CN211647801U - Bridge-cut-off lifting sliding door - Google Patents

Abstract

The bridge-cut-off lifting sliding door comprises a square door frame and two square sliding doors, wherein each sliding door comprises a profile frame and a glass plate, each glass plate is installed in the profile frame, each profile frame and each door frame respectively comprise an inner profile, an outer profile and a heat insulation rubber strip, each heat insulation rubber strip is connected between the inner profile and the outer profile, first baffle plates are respectively formed on the outer side edges of the inner profile of each profile frame and the inner profile of each outer profile, fixing rubber strips are further installed on the opposite surfaces of the two first baffle plates, and the edge of each glass plate is installed between the two first baffle plates and fixed through the fixing rubber strips; a circle of groove which is externally wound on the section frame is formed in the middle of the section frame on the outer frame surface, sliding blocks are respectively formed at two ends of the groove in the bottom of the section frame, and the section frame is connected with the door frame in a sliding mode through the sliding blocks; and the inner frame surfaces of the inner section bar and the outer section bar of the door frame are respectively provided with an installation groove surrounding the inner frame.

Description

Bridge-cut-off lifting sliding door

Technical Field

The utility model belongs to the technical field of the bridge cut-off door and specifically relates to a bridge cut-off promotes push-and-pull door is related to.

Background

The bridge cut-off door is separated through installing the door in indoor inlayer and outer metal, then combines the inside and outside metal level of part again through the slower plastic material of thermal conductivity or other materials to inside and outside metal partitioned effect has been played, and this effect can cut off the inside thermal conductivity of metal, because the thermal conductivity of metal is very fast, consequently can play thermal-insulated effect through the bridge cut-off door of separating the inlayer metal.

The existing push-pull type bridge-cut-off door is mostly arranged between the indoor and the balcony, and because the outdoor wind, rain and sun shine, the sealing of the joint of the glass and the bridge-cut-off frame can cause problems, the condition of water seepage occurs, and rainwater can leak indoors due to poor treatment; and the latch fitting of the existing bridge cut-off door is designed in the middle position of both sides of the door frame, and for some users who are most concise and monotonous, the latch fitting will influence the integral beauty, so that the position of the existing latch fitting is required to be further improved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough to overcome above-mentioned condition, aims at providing the technical scheme that can solve above-mentioned problem.

The bridge-cut-off lifting sliding door comprises a square door frame and two square sliding doors, wherein each sliding door comprises a profile frame and a glass plate, each glass plate is installed in the profile frame, each profile frame and each door frame respectively comprise an inner profile, an outer profile and a heat insulation rubber strip, each heat insulation rubber strip is connected between the inner profile and the outer profile, first baffle plates are respectively formed on the outer side edges of the inner profile of each profile frame and the inner profile of each outer profile, fixing rubber strips are further installed on the opposite surfaces of the two first baffle plates, and the edge of each glass plate is installed between the two first baffle plates and fixed through the fixing rubber strips; a circle of groove which is externally wound on the section frame is formed in the middle of the section frame on the outer frame surface, sliding blocks are respectively formed at two ends of the groove in the bottom of the section frame, and the section frame is connected with the door frame in a sliding mode through the sliding blocks; the door frame is characterized in that mounting grooves surrounding an inner frame are formed in the inner frame surfaces of the inner section and the outer section of the door frame respectively, limiting section bars are further mounted on the mounting grooves, clamping positions are further formed on the limiting section bars, first sealing sections are further clamped on the limiting section bars at the bottom of the door frame and the top of the door frame respectively through the clamping positions, slide rail bars are formed on the first sealing sections at the bottom of the door frame, the two sliding doors are connected with the slide bars of the door frame in a sliding mode through sliding blocks respectively, gaps for clamping the sliding blocks are further reserved between the two ends of the slide bars and the positions of the two sides of the inner frame surface of the door frame, and the vertical projection surfaces of the gaps are located in the vertical projection surfaces of the limiting section bars on the two sides of; the door frame is characterized in that a water inlet is further formed in the mounting groove in the bottom of the outer section of the door frame and is communicated with the inside of the outer section of the door frame, a water outlet is further formed in the outer side wall of the bottom of the outer section of the door frame and is communicated with the inside of the outer section of the door frame, and a drainage cover is further mounted at the position of an external opening of the water outlet.

Further, it has second seal section bar to go up still respectively the joint through the screens on the spacing section bar on the interior section bar left side wall of door frame and on the outer section bar right side wall, it has the baffle section bar still respectively the joint through the screens on the spacing section bar on the interior section bar right side wall of door frame and on the outer section bar left side wall, the both sides of baffle section bar extend to respectively and correspond interior section bar or outer both sides edge of outer section bar, and still install sealed apron on the outer frame face of section bar frame and baffle section bar opposite face, sealed apron covers the recess of section bar frame corresponding face.

Furthermore, a second baffle plate is further arranged on the outer side wall of the inner section or the outer section of the door frame provided with the second sealing section, a first wool top is further arranged on the second baffle plate, and the first wool top is in sliding fit with the edge of the sliding door.

Furthermore, the sealing cover plates of the two sliding doors are also provided with buffer strips in the direction opposite to the sliding doors, and the two buffer strips are in a door closing state when being contacted with each other.

Furthermore, a first buffering rubber strip is further installed on the surface of the buffering lath, which is in contact with each other, and the buffering lath is combined in a buffering mode through the first buffering rubber strip.

Furthermore, a second wool top is further installed between the buffer strip and the corresponding sliding door, and the buffer strip is in sliding fit with the corresponding sliding door through the second wool top.

Furthermore, third wool tops are further mounted on two sides of the groove respectively, and the third wool tops are in sliding fit with two sides of the limiting section bar.

Furthermore, second buffer rubber strips are respectively arranged on the outer frame surfaces of the section frame, which are positioned on two sides of the groove.

Compared with the prior art, the beneficial effects of the utility model are that:

after the door frame and the sliding door are installed, the sliding door is in a closed state by pushing the sliding door, and at the moment, a sliding block of the sliding door is separated from a sliding rail bar and enters a gap, so that the sliding door integrally falls down, and a clamping relation is formed between the sliding block of the sliding door and the sliding rail bar, so that a locking function is realized; the water inlet and the water outlet are formed in the bottom of the door frame, and drainage is carried out through the drainage cover, so that rainwater can enter the door frame through the water inlet after entering the door frame and then flows out of the water outlet, and the problem that rainwater permeates into the indoor space is solved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of the transverse cross-section structure of the present invention.

Fig. 3 is a schematic longitudinal cross-sectional structure of the present invention.

Fig. 4 is an enlarged schematic view of a portion a in fig. 2 according to the present invention.

Fig. 5 is an enlarged schematic view of the structure of fig. 2B according to the present invention.

Fig. 6 is an enlarged schematic view of the structure of fig. 3C according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 6, in the embodiment of the present invention, a bridge-cut-off lifting sliding door 2 includes a square door frame 10 and two square sliding doors 2, where the sliding door 2 includes a profile frame 20 and a glass plate 1, the glass plate 1 is installed in the profile frame 20, the profile frame 20 and the door frame 10 respectively include an inner profile, an outer profile and a heat insulation adhesive tape 3, the heat insulation adhesive tape 3 is connected between the inner profile and the outer profile, first baffles 21 are respectively formed on outer side edges of inner surfaces of the inner profile and the outer profile of the profile frame 20, fixing adhesive tapes 22 are further installed on opposite surfaces of the two first baffles 21, and an edge of the glass plate 1 is installed between the two first baffles 21 and is fixed by the fixing adhesive tapes 22; a circle of groove 23 which surrounds the section frame 20 is formed in the middle of the section frame 20 on the outer frame surface, sliding blocks 24 are further formed at two ends of the groove 23 in the bottom of the section frame 20 respectively, and the section frame 20 is connected with the door frame 10 in a sliding mode through the sliding blocks 24; the door frame comprises a door frame 10, and is characterized in that mounting grooves 11 surrounding an inner frame are formed in the inner frame surfaces of an inner section and an outer section of the door frame 10 respectively, limiting section bars 12 are further mounted on the mounting grooves 11, clamping positions 13 are further formed on the limiting section bars 12, first sealing sections 14 are further clamped on the limiting section bars 12 at the bottom of the door frame 10 and at the top of the door frame 10 respectively through the clamping positions 13, slide rail bars 15 are formed on the first sealing sections 14 at the bottom of the door frame 10, two sliding doors 2 are connected with slide bars of the door frame 10 in a sliding mode through slide blocks 24 respectively, gaps for clamping the slide blocks 24 are further left between the two ends of each slide bar and the two side positions of the inner frame surface of the door frame 10, and the vertical projection surfaces of the gaps are located in the vertical projection surfaces of the limiting section bars 12 at the; a water inlet 16 is further formed in the mounting groove 11 at the bottom of the outer section of the door frame 10, the water inlet 16 is communicated with the inside of the outer section of the door frame 10, a water outlet 17 is further formed in the outer side wall of the bottom of the outer section of the door frame 10, the water outlet 17 is communicated with the inside of the outer section of the door frame 10, and a drainage cover 18 is further mounted at the position of an opening outside the water outlet 17.

In this embodiment, after the door frame 10 and the sliding door 2 are installed, the sliding door 2 is pushed to make the sliding door 2 in a closed state, and at this time, the slider 24 of the sliding door 2 is separated from the sliding rail bar 15 and enters into the gap, so that the sliding door 2 integrally falls down, thereby causing the slider 24 of the sliding door 2 and the sliding rail bar 15 to form a clamping relationship, and realizing a locking function, and in the process of pushing the sliding door 2 to open next time, the sliding door 2 needs to be pushed upwards first, so that the slider 24 is separated from the gap and enters into the sliding rail bar 15 again, and realizing an unlocking function; and the bottom of the door frame 10 is provided with the water inlet 16 and the water outlet 17, and drainage is performed through the drainage cover 18, so that rainwater can enter the door frame 10 through the water inlet 16 and then flow out of the water outlet 17 after entering the door frame 10, and the problem that rainwater permeates into a room is solved.

Further as shown in fig. 4 and 5, the second seal section 31 is connected to the limiting section bar 12 on the inner section bar left side wall and the outer section bar right side wall of the door frame 10 through the clamping position 13, the baffle section bar 32 is connected to the limiting section bar 12 on the inner section bar right side wall and the outer section bar left side wall of the door frame 10 through the clamping position 13, two sides of the baffle section bar 32 extend to the inner side edge and the outer side edge of the corresponding inner section bar or outer section bar respectively, and the seal cover plate 25 is further installed on the outer frame surface of the opposite surface of the section bar frame 20 and the baffle section bar 32, and the seal cover plate 25 covers the groove 23 of the corresponding surface of the section bar frame 20.

In this embodiment, after the sliding door 2 is opened to the maximum extent, the sliding block 24 on the sliding door 2 cannot enter the gap of the door frame 10 through the baffle profile 32 and the sealing cover plate 25, so that the situation of locking the door is caused.

As further shown in fig. 4 and 5, a second baffle 33 is further installed on an outer side wall of the inner profile or the outer profile of the door frame 10, where the second seal profile 31 is installed, a first wool top 34 is further installed on the second baffle 33, and the first wool top 34 is in sliding fit with an edge of the sliding door 2; the in-process of realizing push-and-pull door 2 through first wool top 34 is more smooth and easy, prevents to produce the friction between door frame 10 and the push-and-pull door 2 and causes the damage.

As further shown in fig. 4 and 5, the sealing cover 25 of the two sliding doors 2 is further formed with a buffer strip 26 in a direction opposite to the sliding doors 2, and the two buffer strips 26 are in a closed state when contacting each other.

As further shown in fig. 4 and 5, a first cushion rubber strip 27 is further mounted on the mutually contacting surface of the cushion lath 26, and the cushion lath 26 is cushion-bonded by the first cushion rubber strip 27.

As further shown in fig. 4 and 5, a second wool top 28 is further installed at a position between the buffer strip 26 and the opposite sliding door 2, and the buffer strip 26 is slidably engaged with the opposite sliding door 2 through the second wool top 28.

In the above embodiment, the stability of opening and closing between the sliding door 2 and the sliding door 2 in the process of the sliding door 2 is improved through the buffer strip 26, the first buffer adhesive tape 27 is used for eliminating noise and damage caused by collision in the collision process of the buffer strip 26, and the second wool top 28 is used for preventing sliding friction between the buffer strip 26 and the relative sliding door 2.

As further shown in fig. 6, third wool tops 35 are further respectively mounted on two sides of the groove 23, and the third wool tops 35 are in sliding fit with two sides of the limiting section bar 12. The sliding fit degree between the sliding door 2 and the limiting section bar 12 is improved.

As further shown in fig. 6, second buffer rubber strips 36 are respectively installed on the outer frame surfaces of the profile frame 20 located at two sides of the groove 23, after the sliding block 24 of the sliding door 2 enters the gap, the sliding door 2 moves downwards to impact the door frame 10, and impact damage between the sliding door 2 and the door frame 10 can be buffered through the effect of the second buffer rubber strips 36.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (8)

1. The bridge-cut-off lifting sliding door comprises a square door frame and two square sliding doors, wherein each sliding door comprises a profile frame and a glass plate, each glass plate is installed in each profile frame, each profile frame and each door frame respectively comprise an inner profile, an outer profile and a heat insulation rubber strip, and each heat insulation rubber strip is connected between the inner profile and the outer profile; a circle of groove which is externally wound on the section frame is formed in the middle of the section frame on the outer frame surface, sliding blocks are respectively formed at two ends of the groove in the bottom of the section frame, and the section frame is connected with the door frame in a sliding mode through the sliding blocks; the door frame is characterized in that mounting grooves surrounding an inner frame are formed in the inner frame surfaces of the inner section and the outer section of the door frame respectively, limiting section bars are further mounted on the mounting grooves, clamping positions are further formed on the limiting section bars, first sealing sections are further clamped on the limiting section bars at the bottom of the door frame and the top of the door frame respectively through the clamping positions, slide rail bars are formed on the first sealing sections at the bottom of the door frame, the two sliding doors are connected with the slide bars of the door frame in a sliding mode through sliding blocks respectively, gaps for clamping the sliding blocks are further reserved between the two ends of the slide bars and the positions of the two sides of the inner frame surface of the door frame, and the vertical projection surfaces of the gaps are located in the vertical projection surfaces of the limiting section bars on the two sides of; the door frame is characterized in that a water inlet is further formed in the mounting groove in the bottom of the outer section of the door frame and is communicated with the inside of the outer section of the door frame, a water outlet is further formed in the outer side wall of the bottom of the outer section of the door frame and is communicated with the inside of the outer section of the door frame, and a drainage cover is further mounted at the position of an external opening of the water outlet.

2. The bridge-cut-off lifting sliding door according to claim 1, wherein second sealing profiles are further respectively clamped on the limiting profile strips on the left side wall of the inner profile and the right side wall of the outer profile of the door frame through clamping positions, baffle profiles are further respectively clamped on the limiting profile strips on the right side wall of the inner profile and the left side wall of the outer profile of the door frame through clamping positions, two sides of each baffle profile extend to the inner side edge and the outer side edge of the corresponding inner profile or the corresponding outer profile, sealing cover plates are further mounted on the outer frame surfaces of the opposite surfaces of the profile frame and the baffle profiles, and the sealing cover plates cover grooves of the corresponding surfaces of the profile frame.

3. The bridge-cut-off lifting sliding door according to claim 2, wherein a second baffle plate is further mounted on the outer side wall of the inner profile or the outer profile of the door frame, which is provided with the second sealing profile, a first wool top is further mounted on the second baffle plate, and the first wool top is in sliding fit with the edge of the sliding door.

4. The bridge-cut-off lifting sliding door according to claim 2, wherein the sealing cover plates of the two sliding doors are further formed with buffer strips in the direction opposite to the sliding doors, and the two buffer strips are in a door-closed state when being contacted with each other.

5. The bridge-cut-off lifting sliding door according to claim 4, wherein a first buffering rubber strip is further mounted on the surface of the buffering lath, which is in contact with each other, and the buffering laths are combined in a buffering mode through the first buffering rubber strip.

6. The bridge-cut lifting sliding door according to claim 4, wherein a second wool strip is further installed at a position between the buffer strip and the opposite sliding door, and the buffer strip is in sliding fit with the opposite sliding door through the second wool strip.

7. The bridge-cut-off lifting sliding door according to claim 1, wherein third wool tops are further mounted on two sides of the groove respectively, and the third wool tops are in sliding fit with two sides of the limiting section bar.

8. The bridge-cutoff lifting sliding door according to claim 1, wherein the outer frame surfaces of the profile frame on both sides of the groove are respectively provided with a second buffer rubber strip.

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