CN113566801B - Portal-type electromechanical device installation movable measuring device - Google Patents

Abstract

The invention relates to installation measuring equipment, in particular to a gantry type electromechanical equipment installation movable measuring device which comprises a gantry frame structure, two groups of height adjusting assemblies, two angle measuring structures and two linear measuring assemblies, wherein the two groups of height adjusting assemblies are respectively arranged on two sides of the gantry frame structure; the angle measuring structure is arranged below the portal frame structure and used for measuring an angle between the embedded point and the reference point; the linear measuring assembly is movably arranged on the portal frame structure and connected with the angle measuring structure, and the linear measuring assembly is matched with the angle measuring structure to simultaneously measure the length and the width of the embedded point from the datum point; the linear measurement subassembly activity sets up on the portal frame structure, can measure the length and the width and the angle of a plurality of pre-buried points under the prerequisite that does not change the benchmark, and the size that records is more accurate.

Description

Portal-type electromechanical device installation movable measuring device

Technical Field

The invention relates to installation and measurement equipment, in particular to a gantry type movable measurement device for electromechanical equipment installation.

Background

The electromechanical equipment installation is one of the important components of the construction engineering, has wide coverage and is in the core position in the whole construction engineering.

The electromechanical equipment involved in the building is wide, and a fresh air system, telecommunication transmission, fire-fighting equipment, water and electricity pipelines and the like are all in the installation and use range of the electromechanical equipment. Because the electromechanical device needs to be matched with the pre-buried holes in the building in the civil engineering when being installed, whether the positions of the pre-buried holes are accurate needs to be measured one by one when the electromechanical device is installed, and if the positions are not accurate, the holes need to be taken again. Such as wire chase, pre-embedding of holes of bridge frame through foundation, pre-embedding of lighting pipeline and welding spot of lightning protection grounding.

Most of the existing measuring devices are gradienters and tape gauges, a fixed datum point is not found when a plurality of embedded point positions are measured, the datum point measured each time is inconsistent, and large errors are often generated.

Disclosure of Invention

The invention aims to provide a gantry type electromechanical equipment installation movable measuring device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a portable measuring device of planer-type electromechanical device installation, includes the portal frame structure, still includes:

the two groups of height adjusting assemblies are respectively arranged on two sides of the portal frame structure and are used for adjusting the height of the portal frame structure;

the angle measurement structure is arranged below the portal frame structure and is used for measuring an angle between the embedded point and the reference point;

the linear measuring assembly is movably arranged on the portal frame structure and connected with the angle measuring structure, and the linear measuring assembly is matched with the angle measuring structure to simultaneously measure the length and the width of the embedded point from a reference point;

and a movable roller which is used for rolling and contacting with the ground foundation is rotatably arranged at the bottom of the height adjusting assembly.

As a further scheme of the invention: the portal frame structure comprises a truss which is horizontally arranged and support sleeves which are arranged on two sides of the truss, two symmetrical support sleeves are fixed on each side of the truss, and the angle measuring structure is arranged in the center below the truss; the linear measuring component is movably arranged on the truss, and the two support sleeves on the same side are arranged in an inverted V shape.

As a still further scheme of the invention: the height adjustment assembly includes:

the driving rod is vertically arranged, and the upper part of the driving rod penetrates through the truss and is in rotary connection with the truss;

the telescopic supporting rod is arranged at the lower part of the supporting sleeve in a sliding manner;

the embedded structure is connected with the two telescopic supporting rods on the same side;

the thread insert is vertically installed on the embedded structure and is matched with the thread arranged on the lower portion of the driving rod.

As a still further scheme of the invention: the embedded structure comprises a sliding column fixed on the outer side wall of the telescopic support rod and a power arm horizontally arranged, and an embedding groove which is embedded with the sliding column in a sliding manner is formed in the power arm;

the threaded sleeve is vertically fixed in the center of the power arm, and the movable roller is rotatably installed at the lower end of the telescopic supporting rod.

As a still further scheme of the invention: the height adjusting assemblies on the two sides are connected through a transmission structure, and the transmission structure comprises belt wheels fixed at the tops of the driving rods on the two sides and transmission parts connected with the belt wheels on the two sides;

and a turntable is fixed on the upper part of the belt wheel on one side, and a crank is vertically fixed at the eccentric position of the turntable.

As a still further scheme of the invention: the angle measuring structure comprises an azimuth disc fixed to the center of the lower portion of the truss, a swing arm is arranged below the azimuth disc, one end of the swing arm is rotatably sleeved with a center shaft of the azimuth disc, a telescopic arm is slidably arranged at the other end of the swing arm, and the linear measuring assembly is connected with one end of the telescopic arm extending out of the swing arm.

As a still further scheme of the invention: the linear measuring assembly comprises a measuring ruler, one end of the measuring ruler is rotatably connected with one end of the telescopic arm extending out of the swing arm, a guide groove is formed in the measuring ruler, and a circular notch is formed in one end of the guide groove;

a connecting block is embedded in the guide groove and is provided with four side surfaces, two opposite side surfaces are in an arc shape, the other two side surfaces are in a linear shape, the arc side surfaces are matched with the circular notches at the end parts of the guide groove, and the linear side surfaces are matched with the guide groove;

the upper part of the connecting block is fixed with a bearing piece, two sides of the bearing piece are respectively fixed with a clamping foot, and the clamping feet are slidably clamped with clamping grooves formed in the side walls of the truss.

As a still further scheme of the invention: the upper part and the lower part of the connecting block are respectively provided with a baffle plate, and the bottom of the guide groove is provided with a limiting groove;

the separation blade on the upper portion of the connecting block is in sliding fit with the upper surface of the measuring scale, and the separation blade on the lower portion of the connecting block is in sliding embedded with the limiting groove.

Compared with the prior art, the invention has the beneficial effects that: the height of the portal frame structure can be adjusted through the arranged height adjusting assembly, when the ground is a non-flat foundation, the height of the portal frame structure is adjusted through the height adjusting assembly, so that the heights of the angle measuring structure and the linear measuring assembly are adjusted along with the height adjustment, and the interference with the bump on the ground foundation in the measuring process is avoided;

the linear measuring assembly is movably arranged on the portal frame structure, so that the lengths, the widths and the angles of the plurality of embedded points can be measured on the premise of not changing the reference point, and the measured size is more accurate;

the setting of removal gyro wheel can make things convenient for the removal of whole device on the one hand, and on the other hand also can measure the width of different pre-buried points on same reference line.

Drawings

Fig. 1 is a schematic structural diagram of a gantry type electromechanical device mounting movable measuring device.

Fig. 2 is a schematic structural diagram of another view angle of the gantry type electromechanical device mounting movable measuring device.

Fig. 3 is a schematic structural view of a gantry-type electromechanical device mounted movable measuring device for splitting an angle measuring structure and a measuring scale.

Fig. 4 is an exploded view of an angle measuring structure and a linear measuring assembly in a gantry-type electromechanical device mounting movable measuring device.

Fig. 5 is a matching diagram of a connecting block and a guide groove in a gantry type electromechanical device mounting movable measuring device.

Fig. 6 is a schematic structural diagram of the gantry type electromechanical device after the connection block and the guide groove are separated in the movable measurement device for mounting.

Fig. 7 is a schematic structural diagram of a support member, a clamping pin and a connecting block in the gantry type electromechanical device mounting movable measuring device.

Fig. 8 is a schematic structural view of a measuring scale, a guide groove and a limit groove in the gantry type electromechanical device mounting movable measuring device.

Fig. 9 is a schematic view of the working state of the gantry type electromechanical device when the movable measuring device is installed for use.

In the figure: 1-a truss; 2-supporting a sleeve; 3-a telescopic strut; 4-thread sleeve; 5-a drive rod; 6-a power arm; 7-caulking groove; 8-a traveler; 9-moving the roller; 10-a transmission member; 11-a turntable; 12-an azimuth dial; 13-swing arm; 14-a telescopic arm; 15-measuring ruler; 16-connecting blocks; 17-a guide groove; 18-a support; 19-clamping feet; 20-a card slot; 21-a baffle plate; 22-limiting groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In addition, an element of the present invention may be said to be "fixed" or "disposed" to another element, either directly on the other element or with intervening elements present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1 to 9, in an embodiment of the present invention, a gantry type movable measuring device for mounting an electromechanical device includes a gantry structure, and further includes:

the height adjusting assemblies are arranged on two sides of the portal frame structure respectively, and are used for adjusting the height of the portal frame structure;

the angle measuring structure is arranged below the portal frame structure and used for measuring an angle between the embedded point and the reference point;

the linear measuring assembly is movably arranged on the portal frame structure and connected with the angle measuring structure, and the linear measuring assembly is matched with the angle measuring structure to simultaneously measure the length and the width of the embedded point from the datum point;

a moving roller 9 for rolling contact with the ground foundation is rotatably mounted at the bottom of the height adjusting assembly.

In the embodiment of the invention, the height of the portal frame structure can be adjusted through the arranged height adjusting component, when the ground is a non-flat foundation, the height of the portal frame structure is adjusted through the height adjusting component, so that the heights of the angle measuring structure and the linear measuring component are adjusted along with the height adjustment, and the interference with the bump on the ground foundation in the measuring process is avoided;

in addition, the linear measuring assembly is movably arranged on the portal frame structure, so that the lengths, the widths and the angles of the embedded points can be measured on the premise of not changing the reference point, and the measured size is more accurate;

finally, the arrangement of the movable roller 9 can facilitate the movement of the whole device on one hand, and on the other hand, the widths of different embedded points can be measured on the same datum line.

As an embodiment of the invention, the portal frame structure comprises a truss 1 arranged horizontally and support sleeves 2 arranged at two sides of the truss 1, wherein two symmetrical support sleeves 2 are fixed at each side of the truss 1, and the angle measuring structure is arranged at the center below the truss 1; the linear measuring component is movably arranged on the truss 1, and the two support sleeves 2 at the same side are arranged in a reverse V shape.

In the embodiment of the invention, the truss 1 can be supported from four points through four supporting sleeves 2 on two sides, so that the stability of the whole device is improved, and particularly when an angle measuring structure and a linear measuring assembly work; truss 1 provides a horizontal reference for the angle measurement structure and the line measurement assembly.

As an embodiment of the present invention, a height adjustment assembly includes:

the driving rod 5 is vertically arranged, and the upper part of the driving rod 5 penetrates through the truss 1 and is in rotary connection with the truss;

the telescopic supporting rod 3 is arranged at the lower part of the supporting sleeve 2 in a sliding way;

the embedded structure is connected with the two telescopic supporting rods 3 on the same side;

and the screw sleeve 4 is vertically arranged on the embedded structure, and the screw sleeve 4 is matched with the thread arranged at the lower part of the driving rod 5.

In the embodiment of the invention, the driving rod 5 rotates to drive the threaded sleeve 4 to vertically lift, so that the embedded structure drives the telescopic supporting rod 3 to slide along the supporting sleeve 2, and the height of the truss 1 is adjusted;

the thread transmission has a self-locking function, so that when the driving rod 5 drives the threaded sleeve 4 to be adjusted to a proper position, the threaded sleeve does not slide down due to the gravity of the truss 1, the angle measuring structure and the linear measuring component.

In the embodiment of the invention, a cross bar is fixed between the two support sleeves 2 on the same side, a shaft sleeve which is rotatably sleeved with the driving rod 5 is fixed in the center of the cross bar, and the stability of the driving rod 5 is improved by using the shaft sleeve.

As an embodiment of the invention, the embedding structure comprises a sliding column 8 fixed on the outer side wall of the telescopic support rod 3 and a power arm 6 horizontally arranged, wherein an embedding groove 7 embedded with the sliding column 8 in a sliding manner is formed in the power arm 6;

the threaded sleeve 4 is vertically fixed at the center of the power arm 6, and the movable roller 9 is rotatably arranged at the lower end of the telescopic supporting rod 3.

In the embodiment of the invention, when the thread section at the lower part of the driving rod 5 drives the threaded sleeve 4 to lift up and down, the caulking groove 7 on the power arm 6 is used for driving the sliding column 8 and the telescopic support rod 3 to slide along the support sleeve 2, so as to adjust the height of the whole truss 1.

As an embodiment of the invention, the height adjusting components at two sides are connected through a transmission structure, and the transmission structure comprises belt wheels fixed at the tops of the driving rods 5 at two sides and transmission parts 10 connected with the belt wheels at two sides;

a rotary table 11 is fixed on the upper part of the belt wheel on one side, and a crank is vertically fixed at the eccentric position of the rotary table 11.

As can be seen from the figures, the thread directions of the thread sections of the lower parts of the driving rods 5 on both sides are the same.

In the embodiment of the invention, the rotating disc 11 can be driven to rotate by shaking the crank, the rotating disc 11 drives the driving rod 5 at the side to rotate, the driving rod 5 at the side and the belt wheel on the driving rod drive the belt wheel at the other side and the driving rod 5 to rotate in the same direction through the transmission part 10, and finally, the function of synchronously adjusting the heights of the telescopic supporting rods 3 at the two sides is realized, and the synchronous lifting of the two sides of the truss 1 can be ensured, so that the truss 1 is always in a horizontal state.

As an embodiment of the invention, the angle measuring structure comprises an azimuth disc 12 fixed at the center below the truss 1, a swing arm 13 is arranged below the azimuth disc 12, one end of the swing arm 13 is rotatably sleeved with the central shaft of the azimuth disc 12, the other end of the swing arm 13 is slidably provided with a telescopic arm 14, and a linear measuring assembly is connected with one end of the telescopic arm 14 extending out of the swing arm 13.

In the embodiment of the invention, in order to calibrate the contact ratio between the embedded point and one end of the telescopic arm 14 extending out of the swing arm 13, a laser pen can be vertically installed at one end of the telescopic arm 14 extending out of the swing arm 13.

In the embodiment of the invention, when the azimuth of the embedded point is measured, the swing arm 13 is rotated and the telescopic arm 14 is extended out of the swing arm 13, so that the light spot emitted by the laser pen installed at the end part of the telescopic arm 14 is coincided with the embedded point, and the included angle between the embedded point and the reference point can be read by observing the scale on the azimuth disc 12.

As an embodiment of the present invention, the linear measuring assembly includes a measuring ruler 15 having one end rotatably connected to one end of the telescopic arm 14 extending out of the swing arm 13, the measuring ruler 15 is provided with a guide groove 17, and one end of the guide groove 17 is provided with a circular notch;

a connecting block 16 is embedded in the guide groove 17, the connecting block 16 is provided with four side surfaces, two opposite side surfaces are in an arc shape, the other two side surfaces are in a linear shape, the arc side surfaces are matched with the circular notches at the end parts of the guide groove 17, and the linear side surfaces are matched with the guide groove 17;

a support member 18 is fixed on the upper part of the connecting block 16, two clamping feet 19 are respectively fixed on two sides of the support member 18, and the clamping feet 19 are slidably clamped with clamping grooves 20 arranged on the side walls of the truss 1.

In the embodiment of the present invention, since the arc-shaped side surface is fitted to the circular notch at the end of the guide groove 17 and the linear side surface is fitted to the side wall of the linear section of the guide groove 17, the measuring tape 15 can be rotated only when the connecting block 16 is slid to the circular notch at the end of the guide groove 17, and the measuring tape 15 cannot be rotated only when the connecting block 16 is slid out from the circular notch, and can be maintained in a state perpendicular to the truss 1.

When the swing arm 13 rotates to be parallel to the truss 1, the connecting block 16 is positioned in the circular notch, and when the measuring ruler 15 is positioned in the circular notch, after the measuring ruler is adjusted to be perpendicular to the truss 1, the swing arm 13 can drive the measuring ruler 15 to slide along the direction perpendicular to the truss 1 through the end part of the telescopic arm 14, at the moment, the connecting block 16 is embedded into the straight line section on the guide groove 17, and the measuring ruler 15 is kept to be perpendicular to the truss 1 all the time;

in this case, the swing arm 13 is rotated to further extend the telescopic arm 14 from the swing arm 13, the measuring tape 15 is driven to drive the connecting block 16 and the supporting member 18 in the extending process, the connecting block and the supporting member slide along the clamping groove 20 under the action of the clamping foot 19, the length of the embedded point from the reference point can be measured only by reading the scale on the measuring tape 15, the width of the embedded point from the reference point can be measured by reading the scale on the truss 1 of the clamping foot 19, and the included angle between the embedded point and the reference point can be obtained by matching with the scale on the azimuth dial 12.

As an embodiment of the invention, the upper and lower parts of the connecting block 16 are respectively provided with a baffle 21, and the bottom of the guide groove 17 is provided with a limit groove 22;

the baffle 21 at the upper part of the connecting block 16 is in sliding fit with the upper surface of the measuring ruler 15, and the baffle 21 at the lower part is in sliding embedded with the limiting groove 22;

note that the width of the retaining groove 22 is greater than the diameter of the circular indentation.

In the embodiment of the invention, the stop piece 21 and the limit groove 22 arranged at the upper part and the lower part can prevent the connecting block 16 from being separated from the measuring ruler 15, and the integrity of the whole device is kept.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The utility model provides a portable measuring device of planer-type electromechanical device installation which characterized in that, includes the portal frame structure, still includes:

the two groups of height adjusting assemblies are respectively arranged on two sides of the portal frame structure and are used for adjusting the height of the portal frame structure;

the angle measurement structure is arranged below the portal frame structure and is used for measuring an angle between the embedded point and the reference point;

the linear measuring assembly is movably arranged on the portal frame structure and connected with the angle measuring structure, and the linear measuring assembly is matched with the angle measuring structure to simultaneously measure the length and the width of the embedded point from a reference point;

a moving roller (9) which is in rolling contact with the ground foundation is rotatably arranged at the bottom of the height adjusting assembly;

the portal frame structure comprises a truss (1) arranged horizontally and support sleeves (2) arranged on two sides of the truss (1), two symmetrical support sleeves (2) are fixed on each side of the truss (1), and the angle measuring structure is arranged in the center below the truss (1); the linear measuring component is movably arranged on the truss (1), and the two support sleeves (2) on the same side are arranged in an inverted V shape;

the angle measuring structure comprises an azimuth disc (12) fixed in the center below the truss (1), a swing arm (13) is arranged below the azimuth disc (12), one end of the swing arm (13) is rotatably sleeved with a central shaft of the azimuth disc (12), a telescopic arm (14) is arranged at the other end of the swing arm (13) in a sliding mode, and the linear measuring assembly is connected with one end, extending out of the swing arm (13), of the telescopic arm (14);

the linear measuring assembly comprises a measuring ruler (15) with one end rotatably connected with one end of the telescopic arm (14) extending out of the swing arm (13), a guide groove (17) is formed in the measuring ruler (15), and a circular notch is formed in one end of the guide groove (17);

a connecting block (16) is embedded in the guide groove (17), the connecting block (16) is provided with four side surfaces, two opposite side surfaces are in an arc shape, the other two side surfaces are in a linear shape, the arc side surfaces are matched with the circular notches at the end parts of the guide groove (17), and the linear side surfaces are matched with the guide groove (17);

the truss is characterized in that a supporting piece (18) is fixed to the upper portion of the connecting block (16), clamping feet (19) are fixed to two sides of the supporting piece (18) respectively, and the clamping feet (19) are clamped with clamping grooves (20) formed in the side walls of the truss (1) in a sliding mode.

2. The gantry-type electromechanical device mounting movable measurement apparatus of claim 1, wherein the height adjustment assembly comprises:

the driving rod (5) is vertically arranged, and the upper part of the driving rod (5) penetrates through the truss (1) and is in rotary connection with the truss;

the telescopic supporting rod (3) is arranged at the lower part of the supporting sleeve (2) in a sliding manner;

the embedded structure is connected with the two telescopic supporting rods (3) on the same side;

the thread insert (4), the thread insert (4) is vertically installed on the embedding structure, and the thread insert (4) is matched with the thread arranged on the lower portion of the driving rod (5).

3. The gantry type electromechanical device mounting movable measuring device of claim 2, wherein the embedding structure comprises a sliding column (8) fixed on the outer side wall of the telescopic supporting rod (3) and a power arm (6) horizontally arranged, and a caulking groove (7) embedded with the sliding column (8) in a sliding manner is formed in the power arm (6);

the threaded sleeve (4) is vertically fixed in the center of the power arm (6), and the movable roller (9) is rotatably installed at the lower end of the telescopic support rod (3).

4. The gantry-type electromechanical device mounting movable measuring device according to claim 2, wherein the height adjusting assemblies on two sides are connected through a transmission structure, and the transmission structure comprises belt wheels fixed on the tops of the driving rods (5) on two sides and transmission parts (10) connected with the belt wheels on two sides;

a rotary table (11) is fixed on the upper part of the belt wheel on one side, and a crank is vertically fixed at the eccentric position of the rotary table (11).

5. The gantry type electromechanical device mounting movable measuring device of claim 1, wherein the upper and lower parts of the connecting block (16) are respectively provided with a blocking piece (21), and the bottom of the guide groove (17) is provided with a limiting groove (22);

the upper part of the connecting block (16) is provided with a baffle sheet (21) which is in sliding fit with the upper surface of the measuring scale (15), and the lower part of the connecting block (16) is provided with a baffle sheet (21) which is in sliding fit with the limiting groove (22).

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