CN214145217U - Suspension sliding door - Google Patents

Abstract

The utility model discloses a suspension sliding door, including last decorative cover, glass sliding door, limit piece, guide way pole, back timber and damping roller components, be equipped with two sets of gyro wheel grooves and guide rail in the decorative cover of going up, glass sliding door and gyro wheel groove rolling connection, glass sliding door and guide rail sliding connection, glass sliding door's glass upper end both sides are equipped with notch one and notch two, the limit piece is detained on notch one and notch two, the guide way pole both ends respectively with the limit piece fastening connection, the back timber both ends respectively with the limit piece fastening connection, be equipped with the elongated slot on the back timber, damping roller components passes through locating piece and elongated slot fastening connection, guarantee that glass sliding door receives big wind-blowing, still stable, the disturbance can not appear; the bearing stability of the upper end of the glass sliding door is ensured; the vibration reduction effect when the sliding door is opened and closed is ensured; avoid the damping roller subassembly to crash.

Description

Suspension sliding door

Technical Field

The utility model belongs to the technical field of move the door, specifically speaking, the utility model relates to a suspend in midair and move door.

Background

The existing movable opening-closing type door and window guide rails are mainly divided into floor type guide rails and suspension type guide rails, and rail grooves of the floor type guide rails are directly paved on ceramic tiles or wood floors, so that dust or sundries are easily clamped in the rail grooves, the cleaning is not easy, and the indoor cleaning is also hindered. The suspension type guide rail sets up the track groove in the door frame upper end, has successfully avoided the drawback of console mode guide rail.

The suspension guide glass sliding door has the following defects:

1. because the lower end of the glass sliding door is suspended, the weight of the whole glass sliding door needs to be firmly held by the upper end, and if the upper end is unstable, the glass sliding door can be disturbed when being blown by wind.

2. The glass upper end trompil that traditional glass moved the door for fixed slip subassembly, glass moves the slip striking of door, transmits glass for impact easily, leads to the glass damaged.

3. Glass moves the door and at the slip in-process, and glass moves the edge of door and collides with the frame easily, and present solution sets up damping rubber pad or installs limit buckle on the frame corner at glass moves the edge of door. Because damping rubber pad or stop collar are often exposed to the sun or the weathering, and the sclerosis of ageing easily, the damping effect is poor, still can't avoid glass to move the sliding impact of door and transmit for glass completely.

SUMMERY OF THE UTILITY MODEL

The utility model provides a suspend in midair and move door to solve the problem that exists among the above-mentioned background art.

In order to realize the purpose, the utility model discloses the technical scheme who takes does: the utility model provides a hang in midair and move door, includes decorative cover, glass moves door, limit piece, guide way pole, back timber and damping roller components, be equipped with two sets of gyro wheel grooves and guide rail in the decorative cover of going up, glass moves door and gyro wheel groove rolling connection, glass moves door and guide rail sliding connection, the glass upper end both sides of moving the door are equipped with notch one and notch two, the limit piece is detained on notch one and notch two, guide way pole both ends respectively with the limit piece fastening connection, the back timber both ends respectively with limit piece fastening connection, be equipped with the elongated slot on the back timber, damping roller components passes through locating piece and elongated slot fastening connection.

Preferably, the edge block is provided with a first supporting block and a second supporting block, the first supporting block is inserted into the first notch, the second supporting block is inserted into the second notch, and the upper end of the first supporting block is provided with a supporting groove.

Preferably, the vibration reduction roller assembly comprises a U-shaped piece, a left connecting plate, a right connecting plate, two T-shaped plates, a movable plate, a pressure spring and an end plate, the lower end of the U-shaped piece is fixedly connected with the positioning block through bolts and tightly positions the positioning block in an elongated slot, T-shaped grooves are symmetrically arranged on two sides of the U-shaped piece, the left connecting plate is fixedly connected with the left side of the U-shaped piece, the right connecting plate is fixedly connected with the right side of the U-shaped piece, the two T-shaped plates are arranged, one end of each T-shaped plate is fixedly connected with the movable plate, the T-shaped plates are slidably connected with the T-shaped grooves, one end of the pressure spring is contacted with the bottom of a hole in the center of the left connecting plate, the other end of the pressure spring is contacted with the bottom of a hole in the center of the movable plate, the end plate is fixedly connected with the end parts of the two T-shaped plates, and a wheel shaft penetrates through the middle of the left connecting plate, the two ends of the wheel shaft are rotatably provided with rollers.

The beneficial effect of adopting above technical scheme is:

1. according to the suspended sliding door, two groups of roller grooves and guide rails are arranged in the upper decoration cover, the glass sliding door is in rolling connection with the roller grooves, and the guide groove rod on the glass sliding door is in sliding connection with the guide rails, so that the upper end of the glass sliding door is limited by the roller grooves and the guide rails, the glass sliding door is blown by strong wind and is still stable, and disturbance cannot occur.

2. The two sides of the upper end of the glass sliding door are provided with a first notch and a second notch, the edge blocks are buckled on the first notch and the second notch, the two ends of the guide groove rod are respectively and tightly connected with the edge blocks, the two ends of the top beam are respectively and tightly connected with the edge blocks, the edge blocks are provided with a first support block and a second support block, the first support block is inserted into the first notch, and the second support block is inserted into the second notch, so that the upper end of the glass sliding door is wrapped by the two edge blocks, the two guide groove rods and the top beam, and the bearing stability of the upper end of the glass sliding door is ensured; a bracket is arranged at the upper end of the supporting block, so that the edge block is prevented from moving in the glass thickness direction of the glass sliding door.

3. When the glass sliding door is in contact with the outer frame, the end face plate in the vibration reduction roller assembly is in contact with the outer frame, then under the inertia effect of the sliding door, the end face plate enables the T-shaped plate to slide inwards along the T-shaped groove, so that the moving plate further compresses the pressure spring, and the pressure spring plays a role in absorbing vibration, thereby avoiding arranging a vibration reduction rubber pad at the edge of the door or installing a limit buckle at the corner of the outer frame, avoiding the sliding impact force of the glass sliding door from being transmitted to the glass, and ensuring the vibration reduction effect when the glass sliding door is opened and closed; the lower end of the U-shaped piece is fixedly connected with the positioning block through a bolt, the positioning block is tightly positioned in the long groove, and when the force for pushing and pulling the glass sliding door is extremely large and exceeds the friction force between the positioning block and the long groove, the vibration reduction roller assembly can shift, so that the vibration reduction roller assembly is prevented from being damaged by collision.

Drawings

FIG. 1 is an assembly view of the suspended sliding door of the present invention;

FIG. 2 is a schematic view of the upper trim cover structure;

FIG. 3 is an assembly view of the glass-moving door, the edge block, the channel guide rod, the top beam and the damping roller assembly;

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

FIG. 5 is a schematic view of a glass sliding door;

FIG. 6 is a schematic diagram of an edge block structure;

FIG. 7 is a schematic view of a top beam construction;

FIG. 8 is a schematic view of a positioning block;

FIG. 9 is a top view of the damping roller assembly;

wherein:

1. an upper decorative cover; 2. a glass sliding door; 3. an edge block; 4. a guide groove rod; 5. a top beam; 6. a vibration reduction roller assembly;

10. a roller groove; 11. a guide rail;

20. a first notch; 21. a second notch;

30. a first supporting block; 30-1, a bracket; 31. a second supporting block;

50. a long groove; 51. positioning blocks;

60. a "U" shaped piece; 60-1 and a T-shaped groove; 61. a left connecting plate; 61-1, wheel axle; 61-2, rollers; 62. a right connecting plate; 63. a "T" shaped panel; 64. moving the plate; 65. a pressure spring; 66. an end panel.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings, for the purpose of helping those skilled in the art to understand more completely, accurately and deeply the conception and technical solution of the present invention, and to facilitate its implementation.

As shown in fig. 1 to 9, the present invention is a suspended sliding door, which ensures that the glass sliding door is still stable and does not generate disturbance when being blown by strong wind; the bearing stability of the upper end of the glass sliding door is ensured; the vibration reduction effect when the sliding door is opened and closed is ensured; avoid the damping roller subassembly to crash.

Specifically, as shown in fig. 1 to 9, the glass door comprises an upper decorative cover 1, a glass moving door 2, an edge block 3, a guide groove rod 4, a top beam 5 and a damping roller assembly 6, wherein two groups of roller grooves 10 and guide rails 11 are arranged in the upper decorative cover 1, the glass moving door 2 is connected with the roller grooves 10 in a rolling manner, the glass moving door 2 is connected with the guide rails 11 in a sliding manner, two sides of the upper end of glass of the glass moving door 2 are provided with a first notch 20 and a second notch 21, the edge block 3 is buckled on the first notch 20 and the second notch 21, two ends of the guide groove rod 4 are respectively connected with the edge block 3 in a fastening manner, two ends of the top beam 5 are respectively connected with the edge block 3 in a fastening manner, an elongated slot 50 is arranged on the top beam 5, and the damping roller assembly 6 is connected with the elongated slot 50 in a fastening manner through a positioning block 51.

The edge block 3 is provided with a first supporting block 30 and a second supporting block 31, the first supporting block 30 is inserted into the first notch 20, the second supporting block 31 is inserted into the second notch 21, and the upper end of the first supporting block 30 is provided with a bracket 30-1.

The damping roller assembly 6 comprises a U-shaped part 60, a left connecting plate 61, a right connecting plate 62, T-shaped plates 63, a moving plate 64, a pressure spring 65 and an end plate 66, the lower end of the U-shaped part 60 is fixedly connected with a positioning block 51 through bolts, the positioning block 51 is tightly positioned in an elongated slot 50, T-shaped grooves 60-1 are symmetrically arranged on two sides of the U-shaped part 60, the left connecting plate 61 is fixedly connected with the left side of the U-shaped part 60, the right connecting plate 62 is fixedly connected with the right side of the U-shaped part 60, the T-shaped plates 63 are provided with two ends, one end of each T-shaped plate 63 is fixedly connected with the moving plate 64, the T-shaped plates 63 are slidably connected with the T-shaped grooves 60-1, one end of the pressure spring 65 is contacted with the bottom of a hole in the center of the left connecting plate 61, the other end of the pressure spring 65 is contacted with the, the end face plate 66 is fixedly connected with the end parts of the two T-shaped plates 63, a wheel shaft 61-1 penetrates through the middle of the left connecting plate 61, and rollers 61-2 are rotatably arranged at the two ends of the wheel shaft 61-1. The following specific working modes are illustrated by specific examples:

example 1:

in the suspended sliding door, two groups of roller grooves 10 and guide rails 11 are arranged in the upper decoration cover 1, the glass sliding door 2 is in rolling connection with the roller grooves 10, and the guide groove rods 4 on the glass sliding door 2 are in sliding connection with the guide rails 11, so that the upper end of the glass sliding door is limited by the roller grooves 10 and the guide rails 11, and the glass sliding door is blown by strong wind and is still stable without disturbance.

Example 2:

on the basis of embodiment 1, a first notch 20 and a second notch 21 are formed in two sides of the upper end of glass of the glass sliding door 2, the edge block 3 is buckled on the first notch 20 and the second notch 21, two ends of the guide groove rod 4 are respectively and tightly connected with the edge block 3, two ends of the top beam 5 are respectively and tightly connected with the edge block 3, a first support block 30 and a second support block 31 are arranged on the edge block 3, the first support block 30 is inserted into the first notch 20, and the second support block 31 is inserted into the second notch 21, so that the upper end of the glass sliding door is wrapped by the two edge blocks 3, the two guide groove rods 4 and the top beam 5, and the bearing stability of the upper end of the glass sliding door is ensured; the upper end of the first support block 30 is provided with a support groove 30-1, so that the edge block 3 is prevented from moving in the glass thickness direction of the glass sliding door 2.

Example 3:

when the glass sliding door is in contact with the outer frame, the end panel 66 in the vibration reduction roller assembly 6 is in contact with the outer frame, then under the inertia effect of the sliding door, the end panel 66 enables the T-shaped plate 63 to slide inwards along the T-shaped groove 60-1, so that the moving plate 64 further compresses the pressure spring 65, the pressure spring 65 plays a role in absorbing vibration, a vibration reduction rubber pad is prevented from being arranged at the edge of the door or a limit buckle is arranged at the corner of the outer frame, the sliding impact force of the glass sliding door 2 is prevented from being transmitted to the glass, and the vibration reduction effect of the glass sliding door 2 during opening and closing is ensured; the lower end of the U-shaped member 60 is fixedly connected with the positioning block 51 through a bolt, the positioning block 51 is tightly positioned in the long groove 50, and when the force for pushing and pulling the glass sliding door 2 is extremely large and exceeds the friction force between the positioning block 51 and the long groove 50, the damping roller assembly 6 can shift, so that the damping roller assembly 6 is prevented from being damaged by collision.

The present invention has been described in detail with reference to the accompanying drawings, and it is to be understood that the invention is not limited to the specific embodiments, but is intended to cover various insubstantial modifications, including those made by the method and technical solutions of the present invention; or without improvement, the above conception and technical solution of the present invention can be directly applied to other occasions, all within the protection scope of the present invention.

Claims (3)

1. A suspended sliding door characterized in that: comprises an upper decorative cover (1), a glass sliding door (2), an edge block (3), a guide groove rod (4), a top beam (5) and a damping roller component (6), two groups of roller grooves (10) and guide rails (11) are arranged in the upper decorative cover (1), the glass sliding door (2) is connected with the roller groove (10) in a rolling way, the glass sliding door (2) is connected with the guide rail (11) in a sliding way, a first notch (20) and a second notch (21) are arranged on two sides of the upper end of the glass sliding door (2), the side block (3) is buckled on the first notch (20) and the second notch (21), the two ends of the guide groove rod (4) are respectively and tightly connected with the edge blocks (3), the two ends of the top beam (5) are respectively and tightly connected with the edge blocks (3), the top beam (5) is provided with a long groove (50), and the damping roller assembly (6) is fixedly connected with the long groove (50) through a positioning block (51).

2. A suspended sliding door according to claim 1, wherein: the edge block (3) is provided with a first supporting block (30) and a second supporting block (31), the first supporting block (30) is inserted into the first notch (20), the second supporting block (31) is inserted into the second notch (21), and the upper end of the first supporting block (30) is provided with a bracket (30-1).

3. A suspended sliding door according to claim 1, wherein: the damping roller assembly (6) comprises a U-shaped part (60), a left connecting plate (61), a right connecting plate (62), a T-shaped plate (63), a moving plate (64), a pressure spring (65) and an end plate (66), wherein the lower end of the U-shaped part (60) is fixedly connected with a positioning block (51) through bolts, the positioning block (51) is tightly positioned in an elongated slot (50), T-shaped slots (60-1) are symmetrically arranged on two sides of the U-shaped part (60), the left connecting plate (61) is fixedly connected with the left side of the U-shaped part (60), the right connecting plate (62) is fixedly connected with the right side of the U-shaped part (60), two T-shaped plates (63) are arranged, one end of each T-shaped plate (63) is fixedly connected with the moving plate (64), and the T-shaped plates (63) are in sliding connection with the T-shaped slots (60-1), one end of the pressure spring (65) is in contact with the bottom of a hole in the center of the left connecting plate (61), the other end of the pressure spring (65) is in contact with the bottom of the hole in the center of the moving plate (64), the end face plate (66) is fixedly connected with the end parts of the two T-shaped plates (63), a wheel shaft (61-1) penetrates through the middle of the left connecting plate (61), and rollers (61-2) are rotatably arranged at the two ends of the wheel shaft (61-1).

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