CN115046485A - Wall thickness measuring device for building engineering design management - Google Patents

Abstract

The invention provides a wall thickness measuring device for building engineering design management, which relates to the technical field of building construction and comprises the following components: a main body and a connector; the main body is provided with two groups which respectively comprise an upper connecting plate and a lower connecting plate; the upper connecting plate is rotatably connected with the lower connecting plate, the outer side end faces of the upper connecting plate and the lower connecting plate are respectively rotatably connected with an adjusting rod, the inner side end faces of the upper connecting plate and the lower connecting plate are respectively connected with an inner supporting wheel, the adjusting rods are respectively sleeved with a spring and a sliding sleeve in a sliding mode, and the connecting piece comprises a first clamping connecting rod, a second clamping connecting rod and a clamping sleeve; the first clamping connecting rods and the second clamping connecting rods are respectively provided with two groups, one ends of the two groups of first clamping connecting rods and one ends of the two groups of second clamping connecting rods are respectively provided with a clamping sleeve, and the clamping sleeves are clamped on the support rods in a sliding mode. The thickness of the wall can be measured inwards, and the laser distance measuring device can be adjusted in an inclined mode along with unevenness of the wall when the wall is measured up and down, so that the measurement is more accurate; the problem of need inwards measure the thickness of partition wall, measure troublesome is solved.

Description

Wall thickness measuring device for building engineering design management

Technical Field

The invention relates to the technical field of building construction, in particular to a wall thickness measuring device for building engineering design management.

Background

In the construction, need be to the thickness detection measurement of construction wall, be as follows application number: CN201910668751.3 discloses a wall thickness measuring device convenient to it is flexible, including the slide bar, the bottom swing joint of roof has the connecting rod, the bottom swing joint of connecting rod has the contact piece, the middle part swing joint of slide bar has the tooth post, the slide bar is close to the left upper end swing joint of tooth post and has the telescoping device, the left and right sides swing joint of positioning seat bottom has two springs, the telescoping device includes circle piece, cylinder head, commentaries on classics handle, base, circular orbit, gear, the cylinder head is with circular orbit toothing, gear swing joint is in circular orbit's right-hand member, gear and tooth post toothing. This wall thickness measurement device convenient to it is flexible uses through the cooperation of slide bar, roof, connecting rod, contact block, has reached simple structure, and the effect of reading accuracy is used through the cooperation of cylinder head and ring rail, gear and tooth post, has reached the light effect of operation.

When the partition wall thickness to in the room is measured, need measure the upper and middle lower position of wall respectively usually, and can be more troublesome when adopting the tape measure to measure one by one, not only need measure the thickness of partition wall section department moreover, still need inwards measure the thickness of partition wall the inside, measure more troublesome.

Disclosure of Invention

In view of the above, the present invention provides a wall thickness measuring device for building engineering design management, which is capable of measuring the thickness of a wall at an end face not only but also inward, and when measuring up and down, the laser distance measuring device is inclined and adjusted along with the unevenness of the wall, so that the measurement is more accurate.

The invention provides a wall thickness measuring device for building engineering design management, which specifically comprises: a main body and a connector;

the main body is provided with two groups, and the two groups respectively comprise an upper connecting plate, a lower connecting plate, an adjusting rod, a spring, a sliding sleeve, a support rod and an inner support wheel; the upper connecting plate is rotatably connected with the lower connecting plate, the outer side end faces of the upper connecting plate and the lower connecting plate are respectively rotatably connected with an adjusting rod, the inner side end faces of the upper connecting plate and the lower connecting plate are respectively connected with an inner supporting wheel, the outermost ends of the adjusting rods are respectively provided with an outer baffle, a spring and a sliding sleeve are respectively sleeved on the adjusting rods in a sliding mode, the spring is arranged among the upper connecting plate, the lower connecting plate and the sliding sleeve, one end of each supporting rod is fixedly connected with the middle of one end of the sliding sleeve, the other end of each supporting rod is provided with an inner threaded hole, and the outer side end face of each supporting rod is further provided with a scale mark; the connecting piece comprises a first clamping connection rod, a second clamping connection rod and a clamping sleeve; the clamping device is characterized in that the first clamping connecting rods and the second clamping connecting rods are respectively provided with two groups, one ends of the two groups of first clamping connecting rods and one ends of the second clamping connecting rods are respectively provided with a clamping sleeve, the clamping sleeves are clamped on the support rods in a sliding mode, the other ends of the two groups of first clamping connecting rods are fixedly connected with inserting rods, the other ends of the two groups of second clamping connecting rods are provided with sockets, the inserting rods are inserted into the sockets in a sliding mode, U-shaped frames are respectively connected between the two groups of first clamping connecting rods and the two groups of second clamping connecting rods, and the outer side ends of the U-shaped frames are connected with handles.

Optionally, the main part still includes connecting rod, threaded rod, measurement connecting plate, the connecting rod passes through two sets of threaded rods and connects the outer end at two sets of vaulting poles from top to bottom, it is L type structure to measure the connecting plate to connect respectively on the outside terminal surface of upper junction plate and lower connecting plate, still be equipped with spout and level bar on it, and still install laser range unit in the spout, install the level bubble on the level bar.

Optionally, both ends of the connecting rod are respectively provided with a threaded through hole, and the threaded rod passes through the threaded through hole and is screwed into the internal threaded hole.

Optionally, one end of the cutting sleeve is further provided with a notch, the notch is opposite to the scale marks, and the lower end of the notch is provided with an indicating frame of a triangular structure.

Optionally, the upper end of the cutting sleeve is further provided with a threaded cylinder, and a locking screw is screwed in the threaded cylinder through a thread.

Optionally, two groups of the laser ranging devices are provided and respectively comprise a laser transmitter and a laser receiver;

the laser emitter is slidably mounted in the sliding groove on one group of measuring connecting plates, the receiver is slidably mounted in the sliding groove on the other group of measuring connecting plates, the receiver is opposite to the laser emitter, and the receiver is further provided with a circular receiving plate.

Optionally, the laser distance measuring device further comprises a fixing sleeve, a vertical plate and a T-shaped sliding block;

the two ends of the laser transmitter and the receiver are respectively sleeved on the fixing sleeves, one end faces of the two groups of fixing sleeves are respectively attached to two side faces of the measuring connecting plate, the two groups of vertical plates are fixedly connected to the fixing sleeves, the vertical plates are rotatably connected with the T-shaped sliding blocks, the inner side end faces of the laser transmitter are respectively level with the inner side end faces of the inner supporting wheels on the same side at the same level, and the inner side end faces of the receiving plate on the receiver are respectively level with the inner side end faces of the inner supporting wheels on the same side at the same level.

Optionally, the first clamping rod is further provided with a T-shaped groove a, the second clamping rod is further provided with a T-shaped groove B, and the T-shaped sliding blocks are respectively slidably clamped in the T-shaped grooves A, T B.

Advantageous effects

According to the wall thickness measurement of the embodiments of the invention, compared with the traditional measurement device, the wall thickness measurement device can not only measure the wall thickness at the end face, but also measure the wall thickness inwards, and when measuring up and down, the laser distance measurement device can be adjusted obliquely along with the unevenness of the wall, so that the measurement is more accurate.

In addition, through setting up between two sets of main parts and first joint pole and the second joint pole cartridge be connected, link to each other through T type slider slip between laser emitter and the first joint pole, through T type slider sliding connection between receiver and the second joint pole, can outwards stimulate interval between two sets of main parts, and place in the both sides of measuring the wall, and make the interior vaulting wheel hug closely under the effect of spring on the both sides wall of measuring the wall, upwards or move down in the wall both sides through handle thrust unit, utilize the thickness of laser rangefinder measurement wall, still accessible loosen locking screw, and make two sets of main parts move forward, adjust the upper junction plate, lower junction plate and head pole, interval between the second connecting rod, thereby can inwards measure the thickness of partition wall the inside.

In addition, adjust pole and upper junction plate, rotate between the lower connecting plate and be connected, laser emitter, rotate between receiver and the T type slider and be connected, upwards or in the measuring process is carried out to the thickness of partition wall to the gliding device downwards, when the wall unevenness, under the effect of spring, the unevenness and the automatic adjustment of wall can be followed to upper junction plate or lower connecting plate, and laser emitter, receiver can follow upper junction plate or lower connecting plate slope adjustment through measuring the connecting plate, thereby the thickness of measurement wall that can be accurate.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

fig. 1 shows a schematic view of the overall structure of an embodiment according to the present invention;

FIG. 2 shows an enlarged schematic view at A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure at B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic structural view at C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 illustrates a schematic side-up configuration of FIG. 1, in accordance with an embodiment of the present invention;

FIG. 6 illustrates an enlarged structural view at D in FIG. 5 according to an embodiment of the present invention;

FIG. 7 is a schematic view of the embodiment of the invention shown in FIG. 1 with the threaded shaft and locking screw removed;

fig. 8 shows a schematic structural view of a connector in an embodiment according to the invention.

List of reference numerals

1. A main body; 101. an upper connecting plate; 102. a lower connecting plate; 103. adjusting a rod; 1031. an outer baffle; 104. a spring; 105. a sliding sleeve; 1051. a stay bar; 10511. scale lines; 10512. an internally threaded hole; 106. a connecting rod; 1061. perforating the threads; 107. a threaded rod; 108. an inner supporting wheel; 109. measuring a connecting plate; 1091. a chute; 1092. a level bar; 2. a connecting member; 201. a first clamping connection rod; 2011. inserting a rod; 2012. a T-shaped groove A; 202. a second clamping connection rod; 2021. a socket; 2022. a T-shaped groove B; 203. a ferrule; 2031. an indication frame; 2032. a threaded barrel; 204. a U-shaped frame; 2041. a handle; 3. locking the screw; 4. a laser ranging device; 401. a laser transmitter; 402. a receiver; 403. fixing a sleeve; 4031. a vertical plate; 404. t-shaped sliding blocks.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to 8:

the invention provides a wall thickness measuring device for building engineering design management, which comprises: a main body 1 and a connecting piece 2;

the main body 1 is provided with two groups, and respectively comprises an upper connecting plate 101, a lower connecting plate 102, an adjusting rod 103, a spring 104, a sliding sleeve 105, a support rod 1051 and an inner support wheel 108; the upper connecting plate 101 is rotatably connected with the lower connecting plate 102, the outer side end faces of the upper connecting plate 101 and the lower connecting plate 102 are respectively rotatably connected with an adjusting rod 103, the inner side end faces of the upper connecting plate 101 and the lower connecting plate 102 are respectively connected with an inner supporting wheel 108, the outermost ends of the adjusting rods 103 are respectively provided with an outer baffle 1031, springs 104 and sliding sleeves 105 are respectively sleeved on the adjusting rods in a sliding mode, the springs 104 are arranged between the upper connecting plate 101, the lower connecting plate 102 and the sliding sleeves 105, one end of each supporting rod 1051 is fixedly connected with the middle of one end of each sliding sleeve 105, the other end of each supporting rod 1051 is provided with an inner threaded hole 10512, and the outer side end face of each supporting rod 1051 is further provided with a scale mark 10511; the connecting piece 2 comprises a first clamping rod 201, a second clamping rod 202 and a clamping sleeve 203; the first clamping connection rods 201 and the second clamping connection rods 202 are respectively provided with two groups, one ends of the two groups of first clamping connection rods 201 and one ends of the two groups of second clamping connection rods 202 are respectively provided with a clamping sleeve 203, the clamping sleeves 203 are slidably clamped on the supporting rods 1051, the other ends of the two groups of first clamping connection rods 201 are fixedly connected with insertion rods 2011, the other ends of the two groups of second clamping connection rods 202 are provided with sockets 2021, the insertion rods 2011 are slidably inserted into the sockets 2021, U-shaped frames 204 are respectively connected between the two groups of first clamping connection rods 201 and the two groups of second clamping connection rods 202, and the outer ends of the U-shaped frames 204 are connected with handles 2041.

In addition, according to the embodiment of the present invention, as shown in fig. 1, the main body further includes a connecting rod 106, a threaded rod 107, and a measuring connecting plate 109, the connecting rod 106 is connected to the outer ends of the upper and lower sets of supporting rods 1051 through two sets of threaded rods 107, both ends of the connecting rod 106 are respectively provided with a threaded through hole 1061, and the threaded rod 107 passes through the threaded through hole 1061 and is screwed into the internally threaded hole 10512, the measuring connection board 109 is of an L-shaped structure and is respectively connected with the outer side end faces of the upper connection board 101 and the lower connection board 102, a chute 1091 and a level 1092 are further arranged on the device, a laser distance measuring device 4 is further arranged in the chute 1091, a level bulb is arranged on the level 1092, the upper and lower groups of stay bars 1051 are connected by a connecting rod 106, and then when the device is measured to the wall thickness to reciprocating, can not make the device swing, utilize the level bubble on the spirit level 1092 to survey the level condition of measuring connecting plate 109 when measuring simultaneously, and then be convenient for assist the inspection wall and whether level.

In addition, according to the embodiment of the present invention, as shown in fig. 2, one end of the ferrule 203 is further provided with a notch, the notch is opposite to the scale line 10511, and the lower end of the notch is provided with an indication frame 2031 having a triangular structure, and by loosening the locking screw 3, the positions of the two sets of connecting members 2 on the support rod 1051 are adjusted, and the indication frame 2031 having the triangular structure and the scale line 10511 can be used for precise adjustment.

In addition, according to the embodiment of the present invention, as shown in fig. 2, the upper end of the ferrule 203 is further provided with a threaded cylinder 2032, and a locking screw 3 is screwed into the threaded cylinder 2032, after the position of the connecting member 2 on the strut 1051 is adjusted, the locking screw 3 is screwed into the threaded cylinder 2032 again, so that the bottom end of the locking screw 3 contacts the strut 1051, and the locking between the connecting member 2 and the strut 1051 is completed.

In addition, according to the embodiment of the present invention, as shown in fig. 3, 4, 6 and 7, two sets of laser distance measuring devices 4 are provided, and each set includes a laser transmitter 401, a receiver 402, a fixing sleeve 403, a riser 4031 and a T-shaped slider 404; the laser transmitter 401 is slidably mounted in a chute 1091 on one set of the measurement connecting plate 109, the receiver 402 is slidably mounted in a chute 1091 on the other set of the measurement connecting plate 109, the receiver 402 is opposite to the laser transmitter 401, a circular receiving plate is further disposed on the receiver 402, two ends of the laser transmitter 401 and the receiver 402 are respectively sleeved on the fixing sleeves 403, one end faces of the two sets of the fixing sleeves 403 are respectively attached to two side faces of the measurement connecting plate 109, the fixing sleeves 403 are used for respectively clamping the laser transmitter 401 and the receiver 402, so that the laser transmitter 401 and the receiver 402 can slide in the chute 1091 on the measurement connecting plate 109, and when the measurement connecting plate 109 rotates along with the upper connecting plate 101 or the lower connecting plate 102, the laser transmitter 401 and the receiver 402 synchronously rotate along with the upper connecting plate 101 or the lower connecting plate 102 in an inclined manner through the fixing sleeves 403, and the two sets of risers 4031 are further fixedly connected to the fixing sleeves 403, the vertical plate 4031 is rotatably connected with the T-shaped sliding block 404, the inner side end face of the laser transmitter 401 is respectively flush with the inner side end face of the inner supporting wheel 108 on the same side with the same level, the inner side end face of the receiving plate on the receiver 402 is respectively flush with the inner side end face of the inner supporting wheel 108 on the same side with the same level, and therefore the distance between the inner side end face of the laser transmitter 401 and the inner side end face of the receiving plate on the receiver 402 is the thickness of the measured wall.

In addition, according to the embodiment of the present invention, as shown in fig. 3 and fig. 6, a T-shaped groove a2012 is further disposed on the first clamping rod 201, a T-shaped groove B2022 is further disposed on the second clamping rod 202, and the T-shaped slider 404 is slidably clamped in the T-shaped groove a2012 and the T-shaped groove B2022, so that the T-shaped slider 404 can slide in the T-shaped groove a2012 or the T-shaped groove B2022, and the laser transmitter 401 and the receiver 402 can synchronously move outward or inward with the upper connecting plate 101 or the lower connecting plate 102 through the measuring connecting plate 109 under the limiting action of the fixing sleeve 403.

The specific use mode and function of the embodiment are as follows: in the invention, a locking screw 3 is loosened, the positions of two groups of connecting pieces 2 on a stay bar 1051 are adjusted, the locking screw 3 is screwed into a thread cylinder 2032 again after the adjustment is finished, the bottom end of the locking screw 3 is contacted with the stay bar 1051, the locking between the connecting pieces 2 and the stay bar 1051 is finished, then the distance between the two groups of main bodies 1 is pulled outwards and placed at two sides of a measuring wall, an inner supporting wheel 108 is clung to two side walls of the measuring wall under the action of a spring 104, simultaneously a laser transmitter 401 and a receiver 402 synchronously move with an upper connecting plate 101 or a lower connecting plate 102 through a measuring connecting plate 109 under the limiting action of a fixed sleeve 403, and move upwards at two sides of the wall through a handle 2041 pushing device, in the process, the laser transmitter 401 sends a signal to the receiver 402, and further the distance between the inner side surface of the laser transmitter 401 and the receiving end surface of the receiver 402 is measured, the wireless data transmission module feeds back the data to the moving end, the adjusting rod 103 is rotatably connected with the upper connecting plate 101 and the lower connecting plate 102, the laser transmitter 401 and the receiver 402 are rotatably connected with the T-shaped sliding block 404, in the process of measuring the thickness of the partition wall by the upward sliding device, when the wall is uneven, the upper connecting plate 101 or the lower connecting plate 102 can automatically adjust along with the unevenness of the wall under the action of the spring 104, and the laser transmitter 401 and the receiver 402 can be adjusted along with the inclination of the upper connecting plate 101 or the lower connecting plate 102 through the measuring connecting plate 109, so that the thickness of the wall can be accurately measured.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (8)

1. A wall thickness measurement device for building engineering design management, its characterized in that includes: a main body (1) and a connecting piece (2);

the main body (1) is provided with two groups, and the two groups respectively comprise an upper connecting plate (101), a lower connecting plate (102), an adjusting rod (103), a spring (104), a sliding sleeve (105), a stay bar (1051) and an inner stay wheel (108); the upper connecting plate (101) is rotatably connected with the lower connecting plate (102), the outer side end faces of the upper connecting plate (101) and the lower connecting plate (102) are respectively rotatably connected with an adjusting rod (103), the inner side end faces of the upper connecting plate (101) and the lower connecting plate (102) are respectively connected with an inner supporting wheel (108), the outermost ends of the adjusting rods (103) are respectively provided with an outer baffle (1031), a spring (104) and a sliding sleeve (105) are respectively sleeved on the outer end faces of the adjusting rods in a sliding mode, the spring (104) is arranged between the upper connecting plate (101), the lower connecting plate (102) and the sliding sleeve (105), one end of each supporting rod (1051) is fixedly connected with the middle of one end of the sliding sleeve (105), the other end of each supporting rod is provided with an internal threaded hole (10512), and the outer side end face of each supporting rod (1051) is also provided with a scale mark (10511); the connecting piece (2) comprises a first clamping rod (201), a second clamping rod (202) and a clamping sleeve (203); the clamping device is characterized in that two groups of first clamping rods (201) and two groups of second clamping rods (202) are arranged respectively, one ends of the two groups of first clamping rods (201) and the two groups of second clamping rods (202) are provided with clamping sleeves (203) respectively, the clamping sleeves (203) are clamped on the support rods (1051) in a sliding mode, the other ends of the two groups of first clamping rods (201) are fixedly connected with inserting rods (2011), the other ends of the two groups of second clamping rods (202) are provided with inserting ports (2021), the inserting rods (2011) are inserted into the inserting ports (2021) in a sliding mode, U-shaped frames (204) are connected between the two groups of first clamping rods (201) and the two groups of second clamping rods (202) respectively, and handles (2041) are connected to the outer ends of the U-shaped frames (204).

2. The wall thickness measuring device for architectural engineering design management of claim 1, wherein: the main part still includes connecting rod (106), threaded rod (107), measures connecting plate (109), connecting rod (106) are connected the outer end of upper and lower two sets of vaulting pole (1051) through two sets of threaded rod (107), it is L type structure to measure connecting plate (109) to connect respectively on the outside terminal surface of upper junction plate (101) and lower junction plate (102), still be equipped with spout (1091) and spirit level (1092) on it, and still install laser range unit (4) in spout (1091), install the level bubble on spirit level (1092).

3. The wall thickness measuring device for architectural engineering design management according to claim 2, wherein: two ends of the connecting rod (106) are respectively provided with a thread through hole (1061), and the threaded rod (107) passes through the thread through hole (1061) and is screwed into the internal thread hole (10512).

4. The wall thickness measuring device for architectural engineering design management of claim 1, wherein: one end of the cutting sleeve (203) is also provided with a notch, the notch is opposite to the scale mark (10511), and the lower end of the notch is provided with an indicating frame (2031) with a triangular structure.

5. The wall thickness measuring device for architectural engineering design management according to claim 4, wherein: the upper end of the clamping sleeve (203) is also provided with a thread cylinder (2032), and a locking screw (3) is screwed in the thread cylinder (2032) through threads.

6. The wall thickness measuring device for architectural engineering design management according to claim 2, wherein: the laser ranging devices (4) are provided with two groups and respectively comprise a laser transmitter (401) and a receiver (402);

the laser transmitter (401) is slidably mounted in a sliding groove (1091) on one group of the measuring connecting plates (109), the receiver (402) is slidably mounted in a sliding groove (1091) on the other group of the measuring connecting plates (109), the receiver (402) is opposite to the laser transmitter (401), and a circular receiving plate is further arranged on the receiver (402).

7. The wall thickness measuring device for architectural engineering design management of claim 6, wherein: the laser ranging device (4) further comprises a fixed sleeve (403), a vertical plate (4031) and a T-shaped sliding block (404);

two ends of a laser transmitter (401) and two ends of a receiver (402) are respectively sleeved on the fixing sleeves (403), one end faces of the two groups of fixing sleeves (403) are respectively attached to two side faces of the measuring connecting plate (109), two groups of vertical plates (4031) are fixedly connected to the two ends of the laser transmitter (401), the vertical plates (4031) are rotatably connected with the T-shaped sliding block (404), the end faces of the inner sides of the laser transmitter (401) are respectively level with the end faces of the inner sides of the inner supporting wheels (108) on the same side at the same level, and the end faces of the inner sides of the receiving plates on the receiver (402) are respectively level with the end faces of the inner sides of the inner supporting wheels (108) on the same side at the same level.

8. The wall thickness measuring apparatus for architectural engineering design management as recited in claim 7, wherein: the first clamping rod (201) is further provided with a T-shaped groove A (2012), the second clamping rod (202) is further provided with a T-shaped groove B (2022), and the T-shaped sliding block (404) is respectively clamped in the T-shaped groove A (2012) and the T-shaped groove B (2022) in a sliding mode.

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