CN213039291U - Tunnel lining slip casting thickness detection device - Google Patents

Abstract

The utility model discloses a tunnel lining grouting thickness detection device, which comprises a shell, wherein a lifting component is fixed on the inner wall of the shell, and a push plate is fixedly arranged on the lifting component; an air cylinder is arranged below the push plate, and a fixing block is fixed at the push rod of the air cylinder; a sliding plate is fixed on the fixed block and is in sliding connection with the push plate; a support is fixed above the sliding plate, a first driving assembly and a cylinder are arranged on the support, the support is rotatably connected with the cylinder, and an output shaft of the first driving assembly penetrates through the support to be fixedly connected with the cylinder; the output shaft, the cylinder and the bracket of the first driving component are coaxially arranged; a probe assembly is fixed on the circumference of the cylinder; the utility model discloses can carry out tunnel lining slip casting thickness in the process of hanging and detect, can the multi-angle position adjust simultaneously, make things convenient for the location of drilling position.

Description

Tunnel lining slip casting thickness detection device

Technical Field

The utility model relates to an engineering supervision field, concretely relates to tunnel lining slip casting thickness detection device.

Background

Lining refers to a permanent supporting structure built by reinforced concrete and other materials along the periphery of a tunnel body in order to prevent surrounding rocks from deforming or collapsing. The lining technology is usually applied to tunnel engineering and water conservancy channels, is commonly lined by building blocks and can be prestressed high-pressure grouting plain concrete lining.

The existing tunnel lining grouting thickness detection device has many methods, generally, a tunnel is drilled, and the thickness is measured through the obtained drilled hole, but the stability and the angle adjustment of the existing thickness detection device in the detection process are limited, so that the multi-angle adjustment is difficult to ensure.

Chinese patent 201821056788.8 discloses a tunnel lining thickness detection device, which comprises a horizontally arranged storage tube, wherein the storage tube is arranged as a transparent plastic tube, a conical head is installed at one end of the storage tube, a through hole communicated with the storage tube is formed in the middle of the conical head, a plug is installed at the other end of the storage tube, the plug and the storage tube are connected through a screw, an operating handle is installed on the top surface of the plug, a vertical plate is connected to the bottom surface of the plug, a transverse plate is installed on the side, away from the storage tube, of the vertical plate, a horizontally arranged driving motor is installed on the transverse plate, a horizontally arranged rotating shaft is connected to the output shaft of the driving motor through a coupler, one end, away from the driving motor, of the rotating shaft sequentially penetrates through the plugs and the interior of the storage tube and extends to the exterior of the storage tube, a bearing, the rotating shaft and the storage pipe are arranged in the same circle center, one end of the rotating shaft, far away from the plug, is connected with a drill bit, and a plurality of obliquely arranged material blocking pieces are arranged on the inner wall of the storage pipe at intervals; in the using process, the drill hole needs to be held manually, so that the drill hole is difficult to stably work; meanwhile, the angle and the direction of the drilling are difficult to adjust, and the device is difficult to regulate and control at multiple angles and stabilize the drilling process.

Disclosure of Invention

The utility model aims at providing a tunnel lining slip casting thickness detection device to the problem that prior art exists to the location of multi-angle height-adjusting and device is rotatory.

In order to achieve the above object, the utility model adopts the following technical scheme: a tunnel lining grouting thickness detection device comprises a shell, wherein a lifting assembly is fixed on the inner wall of the shell, and a push plate is fixedly mounted on the lifting assembly; an air cylinder is arranged below the push plate, and a fixing block is fixed at the push rod of the air cylinder; a sliding plate is fixed on the fixed block and is in sliding connection with the push plate; a support is fixed above the sliding plate, a first driving assembly and a cylinder are arranged on the support, the support is rotatably connected with the cylinder, and an output shaft of the first driving assembly penetrates through the support to be fixedly connected with the cylinder; the output shaft, the cylinder and the bracket of the first driving component are coaxially arranged; and a probe assembly is fixed on the circumference of the cylinder.

The utility model provides a tunnel lining slip casting thickness detection device, this device can carry out the multi-angle to the probing pole and adjust the position, can carry out automatically controlled regulation drilling position and angle to drilling after the device dress.

The lifting assembly is arranged, so that the device can be moved to a position required by drilling in the vertical direction, and the device can be freely moved in the vertical direction.

The sliding plate is connected with the push plate in a sliding mode, so that the device can move in the sliding direction, and the device can freely move in the horizontal direction.

The sliding connection of cylinder and support can be with probe device ascending rotation in the circumferencial direction, realizes the device and rotates in the circumference.

Furthermore, a pin fixing plate and a pin are arranged on the other side of the first driving assembly of the bracket, and the pin fixing plate is fixed on the sliding plate; the pin fixed plate with be equipped with a plurality of round holes on the cylindrical circumference respectively, the pin passes the round hole butt of pin fixed plate the round hole that is equipped with on the cylinder.

The relative position of the pin cylinder and the fixed pin fixing plate through the pin fixing plate and the pin is arranged, so that the cylinder is fixed after rotating to a certain angle, and the stability of the device is improved.

Further, the lifting assembly comprises a fixing plate and a third cylinder, the fixing plate is fixed to the bottom of the inner wall of the shell, the third cylinder is fixed to the upper portion of the fixing plate, and the push plate is fixed to a push rod of the third cylinder.

The fixed plate and the third cylinder are arranged, the relative height and the position are fixed through the fixed plate, and the third cylinder is fixedly connected with the fixed plate, so that the position of the device in the vertical direction can be adjusted.

Furthermore, the first driving assembly comprises a motor, a driving gear, a driven gear and an output shaft, the motor is fixed on the bracket, and the output shaft of the motor is connected with the driving gear; one end of the output shaft is fixed to the cylinder, the output shaft is connected with the driven gear, and the driven gear is in meshed transmission with the driving gear.

The motor and the driving and driven gears fixed on the support are arranged, the gears are driven by the motor to drive, the rotation angle of the cylinder is controlled, and the angle and the direction of the conical probe are regulated and controlled.

Further, the second driving assembly comprises a motor fixing plate and a motor, the motor fixing plate is used for fixing the push rod of the second air cylinder, the motor is fixed in the motor fixing plate, and the output shaft of the motor is used for fixing the drilling rod.

The setting of motor fixed plate fixed motor through the fixed relative position of motor fixed plate, the rotation of motor drive tapered probe realizes that tapered probe carries out work to drilling to realize the testing process of slip casting thickness.

Further, the bracket comprises a vertical end and a horizontal end, the sliding plate is fixed below the horizontal end of the bracket, an arc-shaped concave surface is arranged above the horizontal end, and the arc-shaped concave surface is collinear with the axis of the cylinder; the first driving assembly is fixed on the vertical end, a round hole is formed in the middle of the vertical end, and the round hole is matched with an output shaft of the first driving assembly. The fixed block that sets up under the cover fixes the motor, realizes that the motor drives the electric fan and carries out the rotation process.

The setting of the vertical end of the support realizes the rotation of the cylinder at the concave surface through the matching of the arc-shaped concave surface at the horizontal end and the cylinder.

The horizontal end of the support is arranged, the first driving assembly and the round hole are fixed through the horizontal end, and the output shaft on the first driving assembly penetrates through the support to control the rotation of the cylinder.

Furthermore, the outer conical wall of the conical probe is provided with an external thread from top to bottom.

The setting of external screw thread through the characteristic of external screw thread, realizes carrying out good drilling process to the tunnel.

Further, a pair of wheels is arranged below the shell.

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

(1) this tunnel lining slip casting thickness detection device's simple structure, be convenient for equipment, clamping performance are good, the good multi-angle position that carries on is adjusted.

(2) The arrangement of the push plate and the sliding plate realizes the moving process in the horizontal direction, and the problem that the direction of the device needs to be adjusted when the required position of the shell is placed is solved.

(3) The arrangement of the first driving assembly realizes that the device is installed on the cylinder to rotate, and the adjustment of the device in the direction is solved.

(4) The setting of pin fixed plate and pin realizes that the pin inserts fixed plate and cylindrical round hole, has solved the stability of device in the course of the work.

Drawings

FIG. 1 is a cross-sectional view of the grouting thickness detecting device for tunnel lining of the present invention;

FIG. 2 is a right side schematic sectional view of the tunnel lining grouting thickness detection device of the present invention;

FIG. 3 is a schematic left side sectional view of the tunnel lining grouting thickness detection device of the present invention;

in the figure: 1. a housing; 2. a lifting assembly; 3. pushing the plate; 4. a cylinder; 5. a fixed block; 6. a slide plate; 7. a support; 8. A first drive assembly; 9. a cylinder; 10. a drive bracket; 11. a second cylinder; 12. a sliding plate; 13. a second drive assembly; 14. drilling a probe rod; 15. a conical probe; 16. a motor; 17. a driving gear; 18. a driven gear; 19. a pin; 20. A pin fixing plate; 21. a third cylinder; 22. a fixing plate; 23. an output shaft; 24. a wheel; 25. a probe assembly.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-3, a lifting assembly 2 is fixed on the inner wall of the housing 1, and a push plate 3 is fixedly mounted on the lifting assembly 2; an air cylinder 4 is arranged below the push plate 3, and a fixed block 5 is fixed at the push rod of the air cylinder 4; a sliding plate 6 is fixed on the fixed block 5, and the sliding plate 6 is connected with the push plate 3 in a sliding manner; a support 7 is fixed above the sliding plate 6, a first driving assembly 8 and a cylinder 9 are arranged on the support 7, the support 7 is in sliding connection with the cylinder 9, and an output shaft of the first driving assembly 8 penetrates through the support 7 and is fixedly connected with the cylinder 9; the output shaft of the first driving assembly 8, the cylinder 9 and the bracket 7 are coaxially arranged; a probe assembly 25 is fixed at the circumference of the cylinder 9.

Inner wall at bottom fixed mounting elevating assembly 2 of casing 1, the fixed push pedal 3 of push rod department of elevating assembly 2, a side-mounting cylinder 4 of push pedal 3 bottom, push pedal 3 and 6 sliding connection of slide, the fixed mounting fixed block 5 of push rod department of cylinder 4, fixed block 5 is fixed on slide 6, make the work of cylinder 4 drive the slip of the relative push pedal 3 of slide 6, installing support 7 on slide 6, in the arc wall of support 7 with cylinder 9 sliding connection, install first drive assembly 8 on the support 7, the output shaft fixed connection cylinder 9 of first drive assembly 8, the rotation of cylinder 9 is provided, probe assembly 25 is fixed to cylinder 9 top, the regulation and control in probe assembly 25 position is provided.

A pin fixing plate 20 and a pin 19 are arranged beside the other side of the first driving assembly 8 of the bracket 7, and the pin fixing plate 20 is fixed on the sliding plate 6; the pin fixing plate 20 and the cylinder 9 are provided with a plurality of round holes on the circumference respectively, and the pin 19 penetrates through the round hole of the pin fixing plate 20 and is abutted to the round hole arranged on the cylinder 9.

Support 7 is at the opposite side fixed mounting pin fixed plate 20 of first drive assembly 8, and pin fixed plate 20 is fixed on slide 6, is equipped with the round hole of a week on the fixed plate 20, and cylinder 9 is equipped with the round hole of a week at the tip of outline outward, and pin fixed plate 20 is placed with the round hole one-to-one on the cylinder 9, and pin 19 passes the round hole on the round hole butt cylinder 9 on the pin fixed plate 20, realizes further fixed position.

The lifting assembly 2 comprises a fixing plate 22 and a third cylinder 21, the fixing plate 22 is fixed at the bottom of the inner wall of the shell 1, the third cylinder 21 is fixed at the upper part of the fixing plate 22, and the push plate 3 is fixed by a push rod of the third cylinder 21.

The fixed plate 22 is fixed at the bottom plate inside the shell 1, the third cylinder 21 is fixed on the upper end surface of the fixed plate 22, and the third cylinder 21 drives the device on the push plate 3 to move in the vertical direction on the push plate 3 by the push rod fixed push plate 3.

The first driving assembly 8 comprises a motor 16, a driving gear 17, a driven gear 18 and an output shaft 23, the motor 16 is fixed on the bracket 7, and the output shaft of the motor 16 is connected with the driving gear 17; one end of the output shaft 23 is fixed on the column 9, the output shaft 23 is connected with the driven gear 18, and the driven gear 18 is in meshed transmission with the driving gear 17.

The motor 16 is installed on the support 7, an output shaft of the motor 16 is connected with the driving gear 17, the driving gear 17 is meshed with the driven gear 18, the driven gear 18 is connected with the output shaft 23, the output shaft 23 fixes the end face of the cylinder 9, and the rotation angle of the cylinder 9 is controlled under the driving of the motor 16.

The probe assembly 25 comprises a second cylinder 11, a sliding plate 12, a second driving assembly 13, a drilling rod 14, a driving bracket 10 and a conical probe 15, the driving bracket 10 is installed at the circumference of the cylinder 9, an opening is formed in one side, away from the cylinder, of the driving bracket 10, and the sliding plate 12 is arranged at the opening; the second cylinder 11 is arranged in the driving bracket, and an output shaft of the second cylinder 11 fixes the second driving component 13; the output shaft of the second driving assembly 13 passes through the sliding plate 12 to fix the drilling rod 14, and one end of the drilling rod 14 fixes the conical probe 15.

A driving bracket 10 is fixed on the circumferential surface of the cylinder 9, a second air cylinder 11 is arranged in the driving bracket 10, a push rod of the second air cylinder 11 is fixed on a second driving component 13, the second driving component 13 is fixed on a sliding plate 12, an output shaft of the second driving component 13 penetrates through the sliding plate 12 and is fixed on a drilling rod 14, the output shaft of the second driving component 13 and the drilling rod 14 are coaxially arranged, and the other end of the drilling rod 14 is fixed with a conical probe 15

The second driving assembly 13 includes a motor fixing plate and a motor, the motor fixing plate fixes the push rod of the second cylinder 11, the motor is fixed in the motor fixing plate, and the output shaft of the motor fixes the drilling rod 14.

The motor fixing plate fixes the motor, the push rod of the second cylinder 11 pushes the motor fixing plate, and the output shaft of the motor fixes the conical probe 15.

The support 7 comprises a vertical end and a horizontal end, the sliding plate 6 is fixed below the horizontal end of the support 7, an arc-shaped concave surface is arranged above the horizontal end, and the arc-shaped concave surface is collinear with the axis of the cylinder 9; the vertical end is fixed with the first driving assembly 8, a round hole is formed in the middle of the vertical end, and the round hole is matched with an output shaft of the first driving assembly 8.

And the outer conical wall of the conical probe 15 is provided with external threads from top to bottom.

Four wheels 24 are provided below the housing.

When the utility model discloses the installation back that finishes, wheel 24 through casing 1 below removes the device to the required position, the work of third cylinder 21 in the lifting unit 2, adjust the required position with the device on vertical direction, slide 6 realizes the ascending removal of track side with push pedal 3, motor 16 passes through the rotation of the transmission drive cylinder 9 of gear, when rotating the required position, round hole on round hole butt cylinder 9 on the pin fixed plate 20 is passed to pin 19, realize further location and the required position is adjusted in multi-angle position, the drilling position of drilling pole 14 and conical probe 15 is realized with second cylinder 11 to the sliding plate on the probe subassembly 25 on the cylinder 9, the motor is to drilling pole 14 and conical probe 15 work, carry out the drilling of tunnel thickness, get the thickness to the hole of boring after the drilling is accomplished.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a tunnel lining slip casting thickness detection device, includes casing (1), its characterized in that: a lifting component (2) is fixed on the inner wall of the shell (1), and a push plate (3) is fixedly arranged on the lifting component (2); an air cylinder (4) is arranged below the push plate (3), and a fixed block (5) is fixed at the push rod of the air cylinder (4); a sliding plate (6) is fixed on the fixing block (5), and the sliding plate (6) is connected with the push plate (3) in a sliding manner; a support (7) is fixed above the sliding plate (6), a first driving assembly (8) and a cylinder (9) are arranged on the support (7), the support (7) is rotatably connected with the cylinder (9), and an output shaft of the first driving assembly (8) penetrates through the support (7) and is fixedly connected with the cylinder (9); the output shaft of the first driving component (8), the cylinder (9) and the bracket (7) are coaxially arranged; and a probe assembly (25) is fixed on the circumference of the cylinder (9).

2. The tunnel lining grouting thickness detection device according to claim 1, characterized in that: the other side of the bracket (7) on the first driving component (8) is provided with a pin fixing plate (20) and a pin (19), and the pin fixing plate (20) is fixed on the sliding plate (6); the pin fixing plate (20) and the circumference of the cylinder (9) are respectively provided with a plurality of round holes, and the pin (19) penetrates through the round holes of the pin fixing plate (20) and is abutted to the round holes arranged on the cylinder (9).

3. The tunnel lining grouting thickness detection device according to claim 1, characterized in that: lifting unit (2) are including fixed plate (22) and third cylinder (21), fixed plate (22) are being fixed the inner wall bottom of casing (1), fixed plate (22) upper portion is fixed third cylinder (21), the push rod of third cylinder (21) is fixed push pedal (3).

4. The tunnel lining grouting thickness detection device according to claim 1, characterized in that: the first driving assembly (8) comprises a motor (16), a driving gear (17), a driven gear (18) and an output shaft (23), the motor (16) is fixed on the support (7), and the output shaft of the motor (16) is connected with the driving gear (17); one end of the output shaft (23) is fixed on the column (9), the output shaft (23) is connected with the driven gear (18), and the driven gear (18) is in meshed transmission with the driving gear (17).

5. The tunnel lining grouting thickness detection device according to claim 1, characterized in that: the probe assembly (25) comprises a second air cylinder (11), a sliding plate (12), a second driving assembly (13), a drilling rod (14), a driving bracket (10) and a conical probe (15), the driving bracket (10) is installed at the circumference of the cylinder (9), one side, away from the cylinder, of the driving bracket (10) is provided with an opening, and the sliding plate (12) is arranged at the opening; the second air cylinder (11) is arranged in the driving support, and an output shaft of the second air cylinder (11) is used for fixing the second driving assembly (13); the output shaft of the second driving assembly (13) penetrates through the sliding plate (12) to fix the drilling rod (14), and one end of the drilling rod (14) is fixed with the conical probe (15).

6. The tunnel lining grouting thickness detection device according to claim 5, characterized in that: the second driving assembly (13) comprises a motor fixing plate and a motor, the motor fixing plate is used for fixing the push rod of the second air cylinder (11), the motor is fixed in the motor fixing plate, and the output shaft of the motor is used for fixing the drilling rod (14).

7. The tunnel lining grouting thickness detection device according to claim 1, characterized in that: the support (7) comprises a vertical end and a horizontal end, the sliding plate (6) is fixed below the horizontal end of the support (7), an arc-shaped concave surface is arranged above the horizontal end, and the arc-shaped concave surface is collinear with the axis of the cylinder (9); the vertical end is fixed with the first driving assembly (8), a round hole is formed in the middle of the vertical end, and the round hole is matched with an output shaft of the first driving assembly (8).

8. The tunnel lining grouting thickness detection device according to claim 5, characterized in that: and the outer conical wall of the conical probe (15) is provided with external threads from top to bottom.

9. The tunnel lining grouting thickness detection device according to claim 1, characterized in that: and paired wheels (24) are arranged below the shell (1).

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