CN113482311B

CN113482311B - Construction auxiliary mounting frame for green engineering construction

Info

Publication number: CN113482311B
Application number: CN202110724848.9A
Authority: CN
Inventors: 张根合; 胡敏; 孙超; 李涛涛
Original assignee: CCCC Second Highway Engineering Co Ltd
Current assignee: CCCC Second Highway Engineering Co Ltd
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2023-01-03
Anticipated expiration: 2041-06-29
Also published as: CN113482311A

Abstract

The invention discloses a construction auxiliary mounting frame for green engineering construction, which comprises a main body support, a sliding support and two pressing sliding frames, wherein the sliding support is connected to the bottom of the main body support in a sliding manner, the two pressing sliding frames are connected to the middle of the main body support in a sliding manner, power mechanisms are connected to two sides of the sliding support in a sliding manner, a first air cylinder is fixedly mounted in the middle of the sliding support in the vertical direction, two ends of the connecting support are respectively in transmission connection with the two power mechanisms through two connecting rods, and the pressing sliding frames are provided with the pressing support; utilize the vibrations that personnel produced at the in-process of operation, the self gravity that the cooperation compressed tightly the support promotes the carriage that compresses tightly of sliding connection on the main part support and moves in the middle of mutually, and then increase and guiding mechanism between the frictional force, improve the fixed effect of device in the operation position, prevent because the vibrations that personnel's operation in-process produced reduce the phenomenon that device location effect appears the landing.

Description

Construction auxiliary mounting frame for green engineering construction

Technical Field

The invention belongs to the technical field of building construction, and particularly relates to a construction auxiliary mounting frame for green engineering construction.

Background

In the construction process of building, need build some construction supports at the job site, the outside effect of present building wall generally adopts the form of hanging flower basket to go on, receive the weather influence at the volume in-process that uses, receive strong wind weather when high altitude construction, the phenomenon appears swaying easily, there is very big potential safety hazard, can not be to the effectual protection of staff as far as one's mind, when receiving strong wind weather influence, the personnel can not make effectual judgement, often can not descend to ground rapidly in limited time, fixed locking mechanism when high altitude construction, there is the risk that drops.

Disclosure of Invention

In order to solve the problems in the prior art, the invention aims to provide a construction auxiliary mounting frame for green engineering construction.

The technical scheme adopted by the invention is as follows:

the utility model provides a green engineering construction is with construction auxiliary erection frame, includes main part support, sliding connection be in the sliding support and the sliding connection of main part support bottom two of main part support middle part compress tightly the balladeur train, the sliding support with be provided with the spring between the main part support, the equal sliding connection in both sides of sliding support has power unit, the middle part of sliding support fixed mounting has first cylinder in vertical direction, the flexible pipe fixedly connected with linking bridge of first cylinder, the both ends of linking bridge are respectively through two connecting rods and two the transmission is connected between the power unit, two compress tightly the balladeur train and pass respectively the both sides of main part support, it compresses tightly the support to compress tightly to be provided with on the balladeur train, it passes to compress tightly the support compress tightly the balladeur train.

Preferably, still include with main part support sliding connection's guiding mechanism, fixed connection are in safety mechanism and rotation on the main part support are connected first band pulley on the main part support, the first hydro-cylinder of the equal fixedly connected with in both sides of main part support, the flexible end equal fixedly connected with spacing support of first hydro-cylinder, every spacing support equal sliding connection is on the main part support.

Preferably, the guiding mechanism include with main part support sliding connection's guide bracket, fixedly connected with transmission support on the guide bracket, the equal fixedly connected with rack in internal and external force both sides on the transmission support, one side of guide bracket is provided with a plurality of through-hole.

Preferably, the power mechanism comprises a power support which is connected to the sliding support in a sliding mode, a motor is fixedly connected to one side of the power support, a power gear is fixedly connected to an output shaft of the motor, the power gear is in transmission connection with the rack located on the inner side of the guide support, and a damping wheel is further mounted on the power support.

Preferably, the power gear and the damping wheel are respectively distributed on two sides of the transmission bracket.

Preferably, the safety mechanism comprises a safety fence fixedly connected to the main body support, the two sides of the inside of the safety fence are respectively connected with a movable support in a sliding mode, the bottom of the safety fence is rotatably connected with two lead screws, the two lead screws are respectively in threaded connection with the two movable supports, each lead screw is fixedly connected with a second belt wheel on one side, and the second belt wheels are connected with the first belt wheels in a belt transmission mode.

Preferably, guard plates are fixedly mounted on one sides, close to each other, of the two movable supports, safety rope connecting rings are arranged on two sides of each movable support, and the belts are in contact with the guide supports.

Preferably, the top of the safety fence is fixedly connected with a swing mechanism, the swing mechanism comprises a swing box body fixedly connected to the lower side of the safety fence and a swing support connected to the middle of the lower side of the safety fence, a swing end of the swing support is fixedly connected with a contact type sensor, and the rotation of the swing support coincides with the axis of the swing box body.

Preferably, the two sides of the swing box body are respectively provided with a second air cylinder, the extending direction of the second air cylinders is coincided with the axis of the screw rod, and the tail end of each second air cylinder is fixedly connected with a friction disc.

Preferably, one side of the pressing sliding frame close to the pressing sliding frame is provided with a conical inclined surface, and the angle of the conical inclined surface is matched with the angle of the annular inclined surface at the upper part of the pressing support.

The invention has the beneficial effects that:

1. the device is at the in-process that uses, after removing the operation position, utilizes the vibrations that personnel produced at the in-process of operation, and the self gravity that the cooperation compressed tightly the support promotes the carriage that compresses tightly of sliding connection on the main part support and moves in the middle of mutually, and then increase and guiding mechanism between the frictional force, improve the fixed effect of device at the operation position, prevent because the vibrations that personnel operation in-process produced reduce the device location effect and the phenomenon of landing appears.

2. The device receives wind-force influence to blow rocking mechanism and sways, will automatic cutout power unit after reaching the removal wind speed, makes personnel's safety descend under the effect of safety mechanism and personnel's self gravity, can prevent through setting up the damping wheel that the speed that the safety mechanism descends from leading to the fact the injury to personnel too fast at the in-process that descends.

3. The device receives wind-force influence device and will drive the movable support at the in-process that descends and remove, concentrates on safety mechanism's middle part with the operation personnel, prevents that personnel from receiving the wind-force influence and dropping in safety mechanism.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of a portion of the axial side of the present invention;

FIG. 2 is a schematic structural view, partially in section, of the present invention;

FIG. 3 is a schematic structural view of the force determining mechanism of the present invention;

FIG. 4 is a schematic structural view of the present invention as a whole;

FIG. 5 is a schematic view of the guide mechanism of the present invention;

FIG. 6 is a first schematic structural view of the safety mechanism of the present invention;

FIG. 7 is a second schematic structural view of the safety mechanism of the present invention;

fig. 8 is a schematic structural view of the rocking mechanism of the present invention.

In the figure: 1-a main body support; 2-a sliding support; 3-pressing the sliding frame; 4, pressing the bracket; 5-a limit bracket; 6-a first oil cylinder; 7-a power mechanism; 701-a power bracket; 702-an electric machine; 703-a power gear; 704-a damping wheel; 8-a first cylinder; 9-connecting the bracket; 10-a connecting rod; 11-a guide mechanism; 1101-a guide bracket; 1102-a drive mount; 1103-rack; 1104-a via; 12-a safety mechanism; 1201-security bar; 1202-moving the support; 1203-a screw mandrel; 1204-a first pulley; 1205-a second pulley; 1206-belt; 1207-guard plate; 1208-safety rope connection ring; 13-a rocking mechanism; 1301-swinging the box body; 1302-rocking cradle; 1303-touch sensors; 14-a second cylinder; 15-friction disk.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

The following describes an embodiment of the present invention with reference to fig. 1 to 8.

A construction auxiliary mounting frame for green engineering construction comprises a main body support 1, a sliding support 2 connected to the bottom of the main body support 1 in a sliding mode, and two pressing sliding frames 3 connected to the middle of the main body support 1 in a sliding mode, a spring is arranged between the sliding support 2 and the main body support 1, two sides of the sliding support 2 are connected with power mechanisms 7 in a sliding mode, a first air cylinder 8 is fixedly installed in the middle of the sliding support 2 in the vertical direction, a telescopic pipe of the first air cylinder 8 is fixedly connected with a connecting support 9, two ends of the connecting support 9 are connected with the two power mechanisms 7 through two connecting rods 10 in a transmission mode respectively, the two pressing sliding frames 3 penetrate through two sides of the main body support 1 respectively, a pressing support 4 is arranged on each pressing sliding frame 3, and each pressing support 4 penetrates through the pressing sliding frame 3; the device also comprises a guide mechanism 11 connected with the main body bracket 1 in a sliding way, a safety mechanism 12 fixedly connected with the main body bracket 1 and a first belt pulley 1204 rotatably connected with the main body bracket 1; two sides of the main body support 1 are fixedly connected with first oil cylinders 6, the telescopic ends of the first oil cylinders 6 are fixedly connected with limiting supports 5, and each limiting support 5 is connected to the main body support 1 in a sliding manner; a friction disc 15 is fixedly connected to the end of each second cylinder 14; one side, close to the pressing sliding frame 3, of the pressing sliding frame is provided with a conical inclined surface, and the angle of the conical inclined surface is matched with the angle of an annular inclined surface at the upper part of the pressing support 4; in the using process, the device is pushed to move upwards by driving the power mechanism 7, after the device moves to the braking position, the pressing support 4 is sleeved on the inclined plane of the sliding support 2 under the self gravity, the position of the pressing support 4 is gradually moved downwards by continuous vibration of the device in the using process, the distance between the two sliding supports 2 is shortened by the pressing support 4 in the moving process, the sliding support 2 is further contacted with the guide mechanism 11, the friction force between the sliding support 2 and the guide mechanism 11 is increased, and further the falling phenomenon caused by the vibration of the device in the using process is prevented.

Preferably, in an embodiment of the present invention, referring to fig. 2 to 5 again, the guide mechanism 11 includes a guide bracket 1101 slidably connected to the main body bracket 1, a transmission bracket 1102 is fixedly connected to the guide bracket 1101, racks 1103 are fixedly connected to both sides of an internal force and an external force on the transmission bracket 1102, and a plurality of through holes 1104 are disposed on one side of the guide bracket 1101; the power mechanism 7 comprises a power support 701 slidably connected to the sliding support 2, a motor 702 is fixedly connected to one side of the power support 701, a power gear 703 is fixedly connected to an output shaft of the motor 702, the power gear 703 is in transmission connection with the rack 1103 positioned on the inner side of the guide support 1101, and a damping wheel 704 is further mounted on the power support 701; the power gear 703 and the damping wheel 704 are respectively distributed on two sides of the transmission bracket 1102; when the device is used, a motor 702 fixedly connected to a power support 701 is driven to drive a power gear 703 to rotate, the power gear 703 is meshed with a rack 1103 on the inner side of a transmission support 1102 to push a sliding support 2 to move upwards in the rotating process, so that the excitation between the sliding support 2 and a main body support 1 is reduced, the connecting support 99 pushes a pressing support 4 to move upwards, two pressing carriages 3 slide on two sides under the action of an elastic piece after the pressing support 4 moves, the friction force between the pressing carriages 3 and a guide support 1101 is eliminated, and the main body support and a safety mechanism 12 are pushed to move upwards; when the safety mechanism 12 swings and descends, the power gear 703 is disengaged from the rack 1103, so that the damping wheel 704 mounted on the power bracket 701 is engaged with the rack 1103 positioned outside the transmission bracket 1102 and slides downwards under the action of the gravity of the device, and the device and personnel can be prevented from being injured due to the excessively high descending speed due to the arrangement of the damping wheel 704; during use, the expansion drop bolt can be fixedly connected to the wall surface through the through hole 1104 arranged on the guide bracket 1101.

Preferably, in an embodiment of the present invention, referring to fig. 6 to 8 again, the safety mechanism 12 includes a safety bar 1201 fixedly connected to the main body support 1, both sides of the interior of the safety bar 1201 are slidably connected with moving supports 1202, the bottom of the safety bar 1201 is rotatably connected with two lead screws 1203, the two lead screws 1203 are respectively in threaded connection with the two moving supports 1202, one side of each lead screw 1203 is fixedly connected with a second pulley 1205, and the second pulley 1205 is in transmission connection with the first pulley 1204 through a belt 1206; a guard plate 1207 is fixedly arranged on one side, close to the two movable brackets 1202, of each movable bracket 1202, safety rope connecting rings 1208 are arranged on two sides of each movable bracket 1202, and the belt 1206 is in contact with the guide bracket 1101; the top of the safety fence 1201 is fixedly connected with a swinging mechanism 13, the swinging mechanism 13 comprises a swinging box body 1301 fixedly connected to the lower side of the safety fence 1201 and a swinging bracket 1302 connected to the middle of the lower side of the safety fence 1201, a contact sensor 1303 is fixedly connected to the swinging tail end of the swinging bracket 1302, and the rotation of the swinging bracket 1302 is coincident with the axis of the swinging box body 1301; two sides of the swing box 1301 are provided with second cylinders 14, and the extending direction of the second cylinders 14 is coincident with the axis of the screw rod 1203; during working, windy weather often occurs, the windy weather affects the stability of the device, so that the swing bracket 1302 swings in the air, the contact sensor 1303 fixed to the end of the swing bracket contacts with the swing box 1301 during swinging, at this time, the device drives the second cylinder 14 and the first cylinder 8, the friction disc 15 fixed to the end of the second cylinder 14 is separated from the second pulley 1205 by contraction of the second cylinder 14, the safety mechanism 12 is driven by friction force between the belt 1206 and the guide bracket 1101 during descending, the second pulley 1205 rotates, the rotation of the second pulley 1205 drives the moving bracket 1202 in sliding connection on the safety fence 1201 to move towards the middle of the safety fence 1201 through the lead screw 1203, and further the personnel approach towards the middle, the soft guard plate 1207 arranged on the moving bracket 1202 can prevent the personnel from being collided during descending of the device, and after the moving bracket 1202 moves to a limit position, transmission friction between the second pulley 1205 and the belt 1206 becomes sliding friction, so that the two moving brackets 1202 are prevented from being too close to cause injury to the personnel; the second cylinder 14 is arranged to prevent the second belt wheel 1205 from rotating during the ascending process of the device, so that sliding friction is formed between the second belt wheel 1205 and the belt 1206, and the influence on the threaded connection between the movable support 1202 and the screw rod 1203 on two sides of the safety fence 1201 due to the rotation of the second belt wheel 1205 during the ascending process is avoided.

The invention relates to a construction auxiliary mounting rack for green engineering construction, which has the working principle that:

during the working process, strong wind weather often occurs, the stability of the device is affected by the strong wind weather, the swing support 1302 swings in the air, the contact sensor 1303 fixed at the end of the device is in contact with the swing box 1301 during the swinging process, at the moment, the device drives the second cylinder 14 and the first cylinder 8, the extension of the first cylinder 8 drives the power mechanism 7 connected with the connecting support 9 through the connecting rod 10 to move towards the inner side, the connecting support 9 pushes the pressing support 4 to be separated from the inclined plane arranged on the sliding support 3, the two pressing sliding frames 3 slide on two sides under the action of the elastic part, the friction force between the pressing sliding frames 3 and the guide mechanism 11 is eliminated, and the device slides downwards under the action of the self gravity; the friction disc 15 fixed at the tail end of the second cylinder 14 is separated from the second belt wheel 1205 by contraction of the second cylinder 14, the safety mechanism 12 is driven by friction force between the belt 1206 and the guide support 1101 in the descending process, the second belt wheel 1205 rotates, the movable support 1202 in sliding connection with the safety fence 1201 is driven by the lead screw 1203 to move towards the middle of the safety fence 1201, and therefore personnel get close to the middle of the safety fence, the soft protection plate 1207 arranged on the movable support 1202 can prevent the personnel from being collided in the descending process of the device, and after the movable support 1202 moves to the limiting position, transmission friction between the second belt wheel 1205 and the belt 1206 becomes sliding friction, and the two movable supports 1202 are prevented from being too close to each other to hurt the personnel; the second cylinder 14 can prevent the second belt wheel 1205 from rotating in the ascending process of the device, so that sliding friction is formed between the second belt wheel 1205 and the belt 1206, and the influence on the threaded connection between the movable supports 1202 and the screw rod 1203 on the two sides of the safety fence 1201 due to the rotation of the second belt wheel 1205 in the ascending process is avoided; in the process of ascending of the device, a motor 702 fixedly connected to a power support 701 is driven to drive a power gear 703 to rotate, the power gear 703 is meshed with a rack 1103 on the inner side of a transmission support 1102 in the rotating process to push a sliding support 2 to move upwards, so that excitation between the sliding support 2 and a main body support 1 is reduced, a connecting support 99 pushes a pressing support 4 to move upwards, two pressing carriages 3 slide on two sides under the action of an elastic piece after the pressing support 4 moves, the friction force between the pressing carriages 3 and a guide support 1101 is eliminated, the main body support and a safety mechanism 12 are further pushed to move upwards, after the pressing support 4 moves to a braking position, the pressing support 4 is sleeved on an inclined plane of the sliding support 2 under the self gravity, the position of the pressing support 4 which continuously vibrates in the using process is gradually moved downwards, the distance between the two sliding supports 2 is shortened in the moving process of the pressing support 4, the sliding supports 2 are further contacted with the guide mechanism 11, the friction force between the sliding supports 2 and the guide mechanism 11 is increased, and further the phenomenon that the device falls down due to the vibration in the using process is prevented.

The present invention is not limited to the above-mentioned alternative embodiments, and any other various products can be obtained by anyone in the light of the present invention, but any changes in the shape or structure thereof, all of which fall within the scope of the present invention, fall within the protection scope of the present invention.

Claims

1. The utility model provides a green engineering construction is with supplementary mounting bracket of construction which characterized in that: the device comprises a main body support (1), a sliding support (2) connected to the bottom of the main body support (1) in a sliding mode and two pressing sliding frames (3) connected to the middle of the main body support (1) in a sliding mode, a spring is arranged between the sliding support (2) and the main body support (1), power mechanisms (7) are connected to two sides of the sliding support (2) in a sliding mode, a first air cylinder (8) is fixedly installed in the middle of the sliding support (2) in the vertical direction, a connecting support (9) is fixedly connected to a telescopic pipe of the first air cylinder (8), two ends of the connecting support (9) are in transmission connection with the two power mechanisms (7) through two connecting rods (10), the two pressing sliding frames (3) penetrate through two sides of the main body support (1) respectively, the pressing sliding frames (3) are provided with the pressing supports (4), and the pressing supports (4) penetrate through the pressing sliding frames (3);

the device is characterized by further comprising a guide mechanism (11) in sliding connection with the main body support (1), a safety mechanism (12) fixedly connected to the main body support (1) and a first belt wheel (1204) rotatably connected to the main body support (1), wherein both sides of the main body support (1) are fixedly connected with first oil cylinders (6), the telescopic ends of the first oil cylinders (6) are fixedly connected with limiting supports (5), and each limiting support (5) is slidably connected to the main body support (1);

the guide mechanism (11) comprises a guide support (1101) which is in sliding connection with the main body support (1), a transmission support (1102) is fixedly connected to the guide support (1101), racks (1103) are fixedly connected to two sides of internal and external forces on the transmission support (1102), and a plurality of through holes (1104) are formed in one side of the guide support (1101);

the power mechanism (7) comprises a power support (701) which is connected to the sliding support (2) in a sliding mode, one side of the power support (701) is fixedly connected with a motor (702), an output shaft of the motor (702) is fixedly connected with a power gear (703), the power gear (703) is in transmission connection with the rack (1103) located on the inner side of the guide support (1101), and a damping wheel (704) is further mounted on the power support (701);

the power gear (703) and the damping wheel (704) are respectively distributed on two sides of the transmission bracket (1102);

the safety mechanism (12) comprises a safety fence (1201) fixedly connected to the main body support (1), two movable supports (1202) are connected to two sides of the interior of the safety fence (1201) in a sliding mode, two lead screws (1203) are rotatably connected to the bottom of the safety fence (1201), the two lead screws (1203) are respectively in threaded connection with the two movable supports (1202), a second belt wheel (1205) is fixedly connected to one side of each lead screw (1203), and the second belt wheel (1205) is in transmission connection with the first belt wheel (1204) through a belt (1206);

the top of the safety fence (1201) is fixedly connected with a swinging mechanism (13), the swinging mechanism (13) comprises a swinging box body (1301) fixedly connected to the lower side of the safety fence (1201) and a swinging support (1302) connected to the middle of the lower side of the safety fence (1201), the swinging tail end of the swinging support (1302) is fixedly connected with a contact type sensor (1303), and the rotation of the swinging support (1302) is coincident with the axis of the swinging box body (1301);

second air cylinders (14) are arranged on two sides of the swinging box body (1301), the extending direction of each second air cylinder (14) is coincided with the axis of the screw rod (1203), and a friction disc (15) is fixedly connected to the tail end of each second air cylinder (14).

2. The construction auxiliary mounting frame for green engineering construction according to claim 1, characterized in that: protective plates (1207) are fixedly mounted on one sides, close to the two movable supports (1202), of the two movable supports, safety rope connecting rings (1208) are arranged on two sides of each movable support (1202), and the belt (1206) is in contact with the guide supports (1101).

3. The construction auxiliary mounting frame for green engineering construction according to any one of claims 1-2, characterized in that: one side, close to the pressing sliding frame (3), of the pressing sliding frame is provided with a conical inclined surface, and the angle of the conical inclined surface is matched with the angle of an annular inclined surface at the upper part of the pressing support (4).