CN205772900U - The mechanical adjustment bar of self adaptation diagonal brace vertical adjustment - Google Patents

Abstract

This utility model provides the mechanical adjustment bar of a kind of self adaptation diagonal brace vertical adjustment, and this utility model passes through steel pipe support rod member, is used for supporting prefabricated components；Bevel gear box, is connected with mechanic adjustment unit and cone tooth adjusting rod respectively, for controlling the flexible of cone tooth adjusting rod；Mechanic adjustment unit, is connected with described bevel gear box, for providing driving force for described bevel gear box；Cone tooth adjusting rod, steel pipe support rod member described in its one end connects, the other end is connected with described bevel gear box, after steel pipe support rod member fixing support prefabricated components complete, bevel gear box inserts mechanic adjustment unit, bevel gear box is driven by mechanic adjustment unit, regulation gear forward or reverse, make to bore tooth adjusting rod to stretch, reach to promote or shrink the effect of supporting steel pipe, and then promote prefabricated components to carry out perpendicularity regulation, the present embodiment can realize the high-accuracy mechanical regulation of the fixing rear perpendicularity of prefabricated components, improve prefabrication efficiency of construction and quality.

Description

The mechanical adjustment bar of self adaptation diagonal brace vertical adjustment

Technical field

This utility model relates to the mechanical adjustment bar of a kind of self adaptation diagonal brace vertical adjustment.

Background technology

Along with prefabricated concrete structure large-area applications, in prefabrication building course, prefabricated components from Hang, in place, interim fixing, fine adjustment of vertical degree to the most in place, the control of perpendicularity Adjustment precision is most important, but efficiency is also Key point.In prefabricated concrete structure vertical member work progress, the perpendicularity after component is in position directly affects entirety Architecture quality and follow-up floor component Construction control, and the perpendicularity that at present job site is used is manual measurement hands Dynamic regulation, as management link lacks, the problem that efficiency low quality difference must be caused, how to solve in prefabricated components installation process both full Foot ensures that construction quality takes into account again efficiency of construction, becomes current problem demanding prompt solution.

Utility model content

The purpose of this utility model is to provide the mechanical adjustment bar of a kind of self adaptation diagonal brace vertical adjustment, it is possible to increase to prefabricated The precision of the perpendicularity adjustment of component and efficiency.

For solving the problems referred to above, this utility model provides the mechanical adjustment bar of a kind of self adaptation diagonal brace vertical adjustment, including:

Steel pipe support rod member, is used for supporting prefabricated components；

Bevel gear box, is connected with mechanic adjustment unit and cone tooth adjusting rod respectively, for controlling the flexible of cone tooth adjusting rod；

Mechanic adjustment unit, is connected with described bevel gear box, for providing driving force for described bevel gear box；

Boring tooth adjusting rod, described in its one end, steel pipe support rod member connects, and the other end is connected with described bevel gear box.

Further, in the mechanical adjustment bar of above-mentioned self adaptation diagonal brace vertical adjustment, also include one with described bevel gear box even The shoe connect.

Further, in the mechanical adjustment bar of above-mentioned self adaptation diagonal brace vertical adjustment, described cone tooth adjusting rod and bevel gear box Junction be additionally provided with and get rid of jack panel.

Further, in the mechanical adjustment bar of above-mentioned self adaptation diagonal brace vertical adjustment, described mechanic adjustment unit, including:

Servomotor, including rotor, described rotor is connected with described bevel gear box, is used for controlling described cone tooth adjusting rod Flexible；

The decelerator being connected with described servomotor, is used for amplifying servomotor moment of torsion, and drives described rotor to adjust cone Stretching of tooth adjusting rod.

Further, in the mechanical adjustment bar of above-mentioned self adaptation diagonal brace vertical adjustment, described mechanic adjustment unit, also include:

It is arranged at quick connector on described rotor, that be connected with mechanical adjustment bar for described rotor.

Further, in the mechanical adjustment bar of above-mentioned self adaptation diagonal brace vertical adjustment, described mechanic adjustment unit, also include:

The controller being connected with servomotor, for obtaining current vertical degree and the present bit of described rotor of prefabricated components Put, and control the rotational angle displacement of described rotor, speed and direction according to described current vertical degree and current location.

Further, in the mechanical adjustment bar of above-mentioned self adaptation diagonal brace vertical adjustment, described servomotor, decelerator, control It is additionally provided with a protection framework outside device and quickly connector.

Further, in the mechanical adjustment bar of above-mentioned self adaptation diagonal brace vertical adjustment, described protection framework is additionally provided with handle Hands.

Further, in the mechanical adjustment bar of above-mentioned self adaptation diagonal brace vertical adjustment, in described protection framework near described soon One end of speed connector is additionally provided with support seat.

Further, in the mechanical adjustment bar of above-mentioned self adaptation diagonal brace vertical adjustment, described servomotor includes that a feedback is compiled Code device, for feeding back the current location of described rotor to described controller.

Further, in the mechanical adjustment bar of above-mentioned self adaptation diagonal brace vertical adjustment, described mechanic adjustment unit, also include one The verticality measurement device being close proximity on prefabricated components, described verticality measurement device is connected with described controller, is used for measuring The current vertical degree of described prefabricated components, and described current vertical degree is sent to described controller.

Further, in the mechanical adjustment bar of above-mentioned self adaptation diagonal brace vertical adjustment, described verticality measurement device is with described Controller wireless connections.

Compared with prior art, this utility model passes through steel pipe support rod member, is used for supporting prefabricated components；Bevel gear box, It is connected with mechanic adjustment unit and cone tooth adjusting rod respectively, for controlling the flexible of cone tooth adjusting rod；Mechanic adjustment unit, with institute State bevel gear box to connect, for providing driving force for described bevel gear box；Bore tooth adjusting rod, steel pipe support rod member described in its one end Connecting, the other end is connected with described bevel gear box, after steel pipe support rod member fixing support prefabricated components complete, at bevel gear box Upper insertion mechanic adjustment unit, drives bevel gear box by mechanic adjustment unit, regulates gear forward or reverse so that cone tooth is adjusted Pole stretches, and reaches to promote or shrink the effect of supporting steel pipe, and then promotes prefabricated components to carry out perpendicularity regulation, the present embodiment The high-accuracy mechanical regulation of the fixing rear perpendicularity of prefabricated components can be realized, improve prefabrication efficiency of construction and quality.

Accompanying drawing explanation

Fig. 1 is the structure chart of the mechanical adjustment bar of the self adaptation diagonal brace vertical adjustment of this utility model one embodiment；

Fig. 2 is the overall schematic of the mechanic adjustment unit of this utility model one embodiment；

Fig. 3 is the front view of Fig. 2；

Fig. 4 is the profile along line A-A of Fig. 2.

Detailed description of the invention

Understandable for enabling above-mentioned purpose of the present utility model, feature and advantage to become apparent from, below in conjunction with the accompanying drawings and tool This utility model is described in further detail by body embodiment.

As it is shown in figure 1, this utility model provides the mechanical adjustment bar of a kind of self adaptation diagonal brace vertical adjustment, including:

Steel pipe support rod member 11, is used for supporting prefabricated components；

Bevel gear box 12, is connected with mechanic adjustment unit 13 and cone tooth adjusting rod 14 respectively, is used for controlling to bore tooth adjusting rod 14 stretch；

Mechanic adjustment unit 13, is connected with described bevel gear box 12, for providing driving force for described bevel gear box 12；

Boring tooth adjusting rod 14, steel pipe support rod member 11 described in its one end connects, and the other end is connected with described bevel gear box 12. The adjustable range of described cone tooth adjusting rod can be 40cm, after steel pipe support rod member fixing support prefabricated components complete, at cone tooth Insert mechanic adjustment unit on roller box, drive bevel gear box by mechanic adjustment unit, regulate gear forward or reverse so that cone Tooth adjusting rod stretches, and reaches to promote or shrink the effect of supporting steel pipe, and then promotes prefabricated components to carry out perpendicularity regulation, this reality Execute example and can realize the high-accuracy mechanical regulation of the fixing rear perpendicularity of prefabricated components, improve prefabrication efficiency of construction and matter Amount.

Preferably, the mechanical adjustment bar of described self adaptation diagonal brace vertical adjustment, also include that one is connected with described bevel gear box 12 Shoe 15, on the one hand plays the effect of the length of prolonged mechanical adjusting rod, on the other hand plays the effect of protection bevel gear box 12, When avoiding diagonal brace mechanical adjustment bar, bevel gear box 12 directly contacts with ground.

Preferably, the junction of described cone tooth adjusting rod 14 and bevel gear box 12 is additionally provided with gets rid of jack panel 16, conveniently will After cone tooth adjusting rod 14 is adjusted to suitable length, by locked with bevel gear box 12 for cone tooth adjusting rod 14, it is to avoid maloperation.Concrete behaviour When making, can fix and get rid of jack panel, withdraw from mechanic adjustment unit after cone tooth adjusting rod is adjusted to suitable length, regulation completes.

As shown in figs. 2 to 4, described mechanic adjustment unit 13, including:

Servomotor 1, including rotor, described rotor is connected with described bevel gear box, is used for controlling the regulation of described cone tooth Stretching of bar；Wherein, described mechanical adjustment bar is for supporting prefabricated components and adjusting the perpendicularity of described prefabricated components；

The decelerator 2 being connected with described servomotor, is used for amplifying servomotor moment of torsion, and drives described rotor to adjust cone Stretching of tooth adjusting rod.The present embodiment can realize boring tooth automatically, accurately and efficiently by the rotor of control servomotor Adjusting rod expanding-contracting action, automatically, accurately and efficiently to adjust the perpendicularity of prefabricated components.

Preferably, as shown in figs. 2 to 4, described mechanic adjustment unit 13, also include: be arranged on described rotor, for institute State the quick connector 3 that rotor is connected with mechanical adjustment bar, thus realize the correspondence position of rotor and described mechanical adjustment bar The quick connection of correspondence position.

Preferably, described mechanic adjustment unit 13, also include: the controller being connected with servomotor, be used for obtaining prefabricated The current vertical degree of component and the current location of described rotor, and control described turning according to described current vertical degree and current location Rotational angle displacement, speed and the direction of son.The present embodiment can accurately control the rotational angle displacement of rotor of servomotor, speed And direction, and then accurately control mechanical adjustment bar expanding-contracting action, to adjust the perpendicularity of prefabricated components accurately, efficiently.

Preferably, as shown in figs. 2 to 4, also set up outside described servomotor 1, decelerator 2, controller and quick connector 3 There is a protection framework 4, so that described servomotor, decelerator, controller and quick connector to be protected.

Preferably, described protection framework 4 is additionally provided with handle, facilitates the machine of the mechanical adjustment bar of self adaptation diagonal brace vertical adjustment The grasping of tool adjusting means, and be easy to be attached described quick connector with mechanical adjustment bar.

Preferably, in described protection framework 4, the one end near described quick connector 3 is additionally provided with support seat, can will prop up Support seat is only held on ground, prevents quick connector from directly contacting with ground and being damaged.

Preferably, described servomotor 1 includes a feedback coder, for feeding back working as of described rotor to described controller Front position, thus realize controller and obtain the current location of rotor in real time, facilitate the follow-up rotational angle displacement to rotor, speed and Direction, accurately controls.

Preferably, described mechanic adjustment unit, also include a verticality measurement device being close proximity on prefabricated components, described Verticality measurement device is connected with described controller, for measuring the current vertical degree of described prefabricated components, and by described currently Perpendicularity sends to described controller, thus realizes controller and obtain the perpendicularity of prefabricated components in real time, facilitates follow-up to rotor Rotational angle displacement, speed and direction, accurately control.

Preferably, described verticality measurement device and described controller wireless connections, thus realize verticality measurement device And wireless data transmission easily between controller.

In sum, this utility model passes through steel pipe support rod member, is used for supporting prefabricated components；Bevel gear box, respectively with Mechanic adjustment unit and cone tooth adjusting rod connect, for controlling the flexible of cone tooth adjusting rod；Mechanic adjustment unit, with described cone tooth Roller box connects, for providing driving force for described bevel gear box；Boring tooth adjusting rod, described in its one end, steel pipe support rod member connects, The other end is connected with described bevel gear box, after steel pipe support rod member fixing support prefabricated components complete, inserts on bevel gear box Enter mechanic adjustment unit, drive bevel gear box by mechanic adjustment unit, regulate gear forward or reverse so that cone tooth adjusting rod Flexible, reach to promote or shrink the effect of supporting steel pipe, and then promote prefabricated components to carry out perpendicularity regulation, the present embodiment can be real After existing prefabricated components are fixing, the high-accuracy mechanical regulation of perpendicularity, improves prefabrication efficiency of construction and quality.

In this specification, each embodiment uses the mode gone forward one by one to describe, and what each embodiment stressed is and other The difference of embodiment, between each embodiment, identical similar portion sees mutually.

Obviously, those skilled in the art can carry out various change and modification without deviating from this practicality newly to utility model The spirit and scope of type.So, if of the present utility model these amendment and modification belong to this utility model claim and Within the scope of equivalent technologies, then this utility model is also intended to change and including modification include these.

Claims (12)

1. the mechanical adjustment bar of a self adaptation diagonal brace vertical adjustment, it is characterised in that including:

Steel pipe support rod member；

Bevel gear box, is connected with mechanic adjustment unit and cone tooth adjusting rod respectively；

Mechanic adjustment unit, is connected with described bevel gear box；

Boring tooth adjusting rod, described in its one end, steel pipe support rod member connects, and the other end is connected with described bevel gear box.

2. the mechanical adjustment bar of self adaptation diagonal brace vertical adjustment as claimed in claim 1, it is characterised in that also include one with described cone The shoe that gear-box connects.

3. the mechanical adjustment bar of self adaptation diagonal brace vertical adjustment as claimed in claim 1, it is characterised in that described cone tooth adjusting rod with The junction of bevel gear box is additionally provided with gets rid of jack panel.

4. the mechanical adjustment bar of self adaptation diagonal brace vertical adjustment as claimed in claim 1, it is characterised in that described mechanical adjustment fills Put, including:

Servomotor, including rotor, described rotor is connected with described bevel gear box；

The decelerator being connected with described servomotor.

5. the mechanical adjustment bar of self adaptation diagonal brace vertical adjustment as claimed in claim 1, it is characterised in that described mechanical adjustment fills Put, also include:

It is arranged at quick connector on described rotor, that be connected with mechanical adjustment bar for described rotor.

6. the mechanical adjustment bar of self adaptation diagonal brace vertical adjustment as claimed in claim 5, it is characterised in that described mechanical adjustment fills Put, also include:

The controller being connected with servomotor.

7. the mechanical adjustment bar of self adaptation diagonal brace vertical adjustment as claimed in claim 6, it is characterised in that described servomotor, subtract It is additionally provided with a protection framework outside speed device, controller and quick connector.

8. the mechanical adjustment bar of self adaptation diagonal brace vertical adjustment as claimed in claim 7, it is characterised in that in described protection framework also It is provided with handle.

9. the mechanical adjustment bar of self adaptation diagonal brace vertical adjustment as claimed in claim 7, it is characterised in that lean in described protection framework One end of nearly described quick connector is additionally provided with support seat.

10. the mechanical adjustment bar of self adaptation diagonal brace vertical adjustment as claimed in claim 6, it is characterised in that described servomotor bag Include a feedback coder.

The mechanical adjustment bar of 11. self adaptation diagonal brace vertical adjustments as claimed in claim 6, it is characterised in that described mechanical adjustment fills Put, also include a verticality measurement device being close proximity on prefabricated components.

The mechanical adjustment bar of 12. self adaptation diagonal brace vertical adjustments as claimed in claim 11, it is characterised in that described squareness measurement Device and described controller wireless connections.