CN212559050U - Ultrathin glass door and multi-glass sliding door for elevator and elevator - Google Patents

Abstract

The utility model discloses an ultra-thin glass door and many glass sliding doors and elevator that the elevator was used, including door frame and the glass spare of cartridge in the door frame, be equipped with the dismouting mechanism that makes glass spare detachably cartridge in the door frame on the door frame, dismouting mechanism is used for the glass spare to pass the installation through-hole of installing in the door frame including setting up on the door frame, detachable setting is used for the shutoff piece of shutoff installation through-hole and detachable setting to be used for making the fastener A that the shutoff piece fixed on the door frame. The utility model discloses simplify the component part of the door body, reduced the thickness of the door body. When using on the elevator, under the whole thickness's of sedan-chair door and room door when the whole thickness of sedan-chair door and room door is no longer than using current lift-cabin door the whole thickness's of sedan-chair door and room door the condition, many sliding door structures can be realized to sedan-chair door and room door, the utility model overcomes current glass door elevator's door body component part is a great deal of to lead to a body thick partially, and room door and sedan-chair door can only adopt the structure of well dividing two doors, lead to whole sight on the low problem of level.

Description

Ultrathin glass door and multi-glass sliding door for elevator and elevator

[ technical field ] A method for producing a semiconductor device

The application relates to the field of elevator equipment, in particular to an ultrathin glass door, a multi-leaf glass sliding door and an elevator.

[ background of the invention ]

The door body of the existing glass door elevator consists of a support frame, glass arranged in the support frame and fixing pieces arranged on two sides of the support frame and used for clamping and fixing the glass. In order to reduce the overall thickness of the landing door and the car door of the elevator so as to ensure the space in the elevator car, the landing door and the car door only adopt a structure of dividing two doors, so that the overall ornamental level is low.

[ Utility model ] content

The utility model discloses door body component part to current glass door elevator leads to the door body problem thick partially to make the improvement, provides the ultra-thin glass door that the elevator was used, be in including door frame and cartridge glass spare in the door frame, be equipped with the messenger on the door frame glass spare detachably cartridge is in dismouting mechanism in the door frame, dismouting mechanism is including setting up be used for on the door frame glass spare passes to be installed installation through-hole, the liftoff setting in the door frame are used for the shutoff on the door frame the shutoff of installation through-hole and liftoff setting are in be used for making on the door frame the shutoff is fixed fastener A on the door frame.

As an improvement of the ultrathin glass door for the elevator, the blocking piece is provided with a fastening piece B for connecting the blocking piece and the glass piece.

As an improvement of the ultrathin glass door for the elevator, the door frame comprises an upper frame, a left frame, a lower frame and a right frame which are sequentially connected end to end, the lower frame is provided with the dismounting mechanism, and the upper frame is provided with the glass piece fastener C matched and fixed with the dismounting mechanism.

As an improvement of the ultrathin glass door for the elevator, a damping buffer piece is arranged between the glass piece and the door frame.

The utility model discloses door body component part to current glass door elevator leads to the door body problem thick on the part a lot of to make the improvement, provides the many leaf glass sliding doors that the elevator was used, including room door subassembly and sedan-chair door subassembly, room door subassembly includes the elevator door frame cover and locates the hall door sill groove of elevator door frame cover one side, hall door sill groove both sides are equipped with hall door step group, two respectively hall door step group is followed hall door sill groove opposite movement is close to closed or relative movement and keeps away from and opens, hall door step group includes a plurality of crisscross setting syntropy removal on the hall door sill groove ultra-thin glass door that the elevator was used.

As an improvement of the multi-glass sliding door for the elevator, the car door assembly comprises car door sill grooves, car door sliding door groups are arranged on two sides of each car door sill groove respectively and move in opposite directions to be close to a closed state or move in opposite directions to be away from the closed state or move in opposite directions to be opened, and the car door sliding door groups comprise a plurality of ultrathin glass doors which move in the same direction and are arranged on the car door sill grooves in a staggered mode.

As an improvement of the multi-glass sliding door for the elevator, the landing door sliding group and the car door sliding group move synchronously.

As an improvement of the multi-glass sliding door for the elevator, the elevator door frame sleeve comprises an upper door sleeve, a left door sleeve and a right door sleeve, the left door sleeve and the right door sleeve are arranged on two ends of the upper door sleeve, an upper supporting piece is arranged at one end, close to the upper door sleeve, of the left door sleeve and one end, far away from the upper door sleeve, of the right door sleeve, a wall connecting piece is arranged on the upper supporting piece, and a lower supporting piece is arranged at one end, away from the upper door sleeve, of the left door sleeve and one end, far away from.

The utility model discloses the door body component part to current glass door elevator is a great deal of to lead to the door body problem thick on the throne to make the improvement, provides the elevator, including the many glass sliding doors that foretell elevator was used.

Compared with the prior art, the utility model has the advantages of as follows:

the utility model provides an ultra-thin glass door that elevator was used, including door frame, cartridge glass spare in door frame and make glass spare detachably install the dismouting mechanism in door frame. The utility model discloses simplify the component part of the door body, reduced the thickness of the door body. Will the utility model discloses when using on the elevator, under the whole thickness's of sedan-chair door and room door when not exceeding the elevator door that uses current, many sliding door structures, for example 4 sliding doors, 6 sliding doors can be realized to sedan-chair door and room door. Therefore, the utility model overcomes the door body component part of current glass door elevator leads to the door body to be thick partially a lot, and room door and sedan-chair door can only adopt the structure of well dividing two doors, lead to whole low problem of vwatching the level.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below.

FIG. 1 is a schematic structural diagram of an ultrathin glass door for an elevator according to the present application;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken at B-B of FIG. 1;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is an enlarged view of a portion of FIG. 3 at B;

FIG. 6 is a perspective view of a hall door assembly of a multiple glass sliding door for an elevator according to the present application;

FIG. 7 is a front view of a hall door assembly of a multi-glass sliding door for an elevator according to the present application;

FIG. 8 is a cross-sectional view taken at C-C of FIG. 7;

FIG. 9 is a cross-sectional view taken at D-D of FIG. 7;

FIG. 10 is a front view of a door assembly of the multi-glass sliding door for an elevator of the present application;

figure 11 is a side view of a door assembly in a multiple glass sliding door for an elevator according to the present application.

[ detailed description ] embodiments

In order to make the technical problems, technical solutions and advantageous effects solved by the present application more clear and obvious, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The ultra-thin glass door for elevators, as shown in fig. 1 to 5, comprises a door frame 1 and a glass member 2 inserted into the door frame 1, the door frame 1 is provided with a mounting groove for inserting the glass piece 2, concretely, the door frame 1 comprises an upper frame 11, a left frame 12, a lower frame 13 and a right frame 14 which are connected end to end in sequence, the lower frame 13 is provided with a dismounting mechanism 3 which can detachably insert the glass element 2 into the door frame 1, the dismounting mechanism 3 comprises a mounting through hole 31 provided on the lower frame 13 for the glazing element 2 to pass through to be mounted in the door frame 1, and a blocking piece 32 detachably provided on the lower frame 13 for blocking the mounting through hole 31, and a fastener a33 detachably provided on the lower frame 13 for securing the block piece 32 to the lower frame 13. The ultra-thin glass door for the elevator further comprises a plurality of fasteners A33, and a plurality of fasteners A33 are arranged at intervals along the width direction of the ultra-thin glass door for the elevator. Specifically, the fastener A33 is a stainless steel cross-recessed countersunk head screw. To sum up, the utility model discloses simplify the component part of the door body, reduced the thickness of the door body. Will the utility model discloses when using on the elevator, under the whole thickness's of sedan-chair door and room door when not exceeding the elevator door that uses current, many sliding door structures, for example 4 sliding doors, 6 sliding doors can be realized to sedan-chair door and room door. The utility model overcomes the door body component part of current glass door elevator leads to the door body thick partially a lot of, and room door and sedan-chair door can only adopt the structure of well dividing two doors, lead to whole low problem of vwatching the level.

For example, the thickness of the existing glass door body is 40-50mm, and when the existing glass door is adopted to realize a structure of a middle-opening two-leaf door body, the total thickness of the car door, the hall door and the light curtain is 120 mm; and the utility model discloses the door body thickness degradable of the ultra-thin glass door that the elevator was used is 16.5mm, adopts the utility model discloses when the ultra-thin glass door that the elevator was used realizes four sliding door structures, the gross thickness behind sedan-chair door + room door + the light curtain is 100 mm. Under the condition of not increasing the overall thickness of the car door and the hall door, the number of door bodies is increased, the overall ornamental level is improved, and the requirements of various consumers are met.

Further, a fastener B4 for connecting the blocking piece 32 and the glass piece 2 is arranged on the blocking piece 32. Specifically, the fastener B4 is a stainless steel cross-head screw. The structure can further improve the stability of the glass piece 2 inserted in the door frame 1 and avoid the shaking caused by the gap between the glass piece 2 and the door frame 1.

Furthermore, a fastener C5 matched with the dismounting mechanism 3 for fixing the glass piece 2 is arranged on the upper frame 11. Specifically, the ultra-thin glass door comprises a plurality of fasteners C5, and a plurality of fasteners C5 are distributed at intervals along the width direction of the ultra-thin glass door for the elevator. The fastener C5 is a stainless steel hexagon socket head cap screw. The structure can further improve the stability of the glass piece 2 inserted in the door frame 1 and avoid the shaking caused by the gap between the glass piece 2 and the door frame 1.

Further, a shock absorbing and buffering member 6 is arranged between the glass member 2 and the door frame 1. As can be seen from the figure, a top backing plate is arranged between the glass element 2 and the upper frame 11, the shock-absorbing buffering element 6 is arranged between the glass element 2 and the top backing plate, and the shock-absorbing buffering element 6 is arranged between the glass element 2 and the left frame 12, between the right frame 14 and between the blocking elements 32. Specifically, the shock absorbing and buffering member 6 is a rubber strip and a glass filler. The structure can further improve the stability of the glass piece 2 inserted in the door frame 1 and avoid the shaking caused by the gap between the glass piece 2 and the door frame 1.

The multi-glass sliding door for an elevator as shown in fig. 6-11 includes a hall door assembly 7 and a car door assembly 8. Specifically, the hall door assembly 7 comprises an elevator door frame sleeve 71 and a hall door sill groove 72 arranged on one side of the elevator door frame sleeve 71, wherein hall door groups 73 are respectively arranged on two sides of the hall door sill groove 72, the two hall door groups 73 move oppositely along the hall door sill groove 72 to be close to the closed state or move relatively to be away from the open state, and the hall door groups 73 comprise a plurality of ultrathin glass doors for the elevator, which are arranged on the hall door sill groove 72 in a staggered manner and move in the same direction. Specifically, the hall door group 73 includes two ultrathin glass doors for the elevator, and one end of the blocking piece 32 extending to the outside of the lower frame 13 is inserted into the hall door sill groove 72. Specifically, the car door assembly 8 comprises a car door sill groove 81, car door sliding groups 82 are respectively arranged on two sides of the car door sill groove 81, the car door sliding groups 82 move oppositely along the car door sill groove 81 to be close to a closed state or move oppositely to be away from an open state, and the car door sliding groups 82 comprise a plurality of ultrathin glass doors which are arranged on the car door sill groove 81 in a staggered mode and move in the same direction and are used for the elevator. Specifically, the car door sliding group 82 includes two ultrathin glass doors for the elevator, and one end of the blocking piece 32 extending to the outside of the lower frame 13 is inserted into the car door sill groove 81. The landing door set 73 and the car door set 82 move synchronously. In conclusion, the multi-glass sliding door for the elevator overcomes the defect that the existing glass elevator door only adopts a structure of dividing two doors, greatly improves the ornamental value, adapts to more building home styles and is wider in use.

Specifically, the elevator door frame 71 includes an upper door pocket 711, and a left door pocket 712 and a right door pocket 713 disposed on two ends of the upper door pocket 711, wherein an upper support 714 is disposed at one end of the left door pocket 712 and the right door pocket 713 close to the upper door pocket 711, a wall connector 715 is disposed on the upper support 714, and a lower support 716 is disposed at one end of the left door pocket 712 and the right door pocket 713 far away from the upper door pocket 711. The upper support member 714, the wall connecting member 715 and the lower support member 716 are metal plate members, and the elevator door frame 71 is welded and fixed to a building through the upper support member 714, the wall connecting member 715 and the lower support member 716. The structure is simple and the implementation is convenient.

The elevator comprising the multi-glass sliding door for the elevator comprises a car, wherein the car door assembly 8 is arranged on the car, and the hall door assembly 7 is arranged on a building. And the car door assembly 8 and the hall door assembly 7 synchronously move to realize the opening and closing of the elevator door.

It should be understood that the terms "first", "second", etc. are used herein to describe various information, but the information should not be limited to these terms, and these terms are only used to distinguish one type of information from another. For example, "first" information may also be referred to as "second" information, and similarly, "second" information may also be referred to as "first" information, without departing from the scope of the present application. Furthermore, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not intended to limit the disclosure to the particular forms disclosed. Similar or identical methods, structures, etc. as used herein, or several technical inferences or substitutions made on the concept of the present application should be considered as the scope of the present application.

Claims (10)

1. Ultra-thin glass door that elevator was used, characterized by, be in including door frame (1) and cartridge glass spare (2) in door frame (1), be equipped with on door frame (1) and make glass spare (2) detachably cartridge is in dismouting mechanism (3) in door frame (1), dismouting mechanism (3) are including setting up be used for on door frame (1) glass spare (2) pass install installation through-hole (31) in door frame (1), detachable setting is in be used for the shutoff on door frame (1) shutoff piece (32) and detachable setting of installation through-hole (31) are used for on door frame (1) make shutoff piece (32) fix fastener A (33) on door frame (1).

2. Ultra thin glass door for elevator according to claim 1, characterized in that the blocking piece (32) is provided with a fastening B (4) for connecting the blocking piece (32) and the glass piece (2).

3. Ultra-thin glass door for elevator according to claim 1, characterized in that the door frame (1) comprises an upper frame (11), a left frame (12), a lower frame (13) and a right frame (14) which are connected end to end in sequence, the lower frame (13) is provided with the dismounting mechanism (3), the upper frame (11) is provided with a fastener C (5) which is matched with the dismounting mechanism (3) to fix the glass piece (2).

4. Ultra thin glass door for elevators according to claim 1, characterized in that a shock absorbing bumper (6) is provided between the glass element (2) and the door frame (1).

5. Multiple glass sliding door for elevators, characterized in that it comprises an ultra-thin glass door for elevators according to any of claims 1-4.

6. The multi-glass sliding door for the elevator according to claim 5, characterized by comprising a hall door assembly (7) and a car door assembly (8), wherein the hall door assembly (7) comprises an elevator door frame sleeve (71) and a hall door sill groove (72) arranged on one side of the elevator door frame sleeve (71), both sides of the hall door sill groove (72) are respectively provided with a hall door group (73), the two hall door groups (73) move towards each other along the hall door sill groove (72) to be close or away from each other to be open, and the hall door group (73) comprises a plurality of ultrathin glass doors which are arranged on the hall door sill groove (72) in a staggered mode and move in the same direction for the elevator.

7. The multi-glass sliding door for the elevator as claimed in claim 6, wherein the door assembly (8) comprises a door sill groove (81), door groups (82) are respectively arranged on two sides of the door sill groove (81), the two door groups (82) move towards each other along the door sill groove (81) to be close to the closed state or move away from the open state, and the door groups (82) comprise a plurality of ultrathin glass doors which are arranged on the door sill groove (81) in a staggered mode and move in the same direction and are used for the elevator.

8. The multi-glass sliding door for an elevator according to claim 7, wherein the landing door set (73) moves in synchronization with the car door set (82).

9. The multi-glass sliding door for the elevator according to claim 6, wherein the elevator door frame sleeve (71) comprises an upper door sleeve (711) and a left door sleeve (712) and a right door sleeve (713) which are arranged at two ends of the upper door sleeve (711), an upper supporting piece (714) is arranged at one end, close to the upper door sleeve (711), of the left door sleeve (712) and the right door sleeve (713), a wall connecting piece (715) is arranged on the upper supporting piece (714), and a lower supporting piece (716) is arranged at one end, far away from the upper door sleeve (711), of the left door sleeve (712) and the right door sleeve (713).

10. Elevator, characterized in that it comprises a multiple glass door for an elevator according to any of claims 5-9.

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