CN113826973B - High-altitude operation safety protection glove - Google Patents

Abstract

A safety protective glove for aloft work. The high-altitude operation safety protective glove is compact in structure and capable of improving safety. The mechanical glove is convenient to disassemble and assemble by sequentially connecting finger tips, finger gaps, finger roots and metacarpals in pairs and matching with the action of the palm of a human body; the mechanical glove can be bent along with the hand to be made into a holding action, the finger end clamping bamboo shoots of the mechanical glove are inserted into thumb clamping grooves of the mechanical glove to form a locking state, when the hand is stretched, the mechanical glove travel switch triggers the controller, and the controller instructs the electromagnetic relay in the finger end clamping bamboo shoots of the mechanical glove to act and retract the finger end clamping bamboo shoots, so that the locking fixing state is released. Through setting up the connected form of finger end card bamboo shoot and thumb draw-in groove, when grabbing climbing thing, improve locking reliability, protection operating personnel safety. The invention is convenient to process and ensures the safety of operators in climbing by hands.

Description

High-altitude operation safety protection glove

Technical Field

The invention relates to electric auxiliary equipment, in particular to a safety protection glove suitable for overhead operation.

Background

With the high-speed development of economy and the enhancement of environmental protection, the ground distance of overhead engineering equipment is higher and higher, and the working intensity of workers such as construction, installation, operation and inspection climbing on overhead equipment is also higher and higher.

When workers climb on equipment such as iron towers, scaffolds, frameworks and hanging ladders to perform high-altitude operation by hands, the workers only carry out operation by using common gloves, so that reliable protection effect cannot be achieved, and safety accidents are easily caused.

Disclosure of Invention

Aiming at the problems, the invention provides the high-altitude operation safety protective glove which has a compact structure and improves the safety.

The technical scheme of the invention is as follows: comprises a mechanical glove, a controller and a locking mechanism,

the mechanical glove comprises finger ends, finger spaces, finger roots and metacarpal bones which are sequentially arranged, the finger ends are T-shaped blocks,

a clamping groove I is formed in the middle of the front end of each finger, and the middle vertical section of each finger is movably positioned in the clamping groove I between the fingers;

a clamping groove II is arranged in the middle of the front end of the finger root, the rear end of the finger root is movably positioned in the clamping groove II,

the metacarpal bone is a square body, the front end of the metacarpal bone is provided with a clamping groove III, and the rear end of the finger root is movably positioned in the clamping groove III;

the metacarpal bone is movably provided with a thumb and a back baffle, the thumb is positioned on the front surface of the metacarpal bone, and the back baffle is positioned on the back surface of the metacarpal bone;

the thumbs are finger plates, the thumbs are provided with a pair of thumbs, the thumbs are symmetrically arranged on two sides of metacarpal bones, a connecting rod is arranged between the thumbs, and two sides of the thumbs are respectively provided with a thumb strap fixing ring;

the back baffle is U-shaped, and two ends of the back baffle are movably connected to two sides of the metacarpal bone;

palm strap fixing rings are respectively arranged on two sides of the finger root and are used for connecting palm straps;

the locking mechanism comprises an electromagnetic relay and a pair of finger-end clamping shoots, wherein a containing groove is formed in the horizontal section of each finger end, the electromagnetic relay is arranged in the middle of the containing groove, the pair of finger-end clamping shoots are positioned in the containing groove and are positioned on two sides of the electromagnetic relay, the finger-end clamping shoots are connected with the electromagnetic relay through springs, and the electromagnetic relay is connected with a controller;

the thumb is provided with thumb clamping grooves, the thumb clamping grooves are in one-to-one correspondence with the finger end clamping bamboo shoots, and the finger end clamping bamboo shoots are used for being connected in the thumb clamping grooves.

The rear end of the finger root is provided with a mechanical glove travel switch which is used for being connected with a controller.

The device also comprises an electromagnetic device which is arranged in the metacarpal bone, and a switch is arranged on one side of the back shield and used for controlling the electromagnetic device.

The wrist strap fixing device is characterized by further comprising a wrist strap, wherein a clamping groove IV is formed in the rear end of the metacarpal bone, the wrist strap is movably connected in the clamping groove IV of the metacarpal bone, the wrist strap is plate-shaped, side baffles are respectively arranged at two ends of the wrist strap, and wrist strap fixing holes are formed in the side baffles and used for connecting straps.

In operation, the mechanical glove is convenient to disassemble and assemble by sequentially connecting the finger tips, the interphalangeal, the finger roots and the metacarpal bones in pairs and matching with the palm action of a human body;

the mechanical glove can be bent along with the hand to be made into a holding action, the finger end clamping bamboo shoots of the mechanical glove are inserted into thumb clamping grooves of the mechanical glove to form a locking state, when the hand is stretched, the mechanical glove travel switch triggers the controller, and the controller instructs the electromagnetic relay in the finger end clamping bamboo shoots of the mechanical glove to act and retract the finger end clamping bamboo shoots, so that the locking fixing state is released.

Through setting up the connected form of finger end card bamboo shoot and thumb draw-in groove, when grabbing climbing thing, improve locking reliability, protection operating personnel safety.

The invention is convenient to process and ensures the safety of operators in climbing by hands.

Drawings

Figure 1 is a schematic view of the structure of the present invention,

figure 2 is a right side view of figure 1,

figure 3 is a view of the curved state of figure 1,

figure 4 is a schematic view of the internal structure of the finger tip,

figure 5 is a schematic perspective view of a mechanical glove,

FIG. 6 is a schematic perspective view of a mechanical glove;

in the figure, 1 is a carpal bone, 2 is a side block, 3 is a fixing hole of a wrist strap, 4 is a mechanical glove, 41 is a finger end, 42 is a finger space, 420 is a clamping groove I, 43 is a root, 430 is a clamping groove II, 44 is a metacarpal bone, 45 is a thumb, 450 is a thumb clamping groove, 46 is a back block, 47 is a connecting rod, 48 is a thumb strap fixing ring, 49 is a clamping groove III, 410 is a clamping groove IV, 411 is a palm strap fixing ring, 412 is a branch pipe, 413 is a mechanical glove travel switch, 414 is an electromagnetic device, 415 is a switch, 416 is an electromagnetic relay, 417 is a finger end clamping bamboo shoot, 418 is a containing groove, 419 is a spring,

Detailed Description

The invention is shown in fig. 1-6, comprising a mechanical glove, a controller and a locking mechanism, wherein the mechanical glove 4 comprises a finger end 41, a finger space 42, a finger root 43 and a metacarpal bone 44 which are sequentially arranged, the finger end 41 is a T-shaped block, a clamping groove I420 is arranged in the middle of the front end of the finger space 42, and the middle vertical section of the finger end 41 is movably positioned in the clamping groove I420 between the fingers;

a second clamping groove 430 is arranged in the middle of the front end of the finger root 43, the rear end of the finger 42 is movably positioned in the second clamping groove 420,

the metacarpal bone 44 is a square body, the front end of the metacarpal bone 44 is provided with a third clamping groove 49, and the rear end of the finger root 43 is movably positioned in the third clamping groove 49; the finger ends, the finger gaps, the finger roots and the metacarpals can be connected in pairs through the pin shafts, so that the movement is convenient.

The metacarpal bone 44 is movably provided with a thumb 45 and a back baffle 46, the thumb is positioned on the front surface of the metacarpal bone, and the back baffle is positioned on the back surface of the metacarpal bone;

the thumbs 45 are finger plates, the thumbs are provided with a pair of thumbs, the thumbs are symmetrically arranged on two sides of the metacarpal bones, a connecting rod 47 is arranged between the thumbs, and two sides of the thumbs are respectively provided with a thumb strap fixing ring 48;

the pair of thumbs connected through the connecting rod is arranged, so that the climbing object can be conveniently grasped, and the action is reliable;

the thumb strap fixing ring is convenient for connecting the thumb strap and fixing the thumb of an operator;

the back baffle 46 is U-shaped, and two ends of the back baffle are movably connected to two sides of the metacarpal bone;

palm strap fixing rings 411 are respectively arranged on two sides of the finger root and are used for connecting the palm straps; the palm binding belt is arranged, so that the palm of an operator can be conveniently fixed; in application, palm strap fixing rings can be arranged on two sides between the fingers.

The locking mechanism comprises an electromagnetic relay 416 and a pair of finger-end clamping shoots 417, wherein a containing groove 418 is formed in the horizontal section of each finger end, the electromagnetic relay 416 is arranged in the middle of the containing groove, the pair of finger-end clamping shoots 417 are positioned in the containing groove and positioned on two sides of the electromagnetic relay, the finger-end clamping shoots 417 are connected with the electromagnetic relay through springs 419, and the electromagnetic relay is connected with a controller;

the thumb 45 is provided with thumb clamping grooves 450, the thumb clamping grooves 450 are in one-to-one correspondence with the finger end clamping shoots 417, and the finger end clamping shoots are used for being connected in the thumb clamping grooves;

the rear end of the finger root is provided with a mechanical glove travel switch 413 (such as a button travel switch, when an operator stretches the palm, the mechanical glove travel switch enters the clamping groove III to squeeze and trigger the follow-up action), and the mechanical glove travel switch is used for being connected with a controller.

In operation, the mechanical glove is convenient to disassemble and assemble by sequentially connecting the finger tips, the interphalangeal, the finger roots and the metacarpal bones in pairs and matching with the action of the palm of a human body;

the mechanical glove can be bent along with the hand to be made into a gripping action, and the finger end clamping bamboo shoots of the mechanical glove are inserted into the thumb clamping grooves of the mechanical glove to form a locking state, so that the safety is improved;

when the hand of a person stretches flatly, the mechanical glove travel switch triggers the controller, and the controller instructs the electromagnetic relay in the finger end clamping bamboo shoots of the mechanical glove to act and retract the finger end clamping bamboo shoots, so that the locking and fixing state is released.

Through setting up the connected form of finger end card bamboo shoot and thumb draw-in groove, when grabbing climbing thing, improve locking reliability, protection operating personnel safety.

In application, the back baffle is provided with a control box, the controller is arranged in the control box, and meanwhile, a power supply is arranged in the control box for power supply operation.

The device also comprises an electromagnetic device 414, wherein the electromagnetic device is arranged in the metacarpal bone, and a switch 415 is arranged on one side of the back shield and used for controlling the electromagnetic device.

Like this, there is electromagnetic actuator in the metacarpal bone of mechanical gloves, can adsorb on the ironwork surface of climbing (angle steel, channel-section steel, band iron etc.) through the switch, improves the reliability of adsorption connection to improve the security.

The wrist strap fixing device is characterized by further comprising a wrist strap 1, wherein the rear end of the metacarpal bone 44 is provided with a clamping groove IV 410, the wrist strap 1 is movably connected in the clamping groove IV 410 of the metacarpal bone, the wrist strap 1 is plate-shaped, two ends of the wrist strap are respectively provided with a side baffle 2, the side baffle is provided with a wrist strap fixing hole 3, and the wrist strap fixing hole is used for connecting a strap.

Setting up the wrist bone, being convenient for place, support wrist, the rethread band is fixed, improves and supports the steadiness.

Also included is a manifold 412 that is horizontally disposed within the backstop 46. The branch pipes are arranged, so that threading operation in the installation process of the electromagnetic device is facilitated, and convenience and reliability are realized; meanwhile, the device further plays a role in limiting the palm, and improves reliability.

For the purposes of this disclosure, the following points are also described:

(1) The drawings of the embodiments disclosed in the present application relate only to the structures related to the embodiments disclosed in the present application, and other structures can refer to common designs;

(2) The embodiments disclosed herein and features of the embodiments may be combined with each other to arrive at new embodiments without conflict;

the above is only a specific embodiment disclosed in the present application, but the protection scope of the present disclosure is not limited thereto, and the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (3)

1. A safety glove for high-altitude operation is characterized by comprising a mechanical glove, a controller and a locking mechanism,

the mechanical glove comprises finger ends, finger spaces, finger roots and metacarpal bones which are sequentially arranged, the finger ends are T-shaped blocks,

a clamping groove I is formed in the middle of the front end of each finger, and the middle vertical section of each finger is movably positioned in the clamping groove I between the fingers;

a clamping groove II is arranged in the middle of the front end of the finger root, the rear end of the finger root is movably positioned in the clamping groove II,

the metacarpal bone is a square body, the front end of the metacarpal bone is provided with a clamping groove III, and the rear end of the finger root is movably positioned in the clamping groove III;

the metacarpal bone is movably provided with a thumb and a back baffle, the thumb is positioned on the front surface of the metacarpal bone, and the back baffle is positioned on the back surface of the metacarpal bone;

the thumbs are finger plates, the thumbs are provided with a pair of thumbs, the thumbs are symmetrically arranged on two sides of metacarpal bones, a connecting rod is arranged between the thumbs, and two sides of the thumbs are respectively provided with a thumb strap fixing ring;

the back baffle is U-shaped, and two ends of the back baffle are movably connected to two sides of the metacarpal bone;

palm strap fixing rings are respectively arranged on two sides of the finger root and are used for connecting palm straps;

the locking mechanism comprises an electromagnetic relay and a pair of finger-end clamping shoots, wherein a containing groove is formed in the horizontal section of each finger end, the electromagnetic relay is arranged in the middle of the containing groove, the pair of finger-end clamping shoots are positioned in the containing groove and are positioned on two sides of the electromagnetic relay, the finger-end clamping shoots are connected with the electromagnetic relay through springs, and the electromagnetic relay is connected with a controller;

the thumb is provided with thumb clamping grooves, the thumb clamping grooves are in one-to-one correspondence with the finger end clamping bamboo shoots, and the finger end clamping bamboo shoots are connected in the thumb clamping grooves;

the rear end of the finger root is provided with a mechanical glove travel switch which is used for being connected with a controller.

2. The overhead working safety glove according to claim 1, further comprising an electromagnetic device, wherein the electromagnetic device is arranged in the metacarpal bone, and a switch is arranged on one side of the backstop and used for controlling the electromagnetic device.

3. The aerial work safety glove according to claim 1 or 2, further comprising a carpal bone, wherein a clamping groove IV is formed in the rear end of the metacarpal bone, the carpal bone is movably connected in the clamping groove IV of the metacarpal bone, the carpal bone is plate-shaped, side baffles are respectively arranged at two ends of the carpal bone, a carpal bone strap fixing hole is formed in the side baffles, and the carpal bone strap fixing hole is used for connecting a strap.

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