CN215985598U - Wall body detection structure for building engineering - Google Patents

Abstract

The utility model relates to a wall body detects structure for building engineering, relate to concrete slab detection tool's technical field, comprising a frame body, sliding connection has sliding platform on the support body, the last power unit that is provided with of sliding platform, power unit is used for driving sliding platform and slides along support body length direction, the last translation mechanism that is provided with of sliding platform, the last pressing means that is connected with of translation mechanism, pressing means is used for installing digital resiliometer, pressing means is used for making digital resiliometer butt on the wall body, translation mechanism is used for driving pressing means and removes. This application has the effect that makes things convenient for constructor to detect the great wall body of surface area.

Description

Wall body detection structure for building engineering

Technical Field

The application relates to the technical field of concrete slab detection tools, in particular to a wall body detection structure for constructional engineering.

Background

The wall body of a modern building is usually formed by pouring concrete, the quality of the concrete in the pouring process has a great influence on the structural strength of the building, and after the concrete is solidified, a constructor needs to use a detection tool to detect the concrete slab, so that the construction quality of the concrete slab is judged and accepted.

The relevant concrete wall detection tool comprises a digital resiliometer which can detect the strength of concrete on the premise of not damaging structures and members. Digital resiliometer includes instrument main part and impact rod, impact rod sliding connection is in instrument main part, be provided with the spring between impact rod and the instrument main part, the spring is used for supporting the impact rod, make the impact rod stretch out outside instrument main part all the time at natural state, the user sets up the perpendicular wall body of instrument main part, through promoting instrument main part, make impact rod butt on the wall body and make the impact rod take in instrument main part, can make instrument main part record mechanics data and calculate the intensity of wall body at the in-process of impact rod butt wall body, and then make the display screen in the instrument main part can show the testing result.

The above prior art solutions have the following drawbacks: when the surface area of the wall is large, the workload of measuring on the surface of the wall is large, which causes inconvenience.

SUMMERY OF THE UTILITY MODEL

In order to facilitate constructor detection of the wall with a large surface area, the application provides a wall detection structure for constructional engineering.

The application provides a wall body detects structure for building engineering adopts following technical scheme:

the utility model provides a wall body detects structure for building engineering, includes the support body, sliding connection has sliding platform on the support body, the last power unit that is provided with of sliding platform, power unit is used for driving sliding platform and slides along support body length direction, the last translation mechanism that is provided with of sliding platform, the last pressing means that is connected with of translation mechanism, pressing means is used for installing digital resiliometer, pressing means is used for making digital resiliometer butt on the wall body, translation mechanism is used for driving pressing means and removes.

Through adopting the above technical scheme, through setting up sliding platform on the support body, set up power unit on sliding platform, make sliding platform can reciprocating motion on the support body, through set up translation mechanism on sliding platform, make translation mechanism can drive pressing mechanism and move on sliding platform, through making digital resiliometer set up on pressing mechanism, make pressing mechanism can make digital resiliometer butt and detect on the wall body, the user can slide on the support body through making sliding platform, thereby adjust digital resiliometer's detection position, through setting up translation mechanism on sliding platform, make digital resiliometer can move at the regional minimums scope that awaits measuring, and then make digital resiliometer can detect many times at the region that awaits measuring, promote and detect the accuracy, the effect that has the great wall body of convenient constructor detection surface area.

Optionally, power unit sets up to two, and two power unit set up the both ends on support body length direction respectively, and sliding platform is located between two power unit, and power unit includes wind-up roll, rope and motor, and the wind-up roll rotates to be connected on the support body, and rope one end is fixed on the wind-up roll, and the other end is fixed on sliding platform, and the motor setting is on the support body, and the motor is used for driving the wind-up roll and rotates.

Through adopting above-mentioned technical scheme, through setting up power unit in sliding platform both sides, make the rope setting between wind-up roll and sliding platform, the user of service rotates through controlling the wind-up roll to make the rope can stimulate sliding platform, make sliding platform remove on the support body, through setting up the motor on the support body, the user of service can rotate through control motor, and then control sliding platform's moving direction and position.

Optionally, the translation mechanism includes a first linear motor and a first sliding frame, a stator of the first linear motor is fixed on the sliding platform, the first sliding frame is connected to a rotor of the first linear motor, the pressing mechanism is connected to the first sliding frame, and the first linear motor drives the pressing mechanism to move through the first sliding frame.

By adopting the technical scheme, the first linear motor is arranged on the sliding platform, so that the first linear motor can drive the first sliding frame to move, and the pressing mechanism is arranged on the first sliding frame, so that the pressing mechanism can move under the driving of the first linear motor, and the effect of adjusting the position of the pressing mechanism is achieved.

Optionally, a second linear motor is arranged on the sliding platform, the length direction of the second linear motor is perpendicular to the first linear motor, a second sliding frame is arranged on a rotor of the second linear motor, the second sliding frame is connected with the pressing mechanism, and the second sliding frame is used for driving the pressing mechanism to move.

By adopting the technical scheme, the linear motor II is arranged on the sliding platform, so that the linear motor II can drive the pressing mechanism to move through the sliding frame II, the linear motor I and the linear motor II are vertically arranged, the pressing mechanism can respectively move towards different directions under the driving of the linear motor I and the linear motor II, the area of the pressing mechanism moving through the translation mechanism is increased, and the digital resiliometer can move and detect in a larger range in an area to be detected.

Optionally, a sliding groove is formed in the first sliding frame, a sliding groove is formed in the second sliding frame, the pressing mechanism is inserted into the first sliding frame and the second sliding frame, and the pressing mechanism can slide in the first sliding frame and the second sliding frame.

By adopting the technical scheme, the sliding grooves are formed in the first sliding frame and the second sliding frame, the pressing mechanism is inserted into the first sliding frame and the second sliding frame, when the first sliding frame moves, the first sliding frame pushes the pressing mechanism, the pressing mechanism can slide along the length direction of the second sliding frame, when the second sliding frame moves, the second sliding frame pushes the pressing mechanism, the pressing mechanism can slide along the length direction of the first sliding frame, and then the pressing mechanism can move along two directions through the first linear motor and the second linear motor.

Optionally, the pressing mechanism comprises a sliding cabin, an installation cylinder and an electric push rod, a first sliding frame and a second sliding frame are both in sliding connection with the sliding cabin, the first sliding frame and the second sliding frame are both perpendicular to the sliding cabin, the installation cylinder is in sliding connection with the sliding cabin, the electric push rod is arranged on the sliding cabin, the push rod of the electric push rod is connected to the installation cylinder, the installation cylinder is used for installing the digital resiliometer, and the electric push rod is used for driving the installation cylinder to slide.

Through adopting above-mentioned technical scheme, through setting up the installation section of thick bamboo in the sliding compartment, make digital resiliometer can install in the installation section of thick bamboo, through set up electric putter on the sliding compartment, make electric putter's push rod connect on the installation section of thick bamboo, the user can be flexible through electric putter control installation section of thick bamboo, and then makes digital resiliometer can pass through electric putter butt and accomplish the detection on the wall body.

Optionally, a clamping piece is arranged on the sliding cabin, the clamping piece abuts against the first sliding frame or the second sliding frame, and the clamping piece is used for keeping the sliding cabin in sliding connection with the first sliding frame and the second sliding frame.

Through adopting above-mentioned technical scheme, through set up the fastener on the sliding compartment, make the fastener can block on the one side of keeping away from the balladeur train two on the balladeur train one or keep away from the balladeur train one on the balladeur train two, and then make the sliding compartment can sliding connection on balladeur train one and balladeur train two, reduce the probability that sliding compartment and translation mechanism break away from the connection.

Optionally, extension plates are arranged at two ends of the frame body, a plurality of fixing bolts are connected to the extension plates in a threaded mode, the length directions of the fixing bolts are parallel to the length direction of the frame body, and the fixing bolts are used for abutting against the wall body.

Through adopting above-mentioned technical scheme, through setting up the extension board on the support body, make the extension board can set up outside the wall body both sides, through set up fixing bolt on the extension board, the user of service can be with fixing bolt butt on the wall body, and then play the effect of connecting the support body on the wall body.

To sum up, the beneficial technical effect of this application does:

1. the sliding platform is arranged on the frame body, the power mechanism is arranged on the sliding platform, the sliding platform can move on the frame body in a reciprocating mode, the translation mechanism is arranged on the sliding platform and can drive the pressing mechanism to move on the sliding platform, the digital resiliometer is arranged on the pressing mechanism and can enable the pressing mechanism to enable the digital resiliometer to be abutted against the wall body and to perform detection, a user can enable the sliding platform to slide on the frame body to adjust the detection position of the digital resiliometer, the translation mechanism is arranged on the sliding platform and enables the digital resiliometer to move in a small range of a region to be detected, the digital resiliometer can perform multiple detections in the region to be detected, the detection accuracy is improved, and the effect of facilitating a constructor to detect the wall body with a large surface area is achieved;

2. the first sliding frame pushes the pressing mechanism to enable the pressing mechanism to slide along the length direction of the second sliding frame when the first sliding frame moves, and the second sliding frame pushes the pressing mechanism to enable the pressing mechanism to slide along the length direction of the first sliding frame when the second sliding frame moves, so that the pressing mechanism can move along the two directions through the first linear motor and the second linear motor respectively;

3. through set up the extension board on the support body, make the extension board can set up outside the wall body both sides, through set up fixing bolt on the extension board, the user of service can be with fixing bolt butt on the wall body, and then play the effect of connecting the support body on the wall body.

Drawings

Fig. 1 is a schematic view of a use state of an embodiment of the present application.

Fig. 2 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 3 is a schematic view of a mounting structure of the translation mechanism according to the embodiment of the present application.

Fig. 4 is a schematic structural diagram of a pressing mechanism according to an embodiment of the present application.

Reference numerals: 1. a frame body; 11. a cavity; 13. an extension plate; 14. fixing the bolt; 2. a sliding platform; 3. a power mechanism; 30. a shaft seat; 31. a wind-up roll; 32. a rope; 33. a motor; 4. a translation mechanism; 41. a first linear motor; 42. a second linear motor; 43. a first sliding frame; 44. a second sliding frame; 5. a pressing mechanism; 51. a sliding cabin; 511. a fastener; 52. mounting the cylinder; 53. an electric push rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses wall body detection structure for building engineering. Referring to fig. 1 and 2, the frame body 1 includes a frame body 1, and the frame body 1 is an elongated plate-shaped structure, and the frame body 1 is used for being mounted on a concrete slab. Sliding connection has sliding platform 2 on support body 1, sliding platform 2 can follow 1 length direction reciprocating slide of support body, be provided with translation mechanism 4 on sliding platform 2, be connected with hold-down mechanism 5 on translation mechanism 4, translation mechanism 4 is used for driving hold-down mechanism 5 and removes along two directions of relative sliding platform 2 sliding direction parallel and vertically on support body 1, hold-down mechanism 5 is used for installing digital resiliometer and pushes up digital resiliometer on concrete slab, thereby accomplish and measure.

Referring to fig. 1 and 2, the frame body 1 is provided with two extension plates 13, the extension plates 13 are fixedly connected to the frame body 1 by welding or bolts, and the extension plates 13 are disposed at two ends of the frame body 1 in the length direction. The extension plate 13 is provided with a plurality of fixing bolts 14, the fixing bolts 14 penetrate through the extension plate 13 and are in threaded connection with the extension plate 13, and the length direction of the fixing bolts 14 is parallel to the length direction of the frame body 1. The user can set the two extension plates 13 on both sides of the concrete slab, and by screwing the fixing bolt 14, the end of the fixing bolt 14 abuts against the side wall of the concrete slab, thereby achieving the effect of connecting the frame body 1 to the concrete slab.

Referring to fig. 1 and 2, a cavity 11 is formed in the frame body 1, the length direction of the cavity 11 is parallel to the length direction of the frame body 1, a sliding groove is formed in the inner side wall of the cavity 11, and the sliding platform 2 is embedded into the frame body 1 through the sliding groove and is connected to the frame body in a sliding mode, so that the sliding platform 2 can slide in the cavity 11. Two power mechanisms 3 are arranged on the sliding platform 2, the two power mechanisms 3 are respectively arranged at two ends of the cavity 11, the power mechanisms 3 are arranged on two opposite outer side walls of the sliding platform 2, and the power mechanisms 3 are used for driving the sliding platform 2 to slide in a reciprocating mode.

Referring to fig. 2, the power mechanism 3 includes a wind-up roller 31, a rope 32, and a motor 33. The frame body 1 is provided with a plurality of shaft seats 30, the shaft seats 30 are divided into two groups, the two groups of shaft seats 30 are respectively arranged at the end parts in the length direction in the cavity 11, and the shaft seats 30 are fixed on the frame body 1 through welding or bolts. The winding roller 31 is rotatably connected in the cavity 11 through the shaft seat 30, one end of the rope 32 is fixed on the winding roller 31 through adhesion, and the other end of the rope is fixed on the sliding platform 2 through adhesion. The casing of motor 33 is fixed on axle bed 30, and the output shaft coaxial coupling of motor 33 is on wind-up roll 31, and user can control wind-up roll 31 through motor 33 and rotate, and then plays the effect that makes rope 32 pulling sliding platform 2, and user can make sliding platform 2 pass through two ropes 32 and reciprocate to slide in cavity 11 through controlling two motors 33 simultaneously and rotating.

Referring to fig. 3, the sliding platform 2 is a rectangular frame structure, and the sliding platform 2 is connected with each other by four plates and forms a frame structure. The translation mechanism 4 includes two linear motors one 41, two linear motors two 42, a carriage one 43, and a carriage two 44. The two linear motors I41 are respectively arranged on two opposite inner side walls of the sliding platform 2, stators of the linear motors I41 are fixed on the sliding platform 2 through bolts, and two ends of the sliding frame I43 are respectively fixed on a rotor of one linear motor I41. The user can control the sliding of the first carriage 43 through the first linear motor 41. The second linear motor 42 is vertical to the first linear motor 41, the two second linear motors 42 are respectively arranged on two opposite inner side walls of the sliding platform 2, stators of the second linear motors 42 are fixed on the sliding platform 2 through bolts, two ends of the second sliding frame 44 are respectively fixed on a rotor of the second linear motor 42, and the first sliding frame 43 is vertical to the second sliding frame 44. The first sliding frame 43 and the second sliding frame 44 are both provided with sliding grooves, the length direction of the sliding grooves on the first sliding frame 43 is parallel to the length direction of the first sliding frame 43, and the length direction of the sliding grooves on the second sliding frame 44 is parallel to the length direction of the second sliding frame 44. The pressing mechanism 5 is inserted into the first carriage 43 and the second carriage 44, the pressing mechanism 5 is in a rectangular long structure, the pressing mechanism 5 abuts against the inner side wall of the sliding chute in the first carriage 43, and the pressing mechanism 5 abuts against the inner side wall of the sliding chute in the second carriage 44. When a user controls the first linear motor 41 to operate, the first carriage 43 slides, so that the first carriage 43 can clamp the pressing mechanism 5 and the pressing mechanism 5 can slide on the second carriage 44, and when the second linear motor 42 operates, the second carriage 44 slides, so that the second carriage 44 can clamp the pressing mechanism 5 and the pressing mechanism 5 can slide on the first carriage 43. In the process that the translation mechanism 4 drives the pressing mechanism 5 to move, the length direction of the pressing mechanism 5 is unchanged, so that the digital rebound instrument in the pressing mechanism 5 can be always perpendicular to the concrete slab, and the measurement precision is improved.

Referring to fig. 4, the pressing mechanism 5 includes a slide compartment 51, a mounting cylinder 52, and an electric push rod 53. The sliding compartment 51 is a rectangular cylindrical structure, the sliding compartment 51 is inserted into the first carriage 43 and the second carriage 44, and the sliding compartment 51 can slide on the first carriage 43 and the second carriage 44. Two clamping pieces 511 are arranged on the outer side wall of the sliding cabin 51, and the clamping pieces 511 are used for abutting against one side of the first sliding frame 43 far away from the second sliding frame 44 or one side of the second sliding frame 44 far away from the first sliding frame 43, so that the probability that the sliding cabin 51 is disconnected from the translation mechanism 4 is reduced. The first carriage 43 and the second carriage 44 are both perpendicular to the sliding compartment 51. The mounting cylinder 52 is inserted and slidably coupled in the slide compartment 51, and a user can insert the digital resiliometer into the mounting cylinder 52. Electric putter 53 sets up on sliding compartment 51 outer terminal surface, and electric putter 53 passes through the bolt fastening on sliding compartment 51, and electric putter 53's push rod runs through sliding compartment 51 and fixed connection is on installation section of thick bamboo 52, and the user can be through the flexible electric putter 53 of control, and then makes installation section of thick bamboo 52 can follow the sliding compartment 51 roll-off to reach and make the automatic effect of butt on concrete slab of digital resiliometer.

The implementation principle of the embodiment of the application is as follows: through set up sliding platform 2 on support body 1, make sliding platform 2 can slide on support body 1, through set up power unit 3 in sliding platform 2 both sides, make power unit 3 can drive sliding platform 2 and slide, through set up translation mechanism 4 on sliding platform 2, make translation mechanism 4 can drive pressing mechanism 5 freely slide in two mutually perpendicular's direction, and then make pressing mechanism 5 can drive digital resiliometer and detect concrete slab in different positions, play the effect of conveniently detecting the great wall body of surface area.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a wall body detects structure for building engineering which characterized in that: including support body (1), sliding connection has sliding platform (2) on support body (1), be provided with power unit (3) on sliding platform (2), power unit (3) are used for driving sliding platform (2) and slide along support body (1) length direction, be provided with translation mechanism (4) on sliding platform (2), be connected with pressing means (5) on translation mechanism (4), pressing means (5) are used for installing digital resiliometer, pressing means (5) are used for making digital resiliometer butt on the wall body, translation mechanism (4) are used for driving pressing means (5) and remove.

2. The wall body detection structure for the building engineering according to claim 1, characterized in that: power unit (3) set up to two, two power unit (3) set up respectively at support body (1) length direction's both ends, sliding platform (2) are located between two power unit (3), power unit (3) are including wind-up roll (31), rope (32) and motor (33), wind-up roll (31) are rotated and are connected on support body (1), rope (32) one end is fixed on wind-up roll (31), the other end is fixed on sliding platform (2), motor (33) set up on support body (1), motor (33) are used for driving wind-up roll (31) and rotate.

3. The wall body detection structure for the building engineering according to claim 2, characterized in that: the translation mechanism (4) comprises a first linear motor (41) and a first sliding frame (43), a stator of the first linear motor (41) is fixed on the sliding platform (2), the first sliding frame (43) is connected to a rotor of the first linear motor (41), the pressing mechanism (5) is connected with the first sliding frame (43), and the first linear motor (41) drives the pressing mechanism (5) to move through the first sliding frame (43).

4. A wall detecting structure for construction engineering according to claim 3, wherein: the sliding platform (2) is provided with a second linear motor (42), the length direction of the second linear motor (42) is perpendicular to the first linear motor (41), a second sliding frame (44) is arranged on a rotor of the second linear motor (42), the second sliding frame (44) is connected with the pressing mechanism (5), and the second sliding frame (44) is used for driving the pressing mechanism (5) to move.

5. The wall body detection structure for the building engineering according to claim 4, wherein: the first sliding frame (43) is provided with a sliding groove, the second sliding frame (44) is provided with a sliding groove, the pressing mechanism (5) is inserted into the first sliding frame (43) and the second sliding frame (44), and the pressing mechanism (5) can slide in the first sliding frame (43) and the second sliding frame (44).

6. The wall body detection structure for the building engineering according to claim 5, characterized in that: pressing means (5) are including sliding compartment (51), installation section of thick bamboo (52) and electric putter (53), carriage one (43) and carriage two (44) all with sliding compartment (51) sliding connection, carriage one (43) and carriage two (44) all are perpendicular with sliding compartment (51), installation section of thick bamboo (52) sliding connection is in sliding compartment (51), electric putter (53) set up on sliding compartment (51), the push rod of electric putter (53) is connected on installation section of thick bamboo (52), installation section of thick bamboo (52) are used for installing digital resiliometer, electric putter (53) are used for driving installation section of thick bamboo (52) and slide.

7. The wall body detection structure for the building engineering according to claim 6, characterized in that: the sliding cabin (51) is provided with a clamping piece (511), the clamping piece (511) abuts against the first sliding frame (43) or the second sliding frame (44), and the clamping piece (511) is used for keeping the sliding cabin (51) in sliding connection with the first sliding frame (43) and the second sliding frame (44).

8. The wall body detection structure for the building engineering according to claim 1, characterized in that: the wall-mounted frame is characterized in that extension plates (13) are arranged at two ends of the frame body (1), a plurality of fixing bolts (14) are connected to the extension plates (13) in a threaded mode, the length directions of the fixing bolts (14) are parallel to the length direction of the frame body (1), and the fixing bolts (14) are used for being abutted to a wall body.

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