CN220768498U - Light slat with mosaic structure - Google Patents

Abstract

The utility model discloses a light slat with a splicing structure, which comprises a first slat, a second slat and a splicing structure, wherein the splicing structure comprises splicing blocks and splicing grooves, the left side surfaces of the first slat and the second slat are respectively provided with an integrated splicing block, the right side surfaces of the first slat and the second slat are respectively provided with a splicing groove, the splicing part of the first slat and the second slat is also provided with a splicing reinforcing mechanism, and the splicing reinforcing mechanism comprises a splicing rod, a positioning structure, a rod hole, a rectangular groove and a limit stop; according to the utility model, through optimizing and improving the light battens in the prior art, the splicing structure and the splicing reinforcing mechanism are designed between the two connected light battens, so that the two light battens can be quickly and stably spliced together, unnecessary separation of the two light battens in the subsequent construction process is prevented, and the construction convenience and stability of the light battens are improved.

Description

Light slat with mosaic structure

Technical Field

The utility model belongs to the technical field of light battens, and particularly relates to a light batten with a splicing structure.

Background

The light batten is also called a light partition board, the middle core material of the light batten is mixed with cement and benzene particles, the panels on two sides are novel environment-friendly building boards which are manufactured by a series of procedures of high temperature, steam pressing, demoulding and curing and the like, and the technical scheme adopted by the novel environment-friendly building boards is as follows: the locking grooves on the locking light lath are arranged on the side wall of the light lath, and the common light lath can be seen from the description in the application;

however, when the light battens in the above patent are actually used, the two adjacent light battens are spliced through the cooperation between the locking groove and the locking block, and as the locking groove and the locking block do not take extra limiting measures after being spliced, the splicing stability between the adjacent light battens is not high, separation and falling off easily occur in the construction process, and the construction convenience and stability of the light battens are reduced.

Disclosure of Invention

The utility model aims to provide a light slat with a splicing structure, so as to solve the problem of poor splicing stability of the existing light slat in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a light slat with mosaic structure, includes slat one, slat two and mosaic structure, mosaic structure includes splice and splice, the left side surface of slat one and slat two all is equipped with integral type splice, splice has all been seted up to the right side surface of slat one and slat two, splice department of slat one and slat two still is provided with grafting strengthening mechanism, grafting strengthening mechanism includes plug rod, location structure, pole hole, rectangular channel and limit stop, the perforation corresponding with the plug rod has been seted up to the surface of splice, rectangular channel has all been seted up to the upper and lower surface of slat one and slat two, just set up the mesopore between rectangular channel and the splice, the plug rod inserts to the pole downthehole to through the perforation two splice, limit stop rotates to be installed in the rectangular channel, and covers the opening part in pole hole.

Preferably, the splicing reinforcement mechanism further comprises an elastic movable structure, the elastic movable structure comprises an inner movable groove formed in the first strip plate and the second strip plate, an inner movable block is movably mounted in the inner movable groove through a spring, a cylindrical connecting rod is rotatably mounted on one side of the inner movable block, and the end portion of the cylindrical connecting rod penetrates into the rectangular groove to be fixed with the limit stop block.

Preferably, two circular grooves are symmetrically formed in one side surface of the inner movable block, and one end of the spring is embedded into the circular groove.

Preferably, a round hole is arranged between the rectangular groove and the inner movable groove, and the round hole corresponds to the cylindrical connecting rod.

Preferably, the plug-in reinforcing mechanism further comprises an end block fixed on the inner side surface of the limit stop, and the end block is embedded into the rod hole.

Preferably, the plugging reinforcing mechanism further comprises a positioning structure, and the positioning structure is arranged between the plugging rod and the middle hole.

Preferably, the location structure includes side groove, rubber side seat, arc arch and annular draw-in groove, the inner wall at the mesopore is seted up to the side groove, rubber side seat embedding is fixed in the side groove, and the surface of rubber side seat is equipped with the arc arch of integral type, annular draw-in groove has been seted up on the center department surface of spliced pole, the arc arch is embedded into in the annular draw-in groove.

Preferably, an elliptical cavity is formed in the rubber side seat, and the position of the elliptical cavity corresponds to the arc-shaped protrusion.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, through optimizing and improving the light battens in the prior art, the splicing structure and the splicing reinforcing mechanism are designed between the two connected light battens, so that the two light battens can be quickly and stably spliced together, unnecessary separation of the two light battens in the subsequent construction process is prevented, and the construction convenience and stability of the light battens are improved.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a cross-sectional view of the connection of slat one and slat two according to the present utility model;

FIG. 3 is an enlarged view of a portion of the area A of FIG. 2 in accordance with the present utility model;

FIG. 4 is an enlarged view of a portion of the positioning structure of FIG. 2 in accordance with the present utility model;

in the figure: 1. a first slat; 2. a second slat; 3. a splice structure; 31. splicing blocks; 32. a splice groove; 4. a splicing and reinforcing mechanism; 41. inserting a connecting rod; 42. a positioning structure; 421. a side groove; 422. a rubber side seat; 423. arc-shaped bulges; 424. an annular clamping groove; 43. a rod hole; 44. rectangular grooves; 45. a limit stop; 46. an end block; 47. an elastic movable structure; 471. an inner movable groove; 472. a spring; 473. a cylindrical connecting rod; 474. an inner movable block.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1 to 3, a first embodiment of the present utility model provides a technical solution: the light lath with the splicing structure comprises a lath I1, a lath II 2 and a splicing structure 3, wherein the splicing structure 3 comprises a splicing block 31 and a splicing groove 32, the left side surfaces of the lath I1 and the lath II 2 are respectively provided with an integrated splicing block 31, the right side surfaces of the lath I1 and the lath II 2 are respectively provided with a splicing groove 32 corresponding to the splicing block 31 for splicing the lath I1 and the lath II 2, the splicing part of the lath I1 and the lath II 2 is also provided with a splicing reinforcing mechanism 4, the splicing reinforcing mechanism 4 comprises a splicing rod 41, a positioning structure 42, a rod hole 43, a rectangular groove 44 and a limit stop 45, the surface of the splicing block 31 is penetrated and provided with a perforation corresponding to the splicing rod 41, the upper surface and the lower surface of the lath I1 and the lath II 2 are respectively provided with a rectangular groove 44, a rod hole 43 is arranged between the rectangular groove 44 and the splicing groove 32, a middle hole is arranged between the two splicing grooves 32, the inserting rod 41 is inserted into the rod hole 43 and penetrates through the two splicing blocks 31 through the through holes, after the first strip plate 1 and the second strip plate 2 are spliced, the splicing stability between the first strip plate 1 and the second strip plate 2 is improved through the penetration of the inserting rod 41, the separation of the first strip plate 1 and the second strip plate 2 is prevented, the limit stop 45 is rotatably arranged in the rectangular groove 44 and covers the opening of the rod hole 43, the rod hole 43 can be blocked after the inserting rod 41 is inserted, thereby the inserting rod 41 plays a role of shielding and limiting, the inserting rod 41 can be pulled out only by rotating and removing the limit stop 45, the inserting reinforcing mechanism 4 further comprises an elastic movable structure 47, the elastic movable structure 47 comprises an inner movable groove 471 arranged in the first strip plate 1 and the second strip plate 2, the inner movable groove 471 is movably provided with an inner movable block 474 through a spring 472, one side of the inner movable block 474 is rotatably provided with a cylindrical connecting rod 473, and the tip of cylindrical connecting rod 473 runs through to the rectangle inslot 44 and is fixed with limit stop 45 for limit stop 45 can rotate the while, still can carry out the activity from top to bottom to a certain extent, make things convenient for follow-up rotation operation to limit stop 45, grafting strengthening mechanism 4 still includes the end block 46 of fixing at limit stop 45 inboard surface, and end block 46 imbeds to in the pole hole 43, make limit stop 45 can not follow the opening part rotation removal of pole hole 43 by oneself in the daily use, play spacing effect to limit stop 45, only follow-up operating personnel will limit stop 45 pulling, make end block 46 shift out behind the pole hole 43, just can carry out rotation operation of limit stop 45.

Wherein, two circular grooves have been seted up to the side surface symmetry of interior movable block 474, and the one end of spring 472 is embedded into the circular groove, guarantees the installation stability of spring 472, has seted up the round hole between rectangular groove 44 and the interior movable groove 471, and the round hole is corresponding with cylindrical connecting rod 473, supplies the smooth run-through and subsequent rotation of cylindrical connecting rod 473.

Example 2

Referring to fig. 1 to 4, in a second embodiment of the present utility model, the positioning structure 42 is provided to facilitate the auxiliary positioning of the insertion rod 41 when passing through the middle hole, so that the rod hole 43 is conveniently blocked by the following operator through the limit stop 45, and the convenience of splicing between the first and second strips 1 and 2 is improved.

Specifically, grafting strengthening mechanism 4 still includes location structure 42, location structure 42 sets up between plug rod 41 and mesopore, location structure 42 includes side tank 421, rubber side seat 422, arc arch 423 and annular draw-in groove 424, the inner wall in the mesopore is seted up to side tank 421, rubber side seat 422 embedding is fixed in side tank 421, and the surface of rubber side seat 422 is equipped with the arc arch 423 of integral type, arc arch 423 is made for the rubber material, annular draw-in groove 424 corresponding with arc arch 423 is seted up on the center department surface of plug rod 41, arc arch 423 imbeds in annular draw-in groove 424, when plug rod 41 runs through the mesopore, and be in suitable position the back, arc arch 423 can block into annular draw-in groove 424, play auxiliary limiting's effect to plug rod 41, avoid plug rod 41 from rod hole 43 opening part direct slide down this moment, conveniently carry out follow-up limit stop 45's rotatory spacing operation, the oval cavity has been seted up to the inside of rubber side seat 422, and the position of oval cavity corresponds with arc arch 423, make rubber side seat 422 and arc arch 423 receive the elasticity deformation when squeezing easily take place.

Although embodiments of the present utility model have been shown and described in detail with reference to the foregoing detailed description, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations may be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a light slat with mosaic structure, includes slat one (1), slat two (2) and mosaic structure (3), its characterized in that: splice structure (3) are including splice piece (31) and splice groove (32), the left side surface of slat one (1) and slat two (2) all is equipped with integral type splice piece (31), splice groove (32) have all been seted up on the right side surface of slat one (1) and slat two (2), splice department of slat one (1) and slat two (2) still is provided with grafting strengthening mechanism (4), grafting strengthening mechanism (4) are including spliced pole (41), location structure (42), pole hole (43), rectangular channel (44) and limit stop (45), the perforation corresponding with spliced pole (41) has been run through on the surface of splice piece (31), rectangular channel (44) have all been seted up on the upper and lower surface of slat one (1) and slat two (2), just rod hole (43) have been seted up between two splice grooves (32), spliced pole (41) insert in rod hole (43) to rod hole (45) to through two perforation piece (45), install two perforation limit stop (45) and cover in splice hole (43).

2. A lightweight board with a splice structure as defined in claim 1, wherein: the splicing reinforcement mechanism (4) further comprises an elastic movable structure (47), the elastic movable structure (47) comprises an inner movable groove (471) formed in the first lath (1) and the second lath (2), an inner movable block (474) is movably mounted in the inner movable groove (471) through a spring (472), a cylindrical connecting rod (473) is rotatably mounted on one side of the inner movable block (474), and the end part of the cylindrical connecting rod (473) penetrates into the rectangular groove (44) to be fixed with the limit stop (45).

3. A lightweight board with a splice structure as defined in claim 2, wherein: two circular grooves are symmetrically formed in one side surface of the inner movable block (474), and one end of the spring (472) is embedded into the circular groove.

4. A lightweight board with a splice structure as defined in claim 3, wherein: a round hole is formed between the rectangular groove (44) and the inner movable groove (471), and the round hole corresponds to the cylindrical connecting rod (473).

5. A lightweight board with a splice structure as defined in claim 4, wherein: the plug-in reinforcing mechanism (4) further comprises an end block (46) fixed on the inner side surface of the limit stop block (45), and the end block (46) is embedded into the rod hole (43).

6. A lightweight board with a splice structure as defined in claim 5, wherein: the plug-in reinforcing mechanism (4) further comprises a positioning structure (42), and the positioning structure (42) is arranged between the plug-in connecting rod (41) and the middle hole.

7. A lightweight board with a splice structure as defined in claim 6, wherein: the utility model provides a location structure (42) is including side groove (421), rubber side seat (422), arc arch (423) and annular draw-in groove (424), the inner wall in the mesopore is seted up in side groove (421), rubber side seat (422) embedding is fixed in side groove (421), and the surface of rubber side seat (422) is equipped with the arc arch (423) of integral type, annular draw-in groove (424) have been seted up on the center department surface of grafting pole (41), arc arch (423) are embedded into in annular draw-in groove (424).

8. A lightweight board with a splice structure as defined in claim 7, wherein: an elliptical cavity is formed in the rubber side seat (422), and the position of the elliptical cavity corresponds to that of the arc-shaped protrusion (423).