CN217236672U - Modularization building wall thickness testing arrangement - Google Patents

Abstract

The utility model discloses a modular building wall thickness testing device, which relates to the building wall technical field, the device is divided into a ruler shell part, a measuring part and a hand shaking part, wherein the measuring device is arranged above the ruler shell, the measuring device and the ruler shell are movably connected, the hand shaking device is arranged below the ruler shell, the hand shaking part and the ruler shell are fixedly connected, the device can be clamped in the measuring device through the wall body, then screwing screws at the left end and the right end of the ruler shell are screwed to ensure that a movable marker post is tightly attached to the wall surface, the position counting of a scale vernier on a scale groove is observed, a rectangular light is arranged at the top of the shell, the width of the light on the wall is utilized to determine whether the remote wall surface is as thick as the detected place, the hand shaking part is used to move the testing device to measure the thickness of the whole wall surface, the device ensures the detection precision, and avoids the problem that the traditional worker needs to take a lot of time for comparing and holding ruler type objects for many times, the problem of measurement error is caused by multiple measurements, and the test speed is improved.

Description

Modularization building wall thickness testing arrangement

Technical Field

The utility model relates to a wall body thickness test device is a modularization building wall body thickness test device particularly.

Background

The building wall mainly comprises a bearing wall and a non-bearing wall, wherein the bearing wall mainly plays a role of supporting an upper building, the non-bearing wall mainly plays a role of enclosing and separating a space, bearing and enclosing are integrated, the framework structure building wall is used for enclosing and separating the space, the wall has a certain thickness specification, the wall needs to have enough strength and stability, the enough stability is that the thicker the wall is, the better the wall is, when the thickness of the building is too thick, the problem of poor heat dissipation can occur, when the heat dissipation of the building is required to be ensured to be uniform, the thickness of the wall is required to be ensured not to be too thick when the building is built, the heat dissipation of the too thick wall is not good, and the temperature inside the building is not easy to reduce.

In order to ensure the quality of the building engineering, the thickness detection of the wall body is required, the detection is an important link for judging whether the building quality meets the design requirement, the detection point is generally selected from a bearing wall, a related window and the like, or the end side of the indoor bearing wall, the traditional wall thickness detection is generally carried out by articles such as handheld calipers, the traditional measuring tool is inconvenient to measure at a high place or a dangerous window side, the traditional measuring tool can only detect the thickness of a measuring point and cannot directly detect a line or a surface, particularly when a single wall body needs to be measured for multiple times from top to bottom, need the staff to hold caliper class article and compare for a large amount of times and consume a large amount of time, also easily cause great detection error, what traditional measuring tool's scale rod adopted is the metal material, causes this problem of scale mark wearing and tearing on the chi shell easily when sliding scale rod.

SUMMERY OF THE UTILITY MODEL

To the problem in the background art, the utility model provides a simple multi-functional wall thickness measuring device solves the limitation problem that prior art measuring device can only measure a point.

In order to achieve the above object, the basic scheme of the utility model provides a modularization building wall thickness testing arrangement, including the chi shell, measuring part, the part of gripping, the chi shell part includes the scale mark, screw, the spring, the part of shaking hands includes U type handle, measuring part includes the removal sighting rod, location sighting rod, T type slider, gyro wheel, removal connecting rod, rectangle light, baffle, measuring part is located the top of chi shell and is sliding connection with the chi shell, the U type handle of the part of shaking hands is located the below of chi shell and is fixed connection with the chi shell, open the slide in the chi shell, the slide link up the upper and lower face of chi shell and the preceding of chi shell, the scale mark is carved in the front of chi shell, the removal sighting rod is at the left end of chi shell, the bottom fixed connection T type slider of removal sighting rod, the inboard alignment of T type slider and removal sighting rod and fixed connection, the slide removal connection in T type slider and the chi shell, the one end that removes the sighting rod and being close to the chi shell terminal surface is equipped with the screw thread section, the spring housing is established on removing the sighting rod, the screw has been placed to the left end of chi shell, the surface of screw has cup jointed the spring, the threaded end and the chi shell screw thread section threaded connection of screw, the right-hand member fixed connection of location sighting rod and chi shell, rectangle light has all been installed at the top of removing the sighting rod and location removal sighting rod, the bottom surface of rectangle light and the top surface of removing the sighting rod are fixed connection, the light-emitting window that has the light is seted up at rectangle light top, the top surface top of light-emitting window is equipped with the baffle, that one side that rectangle light is close to the chi shell terminal surface sets up threaded hole, this threaded hole and removal connecting rod threaded connection, the removal connecting rod is the buckle with the baffle and is connected, control the width that baffle light blocking part is controlled through the rotating removal connecting rod, thereby control the irradiant width of light-emitting window.

Compared with the prior art, the utility model discloses an effect: the wall body to be measured is placed between the movable marker post and the positioning marker post, then the movable marker post is moved to enable the wall body to be clamped by the two marker posts, the thickness of the wall body to be measured can be read on the ruler shell by utilizing the T-shaped sliding block fixedly connected with the lower surface of the movable marker post, then the device is fixed on the wall surface, then the rectangular light device is opened, the bottom surface of the rectangular light and the top surface of the movable marker post are fixedly connected, the top of the rectangular light is provided with a light outlet of light, a baffle is arranged above the light outlet, the rectangular light is provided with a threaded hole at one side close to the end surface of the ruler shell, the threaded hole is in threaded connection with the movable connecting rod, the movable connecting rod is in buckle connection with the baffle, the buckle adopts a universal expansion screw buckle, the buckle of the buckle is fixed on the baffle, the clamping groove of the buckle is fixed on the movable connecting rod, and the baffle is connected with the movable connecting rod through the corresponding connection of the buckle and the clamping groove, the width of the light blocking part of the baffle is controlled by rotating the movable connecting rod, when the moving distance of the movable mark post is adjusted, the clamp on the baffle is connected with the clamping groove on the movable mark post through a buckle, the baffle is fixed, thereby controlling the illumination width of the light outlet, the allowable error range of the wall thickness is adjusted by adjusting the width of the light outlet, after the width of the light outlet is adjusted, when the detection device is placed on the measured wall surface, the two movable mark posts are clamped on the wall surface by using the screw device outside the ruler shell, then the lighting device is turned on, and the human eyes are used to observe whether the emitted light is on the detected wall surface along the light path, when the light at a certain point disappears, the observation result shows that the thickness of the point is too thick compared with the standard thickness, which does not meet the requirement of the wall thickness of people, and the technical defect that the original measuring tool can only detect the wall thickness of the measuring point is overcome.

Furthermore, the ruler also comprises a positioning mark post which is connected with the ruler shell in a sliding way.

Compared with the prior art, the utility model discloses an effect: the one end that the location sighting rod is being close to the chi shell terminal surface is equipped with the screw thread section, the spring housing is established on the location sighting rod, the screw has been placed to the right-hand member of chi shell, the spring has been cup jointed to the surface of screw, the screw thread end and the chi shell screw thread section threaded connection of screw, two sighting rods all can be removed like this, such setting can be convenient reading and convenient measurement measuring being measured, it will be faster than removing a sighting rod through removing two sighting rods when measuring, this sets up and can let testing arrangement's removal sighting rod can follow optional position and begin to measure, need not adjust a certain fixed position and just can measure, the extravagant measuring time of sighting rod has been reduced because of adjusting to remove, the time cost of manual measurement has been reduced.

Furthermore, the upper bottom surface, the lower bottom surface and the front surface of the ruler shell are provided with scale marks, the 0 scale mark of the front scale mark is arranged in the middle of the ruler shell, the 0 scale mark of the upper scale mark of the ruler shell is arranged at the left end of the ruler shell, and the 0 scale mark of the lower scale mark of the ruler shell is arranged at the right end of the ruler shell.

Compared with the prior art, the utility model discloses an effect: the inconvenience that the reading can be only carried out on one side during the measurement is solved. The measuring speed is improved, and the measuring cost is reduced.

Furthermore, a T-shaped handle is arranged in the middle of the U-shaped handle, and the T-shaped handle is connected with the U-shaped handle through a buckle. 2U type handle, 3T type handle

Compared with the prior art, the utility model discloses an effect: the checkpost part of fixed connection buckle on the U type handle, the draw-in groove part of fixed connection buckle on the T type handle, constitute the buckle through the checkpost on the U type handle and the draw-in groove part on the T type handle and be connected, just go on the T type handle when needing T type handle, just can connect T type handle through the buckle when not needing T type handle and take off T type handle, the thickness of measurement eminence or window department wall body that T type handle can be convenient has been increased, the trouble of carrying appurtenance and just can measuring because of the difficult measurement of eminence has been reduced, the people has been reduced and has been close to dangerous local measurements such as window eminence and the unexpected risk appears.

Furthermore, the T-shaped sliding block is made of plastic materials on one side close to the ruler shell.

Compared with the prior art, the utility model discloses an effect: the T-shaped sliding block needs a large amount of reciprocating motion in data measurement, the scales on the ruler shell can be abraded by the large amount of reciprocating motion, the problem that the T-shaped sliding block damages the numbers on the scale marks in the friction process is solved by adopting plastic materials, the reading accuracy is improved, the service life of a detection tool is prolonged, and the cost for frequently purchasing the measurement tool due to too fast damage is saved.

Furthermore, 2 rollers are arranged in the slot of the movable mark post.

Compared with the prior art, the utility model discloses an effect: the contact area between the movable marker post and the wall body is reduced by the roller, and the sliding of the movable marker post is facilitated when the wall is measured.

Furthermore, a nose ring is fixedly connected to the right side of the ruler shell.

Compared with the prior art, the utility model discloses an effect: when the measuring device is not used, the device can be hung by the nose ring, the device is prevented from being rusted by water on the ground due to the fact that the device is placed on the ground, the service life of the device is further prolonged, and the device can be prevented from being rusted by water on the ground when hung on a wall by the nose ring, so that the service life of the device is prolonged.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

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

FIG. 2 is a schematic view of the movable marker post of the present invention;

FIG. 3 is a schematic view of the lifting handle of the present invention;

fig. 4 shows the structure of the rectangular light baffle device of the present invention.

The meaning of each number in the figure: the device comprises a spring 1, a U-shaped handle 2, a T-shaped handle 3, a nose ring 4, a ruler shell 5, a moving mark post 6, a roller 7, a T-shaped sliding block 8, a screwing screw 9, a moving connecting rod 10, a baffle 11, rectangular lamplight 12 and a measured wall body 13.

Detailed Description

As shown in figure 1, the modularized building wall thickness testing device comprises a ruler shell 5, a measuring part and a holding part, wherein the ruler shell 5 comprises scale marks, a screwing screw 9 and a spring 1, the gripping part comprises a U-shaped handle 2, the measuring part comprises a movable mark post 6, a positioning mark post, a T-shaped slider 8, a roller 7, a movable connecting rod 10, a rectangular lamp 12 and a baffle 11, the measuring part is positioned above the ruler shell 5 and is in sliding connection with the ruler shell 5, the U-shaped handle 32 of the gripping part is positioned below the ruler shell 5 and is fixedly connected with the ruler shell 5, a slide way is arranged inside the ruler shell 5 and penetrates through the upper surface and the lower surface of the ruler shell 5 and the front surface of the ruler shell 5, the scale marks are carved on the front surface of the ruler shell 5, the movable mark post 6 is positioned at the left end of the ruler shell 5, the bottom of the movable mark post 6 is fixedly connected with the T-shaped slider 8, the T-shaped slider 8 is aligned and fixedly connected with the inner side of the movable mark post 6, the T-shaped sliding block 8 is movably connected with an inner slide way of the ruler shell 5, a threaded section is arranged at one end of the movable mark post 6 close to the end face of the ruler shell 5, the spring 1 is sleeved on the movable mark post 6, a screw is placed at the left end of the ruler shell 5, the spring 1 is sleeved on the outer surface of the screw, the threaded end of the screw is in threaded connection with the threaded section of the ruler shell 5, the positioning mark post is fixedly connected with the right end of the ruler shell 5, rectangular lamp light 12 is installed at the top of the movable mark post 6 and the top of the positioning mark post, the rectangular lamp light 12 adopts ccd bar lamp light, parallel light is emitted by the ccd bar lamp light, the intensity of the light is higher than that of a common bar lamp light, the detection of a long-distance wall surface is facilitated, the bottom surface of the rectangular lamp light 12 is fixedly connected with the top surface of the movable mark post 6, a light outlet is formed at the top of the rectangular lamp light 12, a baffle plate 11 is arranged above the light outlet, a threaded hole is formed in one side of the rectangular lamp light 12 close to the end face of the ruler shell 5, the threaded hole is in threaded connection with the movable connecting rod 10, the movable connecting rod 10 is in buckle connection with the baffle 11, the buckle adopts a universal expansion screw buckle, a clip of the buckle is fixed on the baffle 11, a clamping groove of the buckle is fixed on the movable connecting rod 10, the baffle 11 is connected with the movable connecting rod 10 through the corresponding connection of the clip and the clamping groove, the thread pitch of the thread on the movable connecting rod 10 is 0.4mm, each circle of thread on the movable connecting rod 10 is provided with a corresponding digital mark, the digital mark is that each circle of thread from 0 to 300 from the bottom to the top of the movable mark post 6 is provided with a corresponding digital mark, the moving distance of the movable mark post 6 can be determined by observing the digital mark, the width of the light blocking part of the baffle 11 is controlled by rotating the movable connecting rod 10, when the moving distance of the movable mark post 6 is adjusted, the clip on the baffle 11 is in buckle connection with the clamping groove on the movable mark post 6, then the baffle 11 is fixed, thereby controlling the illumination width of the light outlet, and the allowable error range of the wall thickness is adjusted by adjusting the width of the light outlet, for example, when the allowable error range of the wall construction is 1-2CM, the width of the light outlet is adjusted to 2CM by using the baffle at the movable light outlet, after the width of the light outlet is adjusted, when a detection device is placed on the detected wall surface, two movable mark posts 6 are used for clamping the wall surface by using a screw device outside the ruler shell 5, then the light device is opened, whether the emitted light is on the detected wall surface is observed by using human eyes along the path of the light, and when the light at a certain point disappears, the thickness of the point is known to be too thick than the standard thickness, and the requirement of the wall thickness is not met.

The color of the light in the rectangular light 12 is red, and the red light is beneficial to observing whether the light is on the wall surface under strong light in daytime.

The color of the light in the rectangular light 12 is white, which is beneficial to observing whether the light is on the wall surface at night when the light is not strong.

As shown in fig. 1, 4 the location sighting rod and the chi shell sliding connection, the location sighting rod is equipped with the screw thread section near the one end of 5 terminal surfaces of chi shell, spring 1 cover is established on the location sighting rod, the screw has been placed to the right-hand member of chi shell 5, spring 1 has been cup jointed to the surface of screw, the screw thread end and the 5 screw thread section threaded connection of chi shell of screw, two sighting rods all can be removed like this, such setting can be convenient to measure reading and convenient measurement, it will be faster than removing a sighting rod to remove two sighting rods when measuring, this setting can let testing arrangement's removal sighting rod 6 can follow the optional position and begin to measure, need not adjust to a certain fixed position and just can measure, the measuring time of wasting because of adjusting removal sighting rod 6 has been reduced, the time cost of manual measurement has been reduced.

As shown in figure 1, the scale marks are arranged on the upper bottom surface, the lower bottom surface and the front surface of the ruler shell 5, the 0 scale of the front scale mark is in the middle position of the ruler shell 5, the 0 scale position of the scale mark on the ruler shell 5 is at the left end of the ruler shell 5, and the 0 scale position of the scale mark below the ruler shell 5 is at the right end of the ruler shell 5.

As shown in figures 1 and 3, T-shaped handle 3 is installed at the middle position of U-shaped handle 2, the T-shaped handle 3 is connected with the U-shaped handle 2 through a buckle, the buckle is connected through a universal expansion screw buckle, a buckle is fixed at the bottom of U-shaped handle 2, a clamping groove of the buckle is fixed at the top of T-shaped handle 3, the buckle is connected through the buckle, so that the T-shaped handle 3 is convenient to detach when not needed, the buckle connection design and processing are simple and convenient, the use is not complicated, and the operability of manual measurement is facilitated.

The T-shaped sliding block 8 shown in figure 1 is made of plastic materials and is arranged on one side close to the ruler shell 5, the T-shaped sliding block 8 needs to reciprocate on the ruler shell 5, a large amount of reciprocating motion will cause abrasion of the T-shaped sliding block 8 to scale marks on the ruler shell 5, the T-shaped sliding block 8 made of plastic can reduce abrasion of the scale marks on the ruler shell 5, 2-3CM (CM) of the T-shaped sliding block 8 close to the ruler shell 5 is made of plastic materials, and the design is to avoid damage of the scale marks due to friction between the tail end of the T-shaped sliding block 8 made of metal materials and the scale marks in sliding, so that reading inaccuracy is caused.

As shown in figures 1 and 2, 2 rollers 7 are installed in the grooves of the movable marker post 6, the side faces, opposite to the two marker posts, of each marker post are provided with a groove, a fixed cylinder is arranged in the middle of each groove, the rollers 7 are installed on the cylinders, the rollers 7 and the cylinders are connected in a rotating mode, the rollers 7 are arranged to facilitate the movement of the marker posts between the wall bodies, and therefore the situation that the marker posts are not sensitive to movement on the wall surface due to the fact that the marker posts are flat surfaces is avoided, measuring time is wasted, and measuring labor cost is increased.

As shown in figure 1, the nose ring 4 is fixedly connected to the right side of the ruler shell 5, when the measuring device is not used, the device can be hung by the nose ring 4, the phenomenon that the device is placed on the ground so that water on the ground can corrode the device is avoided, the service life of the device is further shortened, and when the device is hung on a wall by the nose ring 4, the device can be prevented from being corroded by the water on the ground, so that the service life of the device is prolonged.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention.

Claims (7)

1. The utility model provides a modularization building wall thickness testing arrangement which characterized in that: the measuring part comprises a U-shaped handle, the U-shaped handle of the holding part is positioned below the ruler shell and is fixedly connected with the ruler shell, a slide way is arranged inside the ruler shell and penetrates through the upper surface and the lower surface of the ruler shell and the front surface of the ruler shell, the scale mark is carved on the front surface of the ruler shell, the movable mark rod is arranged at the left end of the ruler shell, the T-shaped slide block is fixedly connected with the bottom of the movable mark rod, the T-shaped slide block is aligned and fixedly connected with the inner side of the movable mark rod, the T-shaped slide block is movably connected with the slide way in the ruler shell, a threaded section is arranged at one end of the movable mark rod close to the end surface of the ruler shell, and the spring is sleeved on the movable mark rod, the screw has been placed to the left end of chi shell, the spring has been cup jointed to the surface of screw, the threaded end and the chi shell screw thread section threaded connection of screw, the right-hand member fixed connection of location sighting rod and chi shell, rectangle light has all been installed at the top of removing sighting rod and location sighting rod, the bottom surface of rectangle light and the top surface of removing the sighting rod are fixed connection, the light-emitting window of light is seted up at rectangle light top, the top surface top of light-emitting window is equipped with the baffle, rectangle light is close to that one side of chi shell terminal surface and has seted up threaded hole, this screw hole and movable connecting rod threaded connection, movable connecting rod is the buckle with the baffle and is connected.

2. The modular building wall thickness testing device of claim 1, wherein: the positioning mark post is connected with the ruler shell in a sliding way.

3. The modular building wall thickness test device of claim 1, wherein: the upper bottom surface, the lower bottom surface and the front surface of the ruler shell are provided with scale marks, the 0 scale of the scale mark in the front surface is arranged in the middle of the ruler shell, the 0 scale position of the scale mark on the ruler shell is arranged at the left end of the ruler shell, and the 0 scale position of the scale mark on the lower surface of the ruler shell is arranged at the right end of the ruler shell.

4. The modular building wall thickness testing device of claim 1, wherein: the T-shaped handle is arranged in the middle of the U-shaped handle, and the T-shaped handle is connected with the U-shaped handle through a buckle.

5. The modular building wall thickness testing device of claim 1, wherein: the T-shaped sliding block is made of plastic materials at one side close to the ruler shell.

6. The modular building wall thickness testing device of claim 1, wherein: 2 rollers are arranged in the moving mark post groove.

7. The modular building wall thickness testing device of claim 1, wherein: the right side of the ruler shell is fixedly connected with a nose ring.

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