CN110359734B

CN110359734B - Wallboard with adjustable length-width ratio and actual measurement room

Info

Publication number: CN110359734B
Application number: CN201910666511.XA
Authority: CN
Inventors: 何俊宏
Original assignee: Jiangsu Shengfan Information Service Co ltd
Current assignee: Wuhan Haoze Information Technology Co ltd
Priority date: 2019-07-23
Filing date: 2019-07-23
Publication date: 2020-11-17
Anticipated expiration: 2039-07-23
Also published as: CN110359734A

Abstract

The invention discloses a wallboard with adjustable length-width ratio and an actual measurement room, belonging to the field of experimental buildings, wherein the wallboard is formed by sequentially assembling a plurality of wallboard units along the length direction, each wallboard unit comprises a panel, a length plate, a width plate and a hinge, the distance between the sub-panels is adjusted to enable the sub-panels to be separated to form an installation space for installing the length plate and the width plate, thereby increasing the length of the panel, otherwise, the length of the panel can be shortened, the distance between the sub-panels is adjusted to enable the sub-panels to be separated to form an installation space for installing the width plate, thereby increasing the width of the panel, otherwise, the width of the panel can be shortened, therefore, the invention can adjust the length and the width of the wallboard according to the requirement of experimental detection, thereby providing an actual measurement room with variable room height-width ratio, so as to compare and research the influence of walls with different height-width ratios on the wind pressure distribution of a roof, the method saves experimental steps, reduces the cost and increases the accuracy of measured data.

Description

Wallboard with adjustable length-width ratio and actual measurement room

Technical Field

The invention relates to the technical field of experimental buildings, in particular to a wallboard with an adjustable length-width ratio and an actual measurement room.

Background

Wind loading is one of the important structural design loads for building structures. Multiple wind disaster surveys show that the loss caused by the damage of low buildings exceeds half of the total loss, and the damage, collapse and casualties caused by the damage are the main causes of huge loss of wind disasters. The problem of wind load of short houses has received great attention from wind engineers and architects since the seventh and eighties of the twentieth century.

The architectural shape and roofing geometry of low buildings, including the aspect ratio, plan size, roof slope, roof form, etc. of the building. These factors can alter the airflow pattern around the building, which has a significant impact on the roof wind pressure distribution. Up to now, most of the research on wind pressure actual measurement and wind tunnel tests of low houses is carried out around roofs of various forms and is limited by conditions, when the research is carried out on the influence of the height-width ratio of the houses on wind load, a plurality of actual measurement houses with different height-width ratios are often required to be established on site, then comparison and detection are carried out, and the comparison and detection are carried out by adopting the mode, so that the efficiency is low, the cost is high, and the measurement results are also greatly different due to the fact that the positions of the houses with different height-width ratios are different. Therefore, it is urgently needed to provide an actual measurement room with variable room height-width ratio so as to compare and research the influence of wall bodies with different height-width ratios on the wind pressure distribution of the roof.

Disclosure of Invention

In view of this, the present invention provides a wall panel with an adjustable length-width ratio and an actual measurement room, wherein the length and width of the wall panel can be adjusted according to the requirement of experimental detection, so as to provide an actual measurement room with a variable room height-width ratio, so as to compare and study the influence of walls with different height-width ratios on the wind pressure distribution of the roof.

A wallboard with an adjustable length-width ratio is formed by sequentially splicing a plurality of wallboard units along the length direction of the wallboard, the wall panel unit comprises a panel, a length panel, a width panel and a hinge, the length panel is parallel to the panel and hinged with the panel through the hinge, the length plate is positioned at one side of the panel, the width plate is parallel to the length plate and is hinged with the length plate through a hinge, the width plate is positioned on one side of the length plate, which is far away from the panel, the panel is formed by splicing a plurality of sub-panels in the same plane, the distance between the sub-panels is adjusted to enable the sub-panels to be separated to form an installation space for installing the length plates and the width plates, the length plates are formed by assembling a plurality of sub-length plates in the same plane, by adjusting the distance between the sub-length plates, the sub-length plates can be separated to form an installation space for installing the width plate.

Further, the minute panel includes left panel and right panel, left side panel and right panel can follow wallboard length direction relative movement for form between left side panel and the right panel and be used for the installation space of length board, left side panel includes first left panel and second left panel, right panel includes first right panel and second right panel, the length board includes first minute length board and second minute length board, first left panel, second left panel, first right panel, second right panel, first minute length board and second minute length board all can follow wallboard width direction relative movement, make between first left panel and the second left panel, form between first right panel and the second right panel and be used for installing the installation space of width board.

Further, the width of the length plate is equal to the width of the panel, and the length of the width plate is equal to the length of the panel + the length of the length plate.

Further, the first left panel, the second left panel, the first right panel and the second right panel are rectangular plates with the same size and shape.

Further, the first sub-length plate and the second sub-length plate are rectangular plates with the same size and shape.

Further, the thickness of the panel, the length plate and the width plate is the same.

Further, the hinge includes a first engaging lug, a second engaging lug, and a telescopic driving source connecting the first engaging lug and the second engaging lug.

Further, the telescopic driving source is a hydraulic cylinder or an air cylinder.

Further, a rail is provided at the bottom of the panel along the length direction of the wall panel, and the panel can slide along the rail.

The utility model provides an actual measurement room, includes wall body, upper roof, middle roof and eave, upper roof articulates in the wall body top, upper roof through middle roof with the eave is connected, middle roof both sides are provided with the slot, upper roof and eave slip cartridge respectively in the both sides slot of middle roof, and eave and middle roof can vary the angle together along with upper roof, the wall body includes as above the wallboard.

The invention has the beneficial effects that: the invention relates to a wallboard with adjustable length-width ratio, which is formed by sequentially splicing a plurality of wallboard units along the length direction of the wallboard, wherein each wallboard unit comprises a panel, a length plate, a width plate and a hinge, the distance between every two sub-panels is adjusted to enable every two sub-panels to be separated to form an installation space for installing the length plate and the width plate, so that the length of the panel is increased, otherwise, the length of the panel is shortened, the distance between every two sub-panels is adjusted to enable every two sub-panels to be separated to form an installation space for installing the width plate, so that the width of the panel is increased, otherwise, the width of the panel can be shortened, therefore, the invention can adjust the length and the width of the wallboard according to the requirement of experimental detection, thereby providing an actual measurement room with variable room height-width ratio, so as to compare and research the influence of walls with different height-width ratios on the wind pressure distribution, the method saves experimental steps, reduces the cost and increases the accuracy of measured data.

Drawings

In order to make the object, technical scheme and beneficial effect of the invention more clear, the invention provides the following drawings for explanation:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic view of a structural variation of the present invention;

fig. 4 is a schematic structural diagram of the test room of the present invention.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of the present invention, fig. 2 is a schematic front view of the present invention, fig. 3 is a schematic structural change diagram of the present invention, and fig. 4 is a schematic structural diagram of an actual measurement room of the present invention. The invention relates to a wallboard with an adjustable length-width ratio, which is formed by sequentially splicing a plurality of wallboard units along the length direction of the wallboard, wherein each wallboard unit comprises a panel 1, a length plate 2, a width plate 3 and a hinge 4, the length plate 2 is parallel to the panel 1 and is hinged with the panel 1 through the hinge, the length plate 2 is positioned on one side of the panel, the width plate 3 is parallel to the length plate 2 and is hinged with the length plate 2 through the hinge 4, the width plate 3 is positioned on one side of the length plate 2, which is far away from the panel 1, the panel 1 is formed by splicing a plurality of sub-panels in the same plane, through adjusting the distance between the sub-panels, the sub-panels can be separated to form an installation space for installing the length plate 2 and the width plate 3, the length plate 2 is formed by splicing a plurality of sub-length plates in the same plane, through adjusting the distance between the sub-length, so that the respective length-divided plates can be partitioned to form an installation space for installing the width plate 3.

The invention relates to a wallboard with adjustable length-width ratio, which comprises a panel 1, a length plate 2, a width plate 3 and a hinge 4, wherein the distance between the sub-panels is adjusted to enable the sub-panels to form an installation space for installing the length plate 2 and the width plate 3 in a separated manner, so that the length of the panel 1 is increased, otherwise, the length of the panel 1 is shortened, and the distance between the sub-panels is adjusted to enable the sub-panels to form an installation space for installing the width plate 3 in a separated manner, so that the width of the panel 1 is increased, otherwise, the width of the panel 1 is shortened, therefore, the invention can adjust the length and the width of the wallboard according to the requirement of experimental detection, thereby providing an actual measurement room with variable room height-width ratio, so as to compare and research the influence of different height-width ratios on the wind pressure distribution of a roof, save the experimental steps and reduce the cost, the accuracy of the measurement data is increased.

It can be understood that in the process of transformation, the back surfaces of the panel 1, the length plate 2 and the width plate 3 can be provided with related grooves for abdicating the hinge 4 to prevent interference, the hinge 4 can adopt a tiny hinge to mainly play a role in hinging, and meanwhile, the panel 1, the length plate 2 and the width plate 3 are connected to prevent the panel from loosening and collapsing and play a certain supporting role.

In the present embodiment, as shown in fig. 1 and 2, the sub-panels include a left panel 11 and a right panel 12, the left panel 11 and the right panel 12 can move relatively along the length direction of the wall board, so that an installation space for installing the length board 2 is formed between the left panel 11 and the right panel 12, the left panel 11 includes a first left panel 111 and a second left panel 112, the right panel 12 includes a first right panel 121 and a second right panel 122, the length plate 2 comprises a first length-dividing plate 21 and a second length-dividing plate 22, the first left panel 111, the second left panel 112, the first right panel 121, the second right panel 122, the first length-dividing plate 21 and the second length-dividing plate 22 can all move relatively along the width direction of the wall board, so that an installation space for installing the width plate 3 is formed between the first and second

left panels

111 and 112 and between the first and second

right panels

121 and 122. This embodiment is in the change in-process, separates certain space with left panel 11 and right panel 12 earlier, then imbeds length board 2 wherein, then separates certain space with left panel 11, right panel 12 and length board 2 simultaneously, imbeds width board 3 wherein again, has realized adjusting, accommodation process convenient and fast.

In this embodiment, the width of the length plate 2 is equal to the width of the panel 1, the length of the width plate 3 is equal to the length of the panel 1 plus the length of the length plate 2, the first left panel 111, the second left panel 112, the first right panel 121, and the second right panel 122 are rectangular plates with the same size and shape, and the first length-dividing plate 21 and the second length-dividing plate 22 are rectangular plates with the same size and shape. The shape and size of each sub-plate are the same, and in the adjusting process, the length and the width are adaptive, so that the whole body is more attractive.

In this embodiment, the thickness of panel 1, length board 2, width board 3 is the same, and each thickness is the same, and it is more convenient to adjust for the wallboard all keeps leveling before and after changing.

In this embodiment, the hinge 4 includes a first engaging lug 41, a second engaging lug 42 and a telescopic driving source 43 for connecting the first engaging lug 41 and the second engaging lug 42, the telescopic driving source 43 is a hydraulic cylinder or an air cylinder, and can realize automatic extension and retraction, and it can be understood that the first engaging lug 41 and the second engaging lug 42 are respectively used for connecting the panel 1 or the length plate 2 or the width plate 3, and the first engaging lug 41 and the second engaging lug 42 are hinged to the telescopic driving source 43.

In this embodiment, a rail 5 is provided at the bottom of the panel 1 along the length direction of the wall board, and the panel 1 can slide along the rail 5, so that the wall board moves along a predetermined rail, and the efficiency and stability of the change are improved.

The utility model provides an actual measurement room, this actual measurement room are two slope roofs, includes wall body 6, upper shed 7, middle roof 8 and eave 9, upper shed 7 articulates in wall body 6 top, upper shed 7 through middle roof 8 with eave 9 is connected, middle roof 8 both sides are provided with the slot, upper shed 7 and eave 9 slide the cartridge respectively in the both sides slot of middle roof 8, and eave 9 and middle roof 8 can be along with upper shed 7 transform the angle together, wall body 6 includes as above the wallboard. It will be appreciated that the sliding channel in intermediate roof 8 provides a channel for sliding of upper roof 7 and eaves 9, so that eaves 9 are hinged to the wall, and eaves 9 and intermediate roof 8 may be angled together with upper roof 7, roof 7 and eaves 9 sliding to accommodate varying widths of roof. Wherein 10 are the groove of stepping down for the stepping down of guide rail in the length direction, 13 are block structure, can adopt structures such as shutoff board. The length of the double-slope roof can be selected to be longer in the initial period so as to adapt to the length change of the front face upper wallboard. The actual measurement room can adjust the length and the width of the wallboard according to the needs of experimental detection, thereby providing the actual measurement room with the variable house height-width ratio, facilitating the comparison and research of the influence of walls with different height-width ratios on the wind pressure distribution of the roof, saving the experimental steps, reducing the cost and increasing the accuracy of the measured data.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims

1. A wallboard with an adjustable length-width ratio is characterized in that the wallboard is formed by sequentially splicing a plurality of wallboard units along the length direction of the wallboard, the wall panel unit comprises a panel, a length panel, a width panel and a hinge, the length panel is parallel to the panel and hinged with the panel through the hinge, the length plate is positioned at one side of the panel, the width plate is parallel to the length plate and is hinged with the length plate through a hinge, the width plate is positioned on one side of the length plate, which is far away from the panel, the panel is formed by splicing a plurality of sub-panels in the same plane, the distance between the sub-panels is adjusted to enable the sub-panels to be separated to form an installation space for installing the length plates and the width plates, the length plates are formed by assembling a plurality of sub-length plates in the same plane, by adjusting the distance between the sub-length plates, the sub-length plates can be separated to form an installation space for installing the width plate.

2. The adjustable aspect ratio wall panel of claim 1, wherein the section panels comprise left and right panels that are relatively movable along a length of the wall panel such that an installation space is formed therebetween for installing the length panels, the left panel comprises first and second left panels, the right panel comprises first and second right panels, the length panels comprise first and second length-dividing panels, and the first, second left, first right, second right, first and second length-dividing panels are relatively movable along a width of the wall panel such that an installation space is formed therebetween for installing the width panels.

3. The adjustable aspect ratio wall panel of claim 2, wherein the length panel has a width equal to the width of the face panel and a length equal to the length of the face panel + the length of the length panel.

4. The adjustable aspect ratio wall panel of claim 3, wherein the first left panel, the second left panel, the first right panel, and the second right panel are rectangular panels of the same size and shape.

5. The adjustable aspect ratio wall panel of claim 4, wherein the first and second sub-length panels are rectangular panels of the same size and shape.

6. The adjustable aspect ratio wall panel of claim 5, wherein the face panel, length panel, and width panel are of the same thickness.

7. The adjustable aspect ratio wall panel of claim 1, wherein the hinge comprises a first coupling lug, a second coupling lug, and a telescoping drive source connecting the first and second coupling lugs.

8. The adjustable aspect ratio wallboard of claim 7, wherein the telescoping drive source is a hydraulic or pneumatic cylinder.

9. The adjustable aspect ratio wall panel of claim 1, wherein a track is provided along the length of the wall panel at the bottom of the panel, along which the panel is slidable.

10. An actual measurement house, which is characterized by comprising a wall body, an upper roof, a middle roof and an eave, wherein the upper roof is hinged above the wall body, the upper roof is connected with the eave through the middle roof, slots are arranged on two sides of the middle roof, the upper roof and the eave are respectively inserted into the slots on two sides of the middle roof in a sliding manner, the angle of the eave and the middle roof can be changed along with the upper roof, and the wall body comprises the wallboard according to any one of claims 1-9.