CN114858038A

CN114858038A - Building engineering detects with straightness detection device that hangs down convenient to deposit

Info

Publication number: CN114858038A
Application number: CN202210731950.6A
Authority: CN
Inventors: 李钇汛
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-06-26
Filing date: 2022-06-26
Publication date: 2022-08-05

Abstract

The invention provides a conveniently stored verticality detection device for building engineering detection, which relates to the technical field of verticality detection and comprises the following components: a placing seat; the placing seat is of a rectangular seat structure, and one side of the placing seat is provided with an installation notch; one end of the placing seat is fixedly provided with a connecting frame; the top of the connecting frame is rotatably provided with a detection column; detect under the cooperation of piece A and stopper, when not contacting with the wall completely of device, the stopper can continue the card inside the block inslot that detects the post, make to detect and can't open, thereby ensure that the device just can detect under the state of laminating completely with the wall completely, standardize detection personnel's detection operation, it often can appear that detection personnel neglect to appear leads to the operation improper to have solved, make device and wall do not keep the vertical state, and then make the device to wall detection precision decline, be difficult to guarantee that detection personnel detects the problem according to the operation of regulation.

Description

Building engineering detects with straightness detection device that hangs down convenient to deposit

Technical Field

The invention relates to the technical field of perpendicularity detection, in particular to a perpendicularity detection device for building engineering detection, which is convenient to store.

Background

The construction engineering needs to carry out perpendicularity detection on the wall surface of the construction engineering after construction, the perpendicularity is a perpendicular state among evaluation straight lines, among planes or between the straight lines and the planes, and one straight line or one plane is an evaluation standard.

However, in the process of detecting the wall surface, the detection personnel often neglect to cause improper operation, so that the device and the wall surface are not kept in a vertical state, further the detection precision of the device on the wall surface is reduced, and the detection personnel cannot be ensured to perform detection according to the specified operation.

Disclosure of Invention

In view of the above, the invention provides a perpendicularity detection device for building engineering detection, which is convenient to store, and has the advantages that under the matching of a detection block A and a limiting block, when the device is not completely contacted with a wall surface, the limiting block can be continuously clamped in a clamping groove of a detection column, so that the detection cannot be opened, the detection can be carried out only in a state that the device is completely attached to the wall surface, and the detection operation of detection personnel is standardized.

The invention provides a perpendicularity detection device for building engineering detection, which is convenient to store, and specifically comprises: a placing seat; the placing seat is of a rectangular seat structure, and one side of the placing seat is provided with an installation notch; one end of the placing seat is fixedly provided with a connecting frame; the top of the connecting frame is rotatably provided with a detection column; the placing seat also comprises: the level gauge A is arranged in the mounting notch of the placing seat; the connecting shell is fixedly arranged at one end of the placing seat; one side of the connecting shell is provided with a notch; the scale mark is seted up to calibrated scale, calibrated scale one side, and the calibrated scale is fixed to be set up in the scarce inslot of connecting the shell.

Optionally, the placing seat further comprises: the protective shell is of a square shell structure, and an installation space is formed in the protective shell; the protective shell is fixedly arranged at one end of the placing seat; a fixed shell is fixedly arranged at the top of the protective shell; the sliding block A is arranged in the mounting space of the protective shell in a sliding manner, and a spring is arranged between the protective shell and the sliding block A; the limiting blocks are arranged into square structures and are arranged into two groups, and the limiting blocks are symmetrically integrated and arranged at one end of the sliding block A.

Optionally, the placing seat further comprises: the connecting grooves are arranged in a square groove structure, the connecting grooves are arranged in two groups, and the connecting grooves are symmetrically arranged on two sides of the sliding block A; the detection block A is arranged to be of a rectangular block structure and is arranged in the installation space of the protective shell in a sliding mode; a spring is arranged between the detection block A and the protective shell; the touch heads A are arranged into two groups, the top of each touch head A is arranged into an inclined plane structure, and the touch heads A are symmetrically arranged on the top of the detection block A in an integrated manner.

Optionally, an installation space is formed inside the connecting frame; the link still including: the detection block B is arranged to be of a rectangular block structure and is arranged in the installation space of the connecting frame in a sliding mode; a spring is arranged between the connecting frame and the detection block B; the touch heads B are arranged into two groups and are symmetrically arranged at the top of the detection block B in an integrated manner; the top of the touch head B is provided with an inclined plane structure.

Optionally, the connecting frame further comprises: the two groups of sliding blocks B are arranged, and the sliding blocks B are symmetrically and slidably arranged in the mounting space of the connecting frame; a spring is arranged between the connecting frame and the sliding block B; the limiting block A is of a circular block structure, and one side of the limiting block A is provided with a clamping tooth structure; the limiting block A is fixedly arranged at one end of the sliding block B; the connector is of a square block structure, and is of an inclined plane structure; the connector integral type sets up in sliding block B bottom.

Optionally, a mounting groove is formed in the bottom of the detection column, and an arc-shaped structure is arranged on one side of the top of the detection column; the detection column further comprises: the limiting block B is arranged to be a circular block structure, and one side of the limiting block B is provided with a clamping tooth structure; the limiting blocks B are arranged in two groups and are symmetrically and fixedly arranged on the inner side of the mounting groove of the detection column; the clamping tooth structure of the limiting block B is matched with the clamping tooth structure of the limiting block A; the pointer is integrally arranged at one end of the bottom of the detection column; the pointer is arranged outside the dial; and the level gauge B is arranged on one side of the top of the detection column.

Optionally, the detection column further comprises: the clamping grooves are arranged in a square groove structure and are arranged in two groups, and the clamping grooves are symmetrically arranged at the top of the detection column; the sliding groove is of a rectangular groove structure and is arranged in the middle of the top of the detection column; the connecting block, connecting block integral type set up in detection capital portion one side.

Optionally, the fixed shell is a square shell structure, and an installation space is formed inside the fixed shell; the fixed shell also comprises: the detection block C is of a square block structure, and one end of the detection block C is of an inclined plane structure; the detection block C is arranged in the installation space of the fixed shell in a sliding manner; a spring is arranged between the fixed shell and the detection block C; and the hook is fixedly arranged at one end of the detection block C.

Advantageous effects

According to the detection device, under the matching of the detection block A and the limiting block, when the device is not completely contacted with the wall surface, the sliding block A cannot completely slide along the inclined surface structure of the touch head A, and under the condition, the limiting block can be continuously clamped in the clamping groove of the detection column, so that the detection cannot be opened, the detection can be carried out under the condition that the device is completely attached to the wall surface, the detection precision of the device is effectively improved, and the detection operation of detection personnel is standardized.

In addition, when the device does not contact with the wall completely, touch head B and can't drive and limit and break away from between piece A and the restriction piece B, the block tooth structure of restriction piece A can continue to block with the block tooth structure looks block of restriction piece B, under this condition, detect the unable rotation of post, thereby whether further laminating completely to the device with the wall detects, can effectually avoid the phenomenon that testing personnel do not operate the detection according to the regulation to take place through the cooperation protecting crust, thereby further improve its detection precision.

In addition, when the sliding tray contacts with detection piece C, it can be ejecting by the sliding tray of detection post to detect piece C, and is outstanding with the couple, at this moment, can place the device through the couple and deposit to subsequent depositing.

In addition, the verticality of the wall surface of the dial is detected by observing the scale marks on the pointer alignment dial, and the detection can be performed by observing a level gauge A and a level gauge B.

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 an open configuration of a device according to an embodiment of the invention;

FIG. 2 shows a schematic view of a device closure according to an embodiment of the invention;

FIG. 3 illustrates a schematic diagram of a partial enlargement A of FIG. 2 according to an embodiment of the present invention;

FIG. 4 shows a disassembled structural view of the protective shell according to an embodiment of the present invention;

FIG. 5 shows a schematic view of the internal structure of the connection housing after opening of the device according to an embodiment of the invention;

FIG. 6 is a schematic view showing an internal structure of a connection frame according to an embodiment of the present invention;

FIG. 7 shows a disassembled structural view of the attachment frame according to an embodiment of the present invention;

FIG. 8 shows a schematic view of a detection column structure according to an embodiment of the present invention;

fig. 9 shows a disassembled structure diagram of the fixing case according to the embodiment of the present invention.

List of reference numerals

1. A placing seat; 101. a level gauge A; 102. a connecting shell; 103. a dial scale; 104. a protective shell; 105. a sliding block A; 106. a limiting block; 107. connecting the notch; 108. detecting a block A; 109. touching the head A; 2. a connecting frame; 201. detecting a block B; 202. a touch head B; 203. a sliding block B; 204. a limiting block A; 205. a connector; 3. a detection column; 301. a limiting block B; 302. a pointer; 303. a level gauge B; 304. a clamping groove; 305. a sliding groove; 306. connecting blocks; 4. a stationary case; 401. detecting a block C; 402. and (4) hanging hooks.

Detailed Description

First embodiment

As shown in figures 1 to 9:

the invention provides a conveniently stored verticality detection device for building engineering detection, which comprises: a placing seat 1; the placing seat 1 is of a rectangular seat structure, and one side of the placing seat 1 is provided with an installation notch; one end of the placing seat 1 is fixedly provided with a connecting frame 2; the top of the connecting frame 2 is rotatably provided with a detection column 3; the placing seat 1 further comprises: the level gauge A101 is installed and arranged in the installation notch of the placing seat 1; the connecting shell 102, the connecting shell 102 is fixedly arranged at one end of the placing seat 1; one side of the connecting shell 102 is provided with a notch; a dial 103, wherein one side of the dial 103 is provided with scale marks, and the dial 103 is fixedly arranged in the notch of the connecting shell 102; the protective shell 104 is of a square shell structure, and an installation space is formed inside the protective shell 104; the protective shell 104 is fixedly arranged at one end of the placing seat 1; the top of the protective shell 104 is fixedly provided with a fixed shell 4; the sliding block A105 is arranged in the mounting space of the protective shell 104 in a sliding manner, and a spring is arranged between the protective shell 104 and the sliding block A105; the limiting blocks 106 are arranged in a square block structure, the limiting blocks 106 are arranged in two groups, and the limiting blocks 106 are symmetrically and integrally arranged at one end of the sliding block A105; the connecting grooves 107 are arranged in a square groove structure, the connecting grooves 107 are arranged in two groups, and the connecting grooves 107 are symmetrically arranged on two sides of the sliding block A105; the detection block A108, the detection block A108 is arranged in a rectangular block structure, and the detection block A108 is arranged in the installation space of the protective shell 104 in a sliding manner; a spring is arranged between the detection block A108 and the protective shell 104; the touch heads a109 are arranged in two groups, the top of the touch head a109 is arranged in an inclined plane structure, and the touch heads a109 are symmetrically arranged at the top of the detection block a108 in an integrated manner.

When in use:

firstly, a proper position of a placing seat 1 to be detected is selected, then a detection block A108 in a protective shell 104 at one end of the placing seat 1 can be contacted with a wall surface of a construction first, when the device is completely released from the wall surface, the detection block A108 can completely move towards the interior of the protective shell 104, at the moment, the detection block A108 drives a touch head A109 to be inserted into a connection notch 107, because the top of the touch head A109 is set to be an inclined surface structure, the connection notch 107 can move along the inclined surface structure of the touch head A109, at the moment, a sliding block A105 can drive a limiting block 106 to move towards the interior of the protective shell 104, the limiting block 106 is separated from a clamping groove 304 of a detection column 3, and under the condition, one end of the device is completely attached to the wall surface of a building construction.

When the device does not contact with the wall completely, then can lead to appearing the interval between device and the wall, at this moment, lead to detecting that piece A108 can't remove to protective housing 104 inside completely, it is inside to detect that piece A108 can't insert completely to connect lacks groove 107, make sliding block A105 can't slide along the inclined plane structure that touches first A109 completely, under this condition, stopper 106 can continue the card inside the block groove 304 that detects post 3, make to detect and can't open, thereby ensure that the device can just detect under the state of laminating completely with the wall, effectively improve the detection precision of device, standardize detection personnel's detection operation.

Second embodiment of the invention

Building engineering detects with straightness detection device that hangs down based on first embodiment provides one kind and is convenient for deposit: when one end of the device is completely contacted with the wall surface, whether the other end of the device is completely contacted with the wall surface or not cannot be well ensured, so that the detection precision of the device is reduced; by way of figures 5 to 8; this building engineering detects with straightness detection device that hangs down convenient to deposit includes: an installation space is arranged inside the connecting frame 2; the connecting frame 2 further comprises: the detection block B201, the detection block B201 is arranged in a rectangular block structure, and the detection block B201 is arranged in the installation space of the connecting frame 2 in a sliding manner; a spring is arranged between the connecting frame 2 and the detection block B201; the touch heads B202 are arranged in two groups, and the touch heads B202 are symmetrically arranged at the top of the detection block B201 in an integrated manner; the tops of the touch heads B202 are all set to be inclined plane structures; two groups of sliding blocks B203 are arranged, and the sliding blocks B203 are symmetrically arranged in the installation space of the connecting frame 2 in a sliding manner; a spring is arranged between the connecting frame 2 and the sliding block B203; because the top of the touch head B202 and the bottom of the connecting head 205 are both configured as the inclined plane structures, when the touch head B202 contacts with the connecting head 205, the connecting head 205 will move along the inclined plane structure of the touch head B202, so that the connecting head 205 drives the sliding block B203 to move inwards; the limiting block A204 is of a circular block structure, and a clamping tooth structure is arranged on one side of the limiting block A204; the limiting block A204 is fixedly arranged at one end of the sliding block B203; the connecting head 205, the connecting head 205 is set to be a square block structure, and the connecting head 205 is set to be an inclined plane structure; the connector 205 is integrally arranged at the bottom of the sliding block B203; the bottom of the detection column 3 is provided with a mounting groove, and one side of the top of the detection column 3 is provided with an arc-shaped structure; the detection column 3 further comprises: the limiting block B301 is of a circular block structure, and a clamping tooth structure is arranged on one side of the limiting block B301; the limiting blocks B301 are arranged into two groups, and the limiting blocks B301 are symmetrically and fixedly arranged on the inner side of the mounting groove of the detection column 3; the clamping tooth structure of the limiting block B301 is matched with the clamping tooth structure of the limiting block A204; the pointer 302, the pointer 302 is integrally arranged at one end of the bottom of the detection column 3; the pointer 302 is disposed outside the dial 103; the level gauge B303, the level gauge B303 is arranged on one side of the top of the detection column 3; the clamping grooves 304 are arranged in a square groove structure, the clamping grooves 304 are arranged in two groups, and the clamping grooves 304 are symmetrically arranged at the top of the detection column 3; the sliding groove 305 is arranged in a rectangular groove structure, and the sliding groove 305 is arranged in the middle of the top of the detection column 3; the connecting block 306 is integrally arranged on one side of the top of the detection column 3; the perpendicularity of the wall surface is detected by aligning the observation pointer 302 with the scale marks on the dial 103, and also by observing the levels a101 and B303.

When in use:

when the device is completely contacted with the wall surface, the detection block B201 in the connecting frame 2 is contacted with the wall surface, the detection block B201 moves upwards, so that the detection block B201 drives the touch head B202 to be contacted with the connecting head 205, because the top of the touch head B202 and the bottom of the connecting head 205 are both set to be inclined plane structures, when the touch head B202 is contacted with the connecting head 205, the connecting head 205 moves along the inclined plane structure of the touch head B202, so that the connecting head 205 drives the sliding block B203 to move inwards, at this time, the sliding block B203 drives the limiting block A204 to be separated from the limiting block B301, so that the clamping between the limiting block B301 and the limiting block A204 is disconnected, and under the condition, the detection column 3 can slide, and detection is performed.

When the device is not completely contacted with the wall surface, the detection block B201 cannot completely drive the touch head B202 to move upwards, the connecting head 205 cannot completely move along the inclined plane structure of the touch head B202, so that the touch head B202 cannot drive the limiting block A204 to be separated from the limiting block B301, the clamping tooth structure of the limiting block A204 can be continuously clamped with the clamping tooth structure of the limiting block B301, under the condition, the detection column 3 cannot rotate, whether the device is completely attached to the wall surface or not is further detected, the phenomenon that detection personnel cannot operate and detect according to the rule can be effectively avoided by matching the protection shell 104, and the detection precision of the device is further improved.

The detection column 3 is rotated, so that the detection column 3 drives the bottom pointer 302 to rotate, the verticality of the wall surface of the detection column is detected by observing the verticality of the pointer 302 aligned with the scale marks on the dial 103, and the detection column can also detect the verticality by observing the level A101 and the level B303.

Third embodiment of the invention

Based on the building engineering that a be convenient for deposit squareness detection device for detection that provides of second embodiment: after the device is detected, if the device is not restored to the original state, the device may be damaged in the storage process, and the later use of the device is influenced; by way of fig. 9; this building engineering detects with straightness detection device that hangs down convenient to deposit includes: the fixed shell 4 is of a square shell structure, and an installation space is formed inside the fixed shell 4; the fixed shell 4 further comprises: the detection block C401 is arranged in a square block structure, and one end of the detection block C401 is arranged in an inclined plane structure; the detection block C401 is arranged inside the installation space of the fixed shell 4 in a sliding manner; a spring is arranged between the fixed shell 4 and the detection block C401; and the hook 402 is fixedly arranged at one end of the detection block C401.

When in use:

after the completion detects, through detecting that post 3 rotates to original position, sliding tray 305 can contact with detecting piece C401, detects piece C401 one end and sets up to the inclined plane structure, and when sliding tray 305 contacted with detecting piece C401, it can be ejecting by the sliding tray 305 of detecting piece C401 by post 3, and is outstanding with couple 402, at this moment, can place the device through couple 402 and deposit to subsequent depositing.

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

1. The utility model provides a building engineering detects with straightness detection device that hangs down convenient to deposit which characterized in that includes: a placing seat (1); the placing seat (1) is of a rectangular seat structure, and one side of the placing seat (1) is provided with an installation notch; one end of the placing seat (1) is fixedly provided with a connecting frame (2); the top of the connecting frame (2) is rotatably provided with a detection column (3); the placing seat (1) also comprises: the level gauge A (101) is arranged in the mounting notch of the placing seat (1); the connecting shell (102), the connecting shell (102) is fixedly arranged at one end of the placing seat (1); one side of the connecting shell (102) is provided with a notch; scale marks are arranged on one side of the dial (103), and the dial (103) is fixedly arranged in the notch of the connecting shell (102).

2. The verticality detection device for construction engineering detection, which is convenient to store according to claim 1, is characterized in that the placement seat (1) further comprises: the protective shell (104), the protective shell (104) is arranged to be a square shell structure, and an installation space is formed inside the protective shell (104); the protective shell (104) is fixedly arranged at one end of the placing seat (1); a fixed shell (4) is fixedly arranged at the top of the protective shell (104); the sliding block A (105), the sliding block A (105) is arranged in the mounting space of the protective shell (104) in a sliding mode, and a spring is arranged between the protective shell (104) and the sliding block A (105); the limiting blocks (106) are arranged in a square block structure, the limiting blocks (106) are arranged in two groups, and the limiting blocks (106) are symmetrically arranged at one end of the sliding block A (105) in an integrated mode.

3. The verticality detection device for construction engineering detection, which is convenient to store according to claim 2, is characterized in that the placement seat (1) further comprises: the connecting notches (107) are arranged in a square groove structure, the connecting notches (107) are arranged in two groups, and the connecting notches (107) are symmetrically arranged on two sides of the sliding block A (105); the detection block A (108), the detection block A (108) is arranged to be a rectangular block structure, and the detection block A (108) is arranged in the installation space of the protective shell (104) in a sliding mode; a spring is arranged between the detection block A (108) and the protective shell (104); the touch heads A (109) are arranged in two groups, the tops of the touch heads A (109) are arranged in an inclined plane structure, and the touch heads A (109) are symmetrically arranged at the tops of the detection blocks A (108) in an integrated manner.

4. The verticality detection device for construction engineering detection convenient to store as claimed in claim 1, wherein the connecting frame (2) is internally provided with an installation space; the connecting frame (2) also comprises: the detection block B (201), the detection block B (201) is arranged to be a rectangular block structure, and the detection block B (201) is arranged in the installation space of the connecting frame (2) in a sliding mode; a spring is arranged between the connecting frame (2) and the detection block B (201); the touch heads B (202), the touch heads B (202) are arranged into two groups, and the touch heads B (202) are symmetrically arranged at the top of the detection block B (201) in an integrated manner; the tops of the touch heads B (202) are all arranged into a bevel structure.

5. The verticality detection device for construction engineering detection convenient to store according to claim 4, wherein the connecting frame (2) further comprises: the two groups of sliding blocks B (203), and the sliding blocks B (203) are symmetrically arranged in the installation space of the connecting frame (2) in a sliding manner; a spring is arranged between the connecting frame (2) and the sliding block B (203); the limiting block A (204), the limiting block A (204) is of a circular block structure, and one side of the limiting block A (204) is provided with a clamping tooth structure; the limiting block A (204) is fixedly arranged at one end of the sliding block B (203); the connecting head (205), the connecting head (205) is set to be square block structure, and the connecting head (205) is set to be inclined plane structure; the connecting head (205) is integrally arranged at the bottom of the sliding block B (203).

6. The verticality detection device for building engineering detection, which is convenient to store as claimed in claim 1, is characterized in that the bottom of the detection column (3) is provided with an installation groove, and one side of the top of the detection column (3) is provided with an arc-shaped structure; the detection column (3) also comprises: the limiting block B (301), the limiting block B (301) is set to be a circular block structure, and one side of the limiting block B (301) is provided with a clamping tooth structure; the limiting blocks B (301) are arranged into two groups, and the limiting blocks B (301) are symmetrically and fixedly arranged on the inner side of the mounting groove of the detection column (3); the clamping tooth structure of the limiting block B (301) is matched with the clamping tooth structure of the limiting block A (204); the pointer (302), the pointer (302) is integrally arranged at one end of the bottom of the detection column (3); the pointer (302) is arranged outside the dial (103); the level gauge B (303), level gauge B (303) installation sets up in detecting post (3) top one side.

7. The verticality detection device for construction engineering detection convenient to store according to claim 6, wherein the detection column (3) further comprises: the clamping grooves (304) are arranged in a square groove structure, the clamping grooves (304) are arranged in two groups, and the clamping grooves (304) are symmetrically arranged at the top of the detection column (3); the sliding groove (305) is of a rectangular groove structure, and the sliding groove (305) is formed in the middle of the top of the detection column (3); connecting block (306), connecting block (306) integral type sets up in detecting post (3) top one side.

8. The verticality detection device for construction engineering detection convenient to store as claimed in claim 2, wherein the fixed casing (4) is configured as a square casing structure, and an installation space is opened inside the fixed casing (4); the fixed shell (4) also comprises: the detection block C (401), the detection block C (401) is set to be a square block structure, and one end of the detection block C (401) is set to be an inclined plane structure; the detection block C (401) is arranged in the installation space of the fixed shell (4) in a sliding manner; a spring is arranged between the fixed shell (4) and the detection block C (401); and the hook (402), the hook (402) is fixedly arranged at one end of the detection block C (401).