CN115637807B - Movable roof of large-span steel structure building - Google Patents

Abstract

The invention relates to a movable roof of a large-span steel structure building, which comprises a roof module, a light-transmitting module and a sealing baffle, wherein the roof module is of an arc structure, the light-transmitting module is arranged on the concave surface in the roof module, and the end part of the roof module is hermetically provided with the sealing baffle. According to the invention, the roof plates at the upper end of the cross beam frame are opened through mutual superposition of the roof plates, so that the movable opening and closing functions of a roof can be realized, and meanwhile, the effects of heat preservation and light transmission can be achieved, and the roof is beneficial to use.

Description

Movable roof of large-span steel structure building

Technical Field

The application relates to the technical field of movable roofs, in particular to a movable roof for a large-span steel structure building.

Background

The roof is an enclosing member at the uppermost part of the building and shields people from the influence of wind, frost, snow, rain and solar radiation; meanwhile, the bearing structure is a bearing structure and is required to bear the effects of wind, frost, snow, rain and various construction loads; in addition, the form of the roof has a great influence on the shape of the building, and the aesthetic appearance of the roof should be noted in the design.

In the existing movable roof, for example, chinese patent No. CN110159008A discloses an assembled intelligent mobile sunlight room, specifically, a cross-sectional structure with a wide bottom is integrated with a wiring track design, and power supplies are connected to unit fans by adopting a power transmission device for conducting electricity. The inner cavities of the frame and the bottom frame are fully utilized for placing the driving motor and driving the driving motor and the designed inner cavity mounting rack of the track. The unit fan adopts the flexible design of intussusception, and the trench structure installation that the joint part utilized interior outer frame promotes the piece and realizes overlapping the handing-over, drives other unit fans like this and removes. The sliding rail is provided with a flat flange which is crossed with the sliding wheel frame by a L-shaped anti-drop block, so that the wind resistance and anti-drop and anti-leakage capacity are improved.

In the prior art, the roof can be moved to open and close, but on the first hand, the prior art adopts a single-layer and light-transmitting design, which cannot achieve the effects of heat preservation and heat insulation, and when the roof is completely opened, a room is completely exposed in the air environment, which is not beneficial to use in cold winter; in the second aspect, the sealing effect between adjacent unit fans is poor in the prior art, and water leakage is likely to occur after long-term use, so that there is room for improvement in the prior art of the movable roof.

Disclosure of Invention

In order to realize that the large-span steel constructs the function that building roof can automatic movement open and shut, this application provides a large-span steel constructs building movable roof.

The application provides a large-span steel constructs building movable roof adopts following technical scheme:

large-span steel constructs building movable roof, including roof module, printing opacity module and a baffle, the roof module is the arc structure, installs the printing opacity module on the concave surface in the roof module, and roof module tip sealing installation has a baffle.

The roof module includes crossbeam frame, sealed frame, ladder roof unit, crossbeam frame quantity is two, and the crossbeam frame cross-section is L type structure, and the crossbeam frame tip is connected through the screw with the baffle is sealed, and mid-mounting has sealed frame between the crossbeam frame, and sealed frame is the arc structure, installs the ladder roof between the sealed outside of putting up and the baffle, installs the roof unit between ladder roof beam and the crossbeam frame.

The roof unit comprises an electric slider, a movable plate, an intermediate plate, a fixed plate, a roof plate and an airtight unit, the electric slider is installed on the side faces of the beam frame and the stepped beam respectively, the movable plate, the intermediate plate and the fixed plate are sequentially arranged on the side faces of the beam frame and the stepped beam, a sliding groove matched with the movable plate and the intermediate plate is formed in the side faces of the beam frame and the stepped beam, the fixed plate is fixedly connected with the beam frame and the stepped beam, the movable plate is installed on the electric slider, the roof plate is installed on the movable plate, the intermediate plate and the fixed plate respectively through screws, through grooves are formed in the movable plate, the intermediate plate and the fixed plate, and the airtight unit is installed in the through grooves.

Through adopting above-mentioned technical scheme, when electronic slider drove the movable plate outwards, the movable plate drove the outside motion of intermediate lamella for movable plate and intermediate lamella move gradually to the fixed plate inboard, superpose each other between the shingle, make the shingle of crossbeam frame upper end open, and outside sunshine can shine inside the room through the printing opacity module.

Preferably, the cross section of the sealing frame is of an H-shaped structure, clamping grooves matched with the roof units are respectively formed in two sides of the sealing frame, and sealing gaskets are arranged in the clamping grooves.

By adopting the technical scheme, when the roof unit is closed, the sealing frame is in sealing fit with the roof unit when being connected with the roof unit, and the phenomenon of water leakage is avoided.

Preferably, the roof board is the arc structure, and the roof board forms for the steel construction concatenation, evenly is provided with the standing groove on the roof board, installs the heat preservation plywood in the standing groove.

Through adopting above-mentioned technical scheme, the heat preservation plywood on the shingle can play heat retaining effect, and then can keep warm to the inside temperature of factory building, and the setting can be dismantled to the heat preservation plywood, and the heat preservation plywood after being convenient for damage is changed.

Preferably, the size of the roof plate is gradually increased from the middle to two sides, and adjacent roof plates are connected in a sliding fit mode.

Through adopting above-mentioned technical scheme, when the shingle removal shrink, but movable setting between the adjacent shingle, the shingle of being convenient for is opened, does benefit to the room and carries out illumination.

Preferably, the airtight unit comprises a pressing plate, an expansion spring and a sealing air cushion, the pressing plate is connected to the through groove in a sliding fit mode, the expansion spring is evenly installed at the lower end of the pressing plate, a sealing cavity is formed between the lower end of the pressing plate and the through groove, the sealing air cushion is installed on the movable plate, the intermediate plate and the fixed plate respectively, and the sealing air cushion is connected with the sealing cavity.

Through adopting above-mentioned technical scheme, evenly be provided with on the movable plate with lead to the screw that the groove communicates, when the shingle passes through the mounting screw on the screw, the clamp plate downstream for inside the gas of sealed intracavity portion can gush sealed air cushion, inside sealed air cushion and then can be accurate contact with the shingle lateral wall, and then can realize sealed effect effectively.

Preferably, the locking unit is installed at the upper end of the outer side of each roof plate, and a sliding groove matched with the locking unit is formed in the adjacent roof plate.

Through adopting above-mentioned technical scheme, can realize locking fixed function between the adjacent shingle when the locking unit, prevent to take place the phenomenon of rocking between the shingle.

Preferably, the locking unit comprises a mounting plate, a guide groove, a guide rail, a binding post and an electromagnet plate, the mounting plate is mounted at the end part of the roof plate, the guide groove is evenly formed in the mounting plate, the cross section of the guide groove is of an I-shaped structure, the guide rail is arranged in the guide groove in a sliding fit mode and is made of an insulating material, an electric connecting piece is mounted at the end part of the guide rail, the electromagnet plate is symmetrically mounted on the outer side of the mounting plate and is electrically connected with the electromagnet plate, the binding post is symmetrically mounted on the guide groove and is connected with a power supply, a slot matched with the binding post is formed in the inner side of the electric connecting piece, and iron plates matched with the electromagnet plate are arranged at the two ends of the slide groove.

By adopting the technical scheme, the roof plate can move left and right in the sliding groove, when the roof plate is contacted with the end part of the sliding groove, the end part of the guide rail is connected with the wiring terminal through the power connection piece, so that the electromagnet plate is electrified, and then the electromagnet plate can be matched with the iron plate at the end part of the sliding groove, and the locking and fixing functions between the adjacent roof plates are realized.

Preferably, the light transmission module includes link, joint seat and light-passing board, evenly install the link between crossbeam frame and the shoulder beam, the link is the V font structure of handstand, evenly is provided with the recess on the link, installs the joint seat in the recess, installs the light-passing board between the adjacent joint seat.

Through adopting above-mentioned technical scheme, the joint seat can be fixed to the light-passing board locking, and the light-passing board of being convenient for is installed fixedly.

Preferably, the cross section of the clamping seat is of a U-shaped structure, screw holes are symmetrically formed in the end part of the clamping seat, and clamping pads are symmetrically arranged on the inner side surface of the clamping seat.

Through adopting above-mentioned technical scheme, the joint seat can carry out the centre gripping to the light-passing board for the light-passing board can be accurate install on the link.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in order to realize the function that the roof of the large-span steel structure building can automatically move to open and close, the invention is provided with the roof unit, when the electric slider drives the movable plate to move outwards, the movable plate drives the middle plate to move outwards, so that the movable plate and the middle plate gradually move to the inner side of the fixed plate, the roof plates are mutually overlapped, the roof plate at the upper end of the cross beam frame is opened, and when the electric slider drives the movable plate to move inwards, the roof plate is restored;

2. in order to realize the locking and sealing effect between adjacent roof plates, the locking unit is arranged in the invention, when the roof plates are contacted with the end parts of the sliding grooves, the end parts of the guide rails are connected with the electric connecting pieces and the binding posts, so that the electromagnet plates are electrified, and then the electromagnet plates can be matched with the iron plates at the end parts of the sliding grooves, thereby realizing the functions of locking and fixing the adjacent roof plates;

3. in order to realize the function of fully illuminating the interior of a room, the light-transmitting module is arranged in the invention, when the roof plate is opened, the light-transmitting and sealing functions can be realized between the light-transmitting plates, so that the illuminating function can be fully realized even in cold winter.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic perspective view of the present application.

Figure 2 is a first cutaway structural schematic of the present application.

Figure 3 is a second cutaway schematic view of the present application.

Fig. 4 is a schematic sectional structure of the present application.

Fig. 5 is a schematic cross-sectional view of the movable plate and the airtight unit according to the present invention.

FIG. 6 is a schematic perspective view of the locking unit of the present application with respect to a roof deck;

FIG. 7 is a cross-sectional structural view of the splice between adjacent roof panels of the present application;

FIG. 8 is an enlarged view of FIG. 7 at A of the present application;

fig. 9 is a schematic cross-sectional view of the snap seat of the present application.

Description of the reference numerals: 1. a roof module; 11. a cross beam frame; 12. a seal holder; 13. a step beam; 14. a roof unit; 141. an electric slider; 142. moving the plate; 143. a middle plate; 144. a fixing plate; 145. a roof deck; 1451. a heat preservation laminate; 146. an airtight unit; 1461. pressing a plate; 1462. a tension spring; 1463. sealing the air cushion; 147. a locking unit; 1471. mounting a plate; 1472. a guide groove; 1473. a guide rail; 1474. a binding post; 1475. an electromagnet plate; 2. a light-transmitting module; 21. a connecting frame; 22. a clamping seat; 23. a light-transmitting plate; 3. and (6) sealing the baffle plate.

Detailed Description

The present application is described in further detail below with reference to fig. 1-9.

The embodiment of the application discloses large-span steel constructs building movable roof, the function that realization large-span steel constructs building roof that can be accurate can automatic movement open and shut.

The first embodiment is as follows:

referring to fig. 1-4, for the movable roof of large-span steel structure building that this embodiment discloses, including roof module 1, printing opacity module 2 and baffle 3, roof module 1 is the arc structure, installs printing opacity module 2 on the roof module 1 concave surface, and roof module 1 tip seal installs baffle 3.

Roof module 1 includes crossbeam frame 11, seal frame 12, shoulder beam 13 and roof unit 14, 11 quantity of crossbeam frame are two, and 11 cross-sections of crossbeam frame are L type structure, and 11 tip of crossbeam frame are connected with the sealed of baffle 3 through the screw, and mid-mounting has seal frame 12 between the crossbeam frame 11, and seal frame 12 is the arc structure, installs shoulder beam 13 between the seal frame 12 outside and the baffle 3, installs roof unit 14 between shoulder beam 13 and the crossbeam frame 11.

It should be noted that the roof units 14 can be set adjustably, and the roof units 14 can be set in corresponding number and size according to the span size of the plant, so that the roof units 14 can be accurately matched with the plant.

In order to prevent the water leakage phenomenon of the steel structure roof unit 14, the sealing frame 12 is provided in this embodiment, the cross section of the sealing frame 12 is of an H-shaped structure, the two sides of the sealing frame 12 are respectively provided with a clamping groove matched with the roof unit 14, and a sealing gasket is arranged in the clamping groove.

In actual use, when the roof unit 14 is closed and the sealing frame 12 is connected with the roof unit 14, the sealing frame 12 is in sealing fit with the roof unit 14, so that water leakage is avoided.

As shown in fig. 3 to 7, in order to realize the function of automatically moving and opening and closing the roof of a large-span steel structure building, in the present embodiment, a roof unit 14 is provided, where the roof unit 14 includes an electric slider 141, a moving plate 142, an intermediate plate 143, a fixing plate 144, a roof plate 145, and an airtight unit 146, the electric slider 141 is respectively mounted on the lateral sides of the cross beam 11 and the step beam 13, the moving plate 142, the intermediate plate 143, and the fixing plate 144 are sequentially disposed on the lateral sides of the cross beam 11 and the step beam 13, sliding grooves matched with the moving plate 142 and the intermediate plate 143 are disposed on the lateral sides of the cross beam 11 and the step beam 13, the fixing plate 144 is fixedly connected with the cross beam 11 and the step beam 13, the electric slider 142 is mounted on the moving plate 141, the roof plate 145 is respectively mounted on the moving plate 142, the intermediate plate 143, and the fixing plate 144 through screws, through grooves are disposed on the moving plate 142, the intermediate plate 143, and the fixing plate 144, and the airtight unit 146 is mounted in the through grooves.

In the actual use process, when the electric slider 141 drives the moving plate 142 to move outwards, the moving plate 142 drives the intermediate plate 143 to move outwards, so that the moving plate 142 and the intermediate plate 143 gradually move to the inner side of the fixed plate 144, the roof plates 145 are overlapped with each other, so that the roof plate 145 at the upper end of the cross beam 11 is opened, and outdoor sunlight can be irradiated into a room through the light-transmitting module 2.

As shown in fig. 6, in order to realize the function of thermal insulation of the roof slab 145, in the present embodiment, the roof slab 145 is formed by joining an arc structure, the roof slab 145 is formed by steel structures, the roof slab 145 is uniformly provided with the placement grooves, and the thermal insulation layer plates 1451 are installed in the placement grooves.

In the in-service use process, heat preservation plywood 1451 on roof board 145 can play heat retaining effect, and then can keep warm to the inside temperature of factory building, and heat preservation plywood 1451 can dismantle the setting, and the heat preservation plywood 1451 after the damage of being convenient for is changed.

In order to enable a movable arrangement between adjacent roof panels 145, as shown in fig. 7, the roof panels 145 are in this embodiment sized to increase in size from the middle to the sides, with a sliding fit connection between adjacent roof panels 145.

In actual use, when the roof panels 145 are moved to be contracted, the adjacent roof panels 145 can be moved to be arranged, so that the roof panels 145 can be conveniently opened, and the room can be conveniently lighted.

As shown in fig. 5, in order to ensure the sealing effect of the installed roof slab 145, in the present embodiment, an airtight unit 146 is provided, where the airtight unit 146 includes a pressing plate 1461, a telescopic spring 1462 and a sealing air cushion 1463, the through groove is connected with the pressing plate 1461 in a sliding fit manner, the telescopic springs 1462 are uniformly installed at the lower end of the pressing plate 1461, a sealed cavity is formed between the lower end of the pressing plate 1461 and the through groove, the sealing air cushion 1463 is installed on the moving plate 142, the intermediate plate 143 and the fixing plate 144, and the sealing air cushion 1463 is connected with the sealed cavity.

In the actual use process, the moving plate 142 is uniformly provided with screw holes communicated with the through grooves, when the roof slab 145 is mounted on the screw holes through screws, the pressing plate 1461 moves downwards, so that the gas in the sealing cavity can flow into the sealing air cushion 1463, the sealing air cushion 1463 can accurately contact with the side wall of the roof slab 145, and the effective sealing effect can be realized.

As shown in fig. 6 to 7, the locking unit 147 is installed at the outer upper end of the roof panel 145, and a sliding groove for engaging with the locking unit 147 is formed at the adjacent roof panel 145.

In actual use, the locking unit 147 can lock and fix the adjacent roof panels 145 to prevent the roof panels 145 from shaking.

As shown in fig. 8, in order to achieve the locking and fixing effect between adjacent roof panels 145, in this embodiment, a locking unit 147 is provided, the locking unit 147 includes a mounting plate 1471, a guide groove 1472, a guide rail 1473, a terminal 1474 and an electromagnet plate 1475, the mounting plate 1471 is mounted at an end of the roof panel 145, the mounting plate 1471 is uniformly provided with the guide groove 1472, the section of the guide groove 1472 is in an i-shaped structure, the guide rail 1473 is arranged in the guide groove 1472 in a sliding fit manner, the guide rail 1473 is made of an insulating material, the end of the guide rail 1473 is provided with an electric contact, the electromagnet plate 1475 is symmetrically mounted on an outer side of the mounting plate 1471, the electric contact is electrically connected to the electromagnet plate 1475, the terminal 1474 is symmetrically mounted on the guide groove 1472, the terminal 1474 is connected to a power supply, the electric contact is provided with a slot matched with the terminal 1474 on an inner side of the electric contact, and iron plates matched with the electromagnet plate 1475 are provided at two ends of the sliding slot.

With reference to fig. 8, in actual use, the roof boards 145 may move left and right inside the sliding grooves, and when the roof boards 145 contact the ends of the sliding grooves, the electric connecting sheet at the end of the guide rail 1473 is connected to the terminal 1474, so that the electric magnet 1475 is energized, and the electric magnet 1475 may further cooperate with the iron plates at the ends of the sliding grooves, thereby achieving the function of locking and fixing the adjacent roof boards 145.

It should be noted that, in order to ensure the sealing effect between the adjacent roof panels 145, the sealing strips are disposed on the outer end surface of the electromagnet plate 1475, and when the electromagnet plate 1475 is attached to the iron plate, the sealing strips can effectively achieve the effect of sealing and isolating water.

Example two:

as shown in fig. 2 to 4 and 9, in the first embodiment, in order to accurately irradiate the outdoor sunlight to the inside of the room, the second embodiment is provided with a corresponding light transmission module 2.

Referring to fig. 2-4 shown, in order to realize the printing opacity function in the factory building that can be accurate, printing opacity module 2 includes link 21, joint seat 22 and light-passing board 23, evenly install link 21 between crossbeam frame 11 and the ladder beam 13, link 21 is the V font structure of handstand, evenly is provided with the recess on the link 21, installs joint seat 22 in the recess, installs light-passing board 23 between the adjacent joint seat 22.

In the actual use process, the clamping seat 22 can lock and fix the light-transmitting plate 23, so that the light-transmitting plate 23 can be conveniently installed and fixed.

It should be noted that the light-transmitting plates 23 are made of light-transmitting plastic materials, so that the light-transmitting and sealing functions between the light-transmitting plates 23 can be realized, and the illumination function can be fully realized even in cold winter.

Referring to fig. 9, in order to accurately connect and fix the transparent plate 23, in this embodiment, the cross-section of the clamping seat 22 is U-shaped, screw holes are symmetrically formed at the end of the clamping seat 22, and clamping pads are symmetrically arranged on the inner side surface of the clamping seat 22.

In the actual use process, the clamping seat 22 can clamp the light-transmitting plate 23, so that the light-transmitting plate 23 can be accurately installed on the connecting frame 21.

The implementation principle of the embodiment is as follows:

1: the roof is opened and closed by moving, when the electric slider 141 drives the moving plate 142 to move outwards, the moving plate 142 drives the middle plate 143 to move outwards, so that the moving plate 142 and the middle plate 143 gradually move to the inner side of the fixed plate 144, the roof plates 145 are overlapped with each other, so that the roof plate 145 at the upper end of the cross beam 11 is opened, and when the electric slider 141 drives the moving plate 142 to move inwards, the roof plate 145 is restored.

2: locking and sealing are performed between the roof plates, when the roof plates 145 are in contact with the end parts of the sliding grooves, the end parts of the guide rails 1473 are connected with the wiring terminals 1474 through electric connection pieces, so that the electromagnet plates 1475 are electrified, the electromagnet plates 1475 can be further matched with iron plates at the end parts of the sliding grooves, the locking and fixing functions between the adjacent roof plates 145 are realized, and the sealing strips at the outer ends of the electromagnet plates 1475 can effectively play a role in sealing and water isolation.

3: the light-transmitting and sealing functions between the light-transmitting plates 23 can be achieved when the roof panel 145 is opened, so that the lighting function can be sufficiently achieved even in cold winter.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (8)

1. The utility model provides a large-span steel constructs building movable roof, includes roof module (1), printing opacity module (2) and back plate (3), its characterized in that, roof module (1) is the arc structure, installs printing opacity module (2) on the concave surface in roof module (1), and roof module (1) end seal installs back plate (3), wherein:

the roof module (1) comprises cross beam frames (11), sealing frames (12), step beams (13) and roof units (14), the number of the cross beam frames (11) is two, the cross sections of the cross beam frames (11) are of L-shaped structures, the end parts of the cross beam frames (11) are connected with the blocking plates (3) in a sealing mode through screws, the sealing frames (12) are arranged in the middle between the cross beam frames (11), the sealing frames (12) are of arc-shaped structures, the step beams (13) are arranged between the outer sides of the sealing frames (12) and the blocking plates (3), and the roof units (14) are arranged between the step beams (13) and the cross beam frames (11);

the roof unit (14) comprises an electric slider (141), a moving plate (142), a middle plate (143), a fixing plate (144), a roof plate (145) and an airtight unit (146), the electric slider (141) is respectively installed on the lateral surfaces of the cross beam frame (11) and the stepped beam (13), the moving plate (142), the middle plate (143) and the fixing plate (144) are sequentially arranged on the lateral surfaces of the cross beam frame (11) and the stepped beam (13), sliding grooves matched with the moving plate (142) and the middle plate (143) are formed in the lateral surfaces of the cross beam frame (11) and the stepped beam (13), the fixing plate (144) is fixedly connected with the cross beam frame (11) and the stepped beam (13), the moving plate (142) is installed on the electric slider (141), the roof plate (145) is respectively installed on the moving plate (142), the middle plate (143) and the fixing plate (144) through screws, the moving plate (142), the middle plate (143) and the fixing plate (144) are respectively provided with the roof plate (145), and the airtight unit (146) is installed in the through groove;

airtight unit (146) is including clamp plate (1461), expanding spring (1462) and sealed air cushion (1463), it is connected with clamp plate (1461) through sliding fit's mode to lead to the inslot, and expanding spring (1462) are evenly installed to clamp plate (1461) lower extreme, and clamp plate (1461) lower extreme and lead to and form sealed chamber between the groove, install sealed air cushion (1463) on movable plate (142), intermediate lamella (143) and fixed plate (144) respectively, and sealed air cushion (1463) are connected with sealed chamber.

2. The movable roof of the large-span steel structure building according to claim 1, characterized in that: the cross section of the sealing frame (12) is of an H-shaped structure, clamping grooves matched with the roof units (14) are respectively formed in two sides of the sealing frame (12), and sealing gaskets are arranged in the clamping grooves.

3. The movable roof of the large-span steel structure building according to claim 1, characterized in that: the roof plate (145) is of an arc-shaped structure, the roof plate (145) is formed by splicing steel structures, placing grooves are uniformly formed in the roof plate (145), and heat preservation laminated plates (1451) are installed in the placing grooves.

4. The movable roof of the large-span steel structure building according to claim 1, characterized in that: the size of the roof plates (145) is gradually increased from the middle to two sides, and the adjacent roof plates (145) are connected in a sliding fit mode.

5. The movable roof of the large-span steel structure building according to claim 1, characterized in that: and the upper end of the outer side of each roof plate (145) is provided with a locking unit (147), and the adjacent roof plates (145) are provided with sliding grooves matched with the locking units (147).

6. The movable roof of the large-span steel structure building of claim 5, characterized in that: the locking unit (147) comprises a mounting plate (1471), a guide groove (1472), a guide rail (1473), a binding post (1474) and an electromagnet plate (1475), the mounting plate (1471) is mounted at the end part of the roof plate (145), the guide groove (1472) is uniformly formed in the mounting plate (1471), the section of the guide groove (1472) is of an I-shaped structure, the guide rail (1473) is arranged in the guide groove (1472) in a sliding fit mode, the guide rail (1473) is made of an insulating material, an electric connecting piece is mounted at the end part of the guide rail (1473), the electromagnet plate (1475) is symmetrically mounted on the outer side of the mounting plate (1471), the electric connecting piece is electrically connected with the electromagnet plate (1475), the binding post (1474) is symmetrically mounted on the guide groove (1472), the binding post (1474) is connected with a power supply, a slot matched with the binding post (1474) is formed in the inner side of the electric connecting piece, and an electromagnet plate matched with the iron plate (1475) is arranged at two ends of the sliding groove.

7. The movable roof of the large-span steel structure building according to claim 1, characterized in that: light transmission module (2) are including link (21), joint seat (22) and light-passing board (23), evenly install link (21) between crossbeam frame (11) and shoulder beam (13), and link (21) are the V font structure of handstand, evenly are provided with the recess on link (21), install joint seat (22) in the recess, install light-passing board (23) between adjacent joint seat (22).

8. The movable roof of the large-span steel structure building of claim 7, characterized in that: the cross-section of the clamping seat (22) is of a U-shaped structure, screw holes are symmetrically formed in the end portion of the clamping seat (22), and clamping pads are symmetrically arranged on the inner side face of the clamping seat (22).

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