CN220565955U - Curtain-like window device and curtain-like wall system - Google Patents

Abstract

The utility model relates to a curtain-like window device and a curtain-like wall system, wherein the curtain-like wall window device comprises an outer frame unit, a longitudinal inner frame unit, a transverse inner frame unit, a locking unit, a glass unit and an installation unit; the longitudinal inner frame unit is arranged in the outer frame unit; the transverse inner frame unit is arranged between the longitudinal inner frame unit and the outer frame unit; the locking unit is detachably connected with the outer frame unit, the longitudinal inner frame unit and the transverse inner frame unit respectively; the glass units are arranged among the outer frame units, the transverse inner frame units and the longitudinal inner frame units; the mounting unit is detachably connected with the outer frame unit, the longitudinal inner frame unit, the transverse inner frame unit and the glass unit respectively. The locking device has the advantages that the locking device is used for connecting and assembling the outer frame unit, the longitudinal inner frame unit and the transverse inner frame unit, so that the material cost is reduced, all the working procedures can be finished in a factory, and the problems of high construction difficulty, long construction period and high construction cost of the unit type glass curtain wall are solved.

Description

Curtain-like window device and curtain-like wall system

Technical Field

The utility model relates to the technical field of curtain wall window construction, in particular to a curtain wall window device and a curtain wall system.

Background

At present, transparent outer walls of building facades are usually in two forms, namely a glass curtain wall system; and secondly, a glass window system. The glass curtain wall is of two types, namely a frame type glass curtain wall and a unit type glass curtain wall, wherein the frame type glass curtain wall is formed by sequentially installing materials such as rods, panels and the like on site. Has the advantages of low cost; the defects are that the field workload is large, the quality control points are more, the management difficulty is large, the construction period is long, and the quality of the curtain wall is low. The unit type glass curtain wall is assembled in a processing plant, and only a small amount of hoisting work is performed on site. The method has the advantages of high quality precision, high installation efficiency and short construction period; the manufacturing cost of the aluminum product is high. The glazing is framed in a factory, with the panels and the frame being installed in the field. The advantages are low cost, high quality precision, quick installation, low adaptability to large building projects, and poor sealing performance and appearance.

At present, effective solutions are not proposed for solving the problems of high construction difficulty, long construction period, high construction cost of the unit glass curtain wall and the like of the frame glass curtain wall in the related technology.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides a curtain wall-like window device and a curtain wall-like system, so as to solve the problems of high construction difficulty, long construction period, high construction cost of a unit glass curtain wall and the like of a frame glass curtain wall in the related art.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

a curtain wall-like window arrangement comprising:

the outer frame unit is vertically arranged;

a longitudinal inner frame unit disposed inside the outer frame unit;

a horizontal inner frame unit arranged between the longitudinal inner frame unit and the outer frame unit;

the locking unit is detachably connected with the outer frame unit, the longitudinal inner frame unit and the transverse inner frame unit respectively;

the glass units are arranged among the outer frame unit, the transverse inner frame unit and the longitudinal inner frame unit;

and the mounting unit is detachably connected with the outer frame unit, the longitudinal inner frame unit, the transverse inner frame unit and the glass unit respectively.

In some of these embodiments, the outer frame unit includes:

the outer frame element is vertically arranged, and the longitudinal inner frame unit and the transverse inner frame unit are arranged in the outer frame element;

the first connecting elements are arranged at the top and the bottom of the outer frame element and are detachably connected with the longitudinal inner frame unit and the locking unit respectively;

The second connecting elements are arranged on the side parts of the outer frame elements and are detachably connected with the transverse inner frame units and the locking units respectively;

the first installation elements are arranged at the front part of the outer frame element and are detachably connected with the glass unit and the installation unit respectively.

In some of these embodiments, the longitudinal inner frame unit comprises:

the longitudinal elements are arranged in the outer frame unit at intervals along the horizontal direction, and each longitudinal element is respectively connected with the outer frame unit and the transverse inner frame unit;

the third connecting elements are arranged in the middle of the corresponding longitudinal element and are detachably connected with the transverse inner frame unit and the locking unit respectively;

the plurality of fourth connecting elements are arranged at the end parts of the corresponding longitudinal elements and are detachably connected with the outer frame unit and the locking unit respectively;

the second installation elements are arranged at the front parts of the corresponding longitudinal elements and are detachably connected with the glass units and the installation units respectively.

In some of these embodiments, the transverse inner frame unit comprises:

a plurality of first transverse elements disposed between the outer frame unit and the longitudinal inner frame unit, a first end of each first transverse element being connected to the longitudinal inner frame unit, a second end of each first transverse element being connected to the outer frame unit;

a plurality of fifth connecting elements which are arranged at the first ends of the corresponding first transverse elements and are detachably connected with the longitudinal inner frame units and the locking units respectively;

the plurality of sixth connecting elements are arranged at the second ends of the corresponding first transverse elements and are detachably connected with the outer frame unit and the locking unit respectively;

at least one second transverse element arranged inside the longitudinal inner frame unit;

and the seventh connecting elements are arranged at the end parts of the second transverse elements and are detachably connected with the longitudinal inner frame unit and the locking unit respectively.

In some of these embodiments, the locking unit comprises:

A plurality of first locking elements detachably connected with the outer frame unit and the longitudinal inner frame unit respectively;

the second locking elements are detachably connected with the outer frame unit and the transverse inner frame unit respectively;

the plurality of third locking elements are detachably connected with the longitudinal inner frame unit and the transverse inner frame unit respectively;

and the fourth locking elements are detachably connected with the longitudinal inner frame unit and the transverse inner frame unit respectively.

In some of these embodiments, the glass unit comprises:

the glass elements are arranged among the outer frame unit, the transverse inner frame unit and the longitudinal inner frame unit and are respectively connected with the outer frame unit, the transverse inner frame unit, the longitudinal inner frame unit and the mounting unit.

Further, in some embodiments thereof, the glass unit further comprises:

the buffer elements are arranged between the glass element and the outer frame unit, and between the glass element and the outer frame unit.

In some of these embodiments, the mounting unit comprises:

a plurality of third installation elements which are detachably connected with the glass unit and the outer frame unit respectively;

and the plurality of fourth mounting elements are detachably connected with the glass unit and the longitudinal inner frame unit respectively.

Further, in some embodiments thereof, the mounting unit further comprises:

a plurality of first sealing elements, wherein the first sealing elements are arranged between the third mounting element and the outer frame unit;

and a plurality of second sealing elements disposed between the fourth mounting element and the longitudinal inner frame unit.

In a second aspect, there is provided a curtain wall-like system comprising:

a plurality of curtain-like wall window arrangements as defined in the first aspect;

the reinforcing devices are arranged between two adjacent curtain-wall-like window devices and used for reinforcing the connection of the curtain-wall-like window devices.

Compared with the prior art, the utility model has the following technical effects:

according to the curtain-like window device and the curtain-like wall system, the outer frame unit, the longitudinal inner frame unit and the transverse inner frame unit are connected and assembled by the locking unit, so that the node for assembling the frame is optimized to reduce the material cost, and meanwhile, all the working procedures can be finished in factories, so that the overall strength, the rigidity and the precision of the frame are ensured, and the workload of a construction site is reduced; the glass unit can be installed indoors through the installation unit, the installation condition is superior to that of an outdoor hanging basket, and the installation quality and efficiency are improved, so that the problems of high construction difficulty, long construction period and high construction cost of the unit type glass curtain wall are solved.

Drawings

FIG. 1 is a schematic view of a curtain-like wall glazing according to an embodiment of the utility model;

FIG. 2 is a cross-sectional view of a curtain-like wall glazing according to an embodiment of the utility model;

fig. 3a to 3b are schematic views of an outer frame unit according to an embodiment of the present utility model;

fig. 4 a-4 b are schematic views of a longitudinal inner frame unit according to an embodiment of the utility model;

fig. 5 is a schematic view of a transverse inner frame unit according to an embodiment of the utility model;

FIG. 6 is a schematic view of a locking unit according to an embodiment of the utility model;

FIGS. 7 a-7 b are schematic views of a glass unit according to embodiments of the present utility model;

fig. 8 a-8 b are schematic views of a mounting unit according to an embodiment of the utility model;

FIG. 9 is a schematic diagram of a curtain-like wall system according to an embodiment of the present utility model.

Wherein the reference numerals are as follows: 100. curtain wall-like window arrangement;

110. an outer frame unit; 111. an outer frame member; 112. a first connecting element; 113. a second connecting element; 114. a first mounting element;

120. a longitudinal inner frame unit; 121. a longitudinal element; 122. a third connecting element; 123. a fourth connecting element; 124. a second mounting element;

130. a transverse inner frame unit; 131. a first transverse element; 132. a fifth connecting element; 133. a sixth connecting element; 134. a second transverse element; 135. a seventh connecting element;

140. A locking unit; 141. a first locking element; 142. a second locking element; 143. a third locking element; 144. a fourth locking element;

150. a glass unit; 151. a glass element; 152. a buffer element;

160. an installation unit; 161. a third mounting element; 162. a fourth mounting element; 163. a first sealing element; 164. a second sealing element;

200. and a reinforcing device.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

The utility model is further described below with reference to the drawings and specific examples, which are not intended to be limiting.

Example 1

This embodiment relates to a curtain-like wall window arrangement of the present utility model.

An exemplary embodiment of the present utility model, as shown in fig. 1 to 2, a curtain wall window device 100 of the kind including an outer frame unit 110, a longitudinal inner frame unit 120, a transverse inner frame unit 130, a locking unit 140, a glass unit 150, and a mounting unit 160. Wherein the outer frame unit 110 is vertically disposed; the longitudinal inner frame unit 120 is disposed inside the outer frame unit 110; the horizontal inner frame unit 130 is disposed between the vertical inner frame unit 120 and the outer frame unit 110; the locking unit 140 is detachably connected with the outer frame unit 110, the longitudinal inner frame unit 120, and the transverse inner frame unit 130, respectively; the glass unit 150 is disposed between the outer frame unit 110, the lateral inner frame unit 130, and the longitudinal inner frame unit 120; the mounting unit 160 is detachably connected to the outer frame unit 110, the longitudinal inner frame unit 120, the lateral inner frame unit 130, and the glass unit 150, respectively.

As shown in fig. 3a to 3b, the outer frame unit 110 includes an outer frame member 111, a plurality of first connection members 112, a plurality of second connection members 113, and a plurality of first mounting members 114. Wherein the outer frame member 111 is vertically disposed, and a longitudinal inner frame unit 120 and a transverse inner frame unit 130 are disposed inside the outer frame member 111; the first connecting elements 112 are disposed at the top and bottom of the outer frame element 111 and detachably connected with the longitudinal inner frame unit 120 and the locking unit 140, respectively; the second connecting elements 113 are disposed at the side parts of the outer frame element 111 and detachably connected with the transverse inner frame unit 130 and the locking unit 140 respectively; the first mounting elements 114 are disposed at the front of the outer frame 111 and detachably connected to the glass unit 150 and the mounting unit 160, respectively.

The planar shape of the outer frame member 111 is a circular rectangle. Specifically, the outer frame member 111 includes a top frame, a bottom frame, and two side frames. Wherein, the top frame is provided with a plurality of first connecting elements 112; the bottom frame is parallel to the top frame and provided with a plurality of first connecting elements 112; both ends of the two side frames are respectively connected with the end parts of the bottom frame and the end parts of the top frame, and the side frames are provided with a plurality of second connecting elements 113.

In some of these embodiments, the top, bottom, and side frames are connected by metal corner pieces.

In some of these embodiments, the outer frame element 111 includes, but is not limited to, an aluminum alloy window frame.

In some of these embodiments, the first connecting member 112 is disposed through the top and bottom of the outer frame member 111.

Specifically, the first connecting elements 112 are respectively disposed through the upper and lower surfaces of the top and bottom frames.

The first connecting elements 112 are an even number. Specifically, at least one first connecting element 112 is provided at the top frame, and at least one first connecting element 112 is provided at the bottom frame. In addition, the number of the first connection elements 112 disposed on the top frame is the same as the number of the first connection elements 112 disposed on the bottom frame, i.e. the first connection elements 112 disposed on the top frame are in one-to-one correspondence with the first connection elements 112 disposed on the bottom frame.

More specifically, the first connecting member 112 located at the top frame is coaxially disposed with the first connecting member 112 located at the bottom frame.

In the case that the top frame is provided with a plurality of first connection elements 112, the plurality of first connection elements 112 are disposed at intervals along the length direction of the top frame.

In some embodiments, the plurality of first connecting elements 112 are arranged in an array along the length direction and the width direction of the top frame.

In the case that the bottom frame is provided with a plurality of first connection elements 112, the plurality of first connection elements 112 are disposed at intervals along the length direction of the bottom frame.

In some embodiments, the first connecting elements 112 are arranged in an array along the length and width of the bottom frame.

In some of these embodiments, the number of first connecting elements 112 is 4. Specifically, the 2 first connection elements 112 are disposed at intervals along the length direction of the top frame, the 2 first connection elements 112 are disposed at intervals along the length direction of the bottom frame, and the 2 first connection elements 112 located at the top frame correspond to the 2 first connection elements 112 located at the bottom frame.

In some of these embodiments, the number of first connecting elements 112 is 8. Specifically, the 4 first connection elements 112 are arranged in 2 rows×2 columns in the top frame, the 4 first connection elements 112 are arranged in 2 rows×2 columns in the bottom frame, and the 4 first connection elements 112 located in the top frame correspond to the 4 first connection elements 112 located in the bottom frame.

In some of these embodiments, the first connecting element 112 is circular in cross-section.

In some of these embodiments, the first connecting element 112 is a first through hole.

In some of these embodiments, the second connection member 113 is provided through a side portion of the outer frame member 111.

Specifically, the second connection member 113 is provided through the left and right surfaces of the side frame.

The second connection elements 113 are an even number. Specifically, at least one second connection element 113 is provided at each of the side frames. In addition, the number of the second connection elements 113 disposed on the two side frames is the same, i.e. the second connection elements 113 disposed on the two side frames are in one-to-one correspondence.

More specifically, the second connection members 113 located at both side frames are coaxially disposed.

In the case where the side frames are provided with a plurality of second connection elements 113, the plurality of second connection elements 113 are disposed at intervals along the length direction of the side frames.

In some embodiments, the plurality of second connecting elements 113 are arranged in an array along the length direction and the width direction of the side frame.

In some of these embodiments, the number of second connection elements 113 is 4. Specifically, 2 second connection elements 113 are disposed at intervals along the height direction of the side frame, 2 second connection elements 113 are disposed at intervals along the height direction of the other side frame, and 2 second connection elements 113 located at the one side frame correspond to 2 second connection elements 113 located at the other side frame.

In some of these embodiments, the number of second connection elements 113 is 8. Specifically, the 4 second connection elements 113 are arranged in 2 rows×2 columns in the side frame, the 4 second connection elements 113 are arranged in 2 rows×2 columns in the other side frame, and the 4 second connection elements 113 located in one side frame correspond to the 4 second connection elements 113 located in the other side frame.

In some of these embodiments, the second connecting element 113 is circular in cross-section.

In some of these embodiments, the second connecting element 113 is a second through hole.

The first mounting member 114 is integrally formed with the outer frame member 111.

In some of these embodiments, the number of first mounting elements 114 is 2. Specifically, 2 first mounting elements 114 are provided on the front sides of the side frames, respectively.

In some of these embodiments, the first mounting element 114 is rod-shaped.

The first mounting element 114 is sized to match the size of the side frame. Generally, the length of the first mounting element 114 is equal to the length of the side frame, and the width of the cross section of the first mounting element 114 is no greater than the width of the cross section of the side frame.

In some of these embodiments, the first mounting element 114 is a first clip.

In some of these embodiments, the first mounting element 114 includes, but is not limited to, an aluminum alloy fixed window frame.

As shown in fig. 4 a-4 b, the longitudinal inner frame unit 120 comprises several longitudinal elements 121, several third connecting elements 122, several fourth connecting elements 123 and several second mounting elements 124. Wherein, a plurality of longitudinal elements 121 are arranged in the outer frame unit 110 at intervals along the horizontal direction, and each longitudinal element 121 is respectively connected with the outer frame unit 110 and the transverse inner frame unit 130; the third connecting elements 122 are arranged in the middle of the corresponding longitudinal elements 121 and are detachably connected with the transverse inner frame unit 130 and the locking unit 140 respectively; the fourth connecting elements 123 are disposed at the ends of the corresponding longitudinal elements 121 and detachably connected to the outer frame unit 110 and the locking unit 140, respectively; a plurality of second mounting elements 124 are provided at the front of the corresponding longitudinal elements 121 and are detachably connected to the glass unit 150 and the mounting unit 160, respectively.

Specifically, the plurality of longitudinal members 121 are disposed at intervals in the horizontal direction inside the outer frame member 111; the third connecting element 122 corresponds to the first connecting element 112; the fourth connecting element 123 corresponds to the second connecting element 113.

More specifically, the plurality of longitudinal elements 121 are disposed between the two side frames along the length direction of the top frame/the bottom frame at intervals, and two ends of the plurality of longitudinal elements 121 are respectively abutted against the top frame and the bottom frame.

The number of longitudinal elements 121 matches the number of first connecting elements 112. Typically, the number of first connecting elements 112 is an integer multiple (typically an even multiple) of the number of longitudinal elements 121, i.e. each longitudinal element 121 corresponds to an even number of first connecting elements 112.

Typically, each longitudinal element 121 corresponds to 2 or 4 first connecting elements 112.

In some of these embodiments, the number of longitudinal elements 121 is 2. Specifically, 2 longitudinal members 121 are disposed between the side frames at intervals along the length direction of the top/bottom frames.

The size of the longitudinal member 121 matches the size of the outer frame member 111. Typically, the height of the longitudinal members 121 is equal to the height of the side frames and the width of the longitudinal members 121 is equal to the length of the top/bottom frames.

In some of these embodiments, the longitudinal element 121 is rectangular in cross-section.

In some of these embodiments, the longitudinal element 121 is a longitudinal frame.

In some of these embodiments, longitudinal element 121 includes, but is not limited to, an aluminum alloy window frame.

In some of these embodiments, the third connecting element 122 is integrally formed with the longitudinal element 121.

The number of third connecting elements 122 matches the number of longitudinal elements 121. Typically, the number of third connecting elements 122 is an integer multiple (typically an even multiple) of the number of longitudinal elements 121, i.e. each longitudinal element 121 corresponds to an even number of third connecting elements 122.

More specifically, at least one third connecting element 122 is provided at the top end of the longitudinal element 121, and at least one third connecting element 122 is provided at the bottom end of the longitudinal element 121.

In the case where the plurality of third connecting members 122 are provided at the tip end of the longitudinal member 121, the plurality of third connecting members 122 are provided along the length direction or the width direction of the tip end of the longitudinal member 121.

In the case where the plurality of third connecting members 122 are provided at the bottom ends of the longitudinal members 121, the plurality of third connecting members 122 are provided along the length direction or the width direction of the bottom ends of the longitudinal members 121.

The number of third connecting elements 122 matches the number of first connecting elements 112. Generally, the number of third connecting elements 122 is equal to the number of first connecting elements 112.

In some of these embodiments, the third connecting element 122 is circular in cross-section.

The third connecting element 122 is sized to match the size of the first connecting element 112, and typically the inner diameter of the third connecting element 122 is equal to the diameter of the first connecting element 112.

In some of these embodiments, the third connecting element 122 is a first threaded bore.

In some of these embodiments, a fourth connecting element 123 is disposed through the left and right surfaces of the longitudinal element 121.

The number of fourth connecting elements 123 matches the number of longitudinal elements 121. Typically, the number of fourth connecting elements 123 is an even multiple of the number of longitudinal elements 121, i.e. each longitudinal element 121 corresponds to an even number of fourth connecting elements 123.

Specifically, at least one fourth connecting element 123 is provided on each side of the longitudinal element 121. The fourth connecting elements 123 are also arranged on both sides of the longitudinal element 121 in a one-to-one correspondence.

More specifically, the fourth connecting elements 123 located on both sides of the longitudinal element 121 are arranged coplanar.

In the case where a plurality of fourth connecting members 123 are provided at the side of the longitudinal member 121, the plurality of fourth connecting members 123 are provided at intervals in the length and width directions of the longitudinal member 121.

In some of these embodiments, a plurality of fourth connecting elements 123 are arranged in an array along the length and width of the longitudinal element 121.

The number of fourth connecting elements 123 matches the number of second connecting elements 113. Generally, the number of the fourth connecting elements 123 is an integer multiple of the number of the second connecting elements 113, that is, each second connecting element 113 corresponds to at least one fourth connecting element 123.

More specifically, the fourth connecting element 123 provided to the longitudinal element 121 is coplanar with the corresponding second connecting element 113.

In some of these embodiments, the number of fourth connecting elements 123 is equal to the product of the number of second connecting elements 113 and the number of longitudinal elements 121.

The fourth connecting element 123 has a size matching the size of the second connecting element 113. Generally, the fourth connecting element 123 has a length/width/height equal to the length/width/height of the second connecting element 113.

In some of these embodiments, the fourth connecting element 123 is circular in cross-section.

In some of these embodiments, the fourth connecting element 123 is a third through hole.

The second mounting element 124 is integrally formed with the longitudinal element 121.

The number of second mounting elements 124 matches the number of longitudinal elements 121. Typically, the number of second mounting elements 124 is an even multiple of the number of longitudinal elements 121, i.e. each longitudinal element 121 corresponds to at least two second mounting elements 124.

Specifically, at least two second mounting elements 124 are respectively provided at both side surfaces of the longitudinal element 121. In addition, the second mounting elements 124 provided at both sides of the longitudinal element 121 are in one-to-one correspondence.

At least one fourth connecting element 123 is arranged between two adjacent second mounting elements 124 on the same side of the longitudinal element 121.

The dimensions of the second mounting element 124 match those of the longitudinal element 121. Generally, the length of the second mounting element 124 is equal to the length of the longitudinal element 121, and the width of the cross section of the second mounting element 124 is no greater than the width of the cross section of the longitudinal element 121.

In some of these embodiments, the second mounting element 124 is a second clip.

In some of these embodiments, the second mounting element 124 includes, but is not limited to, an aluminum alloy fixed window frame.

As shown in fig. 5, the transverse inner frame unit 130 comprises a number of first transverse elements 131, a number of fifth connecting elements 132, a number of sixth connecting elements 133, at least one second transverse element 134 and a number of seventh connecting elements 135. Wherein, a plurality of first transverse elements 131 are disposed between the outer frame unit 110 and the longitudinal inner frame unit 120, a first end of each first transverse element 131 is connected with the longitudinal inner frame unit 120, and a second end of each first transverse element 131 is connected with the outer frame unit 110; the fifth connecting elements 132 are disposed at the first ends of the corresponding first transverse elements 131 and detachably connected with the longitudinal inner frame units 120 and the locking units 140, respectively; the sixth connecting elements 133 are disposed at the second ends of the corresponding first transverse elements 131 and detachably connected to the outer frame unit 110 and the locking unit 140, respectively; the second transverse element 134 is arranged inside the longitudinal inner frame unit 120; the seventh connecting element 135 is provided at an end of the second transverse element 134 and is detachably connected to the longitudinal inner frame unit 120, the locking unit 140, respectively.

Specifically, a plurality of first transverse elements 131 are disposed at intervals in the vertical direction inside the outer frame element 111, a first end of the first transverse elements 131 is connected to the longitudinal element 121, and a second end of the first transverse elements 131 is connected to the outer frame element 111; the fifth connecting element 132 corresponds to the second connecting element 113; the sixth connecting element 133 corresponds to the fourth connecting element 123; the second transverse element 134 is arranged between the longitudinal elements 121; the seventh connecting elements 135 correspond to the fourth connecting elements 123.

More specifically, the plurality of first transverse elements 131 are disposed between the top frame and the bottom frame at intervals along the length direction of the side frames, and the second ends of the plurality of first transverse elements 131 are respectively abutted against the two side frames.

The number of first transverse elements 131 is an even number. Specifically, at least one first transverse element 131 is provided on the inner side of one side frame and at least one first transverse element 131 is provided on the inner side of the other side frame.

In case a number of first transverse elements 131 are provided on the inner side of each side frame, the number of first transverse elements 131 are arranged at intervals along the length direction of the side frame.

The number of first transverse elements 131 matches the number of second connecting elements 113. Typically, the number of second connecting elements 113 is an integer multiple of the number of first transverse elements 131, i.e. the first transverse elements 131 are in one-to-one correspondence with at least one second connecting element 113.

In some of these embodiments, the number of first transverse elements 131 is 4. Specifically, 2 first transverse elements 131 are provided on the inner side of one side frame, and 2 first transverse elements 131 are provided on the inner side of the other side frame.

In some of these embodiments, the first transverse element 131 is rod-shaped.

The dimensions of the first transverse element 131 match those of the outer frame element 111, the longitudinal element 121. Generally, the length of the first transverse element 131 is equal to the horizontal distance of the adjacent side frame from the longitudinal element 121, and the cross-sectional dimension of the first transverse element 131 is equal to the cross-sectional dimension of the longitudinal element 121.

In some of these embodiments, the first transverse element 131 is rectangular in cross-section.

In some of these embodiments, the first transverse element 131 is a first transverse frame.

In some of these embodiments, the first transverse element 131 includes, but is not limited to, an aluminum alloy window frame.

The number of fifth connecting elements 132 matches the number of first transverse elements 131. Typically, the number of fifth connecting elements 132 is an integer multiple of the number of first transverse elements 131, i.e. at least one fifth connecting element 132 is provided for each first transverse element 131.

The number of fifth connecting elements 132 matches the number of second connecting elements 113. Generally, the number of fifth connecting elements 132 is equal to the number of second connecting elements 113.

The dimensions of the fifth connecting element 132 match those of the second connecting element 113. Generally, the inner diameter of the fifth connecting element 132 is equal to the diameter of the second connecting element 113.

In some of these embodiments, the fifth connecting element 132 is circular in cross-section.

In some of these embodiments, the fifth connecting element 132 is a second threaded bore.

The number of sixth connecting elements 133 matches the number of first transverse elements 131. Typically, the number of sixth connecting elements 133 is an integer multiple of the number of first transverse elements 131, i.e. at least one sixth connecting element 133 is provided for each first transverse element 131.

The number of sixth connecting elements 133 matches the number of fifth connecting elements 132. Generally, the number of sixth connecting elements 133 is equal to the number of fifth connecting elements 132.

The size of the sixth connecting element 133 matches the size of the fourth connecting element 123. Generally, the inner diameter of the sixth connecting element 133 is equal to the diameter of the fourth connecting element 123.

In some of these embodiments, the sixth connecting element 133 is circular in cross-section.

In some of these embodiments, the sixth connecting element 133 is a third threaded bore.

The number of second transverse elements 134 matches the number of longitudinal elements 121. Typically, at least one second transverse element 134 is arranged between two adjacent longitudinal elements 121.

In case a number of second transverse elements 134 are arranged between adjacent longitudinal elements 121, the number of second transverse elements 134 are arranged at intervals along the length of the longitudinal elements 121.

The number of second transverse elements 134 matches the number of first transverse elements 131. Generally, two first transverse elements 131 lying in the same plane correspond to at least one second transverse element 134.

In case several second transverse elements 134 are arranged between two first transverse elements 131 of the same horizontal plane, the several second transverse elements 134 are arranged at intervals in the horizontal direction.

In some of these embodiments, the number of second transverse elements 134 is 2. Specifically, two second transverse elements 134 are arranged between the two longitudinal elements 121, the two second transverse elements 134 being arranged at intervals along the length of the longitudinal elements 121.

The dimensions of the second transverse element 134 match those of the longitudinal element 121. Generally, the length of the second transverse element 134 is equal to the horizontal distance between two adjacent longitudinal elements 121.

The dimensions of the second transverse element 134 match those of the first transverse element 131. Generally, the cross-sectional dimension of the second transverse element 134 is equal to the cross-sectional dimension of the first transverse element 131.

In some of these embodiments, the second transverse element 134 is rod-shaped.

In some of these embodiments, the second transverse element 134 is rectangular in cross-section.

In some of these embodiments, the second transverse element 134 is a second transverse frame.

In some of these embodiments, the second transverse element 134 includes, but is not limited to, an aluminum alloy window frame.

In some of these embodiments, the seventh connecting element 135 is integrally formed with the second transverse element 134.

The number of seventh connecting elements 135 matches the number of second transverse elements 134. Typically, the number of seventh connecting elements 135 is an integer multiple (typically an even multiple) of the number of second transverse elements 134, i.e. each second transverse element 134 corresponds to an even number of seventh connecting elements 135.

More specifically, at least one seventh connecting element 135 is provided at a first end of the second transverse element 134 and at least one seventh connecting element 135 is provided at a second end of the second transverse element 134.

In case a number of seventh connecting elements 135 are provided at the first end of the second transverse element 134, the number of seventh connecting elements 135 are provided in the width direction or in the height direction of the first end of the second transverse element 134.

In case a number of seventh connecting elements 135 are provided at the second end of the second transverse element 134, the number of seventh connecting elements 135 are provided in the width direction or in the height direction of the second end of the second transverse element 134.

The number of seventh connecting elements 135 matches the number of fourth connecting elements 123. Generally, the number of seventh connecting elements 135 is equal to the difference between the number of fourth connecting elements 123 and the number of sixth connecting elements 133.

The size of the seventh connecting element 135 matches the size of the fourth connecting element 123. Generally, the inner diameter of the seventh connecting element 135 is equal to the diameter of the fourth connecting element 123.

In some of these embodiments, seventh connecting element 135 is circular in cross-section.

In some of these embodiments, the seventh connecting element 135 is a fourth threaded bore.

As shown in fig. 6, the locking unit 140 includes a plurality of first locking elements 141, a plurality of second locking elements 142, a plurality of third locking elements 143, and a plurality of fourth locking elements 144. Wherein, the plurality of first locking elements 141 are detachably connected with the outer frame unit 110 and the longitudinal inner frame unit 120 respectively; the second locking elements 142 are detachably connected with the outer frame unit 110 and the transverse inner frame unit 130 respectively; a plurality of third locking elements 143 detachably connected to the longitudinal inner frame unit 120 and the transverse inner frame unit 130, respectively; a plurality of fourth locking elements 144 are detachably connected to the longitudinal inner frame unit 120 and the transverse inner frame unit 130, respectively.

Specifically, the first locking element 141 is detachably connected to the first connecting element 112 and the third connecting element 122, respectively; the second locking element 142 is connected to the second connecting element 113 and the fifth connecting element 132, respectively; the third locking element 143 is detachably connected to the fourth connecting element 123 and the sixth connecting element 133, respectively; the fourth locking element 144 is detachably connected to the fourth connecting element 123, the seventh connecting element 135, respectively.

The number of first locking elements 141 matches the number of first connecting elements 112. Generally, the number of first locking elements 141 is equal to the number of first connecting elements 112, i.e. the first locking elements 141 are in one-to-one correspondence with the first connecting elements 112.

In some of these embodiments, the first locking element 141 is T-shaped in cross-section. Specifically, the first locking element 141 comprises a first transverse lock and a first longitudinal lock. Wherein the first transverse locking member is detachably connected to the first connecting element 112; the end of the first longitudinal lock is connected to the middle of the first transverse lock and is detachably connected to the third connecting element 122.

In some of these embodiments, the first transverse locking member is circular in cross-section.

The dimensions of the first transverse locking member match the dimensions of the first connecting element 112. Typically, the diameter of the first transverse locking member is larger than the size of the first connecting element 112.

In some of these embodiments, the first longitudinal lock is circular in cross-section.

The first longitudinal lock is sized to match the size of the third connecting element 122. Typically, the diameter of the first longitudinal lock is equal to the inner diameter of the third connecting element 122.

In some of these embodiments, the first locking element 141 includes, but is not limited to, a stainless steel self-tapping screw.

The number of second locking elements 142 matches the number of second connecting elements 113. Generally, the number of second locking elements 142 is equal to the number of second connecting elements 113, i.e. the second locking elements 142 are in one-to-one correspondence with the second connecting elements 113.

In some of these embodiments, the second locking element 142 is T-shaped in cross-section. Specifically, the second locking element 142 includes a second transverse lock and a second longitudinal lock. Wherein the second transverse locking member is detachably connected to the second connecting element 113; the end of the second longitudinal lock is connected to the middle of the second transverse lock and is detachably connected to the fifth connecting element 132.

In some of these embodiments, the second transverse lock is circular in cross-section.

The dimensions of the second transverse locking member match the dimensions of the second connecting element 113. Typically, the diameter of the second transverse lock is larger than the diameter of the second connecting element 113.

In some of these embodiments, the second longitudinal lock is circular in cross-section.

The dimensions of the second longitudinal lock match the dimensions of the third connecting element 122. Typically, the diameter of the second longitudinal lock is equal to the inner diameter of the fifth connecting element 132.

In some of these embodiments, the second locking element 142 includes, but is not limited to, a stainless steel self-tapping screw.

The number of third locking elements 143 matches the number of sixth connecting elements 133. Generally, the number of third locking elements 143 is equal to the number of sixth connecting elements 133, i.e. the third locking elements 143 are in one-to-one correspondence with the sixth connecting elements 133.

In some of these embodiments, the third locking element 143 is rectilinear in cross-section, in particular the third locking element 143 comprises a first threaded rod and a first latch. Wherein the first threaded rod is connected with the sixth connecting element 133; the first latch is disposed at an end of the first threaded rod and is connected to the fourth connecting element 123.

In some of these embodiments, the first threaded rod is circular in cross-section.

The dimensions of the first threaded rod match those of the sixth connecting element 133. Typically, the diameter of the first threaded rod is equal to the inner diameter of the sixth connecting element 133.

In some of these embodiments, the first pin is circular in cross-section.

The dimensions of the first pin match the dimensions of the fourth connecting element 123. Typically, the diameter of the first pin is not greater than the diameter of the fourth connecting element 123.

In some of these embodiments, the diameter of the first pin is equal to the diameter of the fourth connecting element 123.

In some of these embodiments, the third locking element 143 includes, but is not limited to, a stainless steel pin.

The number of fourth locking elements 144 matches the number of seventh connecting elements 135. Generally, the number of fourth locking elements 144 is equal to the number of seventh connecting elements 135, i.e. the fourth locking elements 144 are in one-to-one correspondence with the seventh connecting elements 135.

In some of these embodiments, the fourth locking element 144 is rectilinear in cross-section, in particular, the fourth locking element 144 comprises a second threaded rod and a second latch. Wherein the first threaded rod is connected to the seventh connecting element 135; the second latch is disposed at an end of the second threaded rod and is connected to the fourth connecting element 123.

In some of these embodiments, the second threaded rod is circular in cross-section.

The dimensions of the second threaded rod match the dimensions of the seventh connecting element 135. Typically, the diameter of the second threaded rod is equal to the inner diameter of the seventh connecting element 135.

In some of these embodiments, the second pin is circular in cross-section.

The dimensions of the second pin match the dimensions of the fourth connecting element 123. Typically, the diameter of the second pin is not greater than the diameter of the fourth connecting element 123.

In some of these embodiments, the diameter of the second pin is equal to the diameter of the fourth connecting element 123.

In some of these embodiments, the fourth locking element 144 includes, but is not limited to, a stainless steel pin.

As shown in fig. 7 a-7 b, the glass unit 150 comprises several glass elements 151. Wherein, a plurality of glass elements 151 are disposed between the outer frame unit 110, the longitudinal inner frame unit 120, and the transverse inner frame unit 130.

Specifically, the glass member 151 is disposed between the outer frame member 111, the longitudinal member 121, the first transverse member 131, and the second transverse member 134.

The number of glass elements 151 matches the number of longitudinal elements 121, the number of first transverse elements 131. Typically, the number of longitudinal elements 121 is b, the number of first transverse elements 131 is a, and the number of glass elements 151 is (1+b) × (1+a/2).

In some of these embodiments, the planar shape of the glass element 151 is rectangular.

In some of these embodiments, glass element 151 includes, but is not limited to, laminated glass or the like.

Further, the glass unit 150 also includes several buffer elements 152. The buffer elements 152 are disposed at edges of the glass element 151 and are respectively connected to the outer frame unit 110, the longitudinal inner frame unit 120, and the transverse inner frame unit 130.

Specifically, the plurality of cushioning members 152 are respectively connected to the outer frame member 111, the longitudinal members 121, the first transverse members 131, and the second transverse members 134.

In some of these embodiments, the connection means of the buffer element 152 to the glass element 151, the outer frame element 111, the longitudinal element 121, the first transverse element 131, and the second transverse element 134 includes, but is not limited to, adhesive bonding.

The number of buffer elements 152 matches the number of glass elements 151. Typically, the number of cushioning elements 152 is equal to 4 times the number of glass elements 151, i.e., 4 cushioning elements 152 per glass element 151.

In some of these embodiments, cushioning element 152 includes, but is not limited to, silicone sealant.

As shown in fig. 8a to 8b, the mounting unit 160 includes a plurality of third mounting elements 161 and a plurality of fourth mounting elements 162. Wherein the third mounting member 161 is detachably connected to the glass unit 150 and the outer frame unit 110, respectively; the fourth mounting member 162 is detachably connected to the glass unit 150 and the longitudinal inner frame unit 120, respectively.

Specifically, the third mounting elements 161 are detachably connected to the glass element 151 and the first mounting element 114, respectively; the fourth mounting members 162 are detachably connected to the glass member 151 and the second mounting member 124, respectively.

The number of third mounting elements 161 matches the number of first transverse elements 131. Typically, the number of third mounting elements 161 is greater than the number of first transverse elements 131 and the difference is 2.

The dimensions of the third mounting element 161 match those of the first transverse element 131. Typically, the length of the third mounting element 161 is equal to the distance between two first transverse elements 131 adjacent one above the other.

The number of third mounting elements 161 matches the number of first mounting elements 114. Generally, the number of third mounting elements 161 is an integer multiple of the number of first mounting elements 114.

Specifically, at least two third mounting elements 161 are disposed corresponding to each of the first mounting elements 114.

In some of these embodiments, the third mounting element 161 is snap-fit with the first mounting element 114.

In some of these embodiments, the third mounting element 161 includes, but is not limited to, an aluminum alloy gusset.

The number of fourth mounting elements 162 matches the number of longitudinal elements 121. Typically, the number of fourth mounting elements 162 is an integer multiple (typically an even multiple) of the number of longitudinal elements 121, i.e. each longitudinal element 121 corresponds to an even number of fourth mounting elements 162.

Specifically, at least four fourth mounting elements 162 are provided for each longitudinal element 121.

The number of fourth mounting elements 162 matches the number of third mounting elements 161. Generally, the number of fourth mounting elements 162 is an integer multiple of the number of third mounting elements 161.

The fourth mounting element 162 is dimensioned to match the dimensions of the first transverse element 131. Generally, the length of the fourth mounting element 162 is equal to the distance between two first transverse elements 131 adjacent one above the other.

In some of these embodiments, the fourth mounting element 162 is snap-fit with the second mounting element 124.

In some of these embodiments, the fourth mounting element 162 includes, but is not limited to, an aluminum alloy gusset.

Further, the mounting unit 160 further comprises a number of first sealing elements 163 and a number of second sealing elements 164. Wherein, the plurality of first sealing elements 163 are disposed between the third mounting element 161 and the outer frame unit 110; a number of second sealing elements 164 are provided between the fourth mounting element 162 and the longitudinal inner frame unit 120.

Specifically, the first sealing element 163 is disposed between the third mounting element 161 and the first mounting element 114; the second sealing element 164 is disposed between the fourth mounting element 162 and the second mounting element 124.

The number of first sealing elements 163 matches the number of third mounting elements 161. Generally, the number of first sealing elements 163 is equal to the number of third mounting elements 161, i.e. the first sealing elements 163 are in one-to-one correspondence with the third mounting elements 161.

In some of these embodiments, the first sealing element 163 is adhesively attached to the third mounting element 161, the first mounting element 114 by a self-material.

In some of these embodiments, the first sealing element 163 includes, but is not limited to, a silicone sealant.

The number of second sealing elements 164 matches the number of fourth mounting elements 162. Generally, the number of second sealing elements 164 is equal to the number of fourth mounting elements 162, i.e., the second sealing elements 164 are in one-to-one correspondence with the fourth mounting elements 162.

The second sealing member 164 is adhesively connected to the fourth mounting member 162 and the second mounting member 124 by a self-adhesive material.

In some of these embodiments, the first sealing element 163 includes, but is not limited to, a silicone sealant.

The construction method of the utility model comprises the following steps:

the fourth connecting element 123 and the sixth connecting element 133 are connected by means of the third locking element 143, the first transverse element 131 is fixed to the side of the longitudinal element 121, the fourth connecting element 123 and the seventh connecting element 135 are connected by means of the fourth locking element 144, the second transverse element 134 is fixed between the longitudinal elements 121, constituting a frame;

The first locking element 141 and the second locking element 142 respectively fix the longitudinal element 121, the first transverse element 131 and the outer frame element 111, so as to complete the window frame installation;

the glass member 151 is clamped at the space of the frame, the buffer member 152 is filled in the gaps around the glass member 151, and then the first mounting member 114 is clamped with the third mounting member 161, and the second mounting member 124 is clamped with the fourth mounting member 162, so as to fix the glass member 151.

The utility model has the advantages that the locking unit is used for connecting and assembling the outer frame unit, the longitudinal inner frame unit and the transverse inner frame unit, the node for assembling the frame is optimized to reduce the material cost, and simultaneously, all the working procedures can be finished in factories, thereby ensuring the overall strength, the rigidity and the precision of the frame and reducing the workload of a construction site; the glass unit can be installed indoors through the installation unit, the installation condition is superior to that of an outdoor hanging basket, and the installation quality and efficiency are improved, so that the problems of high construction difficulty, long construction period and high construction cost of the unit type glass curtain wall are solved.

Example 2

This embodiment relates to curtain-like wall systems of the present utility model.

As shown in fig. 9, a curtain-like wall system includes a plurality of curtain-like wall window devices 100 and a plurality of reinforcing devices 200 as described in embodiment 1. Wherein, a plurality of reinforcing devices 200 are arranged between two adjacent curtain wall window devices 100 for reinforcing the connection of the curtain wall window devices 100.

In some of these embodiments, the reinforcement device 200 includes, but is not limited to, a solid galvanized steel sheet.

The utility model has the advantages that the reinforcing device is arranged between the curtain wall-like window devices, the vertical main stress component adopts the design form of steel-aluminum combined section, the excellent mechanical property of steel materials and the decorative property of aluminum materials are well combined together, and the economical efficiency of the system is greatly improved while the effect is ensured.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included within the scope of the present utility model.

Claims (10)

1. Curtain wall-like window arrangement, characterized in that it comprises:

the outer frame unit is vertically arranged;

a longitudinal inner frame unit disposed inside the outer frame unit;

a horizontal inner frame unit arranged between the longitudinal inner frame unit and the outer frame unit;

the locking unit is detachably connected with the outer frame unit, the longitudinal inner frame unit and the transverse inner frame unit respectively;

The glass units are arranged among the outer frame unit, the transverse inner frame unit and the longitudinal inner frame unit;

and the mounting unit is detachably connected with the outer frame unit, the longitudinal inner frame unit, the transverse inner frame unit and the glass unit respectively.

2. The curtain wall-like window device according to claim 1, wherein the outer frame unit comprises:

the outer frame element is vertically arranged, and the longitudinal inner frame unit and the transverse inner frame unit are arranged in the outer frame element;

the first connecting elements are arranged at the top and the bottom of the outer frame element and are detachably connected with the longitudinal inner frame unit and the locking unit respectively;

the second connecting elements are arranged on the side parts of the outer frame elements and are detachably connected with the transverse inner frame units and the locking units respectively;

the first installation elements are arranged at the front part of the outer frame element and are detachably connected with the glass unit and the installation unit respectively.

3. The curtain-wall window arrangement according to claim 1, wherein the longitudinal inner frame unit comprises:

the longitudinal elements are arranged in the outer frame unit at intervals along the horizontal direction, and each longitudinal element is respectively connected with the outer frame unit and the transverse inner frame unit;

the third connecting elements are arranged in the middle of the corresponding longitudinal element and are detachably connected with the transverse inner frame unit and the locking unit respectively;

the plurality of fourth connecting elements are arranged at the end parts of the corresponding longitudinal elements and are detachably connected with the outer frame unit and the locking unit respectively;

the second installation elements are arranged at the front parts of the corresponding longitudinal elements and are detachably connected with the glass units and the installation units respectively.

4. The curtain-like wall glazing of claim 1, wherein the transverse inner frame unit comprises:

a plurality of first transverse elements disposed between the outer frame unit and the longitudinal inner frame unit, a first end of each first transverse element being connected to the longitudinal inner frame unit, a second end of each first transverse element being connected to the outer frame unit;

A plurality of fifth connecting elements which are arranged at the first ends of the corresponding first transverse elements and are detachably connected with the longitudinal inner frame units and the locking units respectively;

the plurality of sixth connecting elements are arranged at the second ends of the corresponding first transverse elements and are detachably connected with the outer frame unit and the locking unit respectively;

at least one second transverse element arranged inside the longitudinal inner frame unit;

and the seventh connecting elements are arranged at the end parts of the second transverse elements and are detachably connected with the longitudinal inner frame unit and the locking unit respectively.

5. The curtain wall window arrangement according to claim 1, wherein the locking unit comprises:

a plurality of first locking elements detachably connected with the outer frame unit and the longitudinal inner frame unit respectively;

the second locking elements are detachably connected with the outer frame unit and the transverse inner frame unit respectively;

The plurality of third locking elements are detachably connected with the longitudinal inner frame unit and the transverse inner frame unit respectively;

and the fourth locking elements are detachably connected with the longitudinal inner frame unit and the transverse inner frame unit respectively.

6. The curtain-like wall glazing of claim 1, wherein the glass unit comprises:

the glass elements are arranged among the outer frame unit, the transverse inner frame unit and the longitudinal inner frame unit and are respectively connected with the outer frame unit, the transverse inner frame unit, the longitudinal inner frame unit and the mounting unit.

7. The curtain wall glazing of claim 6, wherein the glazing unit further comprises:

the buffer elements are arranged between the glass element and the outer frame unit, and between the glass element and the outer frame unit.

8. The curtain wall window arrangement according to claim 1, wherein the mounting unit comprises:

a plurality of third installation elements which are detachably connected with the glass unit and the outer frame unit respectively;

And the plurality of fourth mounting elements are detachably connected with the glass unit and the longitudinal inner frame unit respectively.

9. The curtain wall window arrangement of claim 8, wherein the mounting unit further comprises:

a plurality of first sealing elements, wherein the first sealing elements are arranged between the third mounting element and the outer frame unit;

and a plurality of second sealing elements disposed between the fourth mounting element and the longitudinal inner frame unit.

10. A curtain-like wall system, comprising:

a plurality of curtain-like wall window arrangements as claimed in any one of claims 1 to 9;

the reinforcing devices are arranged between two adjacent curtain-wall-like window devices and used for reinforcing the connection of the curtain-wall-like window devices.