CN219773301U - Unit assembled type outer protective building system - Google Patents

Abstract

The utility model provides a unit-assembled type outer protective building system, which relates to the field of outer protective building systems, and adopts the following scheme: including the stand, be provided with two at least groups entablature and entablature on the stand, the entablature includes location portion and connecting portion one, the entablature includes connecting portion two and connecting portion three, connecting portion one connecting portion two with connecting portion three all with the stand can dismantle the connection, location portion is C type structure, location portion can be encircled connecting portion two, detachably is provided with the water catch bowl in the location portion, detachably is provided with the location lock pin on the water catch bowl, the one end of location lock pin can stretch into in the slot on connecting portion two, the location lock pin can be followed the slot removes. The utility model can realize the positioning of the upper beam and the lower beam in the left-right direction, simultaneously realize quick installation, improve the generation speed, and have good indoor impression effect and good structural stress performance.

Description

Unit assembled type outer protective building system

Technical Field

The utility model relates to the field of peripheral building, in particular to a unit-assembled peripheral building system.

Background

The demand of human beings on the building is that a space for shielding wind, rain, sun and cold is needed, the space is firstly surrounded by a peripheral building system, namely a roof and a wall body, the foundation and the main structure both provide support for the peripheral building system, the peripheral building system is provided, and an assembled peripheral building system becomes a necessary trend in the development of building products, because the exterior wall construction technology has extremely high advantage performance compared with the traditional exterior wall construction technology, on the basis of helping building enterprises to further improve the overall performance of the exterior wall of the building, the cost investment of the whole exterior wall construction stage can be further reduced, and the assembled peripheral building system is a construction technology with higher functionality and economy for high-rise buildings; the unit-assembled type outer protective building system is used as an important branch in the assembled type outer protective building system, and the construction technology is more flexible and convenient and is widely applied.

The unit-assembled type outer protection building system is an outer wall enclosure of a building, is not load-bearing, is hung like a curtain, is also called a curtain wall, is a light wall body with a decorative effect commonly used in modern large-scale and high-rise buildings, is constructed by firstly installing an upright post, an upper cross beam and a lower cross beam on a building structural beam, then installing a plurality of peripheral panels on the upright post, the upper cross beam and the lower cross beam through connecting pieces, and is spliced into the unit-assembled type outer protection building system.

In the prior art, the problem of inaccurate positioning often occurs between an upper beam and a lower beam in the installation process, and the assembly construction of the unit assembly type peripheral protection building system is affected.

Disclosure of Invention

In order to solve the problem of inaccurate positioning of the upper beam and the lower beam in the prior art, the utility model provides the unit assembly type outer protective building system which can realize accurate positioning of the upper beam and the lower beam, is convenient to install, improves the generation speed, has good indoor impression effect and has good structural stress performance.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a unit assembled type peripheral protection building system, includes the stand, be provided with two at least groups entablature and entablature on the stand, the entablature is located the below of entablature, the entablature is connected with first peripheral panel, the entablature is connected with second peripheral panel, the entablature includes location portion and connecting portion one, the entablature includes connecting portion two and connecting portion three, connecting portion one connecting portion two with connecting portion three all with the stand detachably connects, the location portion is the cell type structure, the location portion can surround connecting portion two, detachably is provided with the water catch bowl in the location portion, detachably is provided with the location lock pin on the water catch bowl, connecting portion two bottom surfaces are equipped with along length direction's slot, the upper end of location lock pin inserts in the slot, the location lock pin can be followed slot length direction removes. The upper beam and the lower beam can be positioned through the positioning part and the positioning lock pin, so that the installation is prevented from being influenced by offset, the quick installation can be realized, the generation speed is improved, the indoor impression effect is good, and the structure stress performance is good.

Furthermore, a first sealing rubber strip is arranged between the inner side groove wall of the positioning part and the second connecting part and between the outer side groove wall of the positioning part and the third connecting part. The first sealing rubber strip can realize the tight connection between the positioning part and the first connecting part, so as to play a role in water resistance.

Further, the outside of connecting portion one is provided with mounting groove one, mounting groove one is C type structure, detachably is provided with in the mounting groove one attaches the frame, it is glued with first peripheral panel inboard to attach the frame, the outside of connecting portion three is provided with mounting groove two, mounting groove two is C type structure, detachably is provided with the support frame in the mounting groove two, the support frame is L type structure, the support frame includes installation department and carrier part, installation department one side with installation groove two can dismantle the connection, the opposite side of installation department is glued with another second peripheral panel inboard, the carrier part bearing the second peripheral panel. Through attaching frame and holding in the palm the demountable installation of frame and connecting portion one, connecting portion three, can make attach frame, hold in the palm frame and corresponding peripheral panel and accomplish the equipment at standardized factory, safe and reliable only with entablature and entablature's installation can at the job site, shorten on-the-spot installation operation duration, can ensure the quality, again can low carbon production.

Further, the upper beam is detachably provided with a safety pin, the safety pin extends to the outer sides of the first peripheral panel and the second peripheral panel, the extending end of the safety pin is detachably provided with a limiting ring, and the limiting ring can be used for limiting a fire rope, a window cleaning machine safety rope or a hanging basket safety rope. The safety pin and the limiting ring are arranged to provide connection for high-rise building fire rescue and high-altitude operation, so that the safety of rescue and operation is ensured.

Further, two protection frames are symmetrically arranged on the outer side of the upright post, the protection frames are perpendicular to the outer side face of the upright post, a buckle cover is further arranged on the outer side of the protection frames, the first peripheral panel and the second peripheral panel are both located between the outer side end face of the upright post and the corresponding buckle cover, and cushion blocks are tightly pressed between the side end faces of the first peripheral panel and the second peripheral panel and the corresponding protection frames. Outdoor disassembly and installation positioning can be realized through the cushion blocks and the protective frames, and meanwhile, the safety effect can be achieved, and the corresponding peripheral protective panel is prevented from moving left and right.

Further, two energy-saving strips are arranged between the two protection frames, the two energy-saving strips are connected in a sealing mode through water blocking strips, the outer ends of the energy-saving strips are detachably connected with the corresponding buckle covers, and outdoor adhesive tapes are arranged between the first peripheral panel and the second peripheral panel and the corresponding buckle covers. The energy-saving strip is used for isolating the thermal heat transfer paths inside and outside, so that the whole low-carbon energy saving of the building is facilitated.

Further, energy-saving air-closing sponge is filled between the second connecting part and the third connecting part, between the positioning part and the second connecting part and between the two energy-saving strips. Is favorable for isolating the thermal heat transfer paths inside and outside and further realizes the overall low-carbon energy conservation of the building.

From the above technical scheme, the utility model has the following advantages:

the scheme provides a unit-assembled type peripheral building protection system, the positioning of an upper cross beam and a lower cross beam can be realized through a positioning part and a positioning insert core, the installation is prevented from being influenced by offset, the quick installation can be realized, the generation speed is improved, the indoor impression effect is good, and the structural stress performance is good; the first sealing adhesive tape can realize the tight connection between the positioning part and the second connecting part, thereby playing a role in water resistance; the auxiliary frame, the support frame and the corresponding peripheral panels can be assembled with the auxiliary frame, the support frame and the corresponding peripheral panels in a standardized factory through the detachable installation of the auxiliary frame, the support frame, the first connecting part and the third connecting part, so that the auxiliary frame, the support frame and the corresponding peripheral panels are safe and reliable, only the upper cross beam and the lower cross beam can be installed on a construction site, the on-site installation operation time is shortened, the quality is ensured, and the low-carbon production is realized; the safety pin and the limiting ring are arranged to provide connection for high-rise building fire rescue and high-altitude operation, so that the safety of rescue and operation is ensured; the peripheral guard board can be prevented from moving left and right by the cushion blocks and the guard frames; the energy-saving strip and the energy-saving closed air sponge can isolate the inner and outer thermal heat transfer paths, and are beneficial to realizing the overall low-carbon energy conservation of the building.

Drawings

In order to more clearly illustrate the technical solutions of the present utility model, the drawings that are needed in the description will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a specific embodiment of the present utility model.

Fig. 2 is a schematic structural diagram of a second embodiment of the present utility model.

In the figure, 1, a stand column, 2, a screw, 3, a lower beam, 301, a third connecting part, 302, a second connecting part, 303, a second mounting groove, 4, an upper beam, 401, a positioning part, 402, a first connecting part, 403, a first mounting groove, 5, a water collecting groove, 6, a positioning lock pin, 7, a self-tapping screw, 8, a buckle closure, 9, an outdoor adhesive tape, 10-2, a first peripheral panel, 10-1, a second peripheral panel, 11, a support frame, 12, a transverse water blocking strip, 13, a silicone weather-proof sealant, 14, an auxiliary frame, 15, an indoor adhesive tape, 16, a cushion block, 17, an energy-saving air-closing sponge, 18, an energy-saving strip, 19, a protective frame, 20, a safety pin, 21 and a limiting ring.

Detailed Description

In order to make the objects, features and advantages of the present utility model more obvious and understandable, the technical solutions of the present utility model will be clearly and completely described below with reference to the drawings in this specific embodiment, and it is apparent that the embodiments described below are only some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, based on the embodiments in this patent, which would be within the purview of one of ordinary skill in the art without the particular effort to make the utility model are intended to be within the scope of the patent protection.

As shown in fig. 1 to 2, the present embodiment provides a unit-assembled type outer protective building system, which comprises a column 1, an upper beam 4, a lower beam 3 and a peripheral panel, wherein a plurality of groups of upper beams 4 and lower beams 3 are arranged on the column 1; the upper cross beam 4 is used for connecting and installing the upper end of the first peripheral panel 10-2, the lower cross beam 3 is used for connecting and installing the lower end of the second peripheral panel 10-1, the second peripheral panel 10-1 is positioned above the first peripheral panel 10-2, the upper cross beam 4 in the group and the lower cross beam 3 in the group below the upper cross beam 4 are provided with the same peripheral panel, and the lower cross beam 3 in the group and the upper cross beam 4 in the group above the lower cross beam 3 are provided with the same peripheral panel; the upper beam 4 comprises a positioning part 401 and a connecting part I402, the lower beam 3 comprises a connecting part II 302 and a connecting part III 301, the connecting part I402, the connecting part II 302 and the connecting part III 301 are all detachably connected with the upright 1 through screws 2, the positioning part 401 is of a groove structure, the positioning part 401 can surround the connecting part II 302, sealing strips I are arranged between the inner side groove wall of the positioning part 401 and the connecting part II 302 and between the outer side groove wall of the positioning part 401 and the connecting part III 301, a water collecting groove 5 is detachably arranged in the positioning part 401, a groove is formed in the water collecting groove 5, a positioning insert 6 is detachably arranged in the groove through a tapping screw 7, one end of the positioning insert 6 can extend into a groove on the bottom surface of the connecting part II 302 during installation, the groove is arranged along the length direction of the connecting part II, the positioning insert 6 can move along the groove, and the upper beam 4 and the lower beam 3 can be prevented from moving along the length direction of the vertical groove through the matching of the positioning insert 6 and the groove; can play spacing effect to lower beam 3 under the effect of location portion 401, joint strip one and location lock pin 6, avoid adopting a large amount of threaded connection between entablature 4 and the lower beam 3 simultaneously, promote the assembly efficiency of entablature 4 and lower beam 3, simultaneously, indoor impression is effectual, has good structure atress performance.

As shown in fig. 1, in order to improve the site assembly efficiency and shorten the overhead working time, a first mounting groove 403 is formed on one side of a first connecting part 402, the first mounting groove 403 is in a C-shaped structure, an auxiliary frame 14 is detachably arranged in the first mounting groove 403, the auxiliary frame 14 is glued with the inner side of a first peripheral panel 10-2, a second mounting groove 303 is formed on one side of a third connecting part 301, the second mounting groove 303 is in a C-shaped structure, a supporting frame 11 is detachably arranged in the second mounting groove 303, the supporting frame 11 is in an L-shaped structure, the supporting frame 11 comprises a mounting part and a bearing part, one side of the mounting part is detachably connected with the mounting groove, the other side of the mounting part is glued with the inner side of a second peripheral panel 10-1, and the bearing part supports the second peripheral panel 10-1; two protection frames 19 are symmetrically arranged on the outer side of the upright post 1, the protection frames 19 are perpendicular to the outer side surface of the upright post 1, a buckle cover 8 is further arranged on the outer side of the protection frames 19, the first peripheral panel 10-2 and the second peripheral panel 10-1 are positioned between the outer side end surface of the upright post 1 and the corresponding buckle cover 8, cushion blocks 16 are tightly pressed between the side end surfaces of the first peripheral panel 10-2 and the second peripheral panel 10-1 and the corresponding protection frames 19, and the positioning of the peripheral panels in the left-right direction is realized and the movement of the peripheral panels is prevented; through the structure, the supporting frame 11, the auxiliary frame 14 and the peripheral panel 10 can be glued and assembled in a standardized factory, and after the supporting frame is transported to a construction site, the auxiliary frame 14, the supporting frame 11, the upper cross beam 4 and the lower cross beam 3 can be directly installed, so that the curing time of the panel gluing on the site is saved, the quality can be ensured, and the production with low carbon can be realized.

As shown in fig. 1, a safety pin 20 is detachably mounted on the upper beam 4, the safety pin 20 extends to the outer sides of the first peripheral panel 10-2 and the second peripheral panel 10-1, a limiting ring 21 is detachably arranged at the extending end of the safety pin 20, and the limiting ring 21 can be used for limiting a fire rope, a window cleaning machine safety rope or a hanging basket safety rope; under normal conditions, the limiting ring 21 is detached and stored, when rescue and high-altitude operation are needed, the limiting type is installed with the safety pin 20, a corresponding fire rope or safety rope penetrates into the limiting ring 21, the rope does not shake any more through the limiting ring 21, and the safety of rescue and high-altitude operation is improved.

As shown in fig. 2, in order to isolate the thermal heat transfer paths inside and outside the room and achieve the goal of overall low-carbon energy saving of the building, two energy-saving bars 18 are arranged between two protective frames 19, the two energy-saving bars 18 are in sealing connection through water bars, the water bars comprise transverse water bars 12 and longitudinal water bars, the outer ends of the energy-saving bars 18 are detachably connected with corresponding buckle covers 8, outdoor adhesive tapes 9 are arranged between the first peripheral panel 10-2 and the second peripheral panel 10-1 and the corresponding buckle covers 8, and energy-saving closed air sponges 17 are filled between a connecting part II 302 and a connecting part III 301, between a positioning part 401 and the connecting part II 302 and between the two energy-saving bars 18; the peripheral panel 10 employs a high performance energy saving panel.

In the specific embodiment, an indoor adhesive tape 15 is arranged between the upper beam 4 and the inner side of the first peripheral panel 10-2, and between the lower beam 3 and the inner side of the second peripheral panel 10-1, the first sealing adhesive tape, the outdoor adhesive tape 9 and the indoor adhesive tape 15 are made of ethylene propylene diene monomer adhesive tape, and the first peripheral panel 10-2 is glued with the auxiliary frame 14, and the second peripheral panel 10-1 and the supporting frame 11 are glued by using silicone weather-proof sealing adhesive tape 13, so that the waterproof function is realized, and the hard touch contact between the peripheral panel 10 and a metal surface is avoided; the first sealing rubber strip, the outdoor rubber strip 9, the indoor rubber strip 15, the silicone weather-proof sealing rubber 13 and the energy-saving air-closing sponge 17 are all arranged in a through length mode.

In the specific embodiment, the inner side and the outer side refer to the inner side and the outer side of the building wall surface; the lower cross beam 3 is located above the upper cross beams 4 in the same group, the upper cross beams 4 and the lower cross beams 3 are just names, and the definition of the vertical direction still takes the actual upper and lower directions of the peripheral panels as references.

From the above detailed description, it can be seen that the present utility model has the following advantages:

1. the positioning of the upper beam 4 and the lower beam 3 can be realized through the positioning part 401 and the positioning insert core 6, the installation is prevented from being influenced by offset, the rapid installation can be realized, the generation speed is improved, the indoor impression effect is good, and the structure stress performance is good;

2. the first sealing adhesive tape can realize the tight connection between the positioning part 401 and the second connecting part 302, thereby playing a role in water resistance;

3. the auxiliary frame 14, the support frame 11 and the corresponding peripheral panels can be assembled in a standardized factory through the detachable installation of the auxiliary frame 14, the support frame 11, the first connecting part 402 and the third connecting part 302, so that the assembly is safe and reliable, only the upper beam 4 and the lower beam 3 are installed in a construction site, the field installation operation time is shortened, the quality can be ensured, and the low-carbon production can be realized;

4. the safety pin 20 and the limiting ring 21 are arranged to provide connection for high-rise building fire rescue and high-altitude operation, so that the safe operation of rescue and operation is ensured;

5. the peripheral guard panel can be prevented from moving left and right by the cushion block 16 and the guard frame 19;

6. the energy-saving strip 18 and the energy-saving closed air sponge 17 can isolate the inner and outer thermal heat transfer paths, and are beneficial to realizing the overall low-carbon energy conservation of the building.

The terms "upper," "lower," "outboard," "inboard," and the like in the description and in the claims of the utility model and in the above figures, if any, are used for distinguishing between relative relationships in position and not necessarily for giving qualitative sense. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. The utility model provides a unit-assembled type peripheral building system, including stand (1), be provided with two at least groups entablature (4) and underbeam (3) on stand (1), entablature (4) are located the below of underbeam (3), entablature (4) are connected with first peripheral panel (10-2), underbeam (3) are connected with second peripheral panel (10-1), a serial communication port, entablature (4) include location portion (401) and connecting portion one (402), underbeam (3) include connecting portion two (302) and connecting portion three (301), connecting portion one (402), connecting portion two (302) and connecting portion three (301) all are connected with stand (1) detachably, locating portion (401) are the groove structure, connecting portion two (302) can be encircleed to locating portion 401), detachably is provided with water catch bowl (5) in locating portion (401), detachably is provided with location lock pin (6) on second peripheral panel (10-1), connecting portion two (302) are equipped with the slot along the bottom surface of length direction, the upper end of location lock pin (6) inserts in the slot direction, can move along slot length direction (6).

2. The unit-assembled outer guard building system according to claim 1, wherein a first sealing rubber strip is arranged between the inner side groove wall of the positioning part (401) and the second connecting part (302) and between the outer side groove wall of the positioning part (401) and the third connecting part (301).

3. The unit-assembled type outer protective building system according to claim 1, wherein a first mounting groove (403) is formed in the outer side of the first connecting portion (402), the first mounting groove (403) is of a C-shaped structure, an auxiliary frame (14) is detachably arranged in the first mounting groove (403), the auxiliary frame (14) is glued with the inner side of the first outer peripheral panel (10-2), a second mounting groove (303) is formed in the outer side of the third connecting portion (301), the second mounting groove (303) is of a C-shaped structure, a supporting frame (11) is detachably arranged in the second mounting groove (303), the supporting frame (11) is of an L-shaped structure, the supporting frame (11) comprises a mounting portion and a bearing portion, one side of the mounting portion is detachably connected with the second mounting groove (303), the other side of the mounting portion is glued with the inner side of the second outer peripheral panel (10-1), and the bearing portion supports the second outer peripheral panel (10-1).

4. A unit-assembled outer guard building system according to claim 3, characterized in that the upper cross member (4) is detachably provided with a safety pin (20), the safety pin (20) extends to the outside of the first outer peripheral panel (10-2) and the second outer peripheral panel (10-1), and the extending end of the safety pin (20) is detachably provided with a limit ring (21).

5. A unit-assembled peripheral building system according to claim 3, wherein two protection frames (19) are symmetrically arranged on the outer side of the upright (1), the protection frames (19) are perpendicular to the outer side surface of the upright (1), the buckling covers (8) are further arranged on the outer sides of the protection frames (19), the first peripheral panel (10-2) and the second peripheral panel (10-1) are located between the outer side end surfaces of the upright (1) and the corresponding buckling covers (8), and cushion blocks (16) are tightly pressed between the side end surfaces of the first peripheral panel (10-2) and the second peripheral panel (10-1) and the corresponding protection frames (19).

6. The unit-assembled type outer protective building system according to claim 5, wherein two energy-saving strips (18) are arranged between two protective frames (19), the two energy-saving strips (18) are connected in a sealing manner through water retaining strips, the outer ends of the energy-saving strips (18) are detachably connected with corresponding buckle covers (8), and outdoor adhesive tapes (9) are arranged between the first outer peripheral panel (10-2) and the second outer peripheral panel (10-1) and the corresponding buckle covers (8).

7. The unit-assembled outer enclosure building system according to claim 6, wherein energy-saving air-closing sponge (17) is filled between the second connecting part (302) and the third connecting part (301), between the positioning part (401) and the second connecting part (302) and between the two energy-saving strips (18).