CN219151666U - Facing brick punching positioning device - Google Patents

Abstract

The utility model provides a facing brick punching and positioning device, which belongs to the technical field of decoration and fitment, and realizes hole site marking of various positions by arranging a positioning part of a connecting mark part into a structure with adjustable multi-joint size. And the drilling position is determined on the standard facing brick through measurement, and the joint fixing is carried out after the angle and the size of each joint of the positioning part are adjusted according to the determined drilling position. Then, the facing brick punching and positioning device is sequentially placed on each facing brick needing punching, and hole site marking is carried out. The device is suitable for being used in a narrow space inconvenient for field measurement, and is rich in applicable scene. The technical effects of rapidness, high efficiency, time saving and labor saving for marking the positions of the facing bricks are achieved.

Description

Facing brick punching positioning device

Technical Field

The utility model relates to the technical field of decoration and fitment, in particular to a perforating and positioning device for a facing brick.

Background

With the improvement of comfort level of living environment, the requirements on house decoration and fitment are higher. In the construction process of house decoration, it is necessary to perform a punching operation on various kinds of facing bricks, such as ground leakage holes, pipeline holes, etc. The conventional process of punching on the facing brick is to measure the distance in the horizontal and vertical directions by using a box ruler, mark the circle center position on the facing brick, and then compare the circle center position for punching. However, the disadvantages are as follows:

1) The measurement of the box ruler has a certain error, so that the circle center marking is inaccurate, and the integral decoration effect is further affected;

2) When it is necessary to punch holes in narrow operating scenes, various occlusions lead to the existence of visual dead zones, which lead to inaccurate measurements.

Therefore, there is a need for a tile punching and positioning device that is easy to operate.

Disclosure of Invention

The utility model aims to provide a facing brick punching and positioning device, which achieves the technical effect of improving the facing brick punching and positioning efficiency.

A facing brick punching and positioning device comprises a marking part for positioning marks and a positioning part for limiting the positions of the marking part;

the marking part is provided with a hollowed marking hole;

the positioning part comprises a bottom transverse displacement unit for positioning the bottom transverse distance, a top transverse displacement unit for positioning the top transverse distance and a vertical displacement unit for positioning the vertical distance;

the bottom transverse displacement unit comprises a bottom positioning shaft and a bottom transverse positioning plate hinged on the bottom positioning shaft; the top transverse displacement unit comprises a top positioning shaft and a top transverse positioning plate hinged on the top positioning shaft; the vertical displacement unit comprises a vertical positioning plate with two ends respectively hinged on a bottom positioning shaft and a top positioning shaft; sliding tracks are arranged on the bottom transverse positioning plate, the top transverse positioning plate and the vertical positioning plate;

the marking part is connected with the free end of the top transverse locating plate.

Further, the preferred structure is that the top transverse positioning plate comprises a left top transverse positioning plate and a right top transverse positioning plate which are respectively hinged at the left side and the right side of the top positioning shaft; a marking part is respectively arranged on the free ends of the left top transverse locating plate and the right top transverse locating plate.

Further, the preferred structure is that the vertical positioning plate comprises an upper vertical positioning plate, a lower vertical positioning plate and a vertical connecting shaft for hinging the upper vertical positioning plate and the lower vertical positioning plate; the top end of the upper vertical positioning plate is connected with the top positioning shaft, and the bottom end of the lower vertical positioning plate is connected with the bottom positioning shaft.

Further, it is preferable that the marking hole includes square marks and/or circular marks.

Further, the preferred structure is that the left top transverse locating plate comprises a left transverse locating plate, a left transverse locating plate and a left transverse connecting shaft for hinging the left transverse locating plate and the left transverse locating plate;

the right top transverse locating plate comprises a right transverse locating plate, a right transverse locating plate and a right transverse connecting shaft for hinging the right transverse locating plate and the right transverse locating plate.

Further, the preferable structure is that the top positioning shaft, the bottom positioning shaft, the vertical connecting shaft, the left transverse connecting shaft and the right transverse connecting shaft all comprise screws, nuts and fixed blocks which can relatively move in the sliding track; the fixed block is arranged at the bottom of the screw rod, the screw rod is arranged in the sliding track in a penetrating mode, and a nut for fixing the screw rod is arranged at the top of the screw rod.

Further, the nut is preferably provided with an anti-trip mechanism.

Further, the preferred structure is that the marking part comprises a marking frame, a square block for marking square marks and a circular hole for marking circular marks; the square block is connected with the hollow marking frame through the connecting ribs, and a circular hole is formed in the center of the square block.

Further, the bottom transverse locating plate preferably comprises a left bottom transverse locating plate and a right bottom transverse locating plate which are respectively hinged on the left side and the right side of the bottom locating shaft.

As described above, the facing brick punching and positioning device is reasonable in structure, low in cost and convenient to use; the positioning part of the connecting marking part is of a structure with adjustable multi-joint size, so that hole site marking of various positions is realized. And the drilling position is determined on the standard facing brick through measurement, and the joint fixing is carried out after the angle and the size of each joint of the positioning part are adjusted according to the determined drilling position. Then, the facing brick punching and positioning device is sequentially placed on each facing brick needing punching, and hole site marking is carried out. The device is suitable for being used in a narrow space inconvenient for field measurement, and is rich in applicable scene. The technical effects of rapidness, high efficiency, time saving and labor saving for marking the positions of the facing bricks are achieved.

Drawings

Other objects and results of the present utility model will become more apparent and readily appreciated by reference to the following description and claims in conjunction with the accompanying drawings and a more complete understanding of the utility model.

In the drawings:

FIG. 1 is a schematic structural view of a tile perforating and positioning device according to an embodiment of the present utility model;

FIG. 2 is a schematic view of another construction of a tile punch positioning device according to an embodiment of the present utility model;

fig. 3 is a schematic structural view of a top positioning shaft of a facing tile punching and positioning device according to an embodiment of the present utility model.

Wherein, the liquid crystal display device comprises a liquid crystal display device,

1. a marking part; 2. a positioning part; 11. marking a frame; 12. square blocks; 13. a connecting rib; 14. a circular hole; 20. a sliding rail; 31. a screw; 32. a nut; 33. a fixed block; 34. anti-tripping; 211. a bottom positioning shaft; 212. a left bottom transverse positioning plate; 213. a right bottom transverse positioning plate; 221. a top positioning shaft; 222. a left transverse positioning plate; 223. a left transverse positioning plate; 224. a left transverse connecting shaft; 225. a right transverse positioning plate; 226. a right transverse positioning plate; 227. a right transverse connecting shaft; 231. a vertical positioning plate is arranged on the upper part; 232. a lower vertical positioning plate; 233. and a vertical connecting shaft.

Detailed Description

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of one or more embodiments. It may be evident, however, that such embodiment(s) may be practiced without these specific details. In other instances, well-known structures and devices are shown in block diagram form in order to facilitate describing one or more embodiments.

It is to be understood that the terms "horizontal," "vertical," "upper," "lower," "top," "middle," "length," "inner," "bottom," and the like are merely used for convenience in describing and simplifying the description of the present utility model, and are not to be construed as limiting the present utility model, as the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation.

Unless specifically stated or limited otherwise, the terms "mounted," "connected," "secured" and the like should be construed broadly, as they may be fixed, removable, or integral, for example; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the prior art, in order to solve the problem that the circle center marking is inaccurate due to certain errors in the measurement of the box ruler, and the integral decoration effect is affected; according to the utility model, the positioning part of the connecting marking part is of a structure with adjustable multi-joint size, so that hole site marking of various positions is realized. And the drilling position is determined on the standard facing brick through measurement, and the joint fixing is carried out after the angle and the size of each joint of the positioning part are adjusted according to the determined drilling position. Then, the facing brick punching and positioning device is sequentially placed on each facing brick needing punching, and hole site marking is carried out. The device is suitable for being used in a narrow space inconvenient for field measurement, and is rich in applicable scene. The technical effects of rapidness, high efficiency, time saving and labor saving for marking the positions of the facing bricks are achieved.

Example 1

Various embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.

Fig. 1 and 2 depict the overall structure of the tile punch positioning device. Specifically, fig. 1 is a schematic structural diagram of a positioning device for perforating a facing brick according to an embodiment of the present utility model; fig. 2 is a schematic structural view of a tile punching and positioning device according to an embodiment of the present utility model.

A facing brick punching positioning device comprises a marking part 1 for positioning marks and a positioning part 2 for limiting the positions of the marking parts; the marking part 1 is provided with hollowed marking holes; the positioning portion 2 includes a bottom lateral displacement unit for positioning a bottom lateral distance, a top lateral displacement unit for positioning a top lateral distance, and a vertical displacement unit for positioning a vertical distance. The bottom transverse displacement unit comprises a bottom positioning shaft 211 and a bottom transverse positioning plate hinged on the bottom positioning shaft 211; the top lateral displacement unit comprises a top positioning shaft 221 and a top lateral positioning plate hinged on the top positioning shaft 221; the vertical displacement unit comprises a vertical positioning plate with two ends respectively hinged on a bottom positioning shaft 211 and a top positioning shaft 221; sliding rails 20 are arranged on the bottom transverse positioning plate, the top transverse positioning plate and the vertical positioning plate; the marking part 1 is connected with the free end of the top transverse locating plate.

That is, hole site marking at various positions is achieved by setting the positioning portion of the connection marking portion to a structure in which the size of the multiple joints is adjustable. Wherein, the bottom positioning shaft 211 and the top positioning shaft 221 are used as two core joints of the utility model, the top positioning shaft 221 can adjust the angle between the top transverse displacement unit and the vertical displacement unit, and the top positioning shaft can also adjust the size of the top transverse displacement unit. Correspondingly, the bottom positioning shaft 211 can adjust the angle between the top lateral displacement unit and the vertical displacement unit, and can also adjust the size of the top lateral displacement unit. Wherein, the bottom positioning shaft 211 and the top positioning shaft 221 are articulated shafts movably connected and have a locking function. The positioning shaft can relatively slide in the sliding track 20, so that the size adjustment of each displacement unit is realized; because the locating shaft is movably connected with the sliding rail, the locating plates in all directions can rotate around the locating shaft, and then the angle adjustment between each displacement unit is realized.

Fig. 3 shows the structure of the top positioning shaft of the tile punching positioning device according to the embodiment of the utility model. As shown in the figure 3 of the drawings,

in a specific embodiment, the top positioning shaft 221 and the bottom positioning shaft 211 each include a screw 31, a nut 32, and a fixed block 33 that are relatively movable within the slide rail 20; the fixed block 33 is arranged at the bottom of the screw 31, the screw 31 is arranged in the sliding track 20 in a penetrating way, and the nut 32 for fixing the screw 31 is arranged at the top of the screw 31. The fixed block at the bottom of the screw rod is clamped below the sliding rail to prevent the screw rod from falling out, and can be abutted against the bottom of the sliding rail when the nut is screwed. That is, each positioning shaft is arranged into a simple screw nut structure, and the functions of hinging, relatively sliding in the sliding track and locking can be realized on the basis of simple structure and low cost. In a specific implementation, the positioning shaft structure may be, but is not limited to, a screw structure.

As the improvement of the embodiment, the screw and the nut can be designed integrally, the anti-tripping at the top end of the screw can be ensured, the nut can not be separated from the screw no matter how the nut is screwed, and the trouble that the nut falls off in the construction positioning process is avoided.

To further increase the stability of the punch positioning device, an anti-trip 34 is provided on the nut. In a specific implementation, the nut may also be selected to be a loose nut. The loosening nut is provided with a wedge surface of 30 degrees at the top end of the traditional 60-degree tooth tip, and the structure ensures that after the bolt is screwed with the nut, larger friction force can be obtained between male and female threads compared with the traditional threads so as to prevent loosening. Or, can also be through the setting of double nut, realize the locking anticreep of nut.

In a specific implementation process, when a scene requiring simultaneous symmetrical punching is encountered, the top transverse positioning plate comprises a left top transverse positioning plate and a right top transverse positioning plate which are respectively hinged to the left side and the right side of the top positioning shaft; a marking part is respectively arranged on the free ends of the left top transverse locating plate and the right top transverse locating plate. That is, the two marking portions are symmetrically disposed. The positioning part is arranged at one time, so that the facing brick punching positioning device can be moved once to finish a pair of marks. The design of the positioning die of the two marking parts realizes the operation of simultaneously positioning a plurality of holes and greatly improves the positioning efficiency.

In a specific embodiment, in order to further increase the application range of the facing brick punching positioning device, joints are added to the bottom transverse positioning plate, the top transverse positioning plate and the vertical positioning plate respectively. The vertical positioning plate comprises an upper vertical positioning plate, a lower vertical positioning plate and a vertical connecting shaft for hinging the upper vertical positioning plate and the lower vertical positioning plate; the top end of the upper vertical positioning plate is connected with the top positioning shaft, and the bottom end of the lower vertical positioning plate is connected with the bottom positioning shaft. The left top transverse positioning plate comprises a left transverse positioning plate 222, a left transverse second positioning plate 223 and a left transverse connecting shaft 224 for hinging the left transverse positioning plate 222 and the left transverse second positioning plate 2223; the right top transverse positioning plate includes a right transverse positioning plate 225, a right transverse second positioning plate 226, and a right transverse connecting shaft 227 for hinging the right transverse positioning plate 225 and the right transverse second positioning plate 226. The bottom transverse locating plate comprises a left bottom transverse locating plate 212 and a right bottom transverse locating plate 213 which are respectively hinged on the left side and the right side of the bottom locating shaft. It should be noted that, for the bottom transverse positioning plate, the top transverse positioning plate and the vertical positioning plate, the specific number of joints needs to be set according to the specific application scenario, and the specific number is not limited herein. The principle that a plurality of adjustable plates and a plurality of positioning shafts can rotate at any angle and move is utilized, and accurate positioning can be realized rapidly no matter what the positions of holes are.

In conclusion, eight adjustable connecting plates can rotate and move between every two, the bottom adjustable plate is used for reference positioning, and the middle and upper adjustable plates are used for adjusting the positions of the searching holes and the grooves. After the device is found, the device is fastened through complete sets of sliding bolts and nuts to ensure the accuracy of the relative positions, and then the device is taken down to compare and open holes on the facing bricks again, so that the operation is very convenient.

The marking part 1 is connected with the free end of the top transverse locating plate. The marking part 1 is provided with hollowed marking holes. The marking apertures include square markings and/or circular markings. In a specific implementation process, a round hole or a square hole may be required to be drilled, so the marking hole on the marking part may be a round mark, a square mark or both a square mark and a round mark.

In a specific embodiment, the marking portion has both square marks and circular marks. Specifically, the marking section 1 includes a marking frame 11, a square block 12 for marking square marks, and a circular hole 14 for marking circular marks; the square block 12 is connected with the hollow marking frame 11 through a connecting rib 13, and a circular hole 14 is formed in the center of the square block 12. When the mark is needed, the mark part 1 is placed at a proper position, and if the mark is square, a marker pen is used for marking along the periphery of the square block; if circular is to be marked, a marker is used to mark along the circular aperture 14.

In summary, the present utility model relates to a positioning device for drilling holes in a facing tile, which is configured to implement hole position labeling at various positions by setting a positioning portion of a connection marking portion to be of a structure with an adjustable multi-joint size. And the drilling position is determined on the standard facing brick through measurement, and the joint fixing is carried out after the angle and the size of each joint of the positioning part are adjusted according to the determined drilling position. Then, the facing brick punching and positioning device is sequentially placed on each facing brick needing punching, and hole site marking is carried out. The device is suitable for being used in a narrow space inconvenient for field measurement, and is rich in applicable scene. The technical effects of rapidness, high efficiency, time saving and labor saving for marking the positions of the facing bricks are achieved.

However, it will be appreciated by those skilled in the art that various modifications may be made to the tile perforation positioning apparatus provided by the present utility model as described above without departing from the scope of the present utility model. Accordingly, the scope of the utility model should be determined from the following claims.

Claims (9)

1. A facing brick punching and positioning device is characterized in that,

comprises a marking part for positioning the mark and a positioning part for defining the position of the marking part;

the marking part is provided with a hollowed marking hole;

the positioning part comprises a bottom transverse displacement unit for positioning the bottom transverse distance, a top transverse displacement unit for positioning the top transverse distance and a vertical displacement unit for positioning the vertical distance;

the bottom transverse displacement unit comprises a bottom positioning shaft and a bottom transverse positioning plate hinged on the bottom positioning shaft; the top transverse displacement unit comprises a top positioning shaft and a top transverse positioning plate hinged on the top positioning shaft; the vertical displacement unit comprises a vertical positioning plate with two ends respectively hinged on the bottom positioning shaft and the top positioning shaft; sliding tracks are arranged on the bottom transverse positioning plate, the top transverse positioning plate and the vertical positioning plate;

the marking part is connected with the free end of the top transverse locating plate.

2. The tapestry brick punch positioning device according to claim 1, wherein the top lateral positioning plate comprises a left top lateral positioning plate and a right top lateral positioning plate hinged to the left and right sides of the top positioning shaft, respectively; and the free ends of the left top transverse locating plate and the right top transverse locating plate are respectively provided with a marking part.

3. The facing tile perforation positioning apparatus of claim 1 or 2, wherein the vertical positioning plate comprises an upper vertical positioning plate, a lower vertical positioning plate, and a vertical connecting shaft for hinging the upper vertical positioning plate and the lower vertical positioning plate; the top of the upper vertical positioning plate is connected with the top positioning shaft, and the bottom of the lower vertical positioning plate is connected with the bottom positioning shaft.

4. A tile punch location device according to claim 2, wherein the marking aperture comprises square markings and/or circular markings.

5. The tapestry brick punch positioning device according to claim 2, wherein the left top lateral positioning plate comprises a left lateral positioning plate, a left lateral two positioning plate, and a left lateral connecting shaft for hinging the left lateral positioning plate and the left lateral two positioning plate;

the right top transverse locating plate comprises a right transverse locating plate, a right transverse locating plate and a right transverse connecting shaft used for hinging the right transverse locating plate and the right transverse locating plate.

6. The tapestry brick punch positioning apparatus according to claim 5, wherein the top positioning shaft, the bottom positioning shaft, the vertical connecting shaft, the left lateral connecting shaft, and the right lateral connecting shaft each comprise a screw, a nut, and a fixed block that are relatively movable within the sliding track; the fixed block is arranged at the bottom of the screw rod, the screw rod is arranged in the sliding track in a penetrating mode, and a nut used for fixing the screw rod is arranged at the top of the screw rod.

7. A tile boring positioning device according to claim 6, wherein an anti-trip is provided on the nut.

8. The apparatus of claim 4, wherein the marking section comprises a marking frame, a square block for marking square indicia, and a circular hole for marking circular indicia; the square block is connected with the hollow marking frame through the connecting rib, and a circular hole is formed in the center of the square block.

9. The tile punch location device of claim 1, wherein the bottom transverse location plate comprises a left bottom transverse location plate and a right bottom transverse location plate hinged to the left and right sides of the bottom location shaft, respectively.

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