CN115387706B - Steel structure assembled residential fireproof windowsill and application method - Google Patents

Abstract

The invention provides a steel structure assembled residential fireproof windowsill and a method, wherein the steel structure assembled residential fireproof windowsill comprises a steel structure frame body, a driving structure and a signal receiver; by this arrangement, the frame structure is divided into two areas, the lower area is a transparent glass structure, and the upper area is a structure that can be opened, that is, opened by a moving plate at the upper position to be ventilated and ventilated. In addition, when the fire disaster occurs, after automatic induction or manual detection, a command signal is sent out and command control is carried out on the driving motor through the control end, so that the driving motor works to enable the movable plate to return to the gap position to be in a state of being basically parallel to or basically spliced with the fixed plate, and therefore the gap position is filled, and the effects of preventing wind and preventing fire disaster from spreading are achieved.

Description

Steel structure assembled residential fireproof windowsill and application method

Technical Field

The invention relates to a steel structure assembled residential fireproof windowsill and an application method, in particular to a protective door and window structure which realizes remote automatic control, rapid storage and convenient ventilation.

Background

Fabricated components based on steel structures have evolved and advanced over the years. One of the more widespread applications for steel structural assembled components is to make assembled sill structures to enable rapid installation and fixation in the sill position of a building. That is, the sill structure is formed by fixedly connecting the edge of the steel structure to the inside of the wall, and the inside of the steel structure is usually a glass structure, which is fixed or open.

For many important places of fire protection, the fire protection performance of the conventional door and window structure is generally insufficient, or when the fire protection performance is considered, the ventilation performance is inhibited, that is, the prior art has difficulty in maintaining the cooperation of the two. In particular for some intermediate sill structures for floor windows, which are usually a fixed large glass structure, the glass structure is usually closed, whereas only the two side positions of the intermediate sill may be provided with small windows which can be opened. However, this approach is also prone to problems, on the one hand, the small windows on both sides cannot be closed automatically quickly in the event of a fire, especially it is difficult to close automatically with centralized control, and the tightness of the large glass in the middle also reduces the comfort of the personnel inside.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides an assembled residential fireproof windowsill structure which has ventilation property and fireproof safety and realizes remote automatic opening and closing and an application method thereof.

The invention provides a steel structure assembled residential fireproof windowsill, which comprises a steel structure frame, a driving structure and a signal receiver, wherein the steel structure frame is arranged on the steel structure frame;

the outer edge of the steel structure frame body is used for being fixedly assembled in a building wall body to form a windowsill structure, the steel structure frame body is internally provided with a lower side area and an upper side area, a glass plate is embedded and installed in the lower side area, a fixed plate and a movable plate are embedded and installed in the upper side area, and the movable plate is of a transparent material structure;

the driving structure is provided with a driving motor, a rotating shaft rod and a driving frame body, wherein the driving motor is connected with the rotating shaft rod, the upper end and the lower end of the rotating shaft rod are hinged to the inner side of the driving frame body, the moving plate is arranged on the outer side of the driving frame body, and the driving frame body drives the moving plate to be spliced with the fixed plate or separated from the fixed plate when rotating along with the rotating shaft rod;

the signal receiver is in signal connection with the driving motor, the signal receiver is connected with a remote controller, and the remote controller is used for sending a command to the driving motor when a fire disaster state occurs.

The beneficial effects of the scheme are as follows: by this arrangement, the frame structure is divided into two areas, the lower area is a transparent glass structure, and the upper area is a structure that can be opened, that is, opened by a moving plate at the upper position to be ventilated and ventilated. In addition, when the fire disaster situation occurs, after automatic induction or manual detection, a command signal is sent out and command control is carried out on the driving motor through the control end, so that the driving motor works to enable the movable plate to return to the notch position to be in a basically parallel or basically spliced state with the fixed plate, the notch position is filled, the effect of preventing wind and preventing fire disaster from spreading is achieved, the dual effects of fireproof requirements and ventilation effects are achieved, centralized management is facilitated, particularly, a plurality of windowsill structures at home or a plurality of windowsill structures for hotels are centralized and unified to send out commands, and the movable plate is enabled to be centralized to be opened and centralized to be closed, so that the fire disaster prevention device has a good application effect.

The automatic transmission device comprises a rotating shaft rod, a driving motor, a driving wheel, a fixing cylinder, a transverse connecting plate, an inner connecting plate, a first driving rod, a second driving rod, an outer connecting plate and an outer fixing cylinder, wherein the driving motor is arranged on one side of the mounting plate, the driving motor penetrates through an opening of the mounting plate body through a belt to be connected to the driving wheel at the bottom of the rotating shaft rod, the outer side of the rotating shaft rod is sleeved with the fixing cylinder, the fixing cylinder is fixed on the mounting plate body through the transverse connecting plate, the inner connecting plate is obliquely arranged on one side of the transverse connecting plate, the inner connecting plate is hinged with the first driving rod, the outer end of the first driving rod is hinged with the second driving rod, the second driving rod is connected to the outer connecting plate, the outer fixing cylinder is connected with the outer fixing cylinder, and the outer fixing cylinder belongs to a part of the driving frame;

the top of the rotating shaft rod is connected with the outer fixed cylinder through an upper driving rod, and the middle part of the outer fixed cylinder is provided with the outer connecting plate.

The belt drives the rotating shaft rod to rotate by providing power through the driving motor, so that the moving plate achieves a moving effect.

In a preferred scheme, an extension rod is arranged on the outer side of the outer fixed cylinder, a first rotary bevel gear is arranged at the outer end of the extension rod, and the outer side of the first rotary bevel gear is fixedly connected to the moving plate through three support rods;

the first rotary bevel gear is connected with the second rotary bevel gear in a meshed mode, and the second rotary bevel gear is rotatably arranged at one end of the central shaft rod.

In order to further improve the application effect, especially make the angle of placing of movable plate change to make the movable plate place from the level and change into vertical placing, just so can make the projected area of movable plate in the breach position reduce, make the space grow of breach and be favorable to ventilation, therefore set up revolution mechanic here, and make the movable plate rotate for driving the framework, so that the movable plate can change into vertical state from the horizontality, especially be vertical placing when opening, then be horizontal placing when closed, this rotates according to actual needs.

And for the rotation driving function of the moving plate, the driving rotation can be received by people.

In a preferred scheme, the second rotary bevel gear is connected with a central shaft rod, the central shaft rod penetrates through the outer fixed cylinder, a driving wheel is arranged at the bottom of the central shaft rod, and the driving wheel is connected with the driving wheel through a linkage belt.

The automatic rotary drive of the mobile plate is thereby achieved, i.e. when the mobile plate is opened, the mobile plate is automatically rotated by the motor, and preferably, after the mobile plate has been completely opened, the mobile plate is rotated to a vertical position, i.e. while the mobile plate is moved to one side from the notch position, and at the same time the mobile plate is rotated. The use effect is better.

Of course, in the reverse movement process, the moving plate rotates itself to be placed horizontally from vertical while entering the notch position.

The invention provides an application method of a steel structure assembled residential fireproof windowsill, which comprises the following steps:

installing and fixing the steel structure frame body in a building wall body to form a windowsill structure;

the driving motor is controlled to work, the driving motor drives the rotating shaft rod to rotate, the rotating shaft rod rotates to drive the frame body to rotate, the moving plate rotates to enable the moving plate and the fixed plate to be spliced integrally or separated, the moving plate and the fixed plate are breathable internally and externally during separation, and the moving plate and the fixed plate are fireproof and sealed during splicing integrally;

when the remote controller generates fireproof prompt information, the remote controller sends a command signal to the signal receiver, the signal receiver controls the driving motor to work, and the driving motor drives the rotating shaft rod and the driving frame body to rotate, so that the moving plate is integrated with the fixed plate in a splicing manner, and a sealing protection structure is formed.

The invention provides an application method of a steel structure assembled residential fireproof windowsill, which is characterized by comprising the following steps: when the driving motor provides power, the belt drives the driving wheel to rotate, when the driving wheel rotates, the rotating shaft rod rotates, when the rotating shaft rod rotates, the driving frame body rotates, and the first driving rod and the second driving rod form following movement to stably support the driving frame body.

The invention provides an application method of a steel structure assembled residential fireproof windowsill, which comprises the following steps: when the movable plate is required, the movable plate is rotated, so that the projection area of the movable plate in the steel structure frame body is reduced, namely, the opening area of the upper side space is enlarged, a better ventilation effect is formed, and the rotation power of the movable plate is driven by manual rotation or mechanical control.

The invention provides an application method of a steel structure assembled residential fireproof windowsill, which comprises the following steps:

the driving motor provides power to the driving wheel, the driving wheel realizes the rotation driving of the central shaft lever through the coaxially arranged linkage belt, the rotation process of the central shaft lever enables the second rotary bevel gear to rotate, meanwhile, the second rotary bevel gear is meshed with the first rotary bevel gear to drive the first rotary bevel gear to move, and the first rotary bevel gear correspondingly enables the moving plate to rotate;

that is, the moving plate is automatically rotated in the process of being removed from the upper space, and the moving plate is reversely rotated when being moved back to the upper space.

Drawings

FIG. 1 is a schematic perspective view of a steel structure fabricated residential fire window sill of the present invention;

FIG. 2 is an enlarged schematic view of the area A of FIG. 1;

FIG. 3 is a schematic rear view of a steel structure fabricated residential fire window sill of the present invention;

fig. 4 is a schematic perspective view of another view of the steel structure fabricated residential fire window sill of the present invention.

Description of the reference numerals

10. A steel structure frame; 11. a lower region; 12. an upper region; 13. a glass plate; 14. a fixing plate; 15. a moving plate; 20. a driving structure; 21. a driving motor; 22. a rotating shaft; 23. driving the frame; 24. a belt; 25. driving wheels; 26. a fixed cylinder; 27. a first drive lever; 28. a first drive lever; 29. a second drive lever; 30. a mounting plate body; 31. an outer connecting plate; 32. an extension rod; 33. a first rotary bevel gear; 34. a support rod; 35. a second rotary bevel gear; 36. a central shaft; 37. a driving wheel; 38. a linkage belt; 39. an inner connection plate; 40. a driving rod is arranged on the upper part; 41. an outer fixed cylinder.

Detailed Description

First embodiment:

as shown in fig. 1 to 4, the steel structure assembled residential fire window sill provided by the invention comprises a steel structure frame 10, a driving structure 20 and a signal receiver;

the outer edge of the steel structure frame 10 is used for being fixedly assembled in a building wall to form a windowsill structure, the steel structure frame 10 is internally provided with a lower side area 11 and an upper side area 12, the lower side area 11 is embedded and provided with a glass plate 13, the upper side area 12 is embedded and provided with a fixed plate 14 and a movable plate 15, and the movable plate 15 is of a transparent material structure;

the driving structure 20 comprises a driving motor 21, a rotating shaft lever 22 and a driving frame body 23, wherein the driving motor 21 is connected with the rotating shaft lever 22, the upper end and the lower end of the rotating shaft lever 22 are both hinged to the inner side of the driving frame body 23, the moving plate 15 is arranged on the outer side of the driving frame body 23, and the driving frame body 23 drives the moving plate 15 to splice with the fixed plate 14 or separate from the fixed plate 14 when rotating along with the rotating shaft lever 22;

the signal receiver is in signal connection with the driving motor 21, and is connected with a remote controller for transmitting a command to the driving motor 21 when a fire state occurs.

The invention provides an application method of a steel structure assembled residential fireproof windowsill, which comprises the following steps:

installing and fixing the steel structure frame 10 in a building wall to form a windowsill structure;

the driving motor 21 is controlled to work, the driving motor 21 drives the rotating shaft lever 22 to rotate, the rotating shaft lever 22 rotates to enable the driving frame 23 to rotate, the driving frame 23 rotates to enable the moving plate 15 to rotate, so that the moving plate 15 and the fixed plate 14 are spliced integrally or separated, the inner and outer ventilation is achieved during separation, and the fireproof sealing is achieved during splicing integrally;

when the remote controller generates fireproof prompt information, the remote controller sends a command signal to the signal receiver, the signal receiver controls the driving motor 21 to work, and the driving motor 21 drives the rotating shaft lever 22 and the driving frame 23 to rotate, so that the movable plate 15 is integrated with the fixed plate 14 in a splicing manner, and a sealing protection structure is formed.

By this arrangement, the frame structure is divided into two areas, the lower area is a transparent glass structure, and the upper area is a structure that can be opened, that is, opened by a moving plate at the upper position to be ventilated and ventilated. In addition, when the fire disaster situation occurs, after automatic induction or manual detection, a command signal is sent out and command control is carried out on the driving motor through the control end, so that the driving motor works to enable the movable plate to return to the notch position to be in a basically parallel or basically spliced state with the fixed plate, the notch position is filled, the effect of preventing wind and preventing fire disaster from spreading is achieved, the dual effects of fireproof requirements and ventilation effects are achieved, centralized management is facilitated, particularly, a plurality of windowsill structures at home or a plurality of windowsill structures for hotels are centralized and unified to send out commands, and the movable plate is enabled to be centralized to be opened and centralized to be closed, so that the fire disaster prevention device has a good application effect.

Second embodiment:

preferably, the embodiment further comprises a mounting plate 30, one side of the mounting plate 30 is provided with the driving motor 21, the driving motor 21 passes through an opening of the mounting plate 30 through a belt 24 and is connected to a driving wheel 25 at the bottom of the rotating shaft 22, a fixed cylinder 26 is sleeved outside the rotating shaft 22 and is fixed on the mounting plate 30 through a transverse connecting plate 300, one side of the transverse connecting plate 300 is obliquely provided with an inner connecting plate 39, the inner connecting plate 39 is hinged with a first driving rod 27, the outer end of the first driving rod 27 is hinged with an outer connecting plate 31, the outer connecting plate 31 is connected with an outer fixed cylinder 41, and the outer fixed cylinder 41 is a part of the driving frame 23;

the top of the rotating shaft lever 22 is connected with the outer fixed cylinder 41 through an upper driving rod 40, and the middle part of the outer fixed cylinder 41 is provided with the outer connecting plate 31.

The invention provides an application method of a steel structure assembled residential fireproof windowsill, which is characterized by comprising the following steps: when the driving motor 21 provides power, the belt 24 drives the driving wheel 25 to rotate, when the driving wheel 25 rotates, the rotating shaft lever 22 rotates, when the rotating shaft lever 22 rotates, the driving frame 23 rotates, and the first driving rod 28 moves along to stably support the driving frame 23.

The outer side of the outer fixed cylinder 41 is provided with an extension rod 32, the outer end of the extension rod 32 is provided with a first rotary bevel gear 33, and the outer side of the first rotary bevel gear 33 is fixedly connected to the moving plate 15 through three support rods 34;

the invention provides an application method of a steel structure assembled residential fireproof windowsill, which comprises the following steps: when necessary, the moving plate 15 is rotated, so that the projection area of the moving plate 15 in the steel structure frame 10 is reduced, that is, the opening area of the upper space is enlarged, and a better ventilation effect is formed, and the rotation power of the moving plate 15 is driven by manual rotation or mechanical control.

The first rotary bevel gear 33 is in meshed connection with a second rotary bevel gear 35, and the second rotary bevel gear 35 is rotatably arranged at one end of the central shaft 22.

The second rotary bevel gear 35 is connected with a central shaft lever 36, the central shaft lever 36 passes through the outer fixed cylinder 26, and a driving wheel 37 is arranged at the bottom of the central shaft lever 36, and the driving wheel 37 is connected with the driving wheel 25 through a linkage belt 38.

The invention provides an application method of a steel structure assembled residential fireproof windowsill, which comprises the following steps:

the driving motor 21 provides power to the driving wheel 25, the driving wheel 25 further drives the central shaft lever 36 in a rotating manner through the linkage belt 38 coaxially arranged, the second rotating bevel gear rotates in the rotating process of the central shaft lever 36, meanwhile, the second rotating bevel gear is meshed with the first rotating bevel gear to drive the first rotating bevel gear to move, and the first rotating bevel gear correspondingly rotates the moving plate 15;

that is, the moving plate 15 is automatically rotated during the process of removing the moving plate 15 from the upper space, and the moving plate 15 is reversely rotated when the moving plate 15 is moved back to the upper space.

In order to further improve the application effect, especially make the angle of placing of movable plate change to make the movable plate place from the level and change into vertical placing, just so can make the projected area of movable plate in the breach position reduce, make the space grow of breach and be favorable to ventilation, therefore set up revolution mechanic here, and make the movable plate rotate for driving the framework, so that the movable plate can change into vertical state from the horizontality, especially be vertical placing when opening, then be horizontal placing when closed, this rotates according to actual needs.

And for the rotation driving function of the moving plate, the driving rotation can be received by people.

The automatic rotary drive of the mobile plate is thereby achieved, i.e. when the mobile plate is opened, the mobile plate is automatically rotated by the motor, and preferably, after the mobile plate has been completely opened, the mobile plate is rotated to a vertical position, i.e. while the mobile plate is moved to one side from the notch position, and at the same time the mobile plate is rotated. The use effect is better.

Of course, in the reverse movement process, the moving plate rotates itself to be placed horizontally from vertical while entering the notch position.

In addition, the moving plate 15 may have a folding structure, that is, the moving plate 15 is composed of two plate bodies hinged to each other, and the two plate bodies can be folded to each other to form a vertical relationship. For example, in the structure shown in fig. 1, the upper part of the moving plate 15 (preferably, above the frame structure 10) forms a first folding plate, the lower part of the moving plate is a second folding plate, and the first folding plate and the second folding plate form a hinge relationship, and the hinge relationship needs to be manually broken to realize folding deformation, that is, the hinge relationship adopts the existing structure that needs to be applied by external force to realize folding deformation, and after reaching a specific position, the position can be fixed, and after applying external force to a certain extent, the angle folding change of the two can be realized. The first folding plate can be used for airing clothes after being folded outwards, namely a plurality of hanging holes are formed in the upper side of the first folding plate close to the edge, and the hanging holes are used for hanging clothes hangers, so that multiple purposes are achieved, namely the moving plate can be used for hanging clothes for airing through the hanging holes at the end part of the first folding plate after being folded outwards, and the convenience in use is improved.

In addition, when the moving plate 15 is in the spliced state, the first folding plate can be folded and unfolded separately at this time, so that the first folding plate can be unfolded to the outside or the inside, and can be used for airing clothes when needed.

Claims (6)

1. A steel structure fabricated residential fire window sill, comprising:

the window sill comprises a steel structure frame body, wherein the outer edge of the steel structure frame body is used for being fixedly assembled in a building wall body to form a window sill structure, a lower side area and an upper side area are arranged in the steel structure frame body, a glass plate is embedded and installed in the lower side area, a fixed plate and a movable plate are embedded and installed in the upper side area, and the movable plate is of a transparent material structure;

the driving structure is provided with a driving motor, a rotating shaft rod and a driving frame body, wherein the driving motor is connected with the rotating shaft rod, the upper end and the lower end of the rotating shaft rod are hinged to the inner side of the driving frame body, the moving plate is arranged on the outer side of the driving frame body, and the driving frame body drives the moving plate to be spliced with the fixed plate or separated from the fixed plate when rotating along with the rotating shaft rod;

the signal receiver is in signal connection with the driving motor, and is connected with a remote controller, and the remote controller is used for sending a command to the driving motor when a fire disaster state occurs;

the automatic transmission device comprises a rotating shaft rod, and is characterized by further comprising a mounting plate body, wherein one side of the mounting plate body is provided with a driving motor, the driving motor penetrates through an opening of the mounting plate body through a belt to be connected to a driving wheel at the bottom of the rotating shaft rod, a fixed cylinder is sleeved outside the rotating shaft rod and fixed on the mounting plate body through a transverse connecting plate, an inner connecting plate is obliquely arranged on one side of the transverse connecting plate, the inner connecting plate is hinged with a first driving rod, the outer end of the first driving rod is hinged with a second driving rod, the second driving rod is connected to an outer connecting plate, the outer connecting plate is connected with an outer fixed cylinder, and the outer fixed cylinder belongs to a part of a driving frame body;

the top of the rotating shaft rod is connected with the outer fixed cylinder through an upper driving rod, and the outer connecting plate is arranged in the middle of the outer fixed cylinder;

the outer side of the outer fixed cylinder is provided with an extension rod, the outer end of the extension rod is provided with a first rotary bevel gear, and the outer side of the first rotary bevel gear is fixedly connected to the moving plate through three support rods;

the first rotary bevel gear is connected with the second rotary bevel gear in a meshed mode, and the second rotary bevel gear is rotatably arranged at one end of the central shaft rod.

2. The steel structure fabricated residential fire window sill according to claim 1, wherein the second rotary bevel gear is connected with the central shaft rod, the central shaft rod passes through the outer fixed cylinder, and a driving wheel is arranged at the bottom of the central shaft rod and is connected with the driving wheel through a belt.

3. The method of using a steel structure fabricated residential fire window sill according to claim 1, comprising the steps of:

installing and fixing the steel structure frame body in a building wall body to form a windowsill structure;

the driving motor is controlled to work, the driving motor drives the rotating shaft rod to rotate, the rotating shaft rod rotates to drive the frame body to rotate, the moving plate rotates to enable the moving plate and the fixed plate to be spliced integrally or separated, the moving plate and the fixed plate are breathable internally and externally during separation, and the moving plate and the fixed plate are fireproof and sealed during splicing integrally;

when the remote controller generates fireproof prompt information, the remote controller sends a command signal to the signal receiver, the signal receiver controls the driving motor to work, and the driving motor drives the rotating shaft rod and the driving frame body to rotate, so that the moving plate is integrated with the fixed plate in a splicing manner, and a sealing protection structure is formed.

4. A method of using a steel structure fabricated residential fire window sill as claimed in claim 3, comprising the steps of: when the driving motor provides power, the belt drives the driving wheel to rotate, when the driving wheel rotates, the rotating shaft rod rotates, when the rotating shaft rod rotates, the driving frame body rotates, and the first driving rod and the second driving rod form following movement to stably support the driving frame body.

5. The method of using a steel structure fabricated residential fire window sill as claimed in claim 4, comprising the steps of: when the movable plate is required, the movable plate is rotated, so that the projection area of the movable plate in the steel structure frame body is reduced, namely, the opening area of the upper side space is enlarged, a better ventilation effect is formed, and the rotation power of the movable plate is driven by manual rotation or mechanical control.

6. The method of using a steel structure fabricated residential fire window sill as claimed in claim 5, comprising the steps of:

the second rotary bevel gear is connected with the central shaft rod, the central shaft rod penetrates through the outer fixed cylinder, a driving wheel is arranged at the bottom of the central shaft rod, and the driving wheel is connected with the driving wheel through a belt;

the driving motor provides power to the driving wheel, the driving wheel realizes the rotation driving of the central shaft lever through the belt which is coaxially arranged, the second rotary bevel gear performs the rotation movement in the rotation process of the central shaft lever, meanwhile, the second rotary bevel gear is meshed with the first rotary bevel gear to drive the first rotary bevel gear to perform the movement, and the first rotary bevel gear correspondingly rotates the moving plate;

that is, the moving plate is automatically rotated in the process of being removed from the upper space, and the moving plate is reversely rotated when being moved back to the upper space.