CN112273780B - Building construction shoes capable of preventing high-altitude falling - Google Patents

Abstract

The invention relates to a building construction shoe capable of preventing high-altitude falling. The device comprises a shoe body, wherein the bottom of the shoe body is provided with a thickened sole, one side surface of the thickened sole is provided with a clamping groove, a self-locking mechanism is arranged in the clamping groove and comprises a supporting rod, the upper surface of the clamping groove of the supporting rod is fixedly connected, the supporting rod is provided with eccentric wheels, the eccentric parts of the eccentric wheels are hinged with the free ends of corresponding branch sections through connecting pieces, the outer surface of each branch section of the supporting rod is provided with a round hole, a pin shaft penetrates through the round hole, a blind hole is arranged in the thickened sole, a control part is arranged in the blind hole, and the self-locking mechanism is matched with the control part, the device makes the workman can not take place to fall when the outer peripheral hardware scaffold steel pipe is out of order, and the switch of control self-locking mechanism that simultaneously can be free is convenient for the workman to carry out high altitude construction at any time, security when having improved the operation has been applicable to among the industrial production, has very strong practicality.

Description

Building construction shoes capable of preventing high-altitude falling

Technical Field

The invention belongs to the technical field of building construction, and particularly relates to a building construction shoe capable of preventing high-altitude falling.

Background

The prior Chinese patent database discloses a patent named as an electric shoe, wherein the application number is CN201510313556.0, the application date is 20150609, the authorized notice number is CN104906782B, the authorized notice date is 20161116, and the device comprises a remote controller; a storage battery module is fixedly assembled on the hard framework between the front row of pulleys and the rear row of pulleys; the front end of the front row of pulleys is a soft shoe front sole and is internally provided with a circuit board; a locking mechanism is also arranged; the circuit board at least comprises a wireless module, a self-locking module and a brake module; the self-locking module and the brake module receive control signals received from the wireless module.

Disclosure of Invention

The invention provides a pair of building construction shoes for preventing high-altitude falling, which aims to solve the main problem that the safety of the existing building construction shoes is low.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the utility model provides a prevent building construction shoes that high altitude falls, including the shoes body, its characterized in that: the shoe comprises a shoe body, wherein a thickened sole is arranged at the bottom of the shoe body, a clamping groove is formed in one side face of the thickened sole, a self-locking mechanism is arranged in the clamping groove and comprises a supporting rod in an inverted V shape, the tip end of the supporting rod is fixedly connected with the upper surface of the clamping groove, eccentric wheels are arranged on each branch section of the supporting rod, the eccentric parts of the eccentric wheels are hinged with the free ends of the corresponding branch sections through connecting pieces, round holes are formed in the outer surfaces of the branch sections of the supporting rod, pin shafts penetrate through the round holes, the parts of the pin shafts, which are positioned outside the round holes, are used for abutting against the outer peripheral surfaces of the corresponding eccentric wheels, gaps for allowing external scaffold steel pipes to pass through are reserved between the two eccentric wheels, blind holes which are coaxial with the pin shafts are formed in the thickened sole right opposite to the pin shafts, control parts are arranged in the blind holes, and comprise limiting plates arranged at the openings of the blind holes, the limiting plate is passed towards the part of blind hole one end in the round pin axle, and is located the blind hole and set up, and the round pin axle end that passes the limiting plate is connected with first response magnet, and the epaxial compression spring that has cup jointed of round pin that is located between first response magnet and the limiting plate, the part that is located the blind hole in the round pin axle has cup jointed annular stop collar, the stop collar terminal surface is contradicted on the limiting plate internal surface, compression spring one end is contradicted on the interior terminal surface of first response magnet, and the other end is contradicted on the interior terminal surface of stop collar, still be provided with the electro-magnet in the blind hole, the wiring end of electro-magnet is connected with the power electricity that is located the thickening sole, and the response end of electro-magnet is connected with second response magnet, the response face of.

When the invention works: when workers wear the building construction shoes to work, the external scaffold steel pipes enter the clamping grooves through gaps between the two eccentric wheels, at the moment, the electromagnet is controlled to be electrified through the switch, so that the first induction magnet is electrified, the first induction magnet and the second induction magnet are repelled, the compression spring is in a compression state, the pin shaft is driven to penetrate through the round hole in the supporting rod, when the workers fall off from the external scaffold steel pipes due to the shortage, the shoe body and the thickened sole rotate 180 degrees relative to the external scaffold steel pipes, at the moment, the external scaffold steel pipes move upwards relative to the two eccentric wheels, the two eccentric wheels are subjected to vertical upwards tension, the outer peripheral surfaces of the eccentric wheels are abutted against the pin shaft, when the tension is larger, the two eccentric wheels clamp the external scaffold steel pipes more tightly, the workers are prevented from falling, meanwhile, the rescue is waited, and when the building construction shoes need to be separated from the external scaffold steel pipes, through the outage of on-off control electro-magnet, because compression spring's reset action, the round pin axle is taken out in the round hole, no longer spacing to the eccentric wheel, can take off this building construction shoes from the peripheral hardware scaffold steel pipe.

Compared with the prior art, the invention has the beneficial effects that: because the self-locking mechanism and the control component are matched, the device can not fall when a worker is out of order from the external scaffold steel pipe, and meanwhile, the worker can freely control the switch of the self-locking mechanism, so that the worker can conveniently carry out high-altitude operation at any time, the safety during operation is improved, and the device is suitable for industrial production and has strong practicability.

The utility model discloses a shoe sole, including bracing piece, thickening shoe sole, blind hole, the coaxial setting of each blind hole and the round hole that corresponds, all be provided with control unit in each blind hole, all be provided with a plurality of round holes on each branch section of bracing piece at interval, each round hole just has seted up the blind hole on the just right thickening shoe sole.

The connecting piece is a bolt, the bolt is connected with the supporting rod through a locking nut, the eccentric wheel is sleeved on the bolt, and the eccentric wheel is hinged with the supporting rod.

And the peripheral surface of the eccentric wheel is sleeved with a damping rubber sleeve.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the control part in fig. 1.

In the figure: 1 shoes body, 2 thickening soles, 3 joint grooves, 4 bracing pieces, 5 eccentric wheels, 6 round holes, 7 round pins, 8 clearances, 9 blind holes, 10 limiting plates, 11 first induction magnets, 12 compression springs, 13 electromagnets, 14 power supplies, 15 second induction magnets, 16 limiting sleeves, 17 damping rubber sleeves, 18 peripheral hardware scaffold steel pipes.

Detailed Description

The technical solution of the present application will be further described and explained with reference to the accompanying drawings and embodiments.

As shown in fig. 1-2, a building construction shoe for preventing high altitude from falling comprises a shoe body 1, and is characterized in that: the bottom of a shoe body 1 is provided with a thickened sole 2, one side surface of the thickened sole 2 is provided with a clamping groove 3, the clamping groove 3 is internally provided with a self-locking mechanism, the self-locking mechanism comprises a support rod 4 shaped like an inverted V, the tip end of the support rod 4 is fixedly connected with the upper surface of the clamping groove 3, each branch section of the support rod 4 is provided with an eccentric wheel 5, the eccentric part of each eccentric wheel 5 is hinged with the free end of the corresponding branch section through a connecting piece, the outer surface of each branch section of the support rod 4 is provided with a round hole 6, a pin shaft 7 penetrates through the round hole 6, the part of the pin shaft 7, which is positioned outside the round hole 6, is used for abutting against the outer peripheral surface of the corresponding eccentric wheel 5, a gap 8 through which an external scaffold steel pipe passes is reserved between the two eccentric wheels 5, a blind hole 9 which is coaxially arranged with the pin shaft 7 is arranged in the thickened sole 2 opposite to the pin shaft 7, the blind hole 9 is internally provided with a control part, the control part comprises a limiting plate 10 arranged at the opening of the blind hole 9, the part towards blind hole 9 one end in round pin axle 7 passes limiting plate 10, and be located the blind hole 9 and set up, the round pin axle 7 end that passes limiting plate 10 is connected with first response magnet 11, it has cup jointed compression spring 12 to be located round pin axle 7 between first response magnet 11 and the limiting plate 10, the part that lies in blind hole 9 in the round pin axle 7 has cup jointed annular stop collar 16, stop collar 16 terminal surface is contradicted on the limiting plate 10 internal surface, compression spring 12 one end is contradicted on the interior terminal surface of first response magnet 11, the other end is contradicted on the interior terminal surface of stop collar 16, still be provided with electro-magnet 13 in the blind hole 9, the wiring end of electro-magnet 13 is connected with the power 14 electricity that is located thickening sole 2, the inductive end of electro-magnet 13 is connected with second response magnet 15, the inductive surface of second response magnet 15 sets up with the inductive surface of first response magnet 11 relatively. All the intervals are provided with a plurality of round holes 6 on each branch section of bracing piece 4, have all seted up blind hole 9 on each round hole 6 just right thickening sole 2, and each blind hole 9 all is provided with control unit with the coaxial setting of round hole 6 that corresponds in each blind hole 9. The connecting piece is a bolt which is connected with the supporting rod 4 through a locking nut, the eccentric wheel 5 is sleeved on the bolt, and the eccentric wheel 5 is hinged with the supporting rod 4. The peripheral surface of the eccentric wheel 5 is sleeved with a damping rubber sleeve 17.

When the building construction shoe is used, when a worker wears the building construction shoe to work, the external scaffold steel tube 18 enters the clamping groove 3 through the gap 8 between the two eccentric wheels 5, the electromagnet 13 is controlled to be electrified through the switch, so that the first induction magnet 11 is electrified, the first induction magnet 11 and the second induction magnet 15 are repelled, the compression spring 12 is in a compression state, the pin shaft 7 is driven to penetrate through the round hole 6 on the supporting rod 4, when the worker drops from the external scaffold steel tube 18 due to the foot loss, the shoe body 1 and the thickened sole 2 rotate 180 degrees relative to the external scaffold steel tube 18, the external scaffold steel tube 18 moves upwards relative to the two eccentric wheels 5, the two eccentric wheels 5 are subjected to vertical upwards pulling force, the peripheral surface of the eccentric wheel 5 is abutted against the pin shaft 7, and when the pulling force is larger, the external scaffold steel tube 18 is clamped by the two eccentric wheels 5, prevent workman's the falling, wait for the rescue simultaneously, when needs break away from this building construction shoes from peripheral hardware scaffold steel pipe 18, through on-off control electro-magnet 13 outage, because compression spring 12's reset action, round pin axle 7 is taken out from round hole 6, no longer spacing to eccentric wheel 5, can take off this building construction shoes from peripheral hardware scaffold steel pipe 18.

The present invention is not limited to the above-mentioned embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some substitutions and modifications to some technical features without creative efforts according to the disclosed technical contents, and these substitutions and modifications are all within the protection scope of the present invention.

Claims (4)

1. The utility model provides a prevent building construction shoes that high altitude falls, including the shoes body, its characterized in that: the shoe comprises a shoe body, wherein a thickened sole is arranged at the bottom of the shoe body, a clamping groove is formed in one side face of the thickened sole, a self-locking mechanism is arranged in the clamping groove and comprises a supporting rod in an inverted V shape, the tip end of the supporting rod is fixedly connected with the upper surface of the clamping groove, eccentric wheels are arranged on each branch section of the supporting rod, the eccentric parts of the eccentric wheels are hinged with the free ends of the corresponding branch sections through connecting pieces, round holes are formed in the outer surfaces of the branch sections of the supporting rod, pin shafts penetrate through the round holes, the parts of the pin shafts, which are positioned outside the round holes, are used for abutting against the outer peripheral surfaces of the corresponding eccentric wheels, gaps for allowing external scaffold steel pipes to pass through are reserved between the two eccentric wheels, blind holes which are coaxial with the pin shafts are formed in the thickened sole right opposite to the pin shafts, control parts are arranged in the blind holes, and comprise limiting plates arranged at the openings of the blind holes, the limiting plate is passed towards the part of blind hole one end in the round pin axle, and is located the blind hole and set up, and the round pin axle end that passes the limiting plate is connected with first response magnet, and the epaxial compression spring that has cup jointed of round pin that is located between first response magnet and the limiting plate, the part that is located the blind hole in the round pin axle has cup jointed annular stop collar, the stop collar terminal surface is contradicted on the limiting plate internal surface, compression spring one end is contradicted on the interior terminal surface of first response magnet, and the other end is contradicted on the interior terminal surface of stop collar, still be provided with the electro-magnet in the blind hole, the wiring end of electro-magnet is connected with the power electricity that is located the thickening sole, and the response end of electro-magnet is connected with second response magnet, the response face of second response magnet sets up with the response face of first response magnet relatively.

2. The building construction shoe for preventing high altitude from falling as claimed in claim 1, wherein: the utility model discloses a shoe sole, including bracing piece, thickening shoe sole, blind hole, the coaxial setting of each blind hole and the round hole that corresponds, all be provided with control unit in each blind hole, all be provided with a plurality of round holes on each branch section of bracing piece at interval, each round hole just has seted up the blind hole on the just right thickening shoe sole.

3. The building construction shoe for preventing high altitude from falling as claimed in claim 2, wherein: an annular limiting sleeve is sleeved on the pin shaft in the blind hole, the end face of the limiting sleeve abuts against the inner surface of the limiting plate, one end of the compression spring abuts against the inner end face of the first induction magnet, and the other end of the compression spring abuts against the inner end face of the limiting sleeve.

4. A building construction shoe for preventing falling from high altitude according to any one of claims 1 to 3, wherein: and the peripheral surface of the eccentric wheel is sleeved with a damping rubber sleeve.

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