CN213179775U - Building engineering manages with stake hole sediment thickness detection device - Google Patents

Abstract

The utility model provides a pile hole sediment thickness detection device for building engineering supervision, which comprises a supporting plate, a thread cylinder, a thread column, a rotating handle, a mounting box, a T-shaped groove, a driving motor, a gear, a measuring scale, a rack, a T-shaped sliding strip, a shell, a storage battery, a PLC, a driving switch, an adjustable supporting rod frame structure, a movable measuring frame structure and a rotating supporting and moving plate frame structure, wherein the thread cylinder is welded at the middle part inside the supporting plate, and the inner thread of the thread cylinder is connected with the thread column; the rotating handles are respectively welded above the left end and the right end of the threaded column; the mounting box is welded at the lower end of the threaded column. The utility model has the advantages that: through the setting of adjustable bracing piece frame structure, thereby the support column of the U type sliding seat inner wall of being convenient for incline reachs different angles, and better messenger's support column is the not equidimension stake hole of different angle cooperations and supports and use.

Description

Building engineering manages with stake hole sediment thickness detection device

Technical Field

The utility model belongs to the technical field of building engineering, especially, relate to a building engineering manages with stake hole sediment thickness detection device.

Background

The sediment refers to sediment left by sedimentation or hole collapse in the drilling and hole cleaning processes and not taken away by circulating mud, and is generally coarse particles, the sediment thickness is the layer height of the sediment, but the sediment thickness is the difference between the measured hole depth and the measured hole depth after a guide pipe is lowered, or different understandings reflect different understandings of the drilling depth and the actual hole depth after sedimentation, the most common method at present is a 'rope measurement method', but the method easily influences the detected data, so that the pile hole sediment thickness detection device is invented, the operation and the use are more convenient, and the measured data are more accurate.

However, the existing pile hole sediment thickness detection device also has the problems that the device is inconvenient to adjust, is suitable for pile hole supports with different sizes, is inconvenient to assist in moving and is inconvenient to better know measured data.

Therefore, the invention of the pile hole sediment thickness detection device for building engineering supervision is very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a building engineering is supervised and is used stake hole sediment thickness detection device to thereby solve present stake hole sediment thickness detection device and be not convenient for adjust be applicable to not the stake hole of equidimension support and use, be not convenient for assist remove and be not convenient for better learn the problem of measured data. A pile hole sediment thickness detection device for building engineering supervision comprises a supporting plate, a threaded cylinder, a threaded column, a rotating handle, a mounting box, a T-shaped groove, a driving motor, a gear, a measuring scale, a rack, a T-shaped sliding strip, a shell, a storage battery, a PLC (programmable logic controller), a driving switch, an adjustable supporting rod frame structure, a movable measuring frame structure and a rotating supporting movable plate frame structure, wherein the threaded cylinder is welded in the middle of the inside of the supporting plate, and the threaded column is connected to the inner thread of the threaded cylinder; the rotating handles are respectively welded above the left end and the right end of the threaded column; the mounting box is welded at the lower end of the threaded column; the T-shaped grooves are respectively formed in the middle left side of the front part and the rear part of the inner wall of the mounting box; the driving motor is mounted on the right side of the inner wall of the mounting box through a bolt, and an output shaft of the driving motor is in keyed connection with a gear; the measuring scale is inserted into the mounting box; the rack screw is arranged at the right end of the measuring scale; the T-shaped sliding strips are respectively welded at the front end and the rear end of the measuring scale and inserted into the T-shaped grooves; the shell bolt is arranged on the left side of the upper end of the supporting plate; the storage battery is embedded in the shell; the PLC bolt is arranged on the front surface of the shell; the drive switch is electrically connected with the front surface of the PLC; the adjustable supporting rod frame structure is arranged around the lower end of the supporting plate; the movable measuring frame structure is arranged on the left side in the mounting box; the rotary supporting and moving plate frame structure is arranged on the outer wall of the movable measuring frame structure; the adjustable supporting rod frame structure comprises a U-shaped movable seat, a supporting column, a movable barrel, a plug connector, a connecting rod, a rotating rod, a threaded rod and a rotating plate, wherein the movable barrel is welded at the front end of the rotating plate; the plug connector is welded at the lower end of the support column; threaded rods are welded at the left end and the right end of the connecting rod respectively; the rotating rods are respectively welded at the upper end and the lower end of the connecting rod; the rotating plate is in threaded connection with the inside of the movable cylinder.

Preferably, the movable measuring frame structure comprises a movable motor, a storage barrel, a measuring rope, a connecting disc and a photosensitive sensor, the movable motor is mounted on the left side of the inner wall of the mounting box through a bolt, and an output shaft of the movable motor is in key connection with the storage barrel; one end of the measuring rope is glued with a connecting disc, and the other end of the measuring rope is glued on the outer wall of the storage barrel; the photosensitive sensor bolt is arranged below the inner part of the connecting disc.

Preferably, the rotary supporting and moving plate frame structure comprises a supporting transverse plate, a threaded ring, a grasping rod, a supporting vertical plate and a moving wheel, wherein the threaded ring is welded inside the supporting transverse plate; the gripping rods are respectively welded at the front end and the rear end of the supporting transverse plate; the supporting vertical plates are respectively welded at the left side and the right side of the lower end of the supporting transverse plate.

Preferably, the U-shaped movable seat is respectively installed on the periphery of the lower surface of the supporting plate through bolts, a supporting column is connected to the inner wall of the U-shaped movable seat in a shaft mode, and a plug-in connector at the lower end of the supporting column is conical.

Preferably, the left end and the right end of the connecting rod are respectively provided with a threaded rod, and the threaded rods are connected with the movable cylinders of the support columns at different positions.

Preferably, the rotating plate is axially connected to the front end of the supporting column, and the front end of the rotating plate is provided with the movable cylinder.

Preferably, the measuring rope adopts a nylon rope, one end of the measuring rope is connected with the connecting disc, and the other end of the measuring rope is connected with the storage barrel.

Preferably, the front end of the storage cylinder is in key connection with an output shaft of the movable motor.

Preferably, the threaded ring inside the supporting transverse plate is matched with the supporting column.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses in, U type sliding seat bolt mounting respectively around the backup pad lower surface, U type sliding seat inner wall hub connection have the support column, the bayonet joint of support column lower extreme set up to conical, thereby the different angles of support column arrival of the U type sliding seat inner wall of being convenient for incline, and better messenger's support column is the not equidimension stake hole of different angle cooperations and supports and use.

The utility model discloses in, the connecting rod about both ends be provided with the threaded rod respectively, the threaded rod is connected with the activity section of thick bamboo of different positions support column simultaneously, is convenient for through the threaded rod at activity section of thick bamboo internal rotation to be convenient for cooperate the support column to adjust and use.

The utility model discloses in, the rotor plate hub joint at the front end of support column, a movable section of thick bamboo is installed to the rotor plate front end simultaneously, is convenient for cooperate the threaded rod installation and adjust the use.

The utility model discloses in, the connection pad adopt PVC plastic tray, connection pad lower surface be parallel with photosensitive sensor's lower surface, after photosensitive sensor contacts with the sediment, because of light is more weak, so cooperation PLC control activity motor stops, the rope is measured in the cooperation of better messenger's activity motor makes the connection pad be in the top of sediment, is convenient for learn the degree of depth that the dipperstick inserted in the sediment through the position at connection pad place to be convenient for learn its data.

The utility model discloses in, the measuring rope adopt the nylon rope, measuring rope one end be connected with the connection pad, the other end is connected with the receiver, the cooperation connection pad of being convenient for is connected to use.

The utility model discloses in, the output shaft key-type connection of containing cylinder front end and activity motor, it is rotatory to drive the containing cylinder through the activity motor to the rope is accomodate or is emitted in the cooperation.

The utility model discloses in, the support riser around the lower part at both ends respectively the hub joint have a removal wheel, more stable support has played backup pad and support column and has removed and use.

The utility model discloses in, inside screw ring of support diaphragm and support column looks adaptation, be convenient for grasp the grab bar and drive the support diaphragm and rotate to the oscilaltion, and better support and use.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of an adjustable brace bar frame structure of the present invention;

FIG. 3 is a schematic structural view of the movable measuring stand structure of the present invention;

fig. 4 is a schematic structural view of the rotary supporting and moving plate frame structure of the present invention;

fig. 5 is a schematic diagram of the electrical connection of the present invention.

In the figure:

1. a support plate; 2. a threaded barrel; 3. a threaded post; 4. rotating the handle; 5. mounting a box; 6. a T-shaped groove; 7. a drive motor; 8. a gear; 9. measuring a scale; 10. a rack; 11. a T-shaped slide bar; 12. a housing; 13. a storage battery; 14. a PLC; 15. a drive switch; 16. an adjustable strut frame structure; 161. a U-shaped movable seat; 162. a support pillar; 163. a movable barrel; 164. a plug-in connector; 165. a connecting rod; 166. rotating the rod; 167. a threaded rod; 168. a rotating plate; 17. a movable measuring stand structure; 171. a movable motor; 172. a storage cylinder; 173. measuring a rope; 174. a connecting disc; 175. a photosensitive sensor; 18. the movable plate frame structure is rotatably supported; 181. supporting the transverse plate; 182. a threaded ring; 183. a grasping rod; 184. a support vertical plate; 185. the wheel is moved.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in fig. 1 and fig. 2, a pile hole sediment thickness detection device for building engineering supervision comprises a support plate 1, a threaded cylinder 2, a threaded column 3, a rotating handle 4, a mounting box 5, a T-shaped groove 6, a driving motor 7, a gear 8, a measuring scale 9, a rack 10, a T-shaped slide bar 11, a shell 12, a storage battery 13, a PLC14, a driving switch 15, an adjustable support rod frame structure 16, a movable measuring frame structure 17 and a rotating support moving plate frame structure 18, wherein the threaded cylinder 2 is welded in the middle of the inside of the support plate 1, and the threaded column 3 is in threaded connection with the inside of the threaded cylinder 2; the rotating handles 4 are respectively welded above the left end and the right end of the threaded column 3; the mounting box 5 is welded at the lower end of the threaded column 3; the T-shaped grooves 6 are respectively formed in the middle left side of the front part and the rear part of the inner wall of the mounting box 5; the driving motor 7 is mounted on the right side of the inner wall of the mounting box 5 through a bolt, and an output shaft of the driving motor 7 is in keyed connection with a gear 8; the measuring scale 9 is inserted into the mounting box 5; the rack 10 is mounted at the right end of the measuring scale 9 through a screw; the T-shaped sliding strips 11 are respectively welded at the front end and the rear end of the measuring scale 9, and the T-shaped sliding strips 11 are inserted into the T-shaped grooves 6; the shell 12 is mounted on the left side of the upper end of the support plate 1 through bolts; the storage battery 13 is embedded in the shell 12; the PLC14 is mounted on the front surface of the shell 12 through bolts; the driving switch 15 is electrically connected with the front surface of the PLC 14; the adjustable supporting rod frame structure 16 is arranged around the lower end of the supporting plate 1; the movable measuring frame structure 17 is arranged on the left side inside the mounting box 5; the rotary supporting and moving plate frame structure 18 is arranged on the outer wall of the movable measuring frame structure 17; the adjustable supporting rod frame structure 16 comprises a U-shaped movable seat 161, a supporting column 162, a movable barrel 163, a plug 164, a connecting rod 165, a rotating rod 166, a threaded rod 167 and a rotating plate 168, wherein the movable barrel 163 is welded at the front end of the rotating plate 168; the plug 164 is welded at the lower end of the support column 162; threaded rods 167 are welded at the left end and the right end of the connecting rod 165 respectively; the rotating rods 166 are respectively welded at the upper end and the lower end of the connecting rod 165; the rotating plate 168 is screwed into the movable cylinder 163.

As shown in fig. 3, in the above embodiment, specifically, the movable measuring frame structure 17 includes a movable motor 171, a receiving cylinder 172, a measuring rope 173, a connecting disc 174 and a photosensor 175, the movable motor 171 is mounted on the left side of the inner wall of the mounting box 5 by bolts, and the output shaft of the movable motor 171 is keyed with the receiving cylinder 172; one end of the measuring rope 173 is glued with a connecting disc 174, and the other end is glued with the outer wall of the containing cylinder 172; the photosensor 175 is bolted to the underside of the interior of the interface disc 174.

In the above embodiment, as shown in fig. 4, in particular, the rotary supporting and moving plate frame structure 18 includes a supporting cross plate 181, a threaded ring 182, a gripping rod 183, a supporting vertical plate 184 and a moving wheel 185, wherein the threaded ring 182 is welded inside the supporting cross plate 181; the gripping rods 183 are respectively welded at the front end and the rear end of the supporting transverse plate 181; the supporting vertical plates 184 are respectively welded at the left and right sides of the lower end of the supporting transverse plate 181.

In the above embodiment, specifically, the U-shaped movable seat 161 is respectively installed around the lower surface of the support plate 1 by bolts, the inner wall of the U-shaped movable seat 161 is coupled with the support column 162, the plug-in connector 164 at the lower end of the support column 162 is conical, so that the support column 162 on the inner wall of the U-shaped movable seat 161 can be inclined to reach different angles, and the support column 162 can be better supported and used in different angles to match with pile holes with different sizes.

In the above embodiment, specifically, the left end and the right end of the connecting rod 165 are respectively provided with the threaded rod 167, and the threaded rod 167 is connected with the movable barrel 163 of the supporting column 162 at different positions, so that the supporting column 162 can be conveniently adjusted and used by rotating in the movable barrel 163 through the threaded rod 167.

In the above embodiment, specifically, the rotating plate 168 is coupled to the front end of the supporting column 162, and the movable barrel 163 is mounted on the front end of the rotating plate 168, so as to be conveniently mounted and adjusted in cooperation with the threaded rod 167.

In the above embodiment, specifically, the connecting disc 174 is made of a PVC plastic disc, the lower surface of the connecting disc 174 is parallel to the lower surface of the photosensitive sensor 175, and after the photosensitive sensor 175 contacts with the sediment, the PLC14 is used for controlling the movable motor 171 to stop in cooperation with the light, so that the movable motor 171 is better used for enabling the connecting disc 174 to be located above the sediment in cooperation with the measuring rope 173, and the depth of the measuring scale 9 inserted into the sediment can be known conveniently through the position of the connecting disc 174, and the data can be known conveniently.

In the above embodiment, specifically, the measuring rope 173 is a nylon rope, one end of the measuring rope 173 is connected to the connecting disc 174, and the other end of the measuring rope 173 is connected to the storage barrel 172, so that the measuring rope can be conveniently connected to the connecting disc 174 and used.

In the above embodiment, specifically, the front end of the storage barrel 172 is keyed with the output shaft of the movable motor 171, and the movable motor 171 can drive the storage barrel 172 to rotate, so as to cooperate with the measuring string 173 to store or release the measuring string.

In the above embodiment, specifically, the moving wheels 185 are respectively coupled to the lower portions of the front and rear ends of the supporting risers 184, so that the supporting plate 1 and the supporting column 162 can be stably supported and moved for use.

In the above embodiment, specifically, the threaded ring 182 inside the supporting transverse plate 181 is adapted to the supporting column 162, so that the grasping rod 183 can be grasped to drive the supporting transverse plate 181 to rotate, so as to lift up and down, and better support and use.

In the above embodiment, specifically, the driving motor 7 is a speed reducing motor model ZWBMD 024024024024024-96-01.

In the above embodiment, specifically, the PLC14 is a PLC of model FX 2N-48.

In the above embodiment, the movable motor 171 is a model ZWBMD 024024024024024-96-01 speed reduction motor.

In the above embodiment, specifically, the photosensitive sensor 175 is a HN3528 type patch photosensitive sensor.

In the above embodiment, specifically, the driving switch 15 is electrically connected to an input terminal of the PLC14, the photosensitive sensor 175 is electrically connected to an input terminal of the PLC14, the driving motor 7 is electrically connected to an output terminal of the PLC14, and the movable motor 171 is electrically connected to an output terminal of the PLC 14.

Principle of operation

The utility model discloses a theory of operation: when the device is used, the push 1 moves to a designated position through the moving wheel 185 below, then when reinforcement is needed, the holding rod 183 is rotated to drive the supporting transverse plate 181 to ascend on the supporting column 162, then the plug-in connector 164 is inserted into the ground to be fixed, when the device is used, the rotating handle 4 is grasped to drive the threaded column 3 to rotate and descend into the pile hole, the device reaches a proper position to stop descending, finally the driving motor 7 is driven to drive the gear 8 to rotate, so that the measuring scale 9 and the rack 10 are matched to descend to be inserted into sediment, the measuring scale 9 is used for measuring the thickness of the sediment, in the measuring process, the movable motor 171 is driven to drive the containing cylinder 172 to rotate, the measuring rope 173 is loosened and the connecting disc 174 descends, when the photosensitive sensor 175 is in contact with the sediment surface, the light ray is weakened, the movable motor 171 is matched with the PLC14 to stop, thus, after the threaded column 3 rises, the user can know the depth of the measuring scale 9 inserted into the deep slag through the position of the connecting disc 174, so that the measured data can be conveniently known.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (10)

1. The pile hole sediment thickness detection device for the construction engineering supervision is characterized by comprising a support plate (1), a threaded cylinder (2), a threaded column (3), a rotating handle (4), a mounting box (5), a T-shaped groove (6), a driving motor (7), a gear (8), a measuring scale (9), a rack (10), a T-shaped sliding strip (11), a shell (12), a storage battery (13), a PLC (14), a driving switch (15), an adjustable support rod frame structure (16), a movable measuring frame structure (17) and a rotary supporting movable frame structure (18), wherein the threaded cylinder (2) is welded in the middle of the inside of the support plate (1), and the internal thread of the threaded cylinder (2) is connected with the threaded column (3); the rotating handles (4) are respectively welded above the left end and the right end of the threaded column (3); the mounting box (5) is welded at the lower end of the threaded column (3); the T-shaped grooves (6) are respectively formed in the middle left sides of the front part and the rear part of the inner wall of the mounting box (5); the driving motor (7) is installed on the right side of the inner wall of the installation box (5) through bolts, and an output shaft of the driving motor (7) is in keyed connection with a gear (8); the measuring scale (9) is inserted into the mounting box (5); the rack (10) is arranged at the right end of the measuring scale (9) through a screw; the T-shaped sliding strips (11) are respectively welded at the front end and the rear end of the measuring scale (9), and the T-shaped sliding strips (11) are inserted into the T-shaped grooves (6); the shell (12) is mounted on the left side of the upper end of the support plate (1) through a bolt; the storage battery (13) is embedded in the shell (12); the PLC (14) is installed on the front surface of the shell (12) through bolts; the driving switch (15) is electrically connected with the front surface of the PLC (14); the adjustable supporting rod frame structure (16) is arranged around the lower end of the supporting plate (1); the movable measuring frame structure (17) is arranged on the left side inside the mounting box (5); the rotary supporting and moving plate frame structure (18) is arranged on the outer wall of the movable measuring frame structure (17); the adjustable supporting rod frame structure (16) comprises a U-shaped movable seat (161), a supporting column (162), a movable cylinder (163), a plug connector (164), a connecting rod (165), a rotating rod (166), a threaded rod (167) and a rotating plate (168), wherein the movable cylinder (163) is welded at the front end of the rotating plate (168); the plug connector (164) is welded at the lower end of the support column (162); threaded rods (167) are welded at the left end and the right end of the connecting rod (165) respectively; the rotating rods (166) are respectively welded at the upper end and the lower end of the connecting rod (165); the rotating plate (168) is in threaded connection with the interior of the movable cylinder (163).

2. The pile hole sediment thickness detection device for monitoring building engineering according to claim 1, wherein the movable measuring frame structure (17) comprises a movable motor (171), a receiving cylinder (172), a measuring rope (173), a connecting disc (174) and a photosensitive sensor (175), the movable motor (171) is installed on the left side of the inner wall of the mounting box (5) through bolts, and the receiving cylinder (172) is connected with an output shaft of the movable motor (171) through a key; one end of the measuring rope (173) is glued with a connecting disc (174), and the other end of the measuring rope is glued on the outer wall of the storage barrel (172); the photosensitive sensor (175) is mounted below the inner part of the connecting disc (174) through bolts.

3. The pile hole sediment thickness detection device for monitoring building engineering according to claim 1, wherein the rotary supporting and moving plate frame structure (18) comprises a supporting transverse plate (181), a threaded ring (182), a gripping rod (183), a supporting vertical plate (184) and a moving wheel (185), the threaded ring (182) is welded inside the supporting transverse plate (181); the gripping rods (183) are respectively welded at the front end and the rear end of the transverse supporting plate (181); the supporting vertical plates (184) are respectively welded at the left side and the right side of the lower end of the supporting transverse plate (181).

4. The pile hole sediment thickness detection device for monitoring building engineering according to claim 1, wherein the U-shaped movable seats (161) are respectively installed around the lower surface of the support plate (1) by bolts, the inner wall of the U-shaped movable seat (161) is coupled with the support column (162) in a shaft mode, and the plug-in connector (164) at the lower end of the support column (162) is conical.

5. The pile hole sediment thickness detection device for monitoring building engineering according to claim 1, wherein the left end and the right end of the connecting rod (165) are respectively provided with a threaded rod (167), and the threaded rods (167) are connected with the movable cylinders (163) of the supporting columns (162) at different positions.

6. The pile hole sediment thickness detection device for monitoring building engineering according to claim 1, wherein the rotating plate (168) is coupled to the front end of the supporting column (162), and the movable barrel (163) is installed at the front end of the rotating plate (168).

7. The pile hole sediment thickness detection device for supervision of construction engineering as claimed in claim 2, wherein the connecting disc (174) is a PVC plastic disc, and the lower surface of the connecting disc (174) is parallel to the lower surface of the photosensitive sensor (175).

8. The pile hole sediment thickness detection device for monitoring building engineering as claimed in claim 2, wherein the measuring rope (173) is nylon rope, one end of the measuring rope (173) is connected with the connecting disc (174), and the other end is connected with the receiving cylinder (172).

9. The pile hole sediment thickness detection device for supervision of construction engineering as claimed in claim 3, wherein the lower portions of the front and rear ends of the supporting riser (184) are respectively coupled with a moving wheel (185).

10. The pile hole sediment thickness detection device for building engineering supervision as claimed in claim 3, characterized in that the threaded ring (182) inside the supporting cross plate (181) is adapted to the supporting column (162).

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