CN219654103U - Sliding block structure of ceiling skylight system - Google Patents

Abstract

The utility model relates to a sliding block structure of a roof skylight system. The sliding block solves the technical problems of low applicability and the like of the existing sliding block. The sliding block assembly comprises a sliding block set with at least one sliding block body, wherein at least two connecting areas are sequentially arranged on the sliding block body along the horizontal axial direction of the sliding block body, any one connecting area in the connecting areas is provided with a synchronous belt connecting piece through a detachable mounting structure, the upper end of the synchronous belt connecting piece is detachably connected with the synchronous belt body through a synchronous belt connecting assembly, and the synchronous belt body is positioned above any one connecting area of the sliding block body. The advantages are that: the connecting areas are connected with the synchronous belt through the detachable mounting structure and the synchronous belt connecting pieces, and the number of the connecting areas is two, so that the requirements of the double-layer synchronous belt can be met, the specification of the slider body can be unified, and the production cost is reduced; the sliding block group consists of two sliding block bodies, so that the sliding block bodies can be more stable when driving the curtain cloth traction rod.

Description

Sliding block structure of ceiling skylight system

Technical Field

The utility model belongs to the technical field of canopy curtain equipment, and particularly relates to a sliding block structure of a ceiling skylight system.

Background

The awning curtain is mainly used as sun-shading equipment in the aspect of a skylight, and the current awning curtain is mainly connected with a synchronous belt through a sliding block, so that a curtain fabric traction rod is driven to move through the sliding block; because part of the awning curtains are provided with double-layer synchronous belts for transmission, a plurality of sliding blocks with different specifications are required to be connected with the synchronous belts, so that the overall production cost of the awning curtains is improved, and sliding blocks with different specifications are required to be prepared during later maintenance, so that the maintenance efficiency is reduced, and the maintenance cost is improved; because the curtain cloth traction rod on the canopy curtain slides only through a single sliding block, the sliding instability in the use process can be caused.

Disclosure of Invention

In order to solve the problems set forth in the background art, the present utility model provides a slider structure of a sunroof system.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a sliding block structure of ceiling skylight system, includes the slider group that has at least one slider body, the slider body on be equipped with two at least connecting areas in proper order along slider body horizontal axial direction, any one connecting area in the connecting area be equipped with the hold-in range connecting piece through removable mounting structure, hold-in range connecting piece upper end be connected with the hold-in range body is removable through hold-in range coupling assembling, just the hold-in range body be located slider body any one connecting area top.

In the sliding block structure of the ceiling skylight system, the sliding block group is provided with two sliding block bodies which are adjacently arranged, the sliding block bodies are identical in appearance and size, and the sliding block bodies are connected through a detachable connecting assembly.

In the sliding block structure of the ceiling skylight system, the distribution direction of the two sliding block bodies and the distribution direction of the connecting areas on the sliding block bodies are perpendicular, and the synchronous belt connecting pieces on the two sliding block bodies and the connecting areas are perpendicular.

In the sliding block structure of the ceiling skylight system, the detachable installation structure comprises a plurality of connecting piece locating holes which are respectively arranged in the connecting areas in a one-to-one correspondence mode, and the lower end of the synchronous belt connecting piece is provided with a connecting piece locating column which is vertically inserted in the connecting piece locating hole.

In the sliding block structure of the ceiling skylight system, two connecting areas are arranged on each sliding block body, a concave part is arranged between the two connecting areas, and the concave parts are correspondingly arranged at the upper end and the lower end of the sliding block body.

In the sliding block structure of the ceiling skylight system, the shapes and the sizes of the connecting piece positioning holes in each connecting area are the same, the connecting piece positioning holes penetrate through the sliding block body up and down respectively, a concave groove is formed in one side of each connecting piece positioning hole, and a protruding portion which extends along the axial direction of the connecting piece positioning column and is matched with the concave groove is arranged on one side of each connecting piece positioning column.

In the sliding block structure of the ceiling skylight system, the synchronous belt bodies sequentially penetrate through synchronous belt mounting grooves at the upper ends of the synchronous belt connecting pieces at the upper ends of the two sliding block bodies, and the synchronous belt mounting grooves on the synchronous belt connecting pieces are located on the same horizontal plane.

In the slider structure of the ceiling skylight system, the synchronous belt connecting assembly comprises a synchronous belt clamping seat arranged at the upper end of the synchronous belt connecting piece, an opening towards the outer side of the synchronous belt clamping seat is formed in one side of the synchronous belt clamping seat, a synchronous belt clamping block is arranged at the opening through a clamping structure, a synchronous belt mounting groove is formed between the synchronous belt clamping seat and the synchronous belt clamping block, and a concave-convex limiting structure is arranged between the inner side of the synchronous belt clamping seat and the synchronous belt body.

In the sliding block structure of the ceiling skylight system, the detachable connecting component comprises connecting extension parts arranged on one sides of the two sliding block bodies, the connecting extension parts are arranged up and down correspondingly, one sides of the connecting extension parts corresponding to each other are clamped with each other through the concave-convex clamping structures, the two sliding block bodies are connected with each other through the detachable connecting piece at the same end, and one end of the detachable connecting piece is provided with a curtain cloth traction beam connecting part.

In the sliding block structure of the ceiling skylight system, one end of the sliding block body is respectively provided with the connecting plates which extend outwards, the connecting plates are provided with the transversely arranged mounting grooves, the detachable connecting pieces are respectively inserted into the mounting grooves through the positioning columns, and the connecting plates and the detachable connecting pieces are fixed through the mounting bolts.

Compared with the prior art, the utility model has the advantages that:

1. can link to each other with the hold-in range through removable mounting structure and hold-in range connecting piece through the connection region, and the connection region has two, can adapt to the demand of double-deck hold-in range, can unify the specification of slider body, reduction in production cost.

2. The sliding block group consists of two sliding block bodies, so that the sliding block bodies can be more stable when driving the curtain cloth traction rod.

3. The synchronous belt connecting assembly is fixedly connected with the synchronous belt body through the concave-convex limiting structure, so that the stability of connection with the synchronous belt body is improved.

Drawings

Fig. 1 is a schematic view showing a structure in which a timing belt connection assembly 5 is connected to a connection area in the present utility model.

Fig. 2 is a schematic structural diagram of another connection mode of the synchronous belt connection assembly 5 and the connection area in the present utility model.

Fig. 3 is a schematic structural view of the concave-convex limiting structure in the present utility model.

Fig. 4 is a schematic structural view of the detachable mounting structure of the present utility model.

Fig. 5 is an exploded view of the structure of the detachable connection member of the present utility model.

Fig. 6 is an exploded view of the structure of the timing belt connection assembly of the present utility model.

Fig. 7 is a schematic structural view of a timing belt connector according to the present utility model.

In the figure: slider group 1, slider body 11, connecting plate 12, mounting groove 121, connecting region 2, depressed portion 21, removable mounting structure 3, connecting piece locating hole 31, depressed slot 311, connecting piece reference column 32, protruding portion 321, hold-in range connecting piece 4, hold-in range mounting slot 41, hold-in range coupling assembly 5, hold-in range bayonet socket 51, hold-in range bayonet lock 52, hold-in range body 6, removable coupling assembly 7, connection extension 71, removable connecting piece 72, reference column 721, mounting bolt 722, curtain cloth traction beam connecting portion 73, clamping structure 8, concave-convex limit structure 9, concave-convex clamping structure 10.

Detailed Description

The utility model will be described in further detail with reference to the drawings and the detailed description.

As shown in fig. 1, fig. 2, fig. 4, fig. 7, this sliding block structure of ceiling skylight system, including the slider group 1 that has two slider bodies 11, single slider body 11 can probably lead to not stabilizing enough in the slip process, if adopt three slider bodies 11 can lead to manufacturing cost's improvement, be equipped with two connecting region 2 in proper order along slider body 11 horizontal axial direction on the slider body 11, can make slider body 11 only need single specification just can adapt double-deck or individual layer hold-in range through two connecting region 2, slider body 11 at different specifications is not needed, manufacturing cost and cost of maintenance can effectively be reduced, and can improve production efficiency, arbitrary connecting region 2 in the connecting region 2 is equipped with hold-in range connecting piece 4 through removable mounting structure 3, the hold-in range connecting piece 4 upper end is through hold-in range connecting component 5 and hold-in range 6 can link to each other, and hold-in range 6 is located arbitrary connecting region 2 top of slider body 11, can carry out the connecting efficiency of connecting band 6 according to the connecting component 5 on the connecting region 2 of position demand selection different positions of hold-in range 6.

Specifically, the sliding block set 1 has two adjacent sliding blocks 11, the sliding blocks 11 have the same shape and size, and the sliding blocks 11 are connected through the detachable connection assembly 7, so that a single sliding block 11 and a plurality of sliding blocks 11 can be selected for use according to different use situations, and the applicability of the sliding blocks 11 is improved.

The distribution direction of the two slider bodies 11 and the distribution direction of the connection area 2 on each slider body 11 are perpendicular, and the synchronous belt connectors 4 on the two slider bodies 11 are perpendicular to the connection area 2.

As shown in fig. 1, 2, 4, 6 and 7, preferably, the detachable mounting structure 3 includes a plurality of connecting piece positioning holes 31 respectively corresponding to each other in the connecting area 2, and the lower end of the synchronous belt connecting piece 4 is provided with a connecting piece positioning column 32 vertically inserted in the connecting piece positioning hole 31, the length of the connecting positioning column 32 is smaller than that of the connecting piece positioning hole 31, the connecting positioning column 32 is meshed with the connecting piece positioning hole 31 in shape and size, and the connection stability between the connecting positioning column 32 and the connecting piece positioning hole 31 can be further improved.

Further, two connection areas 2 are arranged on each slider body 11, a concave portion 21 is arranged between the two connection areas 2, the concave portions 21 are correspondingly arranged at the upper end and the lower end of the slider body 11, the size of the slider body 11 can be effectively reduced through the concave portions 21, and the production cost of the slider body 11 can be effectively reduced.

Wherein, connecting piece locating hole 31 appearance, the size is the same in every connecting region 2, can change connecting piece locating hole 31 at any time according to the position demand of difference, improve the scene suitability of slider 11, and connecting piece locating hole 31 runs through slider 11 from top to bottom respectively, can install without distinguishing the positive and negative when installing slider 11, improve installation effectiveness, and can improve the production efficiency of a bit, connecting piece locating hole 31 one side forms concave slot 311, and connecting piece locating column 32 one side is equipped with along connecting piece locating column 32 axial extension and with concave slot 311 matched with bellying 321, through bellying 321 and concave slot 311 can further improve connecting locating column 32 and connecting piece locating hole 31's connection stability.

Referring to fig. 3, 4, 5, 6 and 7, the timing belt body 6 sequentially penetrates through the timing belt mounting grooves 41 on the upper ends of the timing belt connectors 4 on the upper ends of the two slider bodies 11, and the timing belt mounting grooves 41 on the timing belt connectors 4 are located on the same horizontal plane, so that the smoothness and stability of the transmission of the timing belt body 6 are ensured.

Wherein, hold-in range coupling assembling 5 is including setting up the hold-in range joint seat 51 in hold-in range coupling spare 4 upper end, hold-in range joint seat 51 one side has the opening in the outside towards hold-in range joint seat 51, and the opening part is equipped with hold-in range joint piece 52 through joint structure 8, joint structure 8 is including setting up the joint piece that extends and set up in hold-in range joint seat 51 one side towards hold-in range joint piece 52, wherein be equipped with the joint recess that sets up with joint piece one-to-one on the hold-in range joint seat 51, the joint piece is pegged graft in the joint recess, can improve the connection steadiness of hold-in range joint piece 52 and hold-in range joint seat 51 through joint structure 8, and hold-in range mounting groove 41 forms between hold-in range joint seat 51 and hold-in range joint piece 52, be equipped with unsmooth limit structure 9 between hold-in range joint seat 51 inboard and the hold-in range body 6, can improve the connection stability between hold-in range body 6 and the hold-in range coupling assembling 5 through unsmooth limit structure 9, can effectively prevent that hold-in range body 6 from producing the dislocation phenomenon in the use.

Specifically, the detachable connection assembly 7 includes a connection extension portion 71 disposed at one side of two slider bodies 11 corresponding to each other, the connection extension portion 71 is disposed correspondingly up and down, and a concave-convex clamping structure 10 is disposed at one side of the connection extension portion 71 corresponding to each other, the concave-convex clamping structure 10 includes a connection groove disposed at the connection extension portion 71 and a connection bump disposed at one side of the connection extension portion, wherein the connection extension portions 71 on the two slider bodies 11 are respectively clamped through the connection bumps inserted in the connection groove, the same ends of the two slider bodies 11 are connected through a detachable connection piece 72, one end of the detachable connection piece 72 is provided with a curtain traction beam connection portion 73, the curtain traction beam connection portion 73 is connected with a curtain traction rod, and the slider bodies 11 can drive the curtain traction rod to slide through the curtain traction beam connection portion 73.

As shown in fig. 5, one end of the slider body 11 is respectively provided with a connecting plate 12 extending outwards, the connecting plate 12 is provided with a transversely arranged mounting groove 121, the detachable connecting pieces 72 are respectively inserted into the mounting groove 121 through positioning posts 721, the connecting plate 12 and the detachable connecting pieces 72 are fixed through mounting bolts 722, and the connectivity between the detachable connecting pieces 72 and the slider body 11 can be improved through the positioning posts 721 and the mounting bolts 722.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Although terms such as the slider group 1, the slider body 11, the connection plate 12, the mounting groove 121, the connection region 2, the recess 21, the detachable mounting structure 3, the connector positioning hole 31, the recess 311, the connector positioning post 32, the boss 321, the timing belt connector 4, the timing belt mounting groove 41, the timing belt connector assembly 5, the timing belt clamping seat 51, the timing belt clamping block 52, the timing belt body 6, the detachable connector assembly 7, the connection extension 71, the detachable connector 72, the positioning post 721, the mounting bolt 722, the curtain cloth traction beam connection 73, the clamping structure 8, the concave-convex limiting structure 9, the concave-convex clamping structure 10 are used more herein, the possibility of using other terms is not excluded. These terms are used merely for convenience in describing and explaining the nature of the utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.

Claims (10)

1. The utility model provides a sliding block structure of ceiling skylight system, includes slider group (1) that has at least one slider body (11), its characterized in that, slider body (11) on be equipped with two at least connecting region (2) in proper order along slider body (11) horizontal axial direction, connecting region (2) in arbitrary connecting region (2) be equipped with hold-in range connecting piece (4) through detachable mounting structure (3), hold-in range connecting piece (4) upper end pass through hold-in range coupling assembling (5) and hold-in range body (6) detachable link to each other, just hold-in range body (6) be located slider body (11) arbitrary connecting region (2) top.

2. A sliding block structure of a roof skylight system according to claim 1, wherein the sliding block group (1) is provided with two sliding blocks (11) which are adjacently arranged, the sliding blocks (11) have the same appearance and size, and the sliding blocks (11) are connected through a detachable connecting component (7).

3. A sliding block structure of a roof skylight system according to claim 2, characterized in that the distribution direction of the two sliding blocks (11) and the distribution direction of the connecting areas (2) on each sliding block (11) are arranged vertically, and the synchronous belt connecting pieces (4) on the two sliding blocks (11) are arranged vertically to the connecting areas (2).

4. A sliding block structure of a roof skylight system according to claim 1, 2 or 3, wherein the detachable installation structure (3) comprises a plurality of connecting piece positioning holes (31) which are respectively arranged in the connecting area (2) in a one-to-one correspondence manner, and the lower end of the synchronous belt connecting piece (4) is provided with a connecting piece positioning column (32) which is vertically inserted in the connecting piece positioning hole (31).

5. The sliding block structure of a sunroof system according to claim 4, wherein two connection areas (2) are provided on each sliding block body (11), a recess (21) is provided between the two connection areas (2), and the recess (21) is provided at the upper and lower ends of the sliding block body (11) correspondingly.

6. The sliding block structure of a sunroof system according to claim 4, wherein the connecting piece positioning holes (31) in each connecting area (2) have the same shape and size, the connecting piece positioning holes (31) penetrate the sliding block body (11) up and down respectively, a concave groove (311) is formed on one side of the connecting piece positioning hole (31), and a convex part (321) which extends along the axial direction of the connecting piece positioning post (32) and is matched with the concave groove (311) is arranged on one side of the connecting piece positioning post (32).

7. The sliding block structure of a ceiling skylight system according to claim 1, wherein the timing belt bodies (6) sequentially penetrate through timing belt mounting grooves (41) at the upper ends of the timing belt connecting pieces (4) at the upper ends of the two sliding block bodies (11), and the timing belt mounting grooves (41) on the timing belt connecting pieces (4) are positioned on the same horizontal plane.

8. The sliding block structure of a ceiling skylight system according to claim 7, wherein the synchronous belt connecting assembly (5) comprises a synchronous belt clamping seat (51) arranged at the upper end of the synchronous belt connecting piece (4), an opening facing the outer side of the synchronous belt clamping seat (51) is formed in one side of the synchronous belt clamping seat (51), a synchronous belt clamping block (52) is arranged at the opening through a clamping structure (8), a synchronous belt mounting groove (41) is formed between the synchronous belt clamping seat (51) and the synchronous belt clamping block (52), and a concave-convex limiting structure (9) is arranged between the inner side of the synchronous belt clamping seat (51) and the synchronous belt body (6).

9. The sliding block structure of a sunroof system according to claim 2, wherein the detachable connection assembly (7) comprises a connection extension part (71) arranged at one side of two sliding block bodies (11) corresponding to each other, the connection extension parts (71) are arranged up and down correspondingly, one sides of the connection extension parts (71) corresponding to each other are clamped with each other through a concave-convex clamping structure (10), the same ends of the two sliding block bodies (11) are connected through a detachable connection piece (72), and one end of the detachable connection piece (72) is provided with a curtain cloth traction beam connection part (73).

10. The sliding block structure of a sunroof system according to claim 9, wherein one end of the sliding block body (11) is provided with a connecting plate (12) extending outwards, the connecting plate (12) is provided with a transversely arranged mounting groove (121), the detachable connecting piece (72) is inserted into the mounting groove (121) through positioning posts (721) respectively, and the connecting plate (12) and the detachable connecting piece (72) are fixed through mounting bolts (722).