CN214842909U - Detection apparatus suitable for ancient building reinforcement treatment - Google Patents

Abstract

The utility model discloses a detection device suitable for ancient building consolidates and handles relates to ancient building repair equipment technical field. This detection device suitable for ancient building reinforcement treatment, including the detection case, the inside of detection case is provided with detection mechanism, and the top of detection case is provided with slide mechanism, and the opening has been seted up to one side outer wall of detection case, and the opposite side outer wall fixed mounting of detection case has the handle, is provided with the antiskid cover on hand. This detection device suitable for ancient building reinforcement handles, through the installation diaphragm, the sliding tray, the sliding block, T shape pole, wall contact pole, the installation pole, the cooperation of spring and second pointer is used, can be according to the offset that the observation second pointer points out, detect the unsmooth or the slope condition of wall, prevent simultaneously because the slope of ancient building wall to when leading to the device to paste the wall tightly, the drill bit can incline, thereby the result error that leads to detecting is bigger than normal, can effectively reduce the error.

Description

Detection apparatus suitable for ancient building reinforcement treatment

Technical Field

The utility model relates to an ancient building repair equipment technical field specifically is a detection device who is applicable to ancient building reinforcement processing.

Background

The reinforcement of ancient building is one of the necessary processes of protecting to ancient building, at the in-process of protecting to ancient building, need measure ancient building wall thickness, traditional detection mode is the hole digging measurement, cause the damage of ancient building wall itself very easily, and ancient building wall is because then building technology is limited, the wall can be unsmooth, traditional detection device is at the in-process that uses, partial detection device exists unsmooth condition and the slope condition that can't effectual detect out ancient building wall, and can't be according to the unsmooth condition of ancient building wall, go to adjust the drill bit, thereby lead to the device to hug closely the drill bit when the wall to take place the slope, thereby the result error of measuring is great.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a detection device suitable for ancient building consolidates the processing to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: detection device suitable for ancient building reinforcement handles, including the detection case, the inside of detection case is provided with detection mechanism, and the top of detection case is provided with slide mechanism, and the opening has been seted up to one side outer wall of detection case, and the opposite side outer wall fixed mounting of detection case has the handle, is provided with the antiskid cover on hand.

Preferably, the detection mechanism comprises a first motor, an installation vertical plate, sliding grooves, a two-way threaded rod, sliding blocks, a first linkage rod, a second linkage rod, a limiting rod, a movable plate, an installation block, a second motor, a first pointer, a dividing ruler and a drill bit, the first motor is fixedly installed at the top of the detection box, the installation vertical plate is fixedly installed on the inner wall of one side of the detection box, two groups of sliding grooves are formed in the installation vertical plate, the two groups of sliding grooves are arranged in the front and back direction, the two-way threaded rod is rotatably installed in the installation vertical plate, an output shaft of the first motor extends into the installation vertical plate through a coupler and is fixedly connected with one group of the two-way threaded rods, two groups of sliding blocks are slidably installed in the sliding grooves, threaded holes are formed in the sliding blocks, the sliding blocks are in threaded installation with the two-way threaded rods, the first linkage rod is installed on the outer wall of one side of one group of the sliding blocks in a hinged manner, the second linkage rod is installed on the outer wall of the other group of the sliding blocks in a hinged manner, two groups of limiting rods are fixedly installed on the inner wall of the other side of the detection box, a movable plate is installed on the two groups of limiting rods in a sliding mode, two groups of installation blocks are fixedly installed on the outer wall of one side of the movable plate, the two groups of installation blocks are arranged in a front-back mode, one end of a first linkage rod and one end of a second linkage rod are both hinged to the outer surface of the front side of each installation block, first pointers are fixedly installed at the top and the bottom of the movable plate, graduated scales are fixedly installed at the top and the bottom of the inner side of the detection box, the first pointers are located on the front side of the graduated scales, a second motor is fixedly installed on the outer wall of one side of the movable plate, a drill bit is installed on the outer wall of the other side of the movable plate in a rotating mode, an output shaft of the second motor extends to the outer wall of the other side of the movable plate through a coupler and is fixedly connected with the drill bit, thickness of the ancient building is detected, equipment is stable in operation, damage to the ancient building is greatly reduced, and the thickness of the ancient building can be effectively detected, and is convenient for the operator to use.

Preferably, the sliding mechanism comprises mounting transverse plates, sliding grooves, sliding blocks, T-shaped rods, wall surface contact rods, mounting rods, springs and second pointers, the top and the bottom of the detection box are both fixedly provided with the mounting transverse plates, the top and the bottom of the two sets of mounting transverse plates are both provided with the sliding grooves, the sliding blocks are slidably mounted in the sliding grooves, the top and the bottom of the two sets of sliding blocks are both fixedly provided with the T-shaped rods, one end of each T-shaped rod is fixedly provided with the wall surface contact rod, the top and the bottom of the detection box are both fixedly provided with the mounting rods, one side outer walls of the two sets of mounting rods are both fixedly provided with the springs, one ends of the springs are both fixedly connected with one side outer walls of the T-shaped rods, the top and the bottom of the two sets of mounting transverse plates are both provided with openings, the positions of the openings are consistent with the positions of the openings on the transverse plate mounting transverse plates, the top and the bottom of the two sets of sliding blocks are both provided with the second pointers, the one end of second pointer passes the opening on detection case and the installation diaphragm and extends to the inside of detection case and the front side that the second pointer is located the scale, can be according to observing the offset that the second pointer points out, detects the unsmooth or the slope condition of wall, prevents simultaneously because the slope of ancient building wall to when leading to the device to paste the wall closely, the drill bit can incline, thereby results in the error of detection to be bigger than normal, can effectively reduce the error.

Preferably, the second motor is located between the two sets of mounting blocks and is not in contact with the mounting rods and the springs.

Preferably, one end of the limiting rod is fixedly provided with a limiting block, and the first pointer does not contact with the limiting block in the moving process.

Preferably, two groups of glass windows are embedded and installed on the outer surface of the front side of the detection box, and the two groups of glass windows are centrosymmetric.

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

(1) this detection device suitable for ancient building reinforcement processing, through first motor, installation riser, spout, two-way threaded rod, slider, first gangbar, second gangbar, gag lever post, movable plate, installation piece, second motor, first pointer, scale and drill bit's cooperation use, carry out thickness to ancient building wall and detect, equipment during operation is stable, the damage to ancient building that has significantly reduced can effectually measure the thickness of ancient building to the operator of being convenient for uses.

(2) This detection device suitable for ancient building reinforcement handles, through the installation diaphragm, the sliding tray, the sliding block, T shape pole, wall contact pole, the installation pole, the cooperation of spring and second pointer is used, can be according to the offset that the observation second pointer points out, detect the unsmooth or the slope condition of wall, prevent simultaneously because the slope of ancient building wall to when leading to the device to paste the wall closely, the drill bit can incline, thereby lead to the result error of detection to be bigger than normal, can effectively reduce the error.

Drawings

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

fig. 2 is a front view of the present invention;

FIG. 3 is an enlarged schematic view of part A of the present invention;

fig. 4 is an enlarged schematic view of part B of the present invention.

In the figure: the detection device comprises a detection box 1, a detection mechanism 2, a first motor 201, a vertical plate 202 for installation, a chute 203, a bidirectional threaded rod 204, a slider 205, a first linkage rod 206, a second linkage rod 207, a limiting rod 208, a moving plate 209, a mounting block 210, a second motor 211, a first pointer 212, a graduated scale 213, a drill bit 214, a sliding mechanism 3, a transverse plate 301 for installation, a sliding groove 302, a sliding block 303, a T-shaped rod 304, a wall surface contact rod 305, a mounting rod 306, a spring 307, a second pointer 308, a handle 4 and a limiting block 5.

Detailed Description

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

Referring to fig. 1-4, the present invention provides a technical solution: detection device suitable for ancient building reinforcement treatment, including detection case 1, the inside of detection case 1 is provided with detection mechanism 2, and the top of detection case 1 is provided with slide mechanism 3, and the opening has been seted up to one side outer wall of detection case 1, and the opposite side outer wall fixed mounting of detection case 1 has handle 4, is provided with the antiskid cover on handle 4.

The detection mechanism 2 comprises a first motor 201, a mounting vertical plate 202, sliding grooves 203, a bidirectional threaded rod 204, a sliding block 205, a first linkage rod 206, a second linkage rod 207, a limiting rod 208, a moving plate 209, a mounting block 210, a second motor 211, a first pointer 212, a graduated scale 213 and a drill 214, wherein the first motor 201 is fixedly mounted at the top of the detection box 1, the mounting vertical plate 202 is fixedly mounted on the inner wall of one side of the detection box 1, two groups of sliding grooves 203 are formed in the mounting vertical plate 202, the two groups of sliding grooves 203 are arranged in the front and back, the bidirectional threaded rod 204 is rotatably mounted in the mounting vertical plate 202, an output shaft of the first motor 201 extends into the mounting vertical plate 202 through a coupling and is fixedly connected with one group of the bidirectional threaded rods 204, two groups of sliding blocks 205 are slidably mounted in the sliding grooves 203, threaded holes are formed in the sliding blocks 205, the sliding blocks 205 are in threaded mounting with the bidirectional threaded rods 204, the first linkage rod 206 is hinged to the outer wall of one group of sliding blocks 205, a second linkage rod 207 is hinged to the outer wall of one side of the other group of sliding blocks 205, two groups of limiting rods 208 are fixedly mounted on the inner wall of the other side of the detection box 1, a moving plate 209 is slidably mounted on the two groups of limiting rods 208, two groups of mounting blocks 210 are fixedly mounted on the outer wall of one side of the moving plate 209, the two groups of mounting blocks 210 are arranged in a front-back manner, one end of the first linkage rod 206 and one end of the second linkage rod 207 are both hinged to the outer surface of the front side of the mounting blocks 210, a first pointer 212 is fixedly mounted at the top and the bottom of the moving plate 209, graduated scales 213 are fixedly mounted at the top and the bottom of the inner side of the detection box 1, the first pointer 212 is positioned at the front side of the graduated scale 213, a second motor 211 is fixedly mounted on the outer wall of one side of the moving plate 209, a drill 214 is rotatably mounted on the outer wall of the other side of the moving plate 209, and an output shaft of the second motor moving plate 211 extends to the outer wall of the other side of the moving plate 209 through a coupler and is fixedly connected with the drill 214, the start of the first motor 201 is controlled to drive the bidirectional threaded rod 204 to rotate, so as to drive the sliding block 205 to move longitudinally, so as to drive the moving plate 209 to move transversely under the action of the second linkage rod 207 and the first linkage rod 206, then the start of the second motor 211 is controlled to drive the drill 214 to rotate, so as to detect the thickness of the ancient building and detect the thickness of the wall surface of the ancient building, the device is stable in operation, the damage to the ancient building is greatly reduced, the thickness of the ancient building can be effectively detected, and the device is convenient for an operator to use, the sliding mechanism 3 comprises a mounting transverse plate 301, a sliding groove 302, a sliding block 303, a T-shaped rod 304, a wall surface contact rod 305, a mounting rod 306, a spring 307 and a second pointer 308, the top and the bottom of the detection box 1 are both fixedly provided with the mounting transverse plates 301, the top and the bottom of the two sets of mounting transverse plates 301 are both provided with the sliding grooves 302, and the sliding block 303 is slidably mounted inside the sliding grooves 302, the top and the bottom of the two groups of sliding blocks 303 are fixedly provided with T-shaped rods 304, one end of each T-shaped rod 304 is fixedly provided with a wall contact rod 305, the top and the bottom of the detection box 1 are fixedly provided with mounting rods 306, the outer wall of one side of each mounting rod 306 is fixedly provided with a spring 307, one end of each spring 307 is fixedly connected with the outer wall of one side of each T-shaped rod 304, the top and the bottom of each mounting transverse plate 301 are provided with openings, the top and the bottom of the detection box 1 are provided with openings, the positions of the openings are consistent with the positions of the openings on the mounting transverse plates 301, the top and the bottom of the two groups of sliding blocks 303 are provided with second pointers 308, one end of each second pointer 308 passes through the openings on the detection box 1 and the mounting transverse plates 301 and extends to the inside of the detection box 1, the second pointer 308 is positioned at the front side of the graduated scale 213, the device is placed beside an ancient building, and then the wall contact rods 305 are controlled to be tightly attached to the wall surface, when the wall is unevenness or slope, wall contact lever 305 can promote T shape pole 304 lateral shifting, thereby drive sliding block 303 and second pointer 308 lateral shifting, thereby compress spring 307, can be according to the offset of observing second pointer 308 point out, detect the unevenness or the slope condition of wall, prevent simultaneously because the slope of ancient building wall, thereby when leading to the device to paste the wall closely, the drill bit can incline, thereby the result error that leads to detecting is bigger than normal, can effectively reduce the error, second motor 211 is located between two sets of installation pieces 210 and does not contact with installation pole 306 and spring 307. The limiting block 5 is fixedly mounted at one end of the limiting rod 208, the first pointer 212 does not contact with the limiting block 5 in the movement process, and two groups of glass windows are mounted on the outer surface of the front side of the detection box 1 in an embedded mode and are in central symmetry.

The working principle is as follows: place the device beside ancient building wall, then wall is hugged closely to control wall contact lever 305, when the wall is unevenness or slope, wall contact lever 305 can promote T shape pole 304 lateral shifting, thereby drive sliding block 303 and second pointer 308 lateral shifting, thereby compression spring 307, then offset through observing second pointer 308, observe whether ancient building wall inclines or unevenness, then control the start-up of first motor 201, it rotates to drive two-way threaded rod 204, thereby drive slider 205 longitudinal movement, thereby drive movable plate 209 lateral shifting under the effect of second linkage rod 207 and first linkage rod 206, then control the start-up of second motor 211, it rotates to drive drill bit 214, carry out thickness detection to ancient building.

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 (6)

1. Detection device suitable for ancient building consolidates and handles, including detection case (1), its characterized in that: the anti-skidding detection box is characterized in that a detection mechanism (2) is arranged inside the detection box (1), a sliding mechanism (3) is arranged above the detection box (1), an opening is formed in the outer wall of one side of the detection box (1), a handle (4) is fixedly mounted on the outer wall of the other side of the detection box (1), and an anti-skidding sleeve is arranged on the handle (4).

2. The detection device suitable for ancient building reinforcement of claim 1, characterized by: the detection mechanism (2) comprises a first motor (201), an installation vertical plate (202), sliding grooves (203), a bidirectional threaded rod (204), a sliding block (205), a first linkage rod (206), a second linkage rod (207), a limiting rod (208), a moving plate (209), an installation block (210), a second motor (211), a first pointer (212), a graduated scale (213) and a drill bit (214), wherein the first motor (201) is fixedly installed at the top of the detection box (1), the installation vertical plate (202) is fixedly installed on the inner wall of one side of the detection box (1), two groups of sliding grooves (203) are formed in the installation vertical plate (202), the two groups of sliding grooves (203) are arranged in the front and back, the bidirectional threaded rod (204) is installed in the installation vertical plate (202) in a rotating mode, an output shaft of the first motor (201) extends to the inside of the installation vertical plate (202) through a coupler and is fixedly connected with one group of the bidirectional threaded rods (204), two groups of sliding blocks (205) are slidably mounted inside the sliding groove (203), threaded holes are formed in the sliding blocks (205), the sliding blocks (205) and the bidirectional threaded rod (204) are in threaded mounting, a first linkage rod (206) is hinged to the outer wall of one side of one group of sliding blocks (205), a second linkage rod (207) is hinged to the outer wall of one side of the other group of sliding blocks (205), two groups of limiting rods (208) are fixedly mounted on the inner wall of the other side of the detection box (1), a moving plate (209) is slidably mounted on the two groups of limiting rods (208), two groups of mounting blocks (210) are fixedly mounted on the outer wall of one side of the moving plate (209), the two groups of mounting blocks (210) are arranged in a front-back mode, one end of the first linkage rod (206) and one end of the second linkage rod (207) are both hinged to the outer surface of the front side of the mounting blocks (210), and first pointers (212) are fixedly mounted on the top and the bottom of the moving plate (209), the top and the bottom of the inner side of the detection box (1) are fixedly provided with graduated scales (213), a first pointer (212) is located on the front side of the graduated scales (213), the outer wall of one side of the moving plate (209) is fixedly provided with a second motor (211), the outer wall of the other side of the moving plate (209) is rotatably provided with a drill bit (214), and the output shaft of the second motor (211) extends to the outer wall of the other side of the moving plate (209) through a coupler and is fixedly connected with the drill bit (214).

3. The detection device suitable for ancient building reinforcement of claim 1, characterized by: the sliding mechanism (3) comprises installation transverse plates (301), sliding grooves (302), sliding blocks (303), T-shaped rods (304), wall contact rods (305), installation rods (306), springs (307) and a second pointer (308), the installation transverse plates (301) are fixedly installed at the top and the bottom of the detection box (1), the sliding grooves (302) are respectively formed at the top and the bottom of the two groups of installation transverse plates (301), the sliding blocks (303) are slidably installed inside the sliding grooves (302), the T-shaped rods (304) are respectively fixedly installed at the top and the bottom of the two groups of sliding blocks (303), the wall contact rods (305) are fixedly installed at one ends of the T-shaped rods (304), the installation rods (306) are respectively fixedly installed at the top and the bottom of the detection box (1), the springs (307) are respectively fixedly installed on the outer wall of one side of the two groups of installation rods (306), one ends of the springs (307) are respectively fixedly connected with the outer wall of one side of the T-shaped rods (304), the opening has all been seted up to the top and the bottom of two sets of installation diaphragm (301), the top and the bottom of detection case (1) have all been seted up opening and open-ended position and have been unanimous with the opening position on installation diaphragm (301), the top and the equal second pointer (308) of installing in bottom of two sets of sliding blocks (303), the one end of second pointer (308) is passed the opening on detection case (1) and installation diaphragm (301) and is extended to the inside of detection case (1) and the front side that second pointer (308) are located scale (213).

4. The detection device suitable for ancient building reinforcement of claim 2, characterized by: the second motor (211) is located between the two sets of mounting blocks (210) and is not in contact with the mounting bar (306) and the spring (307).

5. The detection device suitable for ancient building reinforcement of claim 2, characterized by: one end of the limiting rod (208) is fixedly provided with a limiting block (5), and the first pointer (212) does not contact with the limiting block (5) in the moving process.

6. The detection device suitable for ancient building reinforcement of claim 1, characterized by: two groups of glass windows are embedded and installed on the outer surface of the front side of the detection box (1) and are centrosymmetric.

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