CN114608544A - Universal formula measuring device that building engineering design used - Google Patents

Abstract

The invention provides a universal measuring device for building engineering design, which relates to the technical field of building engineering measurement and comprises: a collecting shell is fixedly arranged at the bottom of the collecting plate; the collecting plate includes: the fixing columns A are fixedly arranged on the top of the collecting plate in an annular array shape; the mounting plate is fixedly arranged at the top of the fixing column A; the top of the mounting plate is fixedly provided with a fixed shell; collect shell and protecting crust A, cooperate between protecting crust B and the protecting crust C, can effectually carry out automatic protection to the inside equipment of device, effectual face heavy rain weather, prevent that the inside equipment of device from receiving heavy rain weather influence, ensure that measuring goes on smoothly, but solved in case meet heavy rain weather, can't in time collect these measuring equipment portions, measuring equipment breaks down because of the shower, influence measuring equipment's life, can't carry out the automatic protection problem under rainy weather.

Description

Universal formula measuring device that building engineering design used

Technical Field

The invention relates to the technical field of constructional engineering measurement, in particular to a universal measuring device for constructional engineering design.

Background

The measuring device for building engineering design is a measuring instrument used in construction and construction work hours, wherein the building measuring instrument has various types, such as theodolite, level, flat instrument, electronic tacheometer and the like, and building construction information can be conveniently acquired through the measuring instrument during construction.

However, in the process of measuring the building engineering, because the required measuring area is relatively large, the measuring equipment needs to continuously measure, a plurality of measuring equipment can be used for measuring, but once the measuring equipment meets heavy rain weather, the measuring equipment is timely collected, rainwater can damage the measuring equipment, so that the measuring equipment breaks down due to showering, the service life of the measuring equipment is influenced, and automatic protection cannot be performed in the rainy weather.

Disclosure of Invention

In view of this, the invention provides a universal measuring device for architectural engineering design, which has a collection shell, a protective shell a, a protective shell B and a protective shell C, and can effectively and automatically protect equipment inside the device, and effectively solve the problem that the measuring equipment is not protected in time.

The invention provides a universal measuring device for building engineering design, which specifically comprises: a collection plate; a collecting shell is fixedly arranged at the bottom of the collecting plate; four groups of support columns are fixedly arranged at the bottom of the collecting plate in a cross shape; the collecting plate is of a circular plate structure, a conical collecting groove is formed in the middle of the collecting plate, and a connecting hole is formed in the middle of the conical collecting groove of the collecting plate, so that rainwater is collected and concentrated into the collecting shell through the conical collecting groove and the connecting hole; the collecting plate includes: the fixing columns A are arranged in a circular column structure, six groups of fixing columns A are arranged, and the fixing columns A are fixedly arranged on the top of the collecting plate in an annular array shape; the mounting plate is of a circular plate structure, and the edge of the mounting plate is of an arc-surface structure; rainwater can flow to the collecting plate more easily when passing through the mounting plate; the mounting plate is fixedly arranged at the top of the fixing column A; the top of the mounting plate is fixedly provided with a fixed shell.

Optionally, the collecting plate further comprises: the limiting groove is of an annular sliding groove structure and is formed in the top of the mounting plate; the measuring machine body is arranged in the middle of the top of the mounting plate.

Optionally, the collecting shell is of a circular shell structure, and a water collecting space is formed inside the collecting shell; the collection shell includes: the water seepage holes are arranged into seven groups and are arranged at the bottom of the water collecting space of the collecting shell in an annular array shape, and the diameter of the middle water seepage hole is larger than that of the other six groups of water seepage holes; in rainy days, the water is drained through the middle water seepage holes, and in heavy rain days, the other six groups of water seepage holes can assist the middle water seepage holes to drain water, so that the device is easier to detect; the mounting rack is of a cross-shaped structure and is fixedly arranged in the middle of the water collecting space of the collecting shell; the waterproof shell is of a circular shell structure, and an installation space is formed in the middle of the waterproof shell; the waterproof case is fixedly arranged in the middle of the mounting frame.

Optionally, the collecting shell further comprises: the water inlet shell is of a cylindrical shell structure and is fixedly arranged at the bottom of the waterproof shell; a water inlet hole is formed outside the waterproof shell; the proximity switch is installed in the installation space of the waterproof shell through threaded connection; the floating ball is arranged as a floating body and is arranged in the water inlet shell in a sliding manner; the outside parcel of floater is provided with the metal level, can make the floater can trigger proximity switch, carries out automated operation.

Optionally, the supporting columns are arranged in an L-shaped structure, and anti-skidding blocks are arranged at the bottoms of the supporting columns; the support column is including: the adjusting plate is arranged in an irregular square plate structure and is arranged on the supporting column in a sliding manner; the fixing column B is set to be of a circular column structure, and the bottom of the fixing column B is set to be of a conical structure, so that the fixing column B can be inserted into the ground more conveniently to be reinforced and fixed; the fixed columns B are arranged into four groups and fixedly arranged at the bottom of the adjusting plate in a rectangular array shape; the screw rod is rotatably arranged on one side of the supporting column and is in threaded connection with the adjusting plate.

Optionally, the fixed shell is provided with an arc-shaped plate structure, and the bottom of the fixed shell is provided with a sliding groove; the stationary housing includes: the connecting column is of a square column structure and is fixedly arranged on one side of the top of the fixed shell; the motor, the motor installation sets up in spliced pole one end.

Optionally, the fixing shell further comprises: the connecting frame is of a circular frame structure and is rotatably arranged at the top of the fixed shell; the connecting frame is in transmission connection with the motor; the protective shell A is of an arc-shaped plate structure, and the diameter of the protective shell A is larger than that of the fixed shell; the bottom of the protective shell A is provided with a chute, and one end of the chute is fixedly provided with a limiting block; the protective shell A is arranged outside the fixed shell in a sliding manner; the top of the protective shell A is rotationally connected with the connecting frame.

Optionally, the fixing shell further comprises: the protective shell B is arranged to be of an arc-shaped plate structure and is arranged outside the protective shell A in a sliding mode; two ends of the bottom of the protective shell B are fixedly provided with two groups of limiting blocks, and one group of limiting blocks is connected with the sliding chute of the protective shell A in a sliding manner; the diameter of the protective shell B is larger than that of the protective shell A; the top of the protective shell B is rotationally connected with the connecting frame; the protective shell C is arranged to be of an arc-shaped plate structure, and the protective shell C is arranged outside the protective shell B in a sliding mode; the diameter of the protective shell C is larger than that of the protective shell B; the bottom of the protective shell C is provided with a chute, and the chute of the protective shell C is in sliding connection with one group of limiting blocks of the protective shell A; the top of the protective shell C is fixedly connected with the connecting frame; the protection plate is arranged in an arc-shaped plate structure and is fixedly arranged at one end of the protection shell C; the guard plate can block the clearance between protecting crust C and the set casing, prevents that the rainwater from getting into inside, protects inside measurement organism.

Has the advantages that: according to the invention, the collection shell is matched with the protection shell A, the protection shell B is matched with the protection shell C, so that equipment in the device can be effectively and automatically protected, the device can effectively face heavy rain weather, the device in the device is prevented from being influenced by the heavy rain weather, and the smooth measurement is ensured.

In addition, set up in the middle of the collecting plate and put the toper collecting vat to seted up the connecting hole in the middle of the toper collecting vat of collecting plate, thereby collect the rainwater, will concentrate to collecting through toper collecting vat and connecting hole inside the shell.

In addition, when light rain weather, the infiltration hole through the centre carries out the drainage, when heavy rain weather, can carry out the drainage through the infiltration hole in the middle of the supplementary of all the other six groups infiltration holes for the device detects more easily.

In addition, the outside parcel of floater is provided with the metal level, can make the floater can trigger proximity switch, carries out automated operation.

In addition, the bottom of the fixing column B is set to be of a conical structure, so that the fixing column B can be inserted into the ground more conveniently to be reinforced and fixed.

In addition, cooperation between protecting crust A, protecting crust B and the protecting crust C can form irregular hemispherical structure, protects internal equipment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings: FIG. 1 is a schematic view of a disassembled collecting plate of a gimbaled measuring device according to an embodiment of the present invention;

FIG. 2 shows a disassembled structural schematic view of a collection housing of a gimbaled measuring device in accordance with an embodiment of the present invention;

FIG. 3 shows a schematic view of a mount structure of a gimbaled measuring device according to an embodiment of the present invention;

FIG. 4 shows a schematic view of a support column structure of a gimbaled measuring device according to an embodiment of the invention;

FIG. 5 shows a schematic view of a stationary housing structure of a gimbaled measuring device in accordance with an embodiment of the present invention;

FIG. 6 is a schematic diagram showing the fitting structure of a fixed shell, a protective shell A, a protective shell B and a protective shell C of the universal measuring device according to the embodiment of the invention;

FIG. 7 is a schematic diagram illustrating a motor and link transmission structure of a universal measuring device according to an embodiment of the present invention;

FIG. 8 shows a schematic axial side perspective view of a gimbaled measurement apparatus in accordance with an embodiment of the present invention;

list of reference numerals: 1. a collection plate; 101. fixing a column A; 102. mounting a plate; 103. a limiting groove; 104. measuring the organism; 2. collecting shells; 201. a water seepage hole; 202. a mounting frame; 203. a waterproof shell; 204. a water inlet shell; 205. a proximity switch; 206. a floating ball; 3. a support pillar; 301. an adjustment plate; 302. fixing a column B; 303. a screw; 4. a stationary case; 401. connecting columns; 402. a motor; 403. a connecting frame; 404. a protective shell A; 405. a protective shell B; 406. a protective shell C; 407. and (4) a protective plate.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

In a first embodiment, please refer to fig. 1 to 8: the invention provides a universal measuring device for building engineering design, which comprises: a collecting plate 1; the bottom of the collecting plate 1 is fixedly provided with a collecting shell 2; four groups of support columns 3 are fixedly arranged at the bottom of the collecting plate 1 in a cross shape; the collecting plate 1 is of a circular plate structure, a conical collecting groove is formed in the middle of the collecting plate 1, and a connecting hole is formed in the middle of the conical collecting groove of the collecting plate 1, so that rainwater is collected and concentrated into the collecting shell 2 through the conical collecting groove and the connecting hole; the collecting plate 1 comprises: the fixed columns A101 are arranged in a circular column structure, six groups of the fixed columns A101 are arranged, and the fixed columns A101 are fixedly arranged on the top of the collecting plate 1 in an annular array shape; the mounting plate 102 is of a circular plate structure, and the edge of the mounting plate 102 is of a cambered surface structure; rainwater can flow to the collecting plate 1 more easily when passing through the mounting plate 102; the mounting plate 102 is fixedly arranged at the top of the fixing column A101; the top of the mounting plate 102 is fixedly provided with a fixed shell 4; the limiting groove 103 is arranged in an annular sliding groove structure, and the limiting groove 103 is formed in the top of the mounting plate 102; the measuring machine body 104 is arranged in the middle of the top of the mounting plate 102; the collecting shell 2 is of a circular shell structure, and a water collecting space is formed in the collecting shell 2; the collecting case 2 includes: the water seepage holes 201 are arranged in seven groups, the water seepage holes 201 are arranged at the bottom of the water collecting space of the collecting shell 2 in an annular array shape, and the diameter of the middle water seepage hole 201 is larger than that of the other six groups of water seepage holes 201; in light rain weather, the middle water seepage holes 201 are used for draining water, and in heavy rain weather, the other six groups of water seepage holes 201 can assist the middle water seepage holes 201 in draining water, so that the device is easier to detect; the mounting frame 202, the mounting frame 202 is arranged in a cross structure, and the mounting frame 202 is fixedly arranged in the middle of the water collecting space of the collecting shell 2; the waterproof shell 203 is of a circular shell structure, and an installation space is formed in the middle of the waterproof shell 203; the waterproof shell 203 is fixedly arranged in the middle of the mounting frame 202; the water inlet shell 204 is of a cylindrical shell structure, and the water inlet shell 204 is fixedly arranged at the bottom of the waterproof shell 203; a water inlet hole is formed outside the waterproof shell 203; a proximity switch 205, the proximity switch 205 being installed inside the installation space of the waterproof case 203 by a screw connection; the proximity switch 205 is model number (E2E-X4 MD 1-M3G-Z), available from either the market or private subscriptions; the floating ball 206 is arranged as a floating body, and the floating ball 206 is arranged inside the water inlet shell 204 in a sliding manner; the outer portion of the floating ball 206 is wrapped with a metal layer, so that the floating ball 206 can trigger the proximity switch 205 to perform automatic operation.

When in use: when heavy rain weather occurs, rainwater sequentially passes through the mounting plate 102 and the collecting plate 1, water finally flows into a collecting tank of the collecting plate 1, and is collected into the collecting shell 2 through the connecting hole, at the moment, the rainwater is continuously collected, so that the water in the collecting shell 2 continuously rises, the water enters the water inlet shell 204, the floating ball 206 continuously rises according to the change of the water level through the water inlet hole of the water inlet shell 204, so that the floating ball 206 is contacted with the proximity switch 205, at the moment, the proximity switch 205 starts the motor 402 to rotate anticlockwise, the motor 402 drives other components to protect the measuring machine body 104, when the heavy rain weather stops, the water is continuously discharged through the water seepage hole 201, the floating ball 206 continuously falls along with the water level, the floating ball 206 is separated from the proximity switch 205, at the moment, the proximity switch 205 starts the motor 402 to rotate clockwise to drive other components to remove the protection of the measuring machine body 104, when the measuring machine body 104 is used, the device can be automatically protected, damage caused by the fact that the measuring machine body 104 is not protected in time is reduced, manpower is reduced, and the device is easier to use.

The second embodiment provides a universal measuring device for constructional engineering design based on the first embodiment: the device cannot be well fixed on the ground in heavy rain weather or during measurement, so that the measurement accuracy of the device is low, and the device can be washed away in heavy rain weather, which is shown in the attached drawing 3; the support columns 3 are arranged to be L-shaped structures, and anti-skidding blocks are arranged at the bottoms of the support columns 3; support column 3 is including: the adjusting plate 301 is of an irregular square plate structure, and is arranged on the supporting column 3 in a sliding manner; the fixing column B302 is of a circular column structure, and the bottom of the fixing column B302 is of a conical structure, so that the fixing column B302 can be inserted into the ground more conveniently to be reinforced and fixed; the fixed columns B302 are arranged into four groups, and the fixed columns B302 are fixedly arranged at the bottom of the adjusting plate 301 in a rectangular array shape; the screw 303 is rotatably disposed on one side of the supporting column 3, and the supporting column 3 is in threaded connection with the adjusting plate 301.

When in use: at first select suitable position, place the device after, through rotatory screw rod 303, screw rod 303 drives adjusting plate 301 downstream for fixed column B302 of adjusting plate 301 bottom passes support column 3 and inserts ground, can adjust suitable fixed depth through the screw rod 303 of rotatory different positions, can effectually prevent to take place to remove and cause the measured data deviation, improve its measurement accuracy, can also prevent to prevent under heavy rain weather that the device from being washed away, effectual protection device, increase the security of device.

The third embodiment provides a universal measuring device for constructional engineering design based on the first embodiment: when the device encounters heavy rain weather, the device cannot be protected in time, so that equipment in the device can be damaged, and the measurement is influenced; by way of figures 5 to 7; the fixed shell 4 is arranged into an arc-shaped plate structure, and the bottom of the fixed shell 4 is provided with a sliding chute; the fixed shell 4 includes: a connecting column 401, wherein the connecting column 401 is a square column structure, and the connecting column 401 is fixedly arranged on one side of the top of the fixed shell 4; the motor 402 is arranged at one end of the connecting column 401; the connecting frame 403 is of a circular frame structure, and the connecting frame 403 is rotatably arranged at the top of the fixed shell 4; the connecting frame 403 is in transmission connection with the motor 402; the protective shell A404 is of an arc-shaped plate structure, and the diameter of the protective shell A404 is larger than that of the fixed shell 4; the bottom of the protective shell A404 is provided with a sliding chute, and one end of the sliding chute is fixedly provided with a limiting block; the protective shell A404 is arranged outside the fixed shell 4 in a sliding mode; the top of the protective shell A404 is rotatably connected with the connecting frame 403; the protective shell B405 is of an arc-shaped plate structure, and the protective shell B405 is arranged outside the protective shell A404 in a sliding mode; two ends of the bottom of the protective shell B405 are fixedly provided with two groups of limiting blocks, and one group of limiting blocks is in sliding connection with the sliding groove of the protective shell A404; the diameter of the protective shell B405 is larger than that of the protective shell A404; the top of the protective shell B405 is rotatably connected with the connecting frame 403; the protective shell C406 is arranged in an arc-shaped plate structure, and the protective shell C406 is arranged outside the protective shell B405 in a sliding mode; the diameter of the protective shell C406 is larger than that of the protective shell B405; the bottom of the protective shell C406 is provided with a sliding chute, and the sliding chute of the protective shell C406 is in sliding connection with one group of limiting blocks of the protective shell A404; the top of the protective shell C406 is fixedly connected with the connecting frame 403; the protection plate 407 is of an arc-shaped plate structure, and the protection plate 407 is fixedly arranged at one end of the protection shell C406; the protection plate 407 can block a gap between the protection shell C406 and the fixed shell 4, so as to prevent rainwater from entering the inside and protect the internal measurement machine body 104.

When in use: drive link 403 anticlockwise rotation through motor 402, at this moment, link 403 drives protecting crust C406 and rotates, the spout of protecting crust C406 bottom and the stopper slide bar sliding connection of protecting crust B405, protecting crust C406 can drive protecting crust B405 and rotate, another a set of stopper of protecting crust B405 and the spout sliding connection of protecting crust A404 bottom, make protecting crust B405 can drive protecting crust A404 and rotate, through protecting crust A404, protecting crust B405, cooperation between protecting crust C406 and the guard plate 407 forms an irregular semicircular spheroid, will measure organism 104 and protect, protect measuring organism 104, make the device can effectually face heavy rain weather, in order when facing heavy rain weather, can cooperate motor 402 in time to make the protection, effectively improve the life of device.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (8)

1. A universal measuring device for building engineering design, comprising: a collecting plate (1); a collecting shell (2) is fixedly arranged at the bottom of the collecting plate (1); four groups of supporting columns (3) are fixedly arranged at the bottom of the collecting plate (1) in a cross shape; the collecting plate (1) is of a circular plate structure, a conical collecting tank is arranged in the middle of the collecting plate (1), and a connecting hole is formed in the middle of the conical collecting tank of the collecting plate (1); the collecting plate (1) comprises: the device comprises fixed columns A (101), wherein six groups of the fixed columns A (101) are arranged, and the fixed columns A (101) are fixedly arranged on the top of the collecting plate (1) in an annular array shape; the edge of the mounting plate (102) is provided with a cambered surface structure; the mounting plate (102) is fixedly arranged at the top of the fixing column A (101); the top of the mounting plate (102) is fixedly provided with a fixed shell (4).

2. The universal measuring device for building engineering design according to claim 1, wherein: the collecting plate (1) further comprises: the limiting groove (103), the limiting groove (103) is arranged to be an annular sliding groove structure, and the limiting groove (103) is arranged at the top of the mounting plate (102); the measuring machine body (104), the measuring machine body (104) is arranged in the middle of the top of the mounting plate (102).

3. The universal measuring device for building engineering design according to claim 1, wherein: the collecting shell (2) is of a circular shell structure, and a water collecting space is formed in the collecting shell (2); the collecting case (2) comprises: the water seepage holes (201), the water seepage holes (201) are arranged into seven groups, the water seepage holes (201) are arranged at the bottom of the water collecting space of the collecting shell (2) in an annular array shape, and the diameter of the middle water seepage hole (201) is larger than that of the other six groups of water seepage holes (201); the mounting rack (202), the mounting rack (202) is arranged into a cross structure, and the mounting rack (202) is fixedly arranged in the middle of the water collecting space of the collecting shell (2); the middle of the waterproof shell (203) is provided with an installation space; the waterproof shell (203) is fixedly arranged in the middle of the mounting frame (202).

4. A universal measuring device for construction engineering design according to claim 3, wherein: the collecting shell (2) further comprises: the water inlet shell (204), the water inlet shell (204) is fixedly arranged at the bottom of the waterproof shell (203); a water inlet hole is formed outside the waterproof shell (203); the proximity switch (205), the proximity switch (205) is installed in the installation space of the waterproof shell (203) through the threaded connection; the floating ball (206), the floating ball (206) is set as a floating body, and the floating ball (206) is arranged inside the water inlet shell (204) in a sliding manner; the outside of the floating ball (206) is wrapped with a metal layer.

5. The universal measuring device for building engineering design according to claim 1, wherein: the supporting columns (3) are arranged to be L-shaped structures, and anti-skidding blocks are arranged at the bottoms of the supporting columns (3); the support column (3) comprises: the adjusting plate (301), the adjusting plate (301) is arranged to be of an irregular square plate structure, and is arranged on the supporting column (3) in a sliding mode; the fixing column B (302), the fixing column B (302) is set to be in a circular column structure, and the bottom of the fixing column B (302) is set to be in a conical structure; the fixed columns B (302) are arranged into four groups, and the fixed columns B (302) are fixedly arranged at the bottom of the adjusting plate (301) in a rectangular array shape; the screw rod (303), screw rod (303) rotatory setting is in support column (3) one side, and threaded connection between support column (3) and adjusting plate (301).

6. The universal measuring device for building engineering design according to claim 1, wherein: the fixed shell (4) is of an arc-shaped plate structure, and the bottom of the fixed shell (4) is provided with a sliding groove; the fixed shell (4) comprises: the connecting column (401), the connecting column (401) is fixedly arranged on one side of the top of the fixed shell (4); the motor (402), the motor (402) installation sets up in spliced pole (401) one end.

7. The universal measuring device for building engineering design according to claim 6, wherein: the fixed shell (4) further comprises: the connecting frame (403), the connecting frame (403) is set to be a round frame structure, and the connecting frame (403) is rotatably arranged at the top of the fixed shell (4); the connecting frame (403) is in transmission connection with the motor (402); the protective shell A (404) is arranged to be of an arc-shaped plate structure, and the diameter of the protective shell A (404) is larger than that of the fixed shell (4); the bottom of the protective shell A (404) is provided with a sliding chute, and one end of the sliding chute is fixedly provided with a limiting block; the protective shell A (404) is arranged outside the fixed shell (4) in a sliding manner; the top of the protective shell A (404) is rotatably connected with the connecting frame (403).

8. The universal measuring device for architectural engineering design according to claim 7, wherein: the fixed shell (4) further comprises: the protective shell B (405) is arranged to be of an arc-shaped plate structure, and the protective shell B (405) is arranged outside the protective shell A (404) in a sliding mode; two ends of the bottom of the protective shell B (405) are fixedly provided with two groups of limiting blocks, and one group of limiting blocks is in sliding connection with the sliding groove of the protective shell A (404); the diameter of the protective shell B (405) is larger than that of the protective shell A (404); the top of the protective shell B (405) is rotatably connected with the connecting frame (403); the protective shell C (406) is arranged in an arc-shaped plate structure, and the protective shell C (406) is arranged outside the protective shell B (405) in a sliding mode; the diameter of the protective shell C (406) is larger than that of the protective shell B (405); the bottom of the protective shell C (406) is provided with a sliding groove, and the sliding groove of the protective shell C (406) is in sliding connection with one group of limiting blocks of the protective shell A (404); the top of the protective shell C (406) is fixedly connected with the connecting frame (403); the protection plate (407), the protection plate (407) is arranged to be an arc-shaped plate structure, and the protection plate (407) is fixedly arranged at one end of the protection shell C (406); the shielding plate (407) may block a gap between the shielding case C (406) and the stationary case (4).

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