CN210664542U

CN210664542U - Supporting mechanism for building design measuring device

Info

Publication number: CN210664542U
Application number: CN201921523141.6U
Authority: CN
Inventors: 姜娜
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-09-12
Filing date: 2019-09-12
Publication date: 2020-06-02
Anticipated expiration: 2029-09-12

Abstract

The utility model provides a supporting mechanism for architectural design measuring device. A supporting mechanism for architectural design measuring device, comprising a base plate, the right side fixedly connected with buffer at bottom plate top, the left side sliding connection at bottom plate top has first slider, the top of first slider is rotated and is connected with first support column, the right side sliding connection at bottom plate top has the second slider, the top of second slider is rotated and is connected with the second support column, the top of bottom plate just is located the rear side fixedly connected with electric telescopic handle of first support column and second support column, the back of second support column is provided with the fixed block. The utility model provides a supporting mechanism for architectural design measuring device has the design of connecting box and connecting block, lets the roof can increase length, thereby also can install the device fixed block and let the device fix on the roof, has just so increased the practicality when device uses.

Description

Supporting mechanism for building design measuring device

Technical Field

The utility model relates to a supporting mechanism field especially relates to a supporting mechanism for architectural design measuring device.

Background

The supporting structure mainly utilizes the structure of the supporting structure to support the articles to be placed, the structure of the supporting structure cannot be changed due to the weight of the articles in the supporting process, the supporting structure is widely applied at present, and the structure of the supporting structure is greatly different.

However, in the supporting structure for supporting the measuring device in the building, since the building measurement needs to be accurate, the measurement height of the measuring device needs to be adjusted in a micro manner during the supporting process so as to facilitate the measurement to be more accurate, but the existing supporting structure is difficult to finely adjust the device.

Therefore, it is necessary to provide a support mechanism for a building design measuring device to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a supporting mechanism for architectural design measuring device has solved the comparatively difficult problem of supporting mechanism when finely tuning the device height.

In order to solve the technical problems, the utility model provides a supporting mechanism for a building design measuring device, which comprises a bottom plate, wherein a buffer device is fixedly connected to the right side of the top of the bottom plate, a first slider is slidably connected to the left side of the top of the bottom plate, a first supporting column is rotatably connected to the top of the first slider, a second slider is slidably connected to the right side of the top of the bottom plate, a second supporting column is rotatably connected to the top of the second slider, an electric telescopic rod is fixedly connected to the top of the bottom plate and is positioned at the rear side of the first supporting column and the rear side of the second supporting column, a fixed block is arranged on the back side of the second supporting column, the left end of the electric telescopic rod is fixedly connected with the fixed block, a top plate is rotatably connected to the top of the first supporting column and the top of the second supporting column, device fixed blocks are, the inner wall of the connecting box is connected with a connecting block in a sliding mode.

Preferably, buffer includes the buffering shell, the bottom of buffering shell and the right side fixed connection at bottom plate top, fixedly connected with spliced pole between the both sides of buffering shell inner wall, the both sides on spliced pole surface all are provided with buffer spring, two the equal fixedly connected with buffer block in surface that buffer spring is relative one side and be located the spliced pole, the top of buffer block is rotated and is connected with the buffer beam, the outside that the buffering shell just extended to the buffering shell is run through at the top of buffer beam, the top of buffer beam is rotated and is connected with the clamp plate, the bottom fixedly connected with telescopic link of clamp plate, the bottom of telescopic link and the top fixed connection of buffering shell.

Preferably, the top of the connecting block is fixedly connected with the bottom of the device fixing block through a screw.

Preferably, the front of roof is provided with spacing shell, the both sides of spacing shell inner wall bottom all are provided with elastic spring, two elastic spring's top fixedly connected with limit baffle, spacing screw has been run through in the front of spacing shell.

Preferably, the bottom of the bottom plate is rotatably connected with a telescopic leg, and a telescopic leg fixing screw penetrates through the bottom of the telescopic leg.

Preferably, the top of the bottom plate is provided with a sliding groove matched with the first sliding block and the second sliding block for use.

Compared with the prior art, the utility model provides a supporting mechanism for architectural design measuring device has following beneficial effect:

the utility model provides a supporting mechanism for a building design measuring device, firstly, according to the requirement of the device size, if the length of a top plate is not enough when the device is placed, the lengthened plate is connected with the top plate by using a connecting block and grooves at two sides of the top plate, then the device is placed on the spliced top plate, if the length of the top plate is enough to place the measuring device, the device is placed on the top plate firstly, then a device fixing block is aligned with the grooves at two sides of the top plate, then the connecting block, the device fixing block and the top plate are fixed by using screws, when the device fixing block is placed, the device is clamped by using the grooves on the device fixing block, at the moment, a limiting screw is loosened, because the limiting screw is loosened, an elastic spring at the bottom of the inner wall of a limiting shell can pop out a limiting baffle plate, at the moment, the limiting screw is fixed, and, the supporting legs inside the telescopic legs are drawn out, three telescopic legs are stretched to the underground, when the telescopic legs are supported, the measuring device is in the horizontal direction, then the supporting legs inside the telescopic legs are fixed by utilizing telescopic leg fixing screws, at the moment, the electric telescopic rod is started to finely adjust the height of the device according to different height requirements, the electric telescopic rod can drive the fixing block to move when the telescopic legs are deeply stretched, the fixing block can drive the first supporting column to move, at the moment, the first sliding block connected with the first supporting column can slide in the sliding groove, when the first supporting column moves, as the connecting column is connected between the first supporting column and the second supporting column, the first supporting column can jack up the top plate upwards when moving, the second supporting column also can move when the top plate moves upwards, when the top plate needs to move downwards, the electric telescopic rod is contracted, and then when the top plate moves downwards and touches the buffer device, when the pressure plate is pressed by the downward movement force of the top plate, the pressure plate moves downward, and then the pressure plate drives the buffer rod to move downward, at this time, the buffer rod is rotationally connected with the buffer block, and the buffer block slides on the connecting column, at this time, due to the existence of the buffer spring, the downward force of the pressure plate can be partially relieved by the spring, the length of the top plate can be increased by the design of the connecting box and the connecting block, and the device fixing block can also be installed so as to fix the device on the top plate, thereby increasing the practicability of the device in use, the design of the buffer device reduces the pressing force when the top plate is pressed down, and the top plate can not be pressed on the electric telescopic rod, so that the protection of the device parts when the device is used is increased in a phase-changing manner, and the design of electric telescopic handle, thereby can adjust the height of roof and reach adjustment measuring device's height, just so made things convenient for the convenience of measuring device when using.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of a supporting mechanism for a building design measuring device according to the present invention;

FIG. 2 is a schematic structural view of the buffering device shown in FIG. 1;

fig. 3 is a partially enlarged view of a portion a shown in fig. 1.

Reference numbers in the figures: 1. the bottom plate, 2, buffer, 3, first support column, 4, the second support column, 5, electric telescopic handle, 6, the fixed block, 7, the roof, 8, first slider, 9, the second slider, 10, the device fixed block, 11, the connecting box, 12, the connecting block, 13, spacing shell, 14, elasticity spring, 15, limit baffle, 16, the spacing screw, 17, flexible leg, 18, flexible leg fixed screw, 19, the spout, 21, the buffering shell, 22, the spliced pole, 23, buffer spring, 24, the buffer, 25, the buffer beam, 26, the clamp plate, 27, the telescopic link.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Please refer to fig. 1, fig. 2 and fig. 3, wherein fig. 1 is a schematic structural diagram of a supporting mechanism for a building design measuring device according to a preferred embodiment of the present invention; FIG. 2 is a schematic structural view of the buffering device shown in FIG. 1; fig. 3 is a partially enlarged view of a portion a shown in fig. 1. The supporting mechanism for the building design measuring device comprises a bottom plate 1, a buffering device 2 is fixedly connected to the right side of the top of the bottom plate 1, a first sliding block 8 is connected to the left side of the top of the bottom plate 1 in a sliding manner, a first supporting column 3 is connected to the top of the first sliding block 8 in a rotating manner, a second sliding block 9 is connected to the right side of the top of the bottom plate 1 in a sliding manner, a second supporting column 4 is connected to the top of the second sliding block 9 in a rotating manner, an electric telescopic rod 5 is fixedly connected to the top of the bottom plate 1 and positioned behind the first supporting column 3 and the second supporting column 4, an external power supply of the electric telescopic rod 5 is provided with a fixed block 6 on the back of the second supporting column 4, the left end of the electric telescopic rod 5 is fixedly connected with the fixed block 6, the fixed block 6 can slide with the bottom plate 1, and a, the both sides of roof 7 all are provided with device fixed block 10, the both sides of roof 7 bottom all are provided with connecting box 11, the inner wall sliding connection of connecting box 11 has connecting block 12, the surface of first support column 3 and second support column 4 runs through there is the connecting rod, and the connecting rod is together fixed first support column 3 and second support column 4.

Buffer 2 includes buffering shell 21, the right side fixed connection at the bottom of

buffering shell

21 and 1 top of bottom plate, fixedly connected with spliced pole 22 between the both sides of buffering shell 21 inner wall, the both sides on spliced pole 22 surface all are provided with buffer spring 23, two the equal fixedly connected with buffer block 24 in surface that buffer spring 23 is relative one side and is located spliced pole 22, the top of buffer block is rotated and is connected with buffer beam 25, the outside that buffering shell 21 just extended to buffering shell 21 is run through at the top of buffer beam 25, the top of buffer beam 25 is rotated and is connected with clamp plate 26, the bottom fixedly connected with telescopic link 27 of clamp plate 26, the bottom of telescopic link 27 and the top fixed connection of buffering shell 21.

The top of the connecting block 12 is fixedly connected with the bottom of the device fixing block 10 through screws.

The front of roof 7 is provided with spacing shell 13, the both sides of spacing shell 13 inner wall bottom all are provided with elastic spring 14, two elastic spring 14's top fixedly connected with limit baffle 15, spacing screw 16 has run through in the front of spacing shell 13, the bottom of spacing shell 13 is passed through the bottom fixed connection of screw and roof 7.

The bottom of the bottom plate 1 is rotatably connected with a telescopic leg 17, a telescopic leg fixing screw 18 penetrates through the bottom of the telescopic leg 17, and a supporting leg is arranged on the inner wall of the telescopic leg 17.

The top of the bottom plate 1 is provided with a sliding groove 19 which is matched with the first sliding block 8 and the second sliding block 9 for use.

The utility model provides a theory of operation for architectural design measuring device's supporting mechanism as follows:

firstly, according to the requirement of the size of the device, if the length of the top plate 7 is not enough when the device is placed, the lengthened plate and the top plate 7 are connected by the connecting blocks 12 by the aid of the grooves on the two sides of the connecting blocks 12 and the top plate 7, then the device is placed on the top plate 7, if the length of the top plate 7 is enough to place the measuring device, the device is placed on the top plate 7, then the device fixing blocks 10 are aligned with the grooves on the two sides of the top plate 7, the connecting blocks 12 and the device fixing blocks are fixed with the top plate 7 by the aid of screws, when the device fixing blocks 10 are placed, the device is clamped by the aid of the grooves on the device fixing blocks 10, the limiting screws 16 are loosened, due to the fact that the limiting screws 16 are loosened, the elastic springs 14 at the bottom of the inner wall of the limiting shell 13 can eject the limiting baffle plates 15, the supporting legs in the telescopic legs 17 are taken out, three telescopic legs 17 are stretched to the underground, when the telescopic legs 17 are supported, the measuring device is in the horizontal direction, then the telescopic legs in the telescopic legs 17 are fixed by using telescopic leg fixing screws 18, at the moment, the electric telescopic rod 5 is started to finely adjust the height of the device according to different height requirements, the electric telescopic rod 5 can drive the fixing block 6 to move when being deeply stretched, the fixing block 6 can drive the first supporting column 3 to move, at the moment, the first sliding block 8 connected with the first supporting column 3 can slide in the sliding groove 19, when the first supporting column 3 moves, as the connecting column is connected between the first supporting column 3 and the second supporting column 4, the top plate 7 can be upwards jacked when the first supporting column 3 moves, when the top plate 7 moves upwards, the second supporting column 4 also can move, and when the top plate 7 needs to move downwards, can with electric telescopic handle 5 shrink, then when buffer 2 is touch to roof 7 downstream, when roof 7 downstream's power is pressed the clamp plate 26, clamp plate 26 will downstream, and at this moment clamp plate 26 will drive buffer bar 25 downstream, and at this moment buffer bar 25 is owing to rotate with buffer block 24 and be connected, and at this moment buffer block 24 will slide on spliced pole 22, and at this moment because buffer spring 23's existence, a part will be alleviated by the spring to the downward power of clamp plate 26.

firstly, according to the requirement of the size of the device, if the length of the top plate 7 is not enough when the device is placed, the lengthened plate and the top plate 7 are connected by the connecting blocks 12 by the aid of the grooves on the two sides of the connecting blocks 12 and the top plate 7, then the device is placed on the top plate 7, if the length of the top plate 7 is enough to place the measuring device, the device is placed on the top plate 7, then the device fixing blocks 10 are aligned with the grooves on the two sides of the top plate 7, the connecting blocks 12 and the device fixing blocks are fixed with the top plate 7 by the aid of screws, when the device fixing blocks 10 are placed, the device is clamped by the aid of the grooves on the device fixing blocks 10, the limiting screws 16 are loosened, due to the fact that the limiting screws 16 are loosened, the elastic springs 14 at the bottom of the inner wall of the limiting shell 13 can eject the limiting baffle plates 15, the supporting legs in the telescopic legs 17 are taken out, three telescopic legs 17 are stretched to the underground, when the telescopic legs 17 are supported, the measuring device is in the horizontal direction, then the telescopic legs in the telescopic legs 17 are fixed by using telescopic leg fixing screws 18, at the moment, the electric telescopic rod 5 is started to finely adjust the height of the device according to different height requirements, the electric telescopic rod 5 can drive the fixing block 6 to move when being deeply stretched, the fixing block 6 can drive the first supporting column 3 to move, at the moment, the first sliding block 8 connected with the first supporting column 3 can slide in the sliding groove 19, when the first supporting column 3 moves, as the connecting column is connected between the first supporting column 3 and the second supporting column 4, the top plate 7 can be upwards jacked when the first supporting column 3 moves, when the top plate 7 moves upwards, the second supporting column 4 also can move, and when the top plate 7 needs to move downwards, the electric telescopic rod 5 is contracted, then when the top plate 7 moves downwards to touch the buffer device 2, the pressure plate 26 moves downwards when the pressure plate 26 is pressed by the downward movement force of the top plate 7, at the moment, the pressure plate 26 drives the buffer rod 25 to move downwards, at the moment, the buffer rod 25 is rotatably connected with the buffer block 24, the buffer block 24 slides on the connecting column 22, at the moment, due to the existence of the buffer spring 23, the downward force of the pressure plate 26 is partially relieved by the spring, the length of the top plate 7 can be increased due to the design of the connecting box 11 and the connecting block 12, the device fixing block 10 can be installed so as to fix the device on the top plate 7, thus the practicability of the device in use is increased, the design of the buffer device 2 enables the downward pressing force of the top plate 7 to be reduced when the top plate 7 is pressed, the top plate 7 cannot be pressed on the electric telescopic rod 5, and thus the protection of the device parts in use is increased, and the design of the electric telescopic rod 5 can adjust the height of the top plate 7 so as to adjust the height of the measuring device, thereby facilitating the convenience of the measuring device in use.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims

1. A support mechanism for a building design measuring device, comprising a base plate (1), characterized in that: the device is characterized in that a buffer device (2) is fixedly connected to the right side of the top of the bottom plate (1), a first slider (8) is slidably connected to the left side of the top of the bottom plate (1), a first supporting column (3) is rotatably connected to the top of the first slider (8), a second slider (9) is slidably connected to the right side of the top of the bottom plate (1), a second supporting column (4) is rotatably connected to the top of the second slider (9), an electric telescopic rod (5) is fixedly connected to the top of the bottom plate (1) and is positioned at the rear sides of the first supporting column (3) and the second supporting column (4), a fixing block (6) is arranged on the back side of the second supporting column (4), the left end of the electric telescopic rod (5) is fixedly connected with the fixing block (6), a top plate (7) is rotatably connected to the top of the first supporting column (3) and the top of the second supporting column (4), device fixing blocks (, both sides of roof (7) bottom all are provided with connecting box (11), the inner wall sliding connection of connecting box (11) has connecting block (12).

2. The supporting mechanism for the building design measuring device according to claim 1, wherein the buffering device (2) comprises a buffering shell (21), the bottom of the buffering shell (21) is fixedly connected with the right side of the top of the bottom plate (1), a connecting column (22) is fixedly connected between two sides of the inner wall of the buffering shell (21), buffering springs (23) are arranged on two sides of the surface of the connecting column (22), buffering blocks (24) are fixedly connected to one side opposite to the two buffering springs (23) and the surface of the connecting column (22), the top of each buffering block is rotatably connected with a buffering rod (25), the top of each buffering rod (25) penetrates through the buffering shell (21) and extends to the outside of the buffering shell (21), the top of each buffering rod (25) is rotatably connected with a pressing plate (26), and the bottom of each pressing plate (26) is fixedly connected with a telescopic rod (27), the bottom of the telescopic rod (27) is fixedly connected with the top of the buffer shell (21).

3. The supporting mechanism for a building design measuring device according to claim 1, wherein the top of the connecting block (12) is fixedly connected with the bottom of the device fixing block (10) by screws.

4. The supporting mechanism for the building design measuring device according to claim 1, wherein a limiting shell (13) is arranged on the front surface of the top plate (7), elastic springs (14) are arranged on two sides of the bottom of the inner wall of the limiting shell (13), limiting baffles (15) are fixedly connected to the tops of the two elastic springs (14), and limiting screws (16) penetrate through the front surface of the limiting shell (13).

5. The supporting mechanism for the architectural design measuring device according to claim 1, wherein a telescopic leg (17) is rotatably connected to the bottom of the base plate (1), and a telescopic leg fixing screw (18) penetrates through the bottom of the telescopic leg (17).

6. The supporting mechanism for the architectural design measuring device according to claim 1, wherein the top of the bottom plate (1) is provided with a sliding groove (19) used in cooperation with the first sliding block (8) and the second sliding block (9).