CN220768466U - Membrane structure heat preservation type connecting device - Google Patents

Abstract

The utility model relates to the technical field of connecting devices, in particular to a membrane structure heat-preservation type connecting device. Technical problems: in the processing process of the film structure, the film can not be adjusted, locked and pressed according to the thickness of the film structure, and meanwhile, the film cannot be connected and fixed, and meanwhile, the protection and heat preservation effects are achieved, so that the problem that the overall heat preservation performance of the film structure is reduced is solved. The technical scheme is as follows: a membrane structure heat preservation type connecting device comprises a connecting transverse frame and two side heat preservation fastening components. According to the utility model, the upper side and the lower side of the film can be adjusted and clamped according to different thickness specifications of the film structure through the attaching and locking heat preservation assembly, so that the purpose of stably attaching, pressing and fixing is achieved, the protection and heat preservation effect can be achieved, the two side heat preservation fastening assemblies arranged on the inner side of the side heat preservation pressure-bearing frame plate can fasten and prevent the two sides of the edge of the film from falling off, the stable connection of the device is ensured, and meanwhile, the protection and heat preservation effects on the two side film bodies can be achieved.

Description

Membrane structure heat preservation type connecting device

Technical Field

The utility model relates to the technical field of connecting devices, in particular to a membrane structure heat-preservation type connecting device.

Background

Nowadays, the film structure function that uses in bicycle shed, the view canopy on the market is comparatively simple, mostly all adopt outside envelope form, when carrying out the connection processing, mostly adopt single block mechanism to fix, can not adjust the locking pressfitting to the film according to the difference of film structure thickness, lead to connecting device unable adaptation different specification's film structure, can't play protection heat retaining effect in fixed, thereby lead to the film to carry out the in-process of using after connecting, because there is not corresponding heat preservation measure in junction, make film structure whole heat preservation performance decline to some extent, so the urgent need sets up one kind and can adjust the locking pressfitting to the film to the difference of film structure thickness, also can play the connecting device of certain protection heat retaining effect in the fixed time of connection, in order to satisfy user's needs.

Disclosure of Invention

In order to overcome the processing in the film structure, can not adjust the locking pressfitting to the film because of the difference according to film structure thickness, can't play protection heat preservation effect simultaneously when connecting fixedly simultaneously, lead to the whole thermal insulation performance of film structure to descend to some extent's problem.

The technical scheme of the utility model is as follows: a membrane structure heat preservation type connecting device comprises a connecting transverse frame, a heat preservation frame extension plate, a joint locking heat preservation assembly, a side heat preservation pressure-bearing frame plate and two side heat preservation fastening assemblies; the two sides of the connecting transverse frame are fixedly connected with L-shaped heat preservation frame extension plates; the inner side of the heat preservation frame extension plate is symmetrically provided with a laminating locking heat preservation assembly for adjusting and clamping the upper side and the lower side of the membrane; two ends of the connecting transverse frame are fixedly connected with side heat-preserving pressure-bearing frame plates; the inner side of the side heat-insulating pressure-bearing frame plate is provided with two side heat-insulating fastening components for fastening and anti-falling protection on two sides of the edge of the film.

Preferably, the laminating lock of heat preservation frame extension inboard is died heat preservation subassembly and is adjusted the membrane upper and lower both sides according to the difference of membrane structure thickness specification and press from both sides tightly to also can play protection heat retaining effect when reaching stable laminating and compressing tightly fixed purpose, and the both sides heat preservation that side heat preservation pressure-bearing frame inboard set up is fastened the anti-drop protection with membrane edge both sides, has ensured the firm type that the device connects, also can play protection heat retaining effect to the both sides membrane body simultaneously, thereby makes the holistic heat preservation performance of membrane structure after the junction lack heat preservation mechanism and take place the phenomenon that descends because of the junction.

Preferably, the connecting cross frame comprises a connecting through groove and an arc-shaped heat-preserving pressing pad; the connecting transverse frame is internally provided with a connecting through groove; the arc-shaped heat-preservation pressing pad is fixedly connected to the two ends of the inner side of the connecting through groove, the film body can penetrate through the connecting through groove, and the arc-shaped heat-preservation pressing pad can play a certain protection and heat preservation role on the film body.

Preferably, the attaching locking heat-preserving component comprises a front-end heat-preserving cushion, a locking bolt, a limiting spring, a positioning pressing plate and a first heat-preserving attaching block; the inner side of the heat preservation frame extension board is provided with a front end heat preservation cushion, and the front end heat preservation cushion can protect and preserve heat of films at two ends.

Preferably, the heat preservation frame extension plate is internally connected with a locking bolt in a threaded manner; the outer side of the locking bolt is sleeved with a limit spring; the front end of the locking bolt is provided with a positioning pressing plate; the first thermal insulation laminating block is fixedly connected with the side end of the positioning pressing plate, the positioning pressing plate can be driven to be adjusted up and down by utilizing the locking bolt, so that the two sides of the film are clamped according to the thickness specification of the film, and meanwhile, the first thermal insulation laminating block can be used for carrying out thermal insulation treatment on the films on the two sides.

Preferably, the side heat-insulating and pressure-bearing frame plate comprises a side end pressing cavity, an arc heat-insulating pressing strip, a pressing groove and a second heat-insulating attaching block; a side end pressing cavity is formed in the side heat-insulating pressure-bearing frame plate; an arc-shaped heat-insulation pressing strip is arranged at the inner side of the side end pressing cavity; a compaction groove is formed in the center of the inner part of the arc-shaped heat-preservation pressing bar; the second heat-insulating laminating block is arranged on the inner side of the pressing groove, the edge of the film can penetrate into the pressing groove, and the second heat-insulating laminating block can strengthen the heat-insulating effect on the edge of the film.

Preferably, the two-side heat-insulation fastening component comprises a lower end fixing plate, a positioning pressing groove, a movable upper pressing plate, a rear elastic clamping block, a pressing rod and a buckling pressing block; the front part of the side end of the side heat-preservation pressure-bearing frame plate is fixedly connected with a lower end fixing plate; the lower end fixing plate is internally provided with a positioning and pressing groove, and the edge of the film at the front end can be placed at the upper end of the positioning and pressing groove.

Preferably, a movable upper pressing plate is arranged at the side end of the side heat-preservation pressure-bearing frame plate in a clamping manner; the rear end of the movable upper pressing plate is connected with a rear elastic clamping block; the lower end of the movable upper pressing plate is fixedly connected with a pressing rod; the lower end of the pressing rod is fixedly connected with a buckling pressing block; the side end of the side heat-preservation pressure-bearing frame plate is provided with the adjusting clamping hole matched with the rear elastic clamping block, the rear elastic clamping block can be adjusted and moved up and down, the movable upper pressing plate can be adjusted and moved, the pressing rod can drive the buckling pressing block to move downwards, the film edge at the front end is stably buckled and pressed, and the connection stability is further ensured.

The utility model has the beneficial effects that:

1. the laminating locking heat preservation assembly on the inner side of the heat preservation frame extension plate can adjust and clamp the upper side and the lower side of the film according to the thickness specification of the film structure, so that the purpose of stable lamination, compaction and fixation is achieved, the heat preservation and fixation can be achieved, the two side heat preservation fastening assemblies arranged on the inner side of the side heat preservation pressure-bearing frame plate can fasten and prevent the two sides of the edge of the film from falling off, the firm connection of the device is ensured, and meanwhile, the protection and heat preservation effects can be achieved on the two side film bodies, so that the whole heat preservation performance of the film structure after connection cannot be reduced due to the lack of a heat preservation mechanism at the connection part;

2. the locking bolt can drive the positioning pressing plate to be adjusted up and down, so that the upper side and the lower side of the film are clamped according to different thickness specifications of the film structure, and meanwhile, the first heat-preserving laminating block can be used for carrying out heat-preserving treatment on the films at the two sides;

3. the edge of film can pierce into and compress tightly in the recess, and the second keeps warm laminating piece can play the effect of strengthening the heat preservation to the film edge, and the film edge of front end can be placed and compress tightly the groove upper end in the location, and back elasticity fixture block can adjust the removal from top to bottom, makes and removes the top board and can adjust the removal, and pressfitting pole can drive to detain into the briquetting and move down, carries out stable lock to the film edge of front end and compresses tightly, has further ensured the firm type of connection.

Drawings

FIG. 1 shows a schematic perspective view of a connecting device according to the present utility model;

FIG. 2 shows a schematic perspective view of a bonded, locked and thermal insulation assembly of a connecting device according to the present utility model;

fig. 3 shows a schematic perspective view of a side heat-insulating and pressure-bearing frame plate of the connecting device of the utility model;

fig. 4 shows a schematic perspective view of a thermal insulation fastening assembly on both sides of the connecting device according to the present utility model.

Reference numerals illustrate: 1. the connecting transverse frame; 2. a thermal insulation frame extension plate; 3. attaching and locking the heat preservation component; 4. a side heat-insulating pressure-bearing frame plate; 5. two sides keep warm and fasten the assembly; 101. a connection through groove; 102. arc heat-preserving pressing pad; 301. a front end heat-preserving soft cushion; 302. a locking bolt; 303. a limit spring; 304. positioning a pressing plate; 305. a first thermal insulation lamination block; 401. the side ends are pressed into the cavity; 402. arc heat preservation layering; 403. compressing the groove; 404. a second heat-insulating attaching block; 501. a lower end fixing plate; 502. positioning and compressing grooves; 503. moving the upper pressing plate; 504. a rear elastic clamping block; 505. a pressing rod; 506. buckling into the pressing block.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1-2, the present utility model provides an embodiment: the membrane structure heat preservation type connecting device comprises a connecting transverse frame 1, a heat preservation frame extension plate 2, a joint locking heat preservation assembly 3, a side heat preservation pressure-bearing frame plate 4 and two side heat preservation fastening assemblies 5; the two sides of the connecting transverse frame 1 are fixedly connected with L-shaped heat preservation frame extension plates 2; the inner side of the heat preservation frame extension plate 2 is symmetrically provided with a laminating locking heat preservation assembly 3 for adjusting and clamping the upper side and the lower side of the membrane; two ends of the connecting transverse frame 1 are fixedly connected with side heat-preserving pressure-bearing frame plates 4; the inner side of the side heat-insulating pressure-bearing frame plate 4 is provided with two side heat-insulating fastening components 5 for fastening anti-falling protection on two sides of the edge of the film, the laminating locking heat-insulating components 3 on the inner side of the heat-insulating frame extension plate 2 can adjust and clamp the upper side and the lower side of the film according to different thickness specifications of the film structure, so that the purpose of stable laminating, pressing and fixing is achieved, the protection and heat insulation can be achieved, the two side heat-insulating fastening components 5 arranged on the inner side of the side heat-insulating pressure-bearing frame plate 4 can fasten the two sides of the edge of the film for anti-falling protection, the firm type connection of the device is ensured, and meanwhile, the protection and heat insulation effects can be achieved on two sides of the film body, so that the integral heat insulation performance of the film structure after connection can not be reduced due to the lack of a heat insulation mechanism at the connection part, and the connection transverse frame 1 comprises a connection through groove 101 and an arc-shaped heat-insulating pressing pad 102; a connecting through groove 101 is formed in the connecting transverse frame 1; the two ends of the inner side of the connecting through groove 101 are fixedly connected with arc-shaped heat-preserving pressing pads 102, a film body can pass through the connecting through groove 101, the arc-shaped heat-preserving pressing pads 102 can play a certain protection heat-preserving role on the film body, and the attaching and locking heat-preserving assembly 3 comprises a front-end heat-preserving soft cushion 301, a locking bolt 302, a limiting spring 303, a positioning pressing plate 304 and a first heat-preserving attaching block 305; the inner side of the heat preservation frame extension plate 2 is provided with a front end heat preservation cushion 301, the front end heat preservation cushion 301 can protect and preserve heat of films at two ends, and locking bolts 302 penetrating through the heat preservation frame extension plate 2 are connected with threads inside; a limit spring 303 is sleeved outside the locking bolt 302; the front end of the locking bolt 302 is provided with a positioning pressing plate 304; the first thermal insulation laminating block 305 is fixedly connected with the side end of the positioning pressing plate 304, and the positioning pressing plate 304 can be driven to be adjusted up and down by utilizing the locking bolt 302, so that the upper side and the lower side of the film are clamped according to the thickness specification of the film, and meanwhile, the first thermal insulation laminating block 305 can perform thermal insulation treatment on the films on the two sides.

Referring to fig. 3, in this embodiment, the side thermal insulation and pressure bearing frame plate 4 includes a side end pressing cavity 401, an arc thermal insulation pressing strip 402, a pressing groove 403 and a second thermal insulation attaching block 404; a side end pressing cavity 401 is formed in the side heat-preservation pressure-bearing frame plate 4; an arc-shaped heat-preservation pressing bar 402 is arranged on the inner side of the side end pressing cavity 401; a pressing groove 403 is formed in the center of the inner part of the arc-shaped heat-preserving pressing bar 402; the inside of the pressing groove 403 is provided with a second heat-insulating attaching block 404, the edge of the film can penetrate into the pressing groove 403, and the second heat-insulating attaching block 404 can play a role in reinforcing heat insulation on the edge of the film.

Referring to fig. 4, in the present embodiment, the two-sided thermal insulation fastening component 5 includes a lower end fixing plate 501, a positioning pressing slot 502, a movable upper pressing plate 503, a rear elastic clamping block 504, a pressing rod 505 and a pressing block 506; the front part of the side end of the side heat-preservation pressure-bearing frame plate 4 is fixedly connected with a lower end fixing plate 501; a positioning and pressing groove 502 is formed in the lower end fixing plate 501, the edge of a film at the front end can be placed at the upper end of the positioning and pressing groove 502, and a movable upper pressing plate 503 is arranged at the side end of the side heat-preserving and pressure-bearing frame plate 4 in a clamping manner; the rear end of the movable upper pressing plate 503 is fixedly connected with a rear elastic clamping block 504; the lower end of the movable upper pressing plate 503 is connected with a pressing rod 505; the lower end of the pressing rod 505 is connected with a buckling pressing block 506; the side end of the side heat-preservation pressure-bearing frame plate 4 is provided with an adjusting clamping hole matched with the rear elastic clamping block 504, the rear elastic clamping block 504 can be adjusted and moved up and down, the movable upper pressing plate 503 can be adjusted and moved, the pressing rod 505 can drive the buckling pressing block 506 to move downwards, and the film edge at the front end is stably buckled and pressed, so that the stable connection is further ensured.

When the heat insulation device works, a film body can pass through the connecting through groove 101, the arc heat insulation pressing pad 102 can play a certain protection and heat insulation role on the film body, the front end heat insulation cushion 301 can protect and insulate films at two ends, the locking bolt 302 can drive the positioning pressing plate 304 to be adjusted up and down, so that the upper side and the lower side of the film are clamped according to different thickness specifications of the film structure, and meanwhile, the first heat insulation attaching block 305 can perform heat insulation treatment on the films at two sides;

then the edge of the film can penetrate into the pressing groove 403, the second thermal insulation attaching block 404 can play a role in reinforcing and insulating the edge of the film, the edge of the film at the front end can be placed at the upper end of the positioning pressing groove 502, the rear elastic clamping block 504 can be adjusted and moved up and down, the movable upper pressing plate 503 can be adjusted and moved, the pressing rod 505 can drive the buckling pressing block 506 to move downwards, and the edge of the film at the front end is stably buckled and pressed, so that the connection stability is further ensured.

Through the above-mentioned step, set up the inboard laminating lock of heat preservation frame extension board 2 and die heat preservation subassembly 3 and can adjust the clamp according to the difference of membrane structure thickness specification about the membrane to also can play protection heat retaining effect when reaching stable laminating and compressing tightly fixed purpose, and the inboard both sides heat preservation buckling subassembly 5 that sets up of side heat preservation pressure-bearing frame board 4 can carry out the anti-drop protection of buckling membrane edge both sides, the firm type of device connection has been ensured, also can play protection heat retaining effect to the both sides membrane body simultaneously, thereby make the membrane structure can not lack heat retaining mechanism and take place the phenomenon that descends because of junction is lack to take place for holistic heat retaining performance after connecting, the device can solve in the course of working of membrane structure, can not adjust the locking pressfitting to the film because of the difference of membrane structure thickness, can not play protection heat retaining effect simultaneously when connecting fixedly, lead to the problem that the whole heat retaining performance of membrane structure declines to some extent.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (7)

1. A membrane structure heat preservation type connecting device comprises a connecting transverse frame (1); the method is characterized in that: the heat-insulating frame comprises a heat-insulating frame extending plate (2), a bonding locking heat-insulating assembly (3), a side heat-insulating pressure-bearing frame plate (4) and two side heat-insulating fastening assemblies (5); the two sides of the connecting transverse frame (1) are fixedly connected with L-shaped heat preservation frame extension plates (2); the inner side of the heat preservation frame extension plate (2) is symmetrically provided with a laminating locking heat preservation assembly (3) for adjusting and clamping the upper side and the lower side of the membrane; two ends of the connecting transverse frame (1) are fixedly connected with side heat-preserving pressure-bearing frame plates (4); the inner side of the side heat-insulating pressure-bearing frame plate (4) is provided with two side heat-insulating fastening components (5) for fastening and anti-falling protection on two sides of the edge of the film.

2. The membrane structure thermal insulation type connecting device according to claim 1, wherein: the connecting transverse frame (1) comprises a connecting through groove (101) and an arc-shaped heat-preservation pressing pad (102); a connecting through groove (101) is formed in the connecting transverse frame (1); the two ends of the inner side of the connecting through groove (101) are fixedly connected with arc-shaped heat-preservation pressing pads (102).

3. The membrane structure thermal insulation type connecting device according to claim 1, wherein: the attaching and locking heat-preserving assembly (3) comprises a front-end heat-preserving cushion (301), a locking bolt (302), a limiting spring (303), a positioning pressing plate (304) and a first heat-preserving attaching block (305); the inner side of the heat preservation frame extension plate (2) is provided with a front end heat preservation cushion (301).

4. A membrane structure insulated connection according to claim 3, characterized in that: the internal thread of the heat preservation frame extension plate (2) is connected with a locking bolt (302) which is arranged in a penetrating way; a limit spring (303) is sleeved outside the locking bolt (302); the front end of the locking bolt (302) is provided with a positioning pressing plate (304);

the side end of the positioning pressing plate (304) is fixedly connected with a first heat-preserving attaching block (305).

5. The membrane structure thermal insulation type connecting device according to claim 1, wherein: the side heat-preservation pressure-bearing frame plate (4) comprises a side end pressing cavity (401), an arc heat-preservation pressing strip (402), a pressing groove (403) and a second heat-preservation attaching block (404); a side end pressing cavity (401) is formed in the side heat-insulating pressure-bearing frame plate (4); an arc-shaped heat-insulation pressing strip (402) is arranged at the inner side of the side end pressing cavity (401); a pressing groove (403) is formed in the inner center of the arc-shaped heat-preservation pressing bar (402); a second heat-insulation attaching block (404) is arranged on the inner side of the pressing groove (403).

6. The membrane structure thermal insulation type connecting device according to claim 1, wherein: the two-side heat-insulation fastening component (5) comprises a lower end fixing plate (501), a positioning and pressing groove (502), a movable upper pressing plate (503), a rear elastic clamping block (504), a pressing rod (505) and a buckling pressing block (506); the front part of the side end of the side heat-preservation pressure-bearing frame plate (4) is fixedly connected with a lower end fixing plate (501); a positioning and pressing groove (502) is formed in the lower end fixing plate (501).

7. The membrane structure thermal insulation type connecting device according to claim 6, wherein: a movable upper pressing plate (503) is arranged at the side end of the side heat-preservation pressure-bearing frame plate (4) in a clamping manner; the rear end of the movable upper pressing plate (503) is fixedly connected with a rear elastic clamping block (504); the lower end of the movable upper pressing plate (503) is fixedly connected with a pressing rod (505); the lower end of the pressing rod (505) is connected with a buckling pressing block (506); an adjusting clamping hole matched with the rear elastic clamping block (504) is formed at the side end of the side heat-preservation pressure-bearing frame plate (4).