CN211346664U

CN211346664U - Component symmetry detection device

Info

Publication number: CN211346664U
Application number: CN201922434389.1U
Authority: CN
Inventors: 张岩; 郝宝成; 张鹏飞; 崔占军; 翁志国
Original assignee: China Second Metallurgy Group Co Ltd
Current assignee: China Second Metallurgy Group Co Ltd
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-08-25
Anticipated expiration: 2029-12-30

Abstract

The utility model provides a component symmetry detection device includes: the water level detection device comprises two adjusting devices, two control devices and a communicating pipeline, wherein each adjusting device is respectively connected with two end parts of the communicating pipeline and drives the end part of the communicating pipeline to translate along the vertical direction, water is arranged in the communicating pipeline, the communicating pipeline is used for detecting the water level height, each control device is respectively connected with one adjusting device, and the control devices are used for controlling the adjusting devices so as to drive the end part of the communicating pipeline to translate. Through setting up two adjusting device, two controlling means and intercommunication pipeline, set up an adjusting device and controlling means respectively in building, structure or the relative both sides of component face to link together two adjusting device through a intercommunication pipeline, through making the water level scale at intercommunication pipeline both ends the same, and then confirm the position that component symmetry detection device is located, and then can judge the component symmetry fast and effectively, improved the detection efficiency of component symmetry.

Description

Component symmetry detection device

Technical Field

The utility model relates to a detection device technical field particularly, relates to a component symmetry detection device.

Background

At present, in the process of checking the appearance of the concrete entity of the arch bridge, the workload of workers such as measurement and the like is greatly reduced for the detection of a large-span height structure. In the past, the large-span and high-height upright rods are inconvenient to use by measuring personnel, convenience is brought to the positions with high danger to the personnel by the upright rods, and the position which cannot be measured by the measuring personnel is a defect.

Disclosure of Invention

In view of this, the utility model provides a component symmetry detection device aims at solving and carries out the problem that component symmetry detected fast.

In one aspect, the utility model provides a component symmetry detection device, include: the water level detection device comprises two adjusting devices, two control devices and a communicating pipeline, wherein each adjusting device is respectively connected with two end parts of the communicating pipeline and drives the end part of the communicating pipeline to translate along the vertical direction, water is arranged in the communicating pipeline, the communicating pipeline is used for detecting the water level height, each control device is respectively connected with one adjusting device, and the control devices are used for controlling the adjusting devices so as to drive the end part of the communicating pipeline to translate.

Further, the device for detecting symmetry of a member further comprises: the fixing plate is detachably connected with a building, a structure or a component surface, and the fixing plate is provided with the adjusting device and the control device.

Further, the fixing plate is provided with a fixing hole for connecting the fixing plate with the building, structure or component surface.

Further, adjusting device is including connecting gear, first driving piece and second driving piece set up side by side, first driving piece and second driving piece simultaneously with connect gear connection, connect the gear and be used for the drive first driving piece and second driving piece synchronous motion, first driving piece and second driving piece simultaneously with the intercommunication pipeline is connected, with the drive the intercommunication pipeline translation.

Further, the first driving piece and the second driving piece are slidably connected with the fixing plate, and the first driving piece and the second driving piece slide along the same direction.

Furthermore, the first driving part is of a T-shaped structure, the lower side surface of the transverse plate of the first driving part is slidably connected with the fixing plate, and the communication pipeline is arranged in the middle of the transverse plate of the first driving part in a penetrating manner; the vertical plate of the first driving part is provided with sawteeth, and the sawteeth on the vertical plate of the first driving part are opposite to the connecting gear and are connected with the connecting gear.

Furthermore, the second driving part is of an L-shaped structure, the lower side surface of the transverse plate of the second driving part is slidably connected with the fixing plate, and the middle part of the transverse plate of the second driving part is penetrated with the communicating pipeline; the vertical plate of the second driving piece is provided with sawteeth, and the sawteeth on the vertical plate of the second driving piece are opposite to the connecting gear and are connected with the connecting gear.

Furthermore, the sawteeth on the vertical plate of the first driving piece are opposite to the sawteeth on the vertical plate of the second driving piece, and the connecting gear is arranged between the sawteeth on the vertical plate of the first driving piece and the sawteeth on the vertical plate of the second driving piece.

Further, the connecting gear is connected with a motor, and the motor is used for driving the connecting gear to rotate.

Further, the control device comprises a switch, the switch is connected with the motor, and the switch is used for driving the motor to rotate.

Compared with the prior art, the beneficial effects of the utility model reside in that, through setting up two adjusting device, two controlling means and intercommunication pipeline, at the building, the both sides that structure or component face are relative set up an adjusting device and controlling means respectively, and link together two adjusting device through a intercommunication pipeline, fill water in the intercommunication pipeline, through controlling means control adjusting device, adjust the height of intercommunication pipeline, and then make the water level at intercommunication pipeline both ends be located same level, water level scale through making the intercommunication pipeline both ends the same, and then confirm the position that component symmetry detection device located, and then can judge the component symmetry fast and effectively, the detection efficiency of component symmetry has been improved.

Further, the utility model discloses a component symmetry detection device simple structure, convenient operation, use are convenient, and it is accurate to the high structure measurement of large-span height.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a structural diagram of a device for detecting symmetry of a component according to an embodiment of the present invention;

fig. 2 is an installation diagram of the device for detecting symmetry of a component according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1 and 2, the present embodiment discloses a device for detecting symmetry of a component, including: the device comprises two adjusting devices 1, two control devices 2 and a communicating pipeline, wherein each adjusting device 1 is connected with two end portions of the communicating pipeline respectively and drives the end portion of the communicating pipeline to translate along the vertical direction, water is arranged in the communicating pipeline, the communicating pipeline is used for detecting the height of a water level, each control device 2 is connected with one adjusting device 1 respectively, and the control devices 2 are used for controlling the adjusting devices 1 so as to drive the end portion of the communicating pipeline to translate.

Specifically, the device for detecting symmetry of a member further comprises a fixing plate 4, wherein the fixing plate 4 is detachably connected to a building, a structure or a member surface 7, and the fixing plate 4 is provided with one adjusting device 1 and one control device 2. The fixing plate 4 is preferably a square wooden plate or a metal plate.

Specifically, the fixing plate 4 is provided with a fixing hole 3, and the fixing hole 3 is used for connecting the fixing plate 4 with the building, structure or component surface 7. Screws are provided in the fixing holes 3 to fix the fixing plate 4 to the building, structure or component surface 7.

Specifically, the symmetry of the two opposite sides of the building, structure or member surface 7 is determined by providing a fixing plate 4 on each of the two opposite sides of the building, structure or member surface 7, providing an adjusting device 1 and a control device 2 on the fixing plate 4, connecting the two opposite sides of the building, structure or member surface 7 to the adjusting devices 1 on each of the two opposite sides of the communicating pipe, and adjusting the scale corresponding to the liquid level in the communicating pipe by the adjusting devices 1.

It can be seen that, through setting up two adjusting device 1, two controlling means 2 and communicating pipe, set up an adjusting device 1 and controlling means 2 respectively in building, the relative both sides of structure or component face 7, and link together two adjusting device 1 through a communicating pipe, fill water in the communicating pipe, control adjusting device 1 through controlling means 2, adjust the height of communicating pipe, and then make the water level at communicating pipe both ends be located same level, through making the water level scale at communicating pipe both ends the same, and then confirm the position that component symmetry detection device located, and then can judge the component symmetry fast and effectively, the detection efficiency of component symmetry has been improved.

Specifically, the communicating pipe comprises a transparent water level monitoring pipe 5 with scales and a plastic hose 6, the scales are arranged on the water level monitoring pipe 5, the water level monitoring pipe 5 is inserted into the plastic hose 6, and the water level monitoring pipe and the plastic hose are connected in an inserting mode. The water level monitoring pipe 5 and the plastic hose 6 are respectively connected with the adjusting device 1. The adjusting device 1 can adjust the distance between the water level monitoring pipe 5 and the plastic hose 6.

Preferably, the monitoring tube 5 is a plastic tube and the plastic hose 6 is a rubber tube.

Particularly, adjusting device 1 is including connecting gear, first driving piece and second driving piece set up side by side, first driving piece and second driving piece simultaneously with connect gear connection, connect the gear and be used for the drive first driving piece and second driving piece synchronous motion, first driving piece and second driving piece simultaneously with the intercommunication pipeline is connected, with the drive the intercommunication pipeline translation.

Specifically, the first driving member and the second driving member are slidably connected to the fixing plate 4, and the first driving member and the second driving member slide in the same direction.

Specifically, the first driving member is a T-shaped structure, the lower side surface of the transverse plate of the first driving member is slidably connected with the fixed plate 4, and the middle part of the transverse plate of the first driving member is penetrated with the communication pipeline; the vertical plate of the first driving part is provided with sawteeth, and the sawteeth on the vertical plate of the first driving part are opposite to the connecting gear and are connected with the connecting gear.

Specifically, the second driving member is an L-shaped structure, the lower side surface of the transverse plate of the second driving member is slidably connected with the fixed plate 4, and the middle part of the transverse plate of the second driving member is penetrated with the communication pipeline; the vertical plate of the second driving piece is provided with sawteeth, and the sawteeth on the vertical plate of the second driving piece are opposite to the connecting gear and are connected with the connecting gear.

Particularly, the sawtooth on the vertical plate of the first driving piece is opposite to the sawtooth on the vertical plate of the second driving piece, and the connecting gear is arranged between the sawtooth on the vertical plate of the first driving piece and the sawtooth on the vertical plate of the second driving piece.

Particularly, the second driving part water is connected with the water level monitoring pipe 5, the first driving part is connected with the plastic hose 6, the water level monitoring pipe 5 and the plastic hose 6 are respectively arranged in the second driving part and the first driving part in a penetrating mode and are fixed, the distance between the water level monitoring pipe 5 and the plastic hose 6 is adjusted through the second driving part and the first driving part, and then the scale displayed by the water level monitoring pipe 5 is adjusted.

Specifically, the connecting gear is connected with a motor, and the motor is used for driving the connecting gear to rotate.

Specifically, the control device 2 includes a switch, and the switch is connected to the motor and is used for driving the motor to rotate.

Specifically, a power module is arranged on the fixing plate 4, and the power module is connected with the switch and the motor. The power module is a lithium battery or a storage battery.

Particularly, be provided with the slide rail on the fixed plate 4, the downside and the sliding rail connection of second driving piece and first driving piece, and then make second driving piece and first driving piece slide on the slide rail, drive through the motor and connect gear drive second driving piece and first driving piece and remove, and then can drive water level monitoring pipe 5 and plastic hose 6 and remove.

It can be seen that, the above-mentioned component symmetry detection device is through setting up two adjusting device 1, two controlling means 2 and communicating pipe, set up an adjusting device 1 and controlling means 2 respectively in building, the relative both sides of structure or component face 7, and link together two adjusting device 1 through a communicating pipe, fill water in the communicating pipe, control adjusting device 1 through controlling means 2, adjust the height of communicating pipe, and then make the water level at communicating pipe both ends be located same level, through making the water level scale at communicating pipe both ends the same, and then confirm the position that component symmetry detection device locates, and then can judge the component symmetry fast and effectively, the detection efficiency of component symmetry has been improved.

When the device is specifically implemented, the component symmetry detection device is provided with a rubber tube, a plastic tube, a fixing plate 4 for fixing the plastic tube, a level meter for adjusting the levelness of the fixing plate 4 and a rotary fixer for adjusting the height of the plastic tube. The utility model discloses arch large-span structure symmetry detection device, simple structure, convenient operation, use are convenient, detect accurately to the component symmetry.

Further, the height detection device is adjustable and comprises a rotating button and an adjusting device 1, wherein the upper end of the adjusting device 1 is a fixed end, and the lower end of the adjusting device 1 is an openable fixed end. The fixed plate 4 is provided with a levelness regulator for ensuring that the height monitoring device is vertical to the horizontal plane.

Furthermore, the symmetry detection device is provided with a regulating device 1, a control device 2, a fixing hole 3, a fixing plate 4, a transparent water level monitoring pipe 5 with scales and a plastic hose 6, the detecting device finds out points with the same height of the structure according to the principle of a communicating device, the instrument is fixed at the points through the fixing hole 3, the instrument is finely regulated to the same height by using the regulator, the points are recorded, a plurality of groups of points are measured by using the same principle, and the symmetry of the structural member can be judged in a summary mode. When the height is detected, the fixing plate 4 is leaned against a building, a structure or a component surface 7, the levelness is adjusted through the levelness adjusting instrument, and the levelness instruments at two ends are adjusted to be in a horizontal state.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. A component symmetry detection apparatus, comprising: the water level detection device comprises two adjusting devices, two control devices and a communicating pipeline, wherein each adjusting device is respectively connected with two end parts of the communicating pipeline and drives the end part of the communicating pipeline to translate along the vertical direction, water is arranged in the communicating pipeline, the communicating pipeline is used for detecting the water level height, each control device is respectively connected with one adjusting device, and the control devices are used for controlling the adjusting devices so as to drive the end part of the communicating pipeline to translate.

2. The member symmetry-detecting apparatus according to claim 1, further comprising:

the fixing plate is detachably connected with a building, a structure or a component surface, and the fixing plate is provided with the adjusting device and the control device.

3. The device for detecting symmetry of structural members as claimed in claim 2, wherein the fixing plate is provided with fixing holes for connecting the fixing plate to the building, structure or structural member surface.

4. The component symmetry detection apparatus according to claim 2, wherein the adjustment apparatus includes a connection gear, a first driving member and a second driving member, the first driving member and the second driving member are disposed side by side, the first driving member and the second driving member are simultaneously connected to the connection gear, the connection gear is configured to drive the first driving member and the second driving member to move synchronously, and the first driving member and the second driving member are simultaneously connected to the communication pipe to drive the communication pipe to move horizontally.

5. The device for detecting symmetry of structural members as claimed in claim 4, wherein the first and second driving members are slidably connected to the fixing plate, and the first and second driving members slide in the same direction.

6. The device for detecting symmetry of structural members as claimed in claim 5, wherein the first driving member is a T-shaped structure, the lower side of the transverse plate of the first driving member is slidably connected to the fixing plate, and the communication channel is formed through the middle of the transverse plate of the first driving member;

the vertical plate of the first driving part is provided with sawteeth, and the sawteeth on the vertical plate of the first driving part are opposite to the connecting gear and are connected with the connecting gear.

7. The device for detecting symmetry of structural members as claimed in claim 6, wherein the second driving member is an L-shaped structure, the lower side of the transverse plate of the second driving member is slidably connected to the fixing plate, and the middle of the transverse plate of the second driving member is provided with the communication channel;

the vertical plate of the second driving piece is provided with sawteeth, and the sawteeth on the vertical plate of the second driving piece are opposite to the connecting gear and are connected with the connecting gear.

8. The component symmetry detection apparatus according to claim 7, wherein the saw teeth of the vertical plate of the first driving member are disposed opposite to the saw teeth of the vertical plate of the second driving member, and the connection gear is disposed between the saw teeth of the vertical plate of the first driving member and the saw teeth of the vertical plate of the second driving member.

9. The device for detecting the symmetry of a member as claimed in claim 4, wherein the connecting gear is connected to a motor for driving the connecting gear to rotate.

10. The device for detecting the symmetry of a member as claimed in claim 9, wherein the control device includes a switch connected to the motor, the switch being configured to drive the motor to rotate.