CN214535473U - Electromechanical hoisting and punching tool - Google Patents

Abstract

The utility model discloses an electromechanical hoisting and punching tool, which comprises a supporting bottom frame, a braking pulley connected to the lower part of the supporting bottom frame, a mandril connected to the central part of the supporting bottom frame, a side stay bar connected to the middle lower part of the mandril and connected with the supporting bottom frame, an operating handrail detachably connected to one side of the mandril, an electric drill detachably connected to the top of the mandril and a collecting cover connected to the periphery of the electric drill; the ejector rod is a telescopic rod or can be formed by splicing and connecting; the utility model is beneficial to ensuring the stability and the safety through the arrangement of the ejector rod; the length adjustability of the ejector rod ensures adaptability; and the stability is ensured through the side stay bars; the arrangement of the collecting cover ensures the tidiness of the operation environment; the arrangement of the supporting bottom frame and the braking pulley is favorable for convenient mobility; the combination arrangement of the camera and the observation screen is beneficial to observing the punching condition in real time during construction; the laser positioning head is convenient to implement positioning and monitor the punching accuracy in real time.

Description

Electromechanical hoisting and punching tool

Technical Field

The utility model belongs to the technical field of the construction of punching, in particular to electromechanical hoist and mount instrument of punching.

Background

In the construction of building engineering, holes are often required to be drilled in a poured concrete floor, and generally, the holes are directly drilled at a specified position by a constructor by using an electric drill. In the electromechanical engineering, a plurality of hoisting work needs to punch holes on a top plate, high-altitude operation is carried out at a position 2m beyond a reference surface, the force is upwards made in the construction process, the accuracy of the direction is ensured, the construction difficulty is high, the time is long, the danger degree is high, and the working efficiency is low. Need constructor to stand in traditional electromechanical hoist and mount drilling work progress and lift the electric drill and punch on the double ladder, the limitation of direction of exerting oneself makes the process of punching spend a specified time of a specified duration, and the probability that deviation nature errors such as dislocation, hole skew appear is great, causes work efficiency low.

In the working process that punches, constructor is close to the hole, and punch the distance between the position very short, can't avoid almost that the fragment that drops when punching and the a large amount of dust of production cause the bruise of splashing and arouse the dust class occupational disease of long-term accumulation, produce very big threat to constructor's health.

In addition, in actual construction, the mechanical and electrical hoisting and punching can easily cause the inclined angle, rough workmanship and the like of the punched hole due to the artificial factors such as insufficient strength, stability deviation, vision observation deviation and the like of constructors, and can not reach the qualified standard. In the construction process, safety protection measures are taken for constructors, such as safety belts, special ladder holding personnel and the like, the construction safety measures are high in cost, the process of erecting and moving the herringbone ladder consumes long time, the safety risk coefficient is high, and the work efficiency is improved by half.

SUMMERY OF THE UTILITY MODEL

The utility model provides an electromechanical hoist and mount instrument of punching for solve technical problem such as stability, accuracy, security and convenient constructability that electromechanical hoist and mount punched.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an electromechanical hoisting and punching tool comprises a supporting bottom frame, a brake pulley connected to the lower part of the supporting bottom frame, a top rod connected to the central part of the supporting bottom frame, a side support rod connected to the middle-lower part of the top rod and connected with the supporting bottom frame, an operating handrail detachably connected to one side of the top rod, an electric drill detachably connected to the top of the top rod, and a collecting cover connected to the periphery of the electric drill; the ejector rod is a telescopic rod or can be formed by splicing and connecting;

the support underframe is a square frame or a rectangular frame, the inside opposite angles of the support underframe are connected with connecting rods, and ejector rods are detachably connected to intersection points of the connecting rods.

Furthermore, the supporting bottom frame is made of steel rod pieces, and the steel rod pieces can be assembled and prefabricated; the weight of the supporting bottom frame is greater than the sum of the weights of the ejector rods and the electric drill.

Furthermore, the braking pulley is a universal wheel, and the braking pulley is detachably connected with the supporting bottom frame through a connecting plate; and a damping device is also arranged on the brake pulley.

Further, the ejector rod is a rigid rod and is spliced and connected through a sleeve; the top of the ejector rod is detachably connected with the electric drill through an anchor ear; or the ejector rod is a hydraulic rod or an automatic rod and is lifted through hydraulic control or electric control.

Furthermore, one side of the ejector rod opposite to the electric drill is detachably connected with an observation rod, and the top of the observation rod is connected with a camera and a laser positioning head in a detachable mode outside the collecting cover.

Furthermore, the camera is close to one side of the collecting cover, and the camera is rotatably connected with the ejector rod; the height of the laser positioning head is lower than that of the camera and the horizontal distance between the laser positioning head and the electric drill is relatively constant.

Furthermore, the operation handrail is a straight rod piece with a handle, and the straight rod piece is vertically connected with the ejector rod.

Furthermore, an observation screen is connected to the straight rod piece of the operation handrail, and the observation screen is detachably connected with the straight rod piece through a mounting seat; the observation screen is correspondingly connected with the camera.

Furthermore, the electric wire of the electric drill is vertically arranged along the ejector rod, a temporary retaining ring is connected to the ejector rod and used for connecting the electric wire in a penetrating mode, and the tail end of the electric wire is connected with a plug.

Furthermore, the collecting cover is connected around the electric drill bit, and the top of the collecting cover is provided with a dust suction port.

The beneficial effects of the utility model are embodied in:

1) the utility model has the advantages that the arrangement of the ejector rod is favorable for ensuring the vertical stability of the electric drill during punching, and the arrangement of the ejector rod avoids the high-altitude operation of operators, thereby ensuring the safety; the length adjustability of the ejector rod ensures strong adaptability of punching work; the supporting performance and the stability of the ejector rod are further ensured through the lateral side supporting rods;

2) the utility model is beneficial to ensuring the dust collection in the punching process, ensuring the cleanness of the operation environment and avoiding the suction of pollutants by operators by the arrangement of the collecting cover;

3) the utility model is beneficial to ensure the connection integrity of the lower part of the mandril and the convenient mobility at the construction site by arranging the supporting bottom frame and the braking pulley;

4) the utility model, through the combined arrangement of the camera and the observation screen, is beneficial to the real-time observation of the punching condition during construction, and is convenient for timely adjustment; the laser positioning head is arranged to facilitate positioning and real-time monitoring of punching accuracy;

in addition, the device of the utility model is simple and convenient, and is easy to be manufactured and used on site; the safety accidents can be reduced, and meanwhile, the health of constructors is ensured, and the constructors are prevented from being harmed by occupational diseases; the construction time is shortened, the cost is saved, the working efficiency is improved, the green construction call is correspondingly realized, and the purposes of cost reduction and efficiency improvement are achieved. The defects of the construction technology of the engineering project are improved in detail, and a green construction environment is created. Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention; the primary objects and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description.

Drawings

FIG. 1 is a schematic structural view of an electromechanical hoisting and punching tool;

FIG. 2 is a schematic structural view of an electromechanical hoisting and punching tool for a rod to be observed;

fig. 3 is a schematic view of the connection of the camera, the laser positioning head and the observation rod.

Reference numerals: the device comprises an electric drill 1, a top rod 2, an electric wire 3, a side supporting rod 4, a braking pulley 5, an operating handrail 6, a collecting cover 7, a supporting bottom frame 8, an observation screen 9, a mounting seat 10, a camera 11, a laser positioning head 12 and an observation rod 13.

Detailed Description

Taking punching of a certain top plate as an example, an electromechanical hoisting punching tool is applied, and as shown in fig. 1, the electromechanical hoisting punching tool comprises a supporting bottom frame 8, a brake pulley 5 connected to the lower part of the supporting bottom frame 8, a top rod 2 connected to the central part of the supporting bottom frame 8, a side stay bar 4 connected to the middle lower part of the top rod 2 and connected with the supporting bottom frame 8, an operating handle 6 detachably connected to one side of the top rod 2, an electric drill 1 detachably connected to the top of the top rod 2, and a collecting cover 7 connected to the periphery of the electric drill 1; the ejector rod 2 is a telescopic rod or can be formed by splicing and connecting.

In this embodiment, the support bottom frame 8 is a square frame or a rectangular frame, and the inside diagonal angle of the support bottom frame 8 is connected with a connecting rod and the intersection point of the connecting rod is detachably connected with the top rod 2. The supporting bottom frame 8 is made of steel rod pieces which can be assembled and prefabricated; the weight of the supporting bottom frame 8 is more than the sum of the weight of the mandril 2 and the electric drill 1. The connecting rod is a steel rod, and a sleeve is fixedly connected at the intersection point of the two steel rods and is connected with the ejector rod 2 through the sleeve.

In the embodiment, four corners of the supporting bottom frame 8 are connected with braking pulleys 5 through bolts, and the braking pulleys 5 are universal wheels; a damping device is also mounted on the brake pulley 5.

In the embodiment, the ejector rod 2 is a rigid rod, and the ejector rod 2 is spliced and connected through a sleeve; the top of the ejector rod 2 is detachably connected with the electric drill 1 through an anchor ear; or the top rod 2 is a hydraulic rod or an automatic rod and is lifted through hydraulic control or electric control. The electric wire 3 of the electric drill 1 is vertically arranged along the ejector rod 2, the ejector rod 2 is connected with a temporary retaining ring for connecting the electric wire 3 in a penetrating way, and the tail end of the electric wire 3 is connected with a plug. The collecting cover 7 is connected around the drill bit of the electric drill 1, and the top of the collecting cover 7 is provided with a dust suction port.

As shown in fig. 2 and 3, an observation rod 13 is detachably connected to one side of the top rod 2 opposite to the electric drill 1, and a camera 11 and a laser positioning head 12 are detachably connected to the top of the observation rod 13 and outside the collection cover 7. The camera 11 is close to one side of the collecting cover 7, and the camera 11 is rotatably connected with the ejector rod 2; the laser positioning head 12 is lower than the camera 11 and is at a relatively constant horizontal distance from the drill 1.

In this embodiment, the operating handle 6 is a straight rod with a handle, and the straight rod is vertically connected to the top rod 2. The straight rod piece of the operation armrest 6 is also connected with an observation screen 9, and the observation screen 9 is detachably connected with the straight rod piece through a mounting seat 10; the observation screen 9 is correspondingly connected with the camera 11.

During construction, constructor fixes a position that needs punch after measuring according to the drawing, and hand-held operation handrail 6 removes the instrument of punching to suitable position, through pulley braking ejector pin 2, adjusts 2 length of ejector pin and makes the drill bit height of electric drill 1 reach the required height of punching, adjusts the instrument of punching to the accurate position of punching, presses pulley braking snap-fastener, makes it fixed, and constructor stands and opens the power in safety range, closes the power after waiting to punch and accomplish, in time clears up fragment dust etc.. And opening the pulley brake, moving to the next punching position, and performing the next process. When the observation rod 13 is used, a positioning point is drawn on the top plate in advance according to the horizontal position between the laser positioning head 12 and the electric drill 1, then the drilling condition and the positioning condition are observed in real time through the observation screen 9 according to laser calibration in the construction process, and timely adjustment is achieved.

During construction, the pulley is opened to brake and the moving device is moved after each punching is finished, so that the braking stability is ensured. Before the power supply is turned on, whether the braking effect of the device meets the requirement is confirmed, and the device is ensured not to move in the using process. In the process of drill bit rotation, a constructor is required to strictly control a power switch, and if the phenomena of movement, inclination and the like occur, the power is immediately turned off and the cause of the problem is checked. And the dropped fragment dust and the like are cleaned in time, so that the environment cleanness of the construction site is ensured.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be considered by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. The electromechanical hoisting and punching tool is characterized by comprising a supporting bottom frame (8), a brake pulley (5) connected to the lower part of the supporting bottom frame (8), a top rod (2) connected to the central part of the supporting bottom frame (8), a side stay bar (4) connected to the middle lower part of the top rod (2) and connected with the supporting bottom frame (8), an operating handrail (6) detachably connected to one side of the top rod (2), an electric drill (1) detachably connected with the top of the top rod (2) and a collecting cover (7) connected to the periphery of the electric drill (1); the ejector rod (2) is a telescopic rod or can be formed by splicing and connecting;

the support bottom frame (8) is a square frame or a rectangular frame, the inside opposite angles of the support bottom frame (8) are connected with connecting rods, and the intersection points of the connecting rods are detachably connected with ejector rods (2).

2. The electromechanical hoisting drilling tool according to claim 1, wherein the support base frame (8) is made of steel rods, which can be prefabricated in a split manner; the weight of the supporting bottom frame (8) is more than the sum of the weight of the mandril (2) and the electric drill (1).

3. The electromechanical hoisting and punching tool of claim 1, wherein the braking pulley (5) is a universal wheel, and the braking pulley (5) is detachably connected with the supporting bottom frame (8) through a connecting plate; and a damping device is also arranged on the brake pulley (5).

4. The electromechanical hoisting and punching tool according to claim 1, wherein the ejector rod (2) is a rigid rod, and the ejector rod (2) is connected by a sleeve in an assembling manner; the top of the ejector rod (2) is detachably connected with the electric drill (1) through an anchor ear; or the ejector rod (2) is a hydraulic rod or an automatic rod and is lifted through hydraulic control or electric control.

5. The electromechanical hoisting and punching tool of claim 1, characterized in that the ejector rod (2) is detachably connected with an observation rod (13) at the side opposite to the electric drill (1), and the top of the observation rod (13) is arranged outside the collection cover (7) and is detachably connected with a camera (11) and a laser positioning head (12).

6. The electromechanical hoisting and punching tool of claim 5, wherein the camera (11) is adjacent to one side of the collecting cover (7), and the camera (11) is rotatably connected with the mandril (2); the height of the laser positioning head (12) is lower than that of the camera (11) and the horizontal distance between the laser positioning head and the electric drill (1) is relatively constant.

7. The electromechanical hoisting punching tool according to claim 6, characterized in that the operating handle (6) is a straight rod with a handle, and the straight rod is vertically connected with the top rod (2).

8. The electromechanical hoisting and punching tool according to claim 7, wherein the straight rod member of the operating handle (6) is further connected with an observation screen (9), and the observation screen (9) is detachably connected with the straight rod member through a mounting seat (10); the observation screen (9) is correspondingly connected with the camera (11).

9. The electromechanical hoisting and punching tool as claimed in claim 1, characterized in that the electric wire (3) of the electric drill (1) is arranged vertically along the top rod (2), a temporary retaining ring is connected to the top rod (2) for threading the electric wire (3), and the end of the electric wire (3) is connected with a plug.

10. The electromechanical hoisting and punching tool of claim 1, characterized in that the collecting hood (7) is connected around the drill bit of the electric drill (1), and the top of the collecting hood (7) is provided with a dust suction port.

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