser range finder holds the bag, the hammer holds the bag, the resiliometer holds the bag and the box chi couple is located in the horizontal direction one side of safety belt body, the highlight hand capacitance holds the bag, the sclerometer holds the bag, the coating thickness gauge holds the bag and the supersound thickness gauge holds the bag and is located in the horizontal direction the opposite side of safety belt body.

Optionally, at least one of the laser range finder receiving bag, the highlight capacitance receiving bag, the hammer receiving bag, the resiliometer receiving bag, the durometer receiving bag, the coating thickness gauge receiving bag, and the ultrasonic thickness gauge receiving bag comprises a bag body seal; preferably, the bag body seal is a knitted Velcro seal.

Optionally, the safety belt for high-altitude operation comprises a power supply, wherein the power supply is arranged on the safety belt body and is configured to be electrically connected with at least one of the glare flashlight, the hardness tester, the coating thickness gauge and the ultrasonic thickness gauge.

Optionally, the high-light capacitance receiving bag, the hardness meter receiving bag, the coating thickness gauge receiving bag and the ultrasonic thickness gauge receiving bag are all provided with charging interfaces, and the power supply is electrically connected with the charging interfaces through a plurality of wires.

Optionally, the power source and the plurality of wires are both disposed inside the seat belt body.

Optionally, the hammer accommodating bag is a strip-shaped structure, two ends of the strip-shaped structure are respectively fixed to the surface of the safety belt body, a through hole allowing the hammer handle of the hammer to pass through is defined by the middle of the strip-shaped structure and the surface of the safety belt body, and the through hole is configured to prevent the hammer head of the hammer from passing through.

Optionally, the box ruler hook is a self-locking spring hook.

Optionally, the safety belt body includes that interconnect's waist hangs the area and the area is hung to the shoulder, wherein, laser range finder holds the bag with the highlight hand capacitance holds the bag and sets up on the shoulder hangs the area, the hammer holds the bag resiliometer holds the bag the sclerometer holds the bag the coating thickness gauge holds the bag the supersound thickness gauge holds the bag and box chi couple all sets up on the waist hangs the area.

Through the technical scheme, at least one of detection devices such as a laser range finder, a highlight flashlight, a small hammer, a resiliometer, a hardness tester, a coating thickness gauge, an ultrasonic thickness gauge and a box ruler can be placed in the device accommodating part of the safety belt, so that normal climbing and operation cannot be influenced after a detection person wears the safety belt. Therefore, the safety belt for high-altitude operation can ensure that a detection person directly carries detection equipment to reach a high-altitude operation area on the premise of meeting the requirement of safety operation, avoids the phenomenon that the detection person vertically suspends and transports the detection equipment at a high position, can effectively avoid potential safety hazards brought to the person and the equipment by the high-altitude vertical transportation operation while improving the detection efficiency, increases the engineering safety guarantee, saves the engineering cost, and greatly improves the working efficiency while reducing the potential safety hazards.

Additional features and advantages of the utility model will be set forth in the detailed description which follows.

Drawings

Fig. 1 is a schematic configuration diagram of one embodiment of the harness for high-altitude work of the present invention.

Description of the reference numerals

100-safety belt body, 110-waist hanging belt, 120-shoulder hanging belt,

210-laser rangefinder receiving pocket, 220-highlight manual capacitance receiving pocket, 230-bob receiving pocket, 240-resiliometer receiving pocket, 250-durometer receiving pocket, 260-coating thickness gauge receiving pocket, 270-ultrasonic thickness gauge receiving pocket, 280-box ruler hook, 290-charging interface,

300-sealing the opening of the bag body,

400-power supply

Detailed Description

The following detailed description of embodiments of the utility model refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

At present, various detection devices and tools are used for detecting various parameters of a building or a component to be detected in the process of high-altitude operation. The detection and inspection method comprises the following working steps: the inspection personnel generally can scramble earlier to the eminence, fixes the back according to the regulation with the safety belt, puts the rope and hangs check out test set to the eminence and use, waits to put the rope again after this check out test set accomplishes and delivers to ground this check out test set, and ground personnel are lifted this check out test set off the back and are fixed again and bind another check out test set and supply check out test set to carry out next check out test set and use. The problems of this method are: need many people to operate, improved working cost, also reduced work efficiency simultaneously, on the other hand, still have the risk that the equipment in transit dropped from the eminence.

In order to solve the above problems, the present invention provides a seatbelt for high-altitude work as follows.

As shown in fig. 1, the seatbelt for high altitude work of the present invention includes a seatbelt body 100 and an equipment housing portion; the device accommodating portion is provided in the seatbelt body 100 and configured to be used for accommodating a detection device including at least one of a laser range finder, a highlight flashlight, a hammer, a resiliometer, a durometer, a coating thickness gauge, an ultrasonic thickness gauge, and a box ruler.

In the safety belt, at least one of detection devices such as a laser range finder, a highlight flashlight, a hammer, a resiliometer, a hardness meter, a coating thickness gauge, an ultrasonic thickness gauge and a box ruler can be placed in the device accommodating part of the safety belt, so that normal climbing and operation cannot be influenced after a detection person wears the safety belt. Therefore, the safety belt for high-altitude operation can ensure that a detection person directly carries detection equipment to reach a high-altitude operation area on the premise of meeting the requirement of safety operation, avoids the phenomenon that the detection person vertically suspends and transports the detection equipment at a high position, can effectively avoid potential safety hazards brought to the person and the equipment by the high-altitude vertical transportation operation while improving the detection efficiency, increases the engineering safety guarantee, saves the engineering cost, and greatly improves the working efficiency while reducing the potential safety hazards.

It should be understood that the device receptacle may take a variety of forms, for example, the device receptacle may be a pocket into which a laser rangefinder, a glare torch, a hammer, a resiliometer, a durometer, a coating thickness gauge, an ultrasonic thickness gauge, and a box ruler may all be placed. However, in order to facilitate an inspector to conveniently and quickly remove an inspection apparatus corresponding to a current inspection work from an apparatus housing part during a high-place work, in one embodiment of the present invention, the apparatus housing part includes a laser range finder housing bag 210, a strong light hand capacitance housing bag 220, a small hammer housing bag 230, a resiliometer housing bag 240, a durometer housing bag 250, a coating thickness gauge housing bag 260, an ultrasonic thickness gauge housing bag 270, and a box ruler hook 280. That is, the device accommodating portion in this embodiment includes a plurality of pick-and-place units, i.e., accommodating bags or hooks, for picking and placing the detecting devices, each detecting device corresponds to one pick-and-place unit, and the detecting person can get the effect of picking and placing the corresponding detecting device quickly by knowing the positions of the different pick-and-place units.

Further, the safety belt body 100 includes a waist hanging strap 110 and a shoulder hanging strap 120 which are connected to each other, wherein a laser range finder accommodating bag 210 and a strong light hand capacitance accommodating bag 220 are provided on the shoulder hanging strap 120, and a small hammer accommodating bag 230, a resiliometer accommodating bag 240, a durometer accommodating bag 250, a coating thickness gauge accommodating bag 260, an ultrasonic thickness gauge accommodating bag 270, and a box ruler hook 280 are provided on the waist hanging strap 110. Because waist sling 110 sets up in the below of shoulder sling 120, consequently, place different check out test set respectively on waist sling 110 and shoulder sling 120 according to the weight of equipment, can reach the balanced effect of safety belt upper portion, lower part focus, improved the travelling comfort of dressing.

Further, the laser range finder accommodating bag 210, the small hammer accommodating bag 230, the resiliometer accommodating bag 240, and the box ruler hook 280 are located at one side of the seatbelt body 100 in the horizontal direction, and the strong optical manual capacitance accommodating bag 220, the durometer accommodating bag 250, the coating thickness gauge accommodating bag 260, and the ultrasonic thickness gauge accommodating bag 270 are located at the other side of the seatbelt body 100 in the horizontal direction. Therefore, different detection devices are respectively placed on the left side and the right side of the safety belt body 100 according to the weight of the devices, the effect of balancing the gravity centers of the left part and the right part of the safety belt can be achieved, and the wearing comfort is further improved.

In order to allow the detection device to be stably placed in the receiving bag and prevent the detection device from falling out of the receiving bag due to shaking or vibration, in one embodiment of the present invention, the laser range finder receiving bag 210, the strong light capacitance receiving bag 220, the hammer receiving bag 230, the resiliometer receiving bag 240, the durometer receiving bag 250, the coating thickness gauge receiving bag 260, and the ultrasonic thickness gauge receiving bag 270 each include a bag body seal 300.

On the premise of ensuring the bag body seal 300 to be firm, in order to improve the convenience of taking the detection equipment at a high place by detection personnel, in one embodiment of the utility model, the bag body seal 300 is a knitted magic tape seal.

In order to ensure that the detection equipment always has enough power for detection work, in one embodiment of the utility model, the safety belt for high-altitude work comprises a power supply 400, wherein the power supply 400 is arranged on the safety belt body 100 and is configured to be electrically connected with at least one of a highlight flashlight, a hardness tester, a coating thickness gauge and an ultrasonic thickness gauge. That is, the power supply 400 can be charged at any time for the detection device, so as to ensure that the detection device always has enough electric quantity for detection.

To facilitate replacement of the power supply 400, in one embodiment of the present invention, the high light capacitance receiving bag 220, the durometer receiving bag 250, the coating thickness gauge receiving bag 260, and the ultrasonic thickness gauge receiving bag 270 are each provided with a charging interface 290, and the power supply 400 is electrically connected to each charging interface 290 through a plurality of wires, respectively. Through set up the interface 290 that charges on holding the bag for only need to part power 400 and electric wire when changing power 400, and connect the electric wire and can accomplish the change work on new power, it is swift high-efficient.

To prevent the power supply 400 from being accidentally dropped, in one embodiment of the utility model, the power supply 400 and a plurality of wires are disposed inside the seatbelt body 100. The function of improving the appearance aesthetic degree of the safety belt can also be played in the arrangement mode.

It should be understood that the hammer receiving pocket 230 may take various forms, for example, the hammer receiving pocket 230 may be a pocket-shaped structure, and in order to further facilitate the inspection personnel to take and place the hammer, in an embodiment of the present invention, the hammer receiving pocket 230 is a strip-shaped structure, both ends of which are respectively fixed to the surface of the seatbelt body 100, and the middle portion of which defines a through hole allowing the hammer shank of the hammer to pass therethrough together with the surface of the seatbelt body 100, the through hole being configured to prevent the hammer head of the hammer from passing therethrough. Therefore, the tester can insert the hammer shank of the hammer into the through hole in the reverse direction, and the hammer head is caught at the through hole, so that the hammer is stably seated in the hammer receiving pocket 230.

Further, the box ruler hook 280 is a self-locking spring hook, so that when in use, a box ruler belt can be directly hung in the hook, and the hook is in a self-locking state in a normal state.

With the above embodiment, the harness for high-altitude operations according to the present invention has the following advantages:

1. can guarantee that measurement personnel directly carries check out test set and reachs the aerial work region under the prerequisite that satisfies the safe operation requirement, effectively avoid aerial work personnel to hang at the perpendicular suspension of eminence and draw transportation check out test set, when improving detection efficiency, can effectively avoid the potential safety hazard that the perpendicular transportation operation of eminence brought personnel and equipment.

2. Most high-altitude detection working surfaces have no firm equipment placement positions, the safety belt effectively solves the problem of placement of detection equipment during high-altitude detection operation, and avoids the falling risk of the detection equipment.

3. The problem that multiple detection devices are charged simultaneously on site is effectively solved, and the site working efficiency is improved.

4. The safety belt is convenient to manufacture, easy to carry and free from environmental influence.

The preferred embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited thereto. Within the scope of the technical idea of the utility model, many simple modifications may be made to the technical solution of the utility model, and in order to avoid unnecessary repetition, various possible combinations of the utility model will not be described further. Such simple modifications and combinations should be considered within the scope of the present disclosure as well.

Claims (10)

1. A harness for high work, characterized in that it comprises a harness body (100) and an equipment housing;

the equipment accommodating part is arranged on the safety belt body (100) and is configured to accommodate detection equipment, and the detection equipment comprises at least one of a laser range finder, a highlight flashlight, a hammer, a rebound instrument, a hardness tester, a coating thickness tester, an ultrasonic thickness tester and a box ruler;

the equipment accommodating part comprises a laser range finder accommodating bag (210), a strong light capacitance-to-hand accommodating bag (220), a small hammer accommodating bag (230), a resiliometer accommodating bag (240), a hardness meter accommodating bag (250), a coating thickness meter accommodating bag (260), an ultrasonic thickness meter accommodating bag (270) and a box ruler hook (280).

2. The safety belt for high work according to claim 1, characterized in that the laser range finder housing bag (210), the small hammer housing bag (230), the resiliometer housing bag (240), and the box ruler hook (280) are located on one side of the safety belt body (100) in a horizontal direction, and the highlight hand capacitance housing bag (220), the durometer housing bag (250), the coating thickness gauge housing bag (260), and the ultrasonic thickness gauge housing bag (270) are located on the other side of the safety belt body (100) in the horizontal direction.

3. The harness for aerial work of claim 1 wherein at least one of the laser range finder receiving bag (210), the highlight capacitance receiving bag (220), the hammer receiving bag (230), the resiliometer receiving bag (240), the durometer receiving bag (250), the coating thickness gauge receiving bag (260), and the ultrasonic thickness gauge receiving bag (270) includes a bag closure (300).

4. The harness for high operations as claimed in claim 3 wherein the bag closure (300) is a knitted velcro closure.

5. The safety harness for height work of claim 1 comprising a power source (400), the power source (400) being disposed at the safety harness body (100) and configured to be electrically connectable to at least one of the glare torch, the durometer, the coating thickness gauge, and the ultrasonic thickness gauge.

6. The harness for aerial work of claim 5 wherein the glare capacitance receiving pocket (220), the durometer receiving pocket (250), the coating thickness gauge receiving pocket (260), and the ultrasonic thickness gauge receiving pocket (270) are each provided with a charging interface (290), the power source (400) being electrically connected to each of the charging interfaces (290) by a plurality of wires, respectively.

7. The harness for height work according to claim 6, wherein the power source (400) and the plurality of wires are both disposed inside the harness body (100).

8. The safety belt for high work according to claim 1, characterized in that the small hammer receiving bag (230) is a strip-shaped structure, both ends of which are fixed to the surface of the safety belt body (100), respectively, and the middle of which defines a through hole allowing the hammer handle of the small hammer to pass therethrough together with the surface of the safety belt body (100), the through hole being configured to prevent the hammer head of the small hammer from passing therethrough.

9. The safety harness for high work according to claim 1, characterized in that the box ruler hook (280) is a self-locking spring hook.

10. The harness for high work according to any one of claims 1-9, characterized in that the harness body (100) comprises a waist strap (110) and a shoulder strap (120) connected to each other, wherein the laser range finder receiving pocket (210) and the bright light capacitance receiving pocket (220) are provided on the shoulder strap (120), and the small hammer receiving pocket (230), the resiliometer receiving pocket (240), the durometer receiving pocket (250), the coating thickness gauge receiving pocket (260), the ultrasonic thickness gauge receiving pocket (270), and the box ruler hook (280) are provided on the waist strap (110).

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