CN118187624A - Panoramic door without lower track design - Google Patents

Abstract

The invention discloses a panoramic door without a lower track design, which relates to the technical field of doors and windows and comprises a door frame and a bearing device, wherein a protective rod is fixedly arranged on the surface of the door frame, a chute is formed on the surface of the door frame, a transparent door plate is slidably arranged on the inner wall of the chute, a concave handle is fixedly arranged on the surface of the transparent door plate, the bearing device comprises a rotary groove, a rotating rod, a bearing rotating wheel, a fixed rod, an arc panel, a groove, an arc protruding block and an elastic sheet, the arc panel contacts with the bearing rotating wheel to scrape sundries adhered to the surface of the bearing rotating wheel, the bottom of the transparent door plate is provided with the rotary groove, the rotating rod is fixedly arranged on the inner wall of the rotary groove, the bearing rotating wheel is rotatably arranged on the surface of the rotating rod, the fixed rod is fixedly arranged on the inner wall of the rotary groove, and the arc panel is fixedly arranged on the surface of the fixed rod.

Description

Panoramic door without lower track design

Technical Field

The invention relates to the technical field of doors and windows, in particular to a panoramic door without a lower track design.

Background

Panoramic doors without lower track designs are typically composed of door leaves, doors and windows, roof tracks, jambs, weather strips, and the like.

Patent publication number CN217461889U relates to an intelligent under-track invisible partition door, 匚 type fixed box inboard bottom symmetry welding has T type spacing, 匚 type fixed box inboard corresponds T type spacing position department sliding connection has the dodge gate, T type joint groove has been seted up on the dodge gate top, 匚 type fixed box top both sides symmetry welding has joint 匚 template, the inboard fixed barrier plate that is connected with of joint 匚 template through the connecting bolt card, in fixed box of 匚 type is fixed with the dodge gate through T type joint groove and T type spacing, be fixed to 匚 type fixed box side by joint 匚 template, connecting bolt and screw, thereby assemble the partition door fast, through spacing nail and hole limiting plate with its fixed mounting, thereby be convenient for the staff to its location installation, and through splitting into the part with it, make in-process can reduce occupation space, and the staff of being convenient for carries.

In the above-mentioned patent, through spacing nail and hole limiting plate with its fixed mounting, thereby be convenient for the staff to its location installation, but be difficult to clean panorama door bottom in panorama door's use, dust and debris of adhesion in pulley department probably can hinder the normal motion of pulley, the circumstances that appears not smooth or block when leading to panorama door to open and close, the debris of adhesion can lead to the damage of pulley simultaneously, influence panorama door's smooth operation, increase the demand of maintaining and repairing.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a panoramic door without a lower track design, and solves the problems in the background art.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a panorama door of no lower track design, includes the door frame, still includes load-bearing device, wherein, door frame surface fixed mounting has the guard bar, the spout has been seted up on the door frame surface, spout inner wall slidable mounting has transparent door plant, transparent door plant surface fixed mounting has the spill handle, wherein, load-bearing device includes change groove, bull stick, load-bearing runner, dead lever, arc panel, recess, arc lug and shell fragment, arc panel and load-bearing runner contact scrape the debris that will adhere at the load-bearing runner surface, the change groove has been seted up to transparent door plant bottom, bull stick fixed mounting is at change groove inner wall, load-bearing runner rotates to be installed at the bull stick surface, dead lever fixed mounting is at change groove inner wall, arc panel fixed mounting is at the dead lever surface, the recess has been seted up on the load-bearing runner surface, arc lug fixed mounting is at the recess inner wall, shell fragment fixed mounting is at change groove inner wall, through in time scraping these debris, can reduce the wearing and tearing to the load-bearing runner, prolongs its life.

According to the technical scheme, the cambered surface plate has elasticity, the cambered surface plate is in contact with the bearing rotating wheel, the cambered protruding block is in contact with the elastic sheet, the cambered protruding block vibrates to drive the bearing rotating wheel to resonate together, the cleaning effect can be effectively increased, and sundries attached to the surface of the bearing rotating wheel can be rapidly removed.

According to the technical scheme, still include decelerator includes deceleration pole, reducing frame, reducing plate, accuse speed pole, hollow slab, firm pole, closing plate, speed reducing hole, sealing hole, guard plate and bearing plate, and deceleration pole can only slowly move and make transparent door plant can only slow switch, deceleration pole fixed mounting is on transparent door plant surface, guard plate fixed mounting is on the door frame surface, bearing plate fixed mounting is on the guard plate surface, reducing frame fixed mounting is on the bearing plate surface, reducing plate slidable mounting is at the reducing frame inner wall, accuse speed pole fixed mounting is in the reducing plate bottom, hollow slab fixed mounting is on accuse speed pole surface, firm pole fixed mounting is at the reducing plate top, closing plate slidable mounting is on the firm pole surface, the speed reducing hole has been seted up on the reducing plate surface, the sealing hole has been seted up on the closing plate surface, and quick-moving transparent door plant can produce great impact force, leads to the spare part wearing and tearing of door, increases maintenance and the cost of change, through the reducing plate speed reducing, can alleviate this kind of impact, extension door's life.

According to the technical scheme, the first spring is arranged between the speed reducing plate and the speed reducing frame, one end, far away from the speed reducing frame, of the hollow plate is arranged to be an arc surface, and the speed reducing plate can be driven to reset through the first spring.

According to the technical scheme, the second spring is arranged between the sealing plate and the stabilizing rod, the hollow plate has elasticity, and the sealing plate can be driven to reset through the second spring.

According to the technical scheme, lubricating arrangement includes lubricated frame, squeeze lever, many frames, lubricated board, displacement board, lubrication hole, ration frame, linkage board, gangbar and sealing block, treat that the inside ration lubrication liquid of ration frame flows into the spout inner wall through the lubrication hole after the seal in lubrication hole is removed and lubricates, lubricated frame fixed mounting is on the door frame surface, squeeze lever fixed mounting is at the reducing gear top, polygonal frame slidable mounting is in lubricated frame inner wall bottom, lubricated board slidable mounting is in lubricated frame inner wall, displacement board fixed mounting is on lubricated board surface, lubrication hole has been seted up on lubricated frame surface, ration frame fixed mounting is in lubricated frame inner wall bottom, gangbar slidable mounting ration frame inner wall, gangbar fixed mounting is at the linkage board top, sealing block slidable mounting is at ration frame inner wall, ration frame surface has seted up the ration hole, and ration lubrication liquid can in time, lubricated spout inner wall in a proper amount, has reduced friction and wearing and tearing between the mechanical parts effectively, reduces maintenance cost, prolongs transparent door plant's life.

According to the technical scheme, the lubrication frame is communicated with the sliding groove through the lubrication hole, one end of the linkage rod, which is close to the displacement plate, is arranged to be an inclined plane, a third spring is arranged between the polygonal frame and the lubrication frame, a liquid inlet hole is formed in the top of the quantitative frame, and the polygonal frame can be driven to reset through the third spring.

According to the technical scheme, the quantitative frame is communicated with the inside of the lubricating frame through the quantitative hole, a fourth spring is arranged between the sealing block and the quantitative frame, a fifth spring is arranged between the lubricating plate and the lubricating frame, the sealing block can be driven to reset through the fourth spring, and the resetting can be driven through the fifth spring.

The invention provides a panoramic door without a lower track design. The beneficial effects are as follows:

(1) This panoramic door of no lower track design will adhere to the debris on bearing runner surface through arc panel and bearing runner contact and scrape, if debris long-time accumulation is on bearing runner surface, can lead to bearing runner wearing and tearing aggravate, damage even, through in time scraping these debris, can reduce the wearing and tearing to bearing runner, increase its life, arc lug vibration drives bearing runner together resonance simultaneously, can increase the cleaning effect effectively, make the cleaning process more high-efficient, get rid of the debris that adheres to on bearing runner surface rapidly.

(2) This panoramic door of no lower track design, make empty core plate and accuse fast pole through the slow-moving of speed reducing plate can only slowly move, empty core plate slow-moving makes the speed reducing pole can only slowly move, the speed reducing pole can only slowly move and make transparent door plant can only slow switch, the transparent door plant of slow moving can reduce the wearing and tearing and the damage of door, the door plant of fast moving can produce great impact force, lead to the spare part wearing and tearing of door, increase maintenance and change cost, through the speed reducing pole, can alleviate this kind of impact, the life of extension door.

(3) This panorama door of no lower track design removes the sealing block through the linkage board and moves down and remove the seal to the lubrication hole, treats the inside quantitative lubrication liquid of quantitative frame after the seal in lubrication hole is removed and flows into the spout inner wall through the lubrication hole and lubricate, and quantitative lubrication liquid can in time, lubricated spout inner wall in right amount, has reduced friction and wearing and tearing between the mechanical parts effectively, reduces maintenance cost, extension transparent door plant's life.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the door frame and the deceleration rod according to the present invention;

FIG. 3 is an enlarged schematic view of the portion A of FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the position structure of the transparent door panel and the rotating rod of the present invention;

FIG. 5 is an enlarged schematic view of the portion B of FIG. 4 according to the present invention;

FIG. 6 is a schematic diagram of the position structure of the speed reducing frame and the speed control rod according to the present invention;

FIG. 7 is an enlarged schematic view of the portion C of FIG. 6 according to the present invention;

FIG. 8 is a schematic view of the position structure of a lubrication frame and a polygon frame according to the present invention;

fig. 9 is an enlarged schematic view of the part D of fig. 8 according to the present invention.

In the figure: 1. a door frame; 2. a protective rod; 3. a chute; 4. a transparent door panel; 5. a concave handle; 61. a rotary groove; 62. a rotating rod; 63. a bearing rotating wheel; 64. a fixed rod; 65. an arc panel; 66. a groove; 67. arc-shaped protruding blocks; 68. a spring plate; 71. a deceleration rod; 72. a deceleration frame; 73. a speed reducing plate; 74. a speed control rod; 75. a hollow slab; 76. a stabilizing rod; 77. a sealing plate; 78. a deceleration hole; 79. sealing the hole; 710. a protection plate; 711. a bearing plate; 81. a lubrication frame; 82. an extrusion rod; 83. a multi-border; 84. a lubricating plate; 85. a displacement plate; 86. a lubrication hole; 87. a quantitative frame; 88. a linkage plate; 89. a linkage rod; 810. and a sealing block.

Detailed Description

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

Referring to fig. 1-5, one embodiment of the present invention is: the utility model provides a panorama door of no lower track design, including door frame 1, still include the load-bearing device, wherein, door frame 1 surface fixed mounting has guard bar 2, door frame 1 surface has seted up spout 3, spout 3 inner wall slidable mounting has transparent door plant 4, transparent door plant 4 surface fixed mounting has concave handle 5, wherein, the load-bearing device includes the rotary channel 61, the bull stick 62, load-bearing runner 63, dead lever 64, cambered surface board 65, recess 66, cambered lug 67 and shell fragment 68, cambered surface board 65 contacts with load-bearing runner 63 and scrapes the debris that will adhere on load-bearing runner 63 surface, cambered lug 67 rotates and rubs with shell fragment 68 and produce the vibration, rotary channel 61 has been seted up to transparent door plant 4 bottom, bull stick 62 fixed mounting is at rotary channel 61 inner wall, load-bearing runner 63 rotates and installs at bull stick 62 surface, dead lever 64 fixed mounting is at rotary channel 61 inner wall, cambered surface 65 has seted up recess 66, cambered lug 67 fixed mounting is at recess 66 inner wall, 68 fixed mounting is at rotary channel 61 inner wall, through scraping these debris in time, wear to load-bearing runner 63 can be reduced, and its life is prolonged.

The arc panel 65 has elasticity, and the arc panel 65 contacts with the bearing runner 63, and the arc lug 67 contacts with the shrapnel 68, and the arc lug 67 vibrates to drive the bearing runner 63 to resonate together, can effectively increase the cleaning effect, and rapidly removes the debris attached to the surface of the bearing runner 63.

The working of this embodiment is: manual pulling spill handle 5 removes and drives transparent door plant 4 and remove, transparent door plant 4 removes and drives bull stick 62 and remove, bull stick 62 removes and drives bearing runner 63 and remove, bearing runner 63 removes and receives the effect of ground friction force with ground to produce the rotation, bearing runner 63 rotates and contacts with arc panel 65, arc panel 65 and bearing runner 63 contact will adhere to the debris on bearing runner 63 surface and scrape, bearing runner 63 rotates simultaneously and drives arc lug 67 and rotate, arc lug 67 rotates and contacts friction with shell fragment 68 and produce the vibration, arc lug 67 vibrates and drives bearing runner 63 and together resonate.

Referring to fig. 1-9, in another embodiment of the present invention, the speed reducer further includes a speed reducing rod 71, a speed reducing frame 72, a speed reducing plate 73, a speed control rod 74, a hollow plate 75, a stabilizing rod 76, a sealing plate 77, a speed reducing hole 78, a sealing hole 79, a protection plate 710 and a bearing plate 711, wherein the speed reducing plate 73 moves slowly so that the hollow plate 75 and the speed control rod 74 can only move slowly, the hollow plate 75 moves slowly so that the speed reducing rod 71 can only move slowly, the speed reducing rod 71 can only move slowly to enable the transparent door panel 4 to be opened and closed, the speed reducing rod 71 is fixedly installed on the surface of the transparent door panel 4, the protection plate 710 is fixedly installed on the surface of the door frame 1, the bearing plate 711 is fixedly installed on the surface of the protection plate 710, the speed reducing plate 72 is slidably installed on the inner wall of the speed reducing plate 72, the speed control rod 74 is fixedly installed at the bottom of the speed reducing plate 73, the hollow plate 75 is fixedly installed on the surface of the speed control rod 74, the stabilizing rod 76 is fixedly installed at the top of the speed reducing plate 73, the sealing plate 77 is slidably installed on the surface of the stabilizing plate 76, the surface of the speed reducing plate 73 is opened and the speed reducing plate 73 is provided with the speed reducing hole 78, the surface 77 is opened to enable the transparent door panel 4 to move slowly, the impact force can be increased, compared with the cost of the transparent door panel can be increased, and the cost of the transparent door can be increased, and the service cost can be increased.

A first spring is arranged between the speed reducing plate 73 and the speed reducing frame 72, one end of the hollow plate 75, which is far away from the speed reducing frame 72, is arranged to be an arc surface, and the speed reducing plate 73 can be driven to reset through the first spring.

A second spring is arranged between the sealing plate 77 and the stabilizing rod 76, the hollow plate 75 has elasticity, and the sealing plate 77 can be driven to reset through the second spring.

The lubricating device comprises a lubricating frame 81, an extrusion rod 82, a polygonal frame 83, a lubricating plate 84, a displacement plate 85, a lubricating hole 86, a quantitative frame 87, a linkage plate 88, a linkage rod 89 and a sealing block 810, wherein the linkage plate 88 moves to extrude the sealing block 810 to move downwards to remove sealing of the lubricating hole 86, quantitative lubricating liquid inside the quantitative frame 87 flows into the inner wall of a sliding groove 3 through the lubricating hole 86 to lubricate after the sealing of the lubricating hole 86 is removed, the lubricating frame 81 is fixedly arranged on the surface of a door frame 1, the extrusion rod 82 is fixedly arranged at the top of a speed reducing plate 73, the polygonal frame 83 is slidably arranged at the bottom of the inner wall of the lubricating frame 81, the lubricating plate 84 is slidably arranged on the inner wall of the lubricating plate 81, the lubricating hole 86 is formed in the surface of the lubricating frame 81, the quantitative frame 87 is fixedly arranged at the top of the linkage plate 88, the sealing block 810 is slidably arranged on the inner wall of the quantitative frame 87, the surface of the quantitative frame 87 is provided with the quantitative hole, the quantitative lubricating liquid can timely and properly lubricate the inner wall of the sliding groove 3, the friction cost between mechanical parts is effectively reduced, the wear of the transparent door plate is prolonged, and the service life of the transparent door plate is prolonged.

The lubricating frame 81 is communicated with the sliding groove 3 through the lubricating hole 86, one end, close to the displacement plate 85, of the linkage rod 89 is set to be an inclined plane, a third spring is arranged between the multi-frame 83 and the lubricating frame 81, a liquid inlet hole is formed in the top of the quantitative frame 87, and the multi-frame 83 can be driven to reset through the third spring.

The quantitative frame 87 is communicated with the inside of the lubricating frame 81 through a quantitative hole, a fourth spring is arranged between the sealing block 810 and the quantitative frame 87, a fifth spring is arranged between the lubricating plate 84 and the lubricating frame 81, the sealing block 810 can be driven to reset through the fourth spring, and the resetting can be driven through the fifth spring.

The working of this embodiment is: manually pulling the concave handle 5 to move so as to drive the transparent door plate 4 to move, moving the transparent door plate 4 to drive the reducing rod 71 to move, enabling the reducing rod 71 to move and the hollow plate 75 to contact and squeeze the hollow plate 75 to move upwards, enabling the hollow plate 75 to move upwards to drive the speed control rod 74 to move upwards, enabling the speed control rod 74 to move upwards to drive the reducing plate 73 to move upwards, enabling the reducing plate 73 to move upwards to drive the sealing plate 77 to move upwards, enabling the sealing plate 77 to move upwards to squeeze gas inside the reducing frame 72 to generate negative pressure, enabling the sealing plate 77 to be closely attached to the top of the reducing plate 73 under the action of the negative pressure of the gas inside the reducing frame 72, enabling the gas inside the reducing frame 72 to move slowly only through the sealing hole 79, enabling the reducing plate 73 to move slowly only through the sealing hole 79, enabling the hollow plate 75 and the speed control rod 74 to move slowly, enabling the reducing plate 75 to move slowly only slowly, enabling the reducing plate 71 to move slowly, enabling the transparent door plate 4 to be opened and closed only slowly.

Manually pulling the concave handle 5 to move drives the transparent door plate 4 to move, the transparent door plate 4 moves to drive the reduction rod 71 to move, the reduction rod 71 moves to contact with the hollow plate 75 to extrude the hollow plate 75 to move upwards, the hollow plate 75 moves to drive the speed control rod 74 to move upwards, the speed control rod 74 moves upwards to drive the reduction plate 73 to move upwards, the reduction plate 73 moves upwards to drive the extrusion rod 82 to move upwards, the extrusion rod 82 moves upwards to extrude the multi-frame 83 to move towards a direction close to the lubricating plate 84, the polygonal frame 83 moves to extrude the lubricating plate 84 to move, the lubricating plate 84 moves to drive the displacement plate 85 to move, the displacement plate 85 moves to seal a liquid inlet hole, meanwhile, the displacement plate 85 moves to contact with the linkage rod 89 to extrude the linkage rod 89 to move downwards, the linkage rod 89 moves to drive the linkage plate 88 to move downwards, the extrusion sealing block 810 moves downwards to release the sealing of the lubricating hole 86, and after the sealing of the lubricating hole 86 is released, quantitative lubricating liquid inside the quantitative frame 87 flows into the inner wall of the sliding groove 3 through the lubricating hole 86 to lubricate.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Panorama door of no lower track design, including door frame (1), its characterized in that: the device also comprises a bearing device, a speed reducing device and a lubricating device;

the protective rod (2) is fixedly arranged on the surface of the door frame (1), a sliding groove (3) is formed in the surface of the door frame (1), a transparent door plate (4) is slidably arranged on the inner wall of the sliding groove (3), and a concave handle (5) is fixedly arranged on the surface of the transparent door plate (4);

Wherein, load-bearing device includes change groove (61), bull stick (62), bearing runner (63), dead lever (64), cambered surface board (65), recess (66), arc lug (67) and shell fragment (68), change groove (61) have been seted up to transparent door plant (4) bottom, bull stick (62) fixed mounting is at change groove (61) inner wall, bearing runner (63) rotate and install at bull stick (62) surface, dead lever (64) fixed mounting is at change groove (61) inner wall, cambered surface board (65) fixed mounting is at dead lever (64) surface, recess (66) have been seted up on bearing runner (63) surface, arc lug (67) fixed mounting is at recess (66) inner wall, shell fragment (68) fixed mounting is at change groove (61) inner wall.

2. A panoramic door of no-lower track design as defined in claim 1 wherein: the cambered surface plate (65) has elasticity, the cambered surface plate (65) is contacted with the bearing rotating wheel (63), and the cambered protruding block (67) is contacted with the elastic sheet (68).

3. A panoramic door of no-lower track design as defined in claim 2 wherein: the speed reducer comprises a speed reducing rod (71), a speed reducing frame (72), a speed reducing plate (73), a speed control rod (74), a hollow plate (75), a stabilizing rod (76), a sealing plate (77), a speed reducing hole (78), a sealing hole (79), a protection plate (710) and a bearing plate (711), wherein the speed reducing rod (71) is fixedly arranged on the surface of a transparent door plate (4), the protection plate (710) is fixedly arranged on the surface of a door frame (1), the bearing plate (711) is fixedly arranged on the surface of the protection plate (710), the speed reducing frame (72) is fixedly arranged on the surface of the bearing plate (711), the speed reducing plate (73) is slidably arranged on the inner wall of the speed reducing frame (72), the speed control rod (74) is fixedly arranged at the bottom of the speed reducing plate (73), the hollow plate (75) is fixedly arranged on the surface of the speed control rod (74), the stabilizing rod (76) is fixedly arranged at the top of the speed reducing plate (73), the sealing plate (77) is slidably arranged on the surface of the stabilizing rod (76), and the surface of the sealing plate (77) is provided with the sealing plate (77).

4. A panoramic door of no-lower track design as recited in claim 3, wherein: a first spring is arranged between the speed reducing plate (73) and the speed reducing frame (72), and one end, far away from the speed reducing frame (72), of the hollow plate (75) is arranged to be an arc surface.

5. A panoramic door of no-lower track design as recited in claim 4, wherein: and a second spring is arranged between the sealing plate (77) and the stabilizing rod (76), and the hollow plate (75) has elasticity.

6. A panoramic door of no-lower track design as recited in claim 5, wherein: the lubricating device comprises a lubricating frame (81), a squeezing rod (82), a plurality of frames (83), a lubricating plate (84), a displacement plate (85), a lubricating hole (86), a quantitative frame (87), a linkage plate (88), a linkage rod (89) and a sealing block (810), wherein the lubricating frame (81) is fixedly installed on the surface of the door frame (1), the squeezing rod (82) is fixedly installed at the top of the speed reducing plate (73), the polygonal frame (83) is slidably installed at the bottom of the inner wall of the lubricating frame (81), the lubricating plate (84) is slidably installed on the inner wall of the lubricating frame (81), the displacement plate (85) is fixedly installed on the surface of the lubricating plate (84), the lubricating hole (86) is formed in the surface of the lubricating frame (81), the quantitative frame (87) is fixedly installed on the bottom of the inner wall of the lubricating frame (81), the linkage plate (88) is slidably installed on the inner wall of the quantitative frame (87), the linkage rod (89) is fixedly installed at the top of the linkage plate (88), and the sealing block (810) is slidably installed on the inner wall of the quantitative frame (87), and the quantitative hole is formed in the surface of the lubricating plate (84).

7. A panoramic door of no-lower track design as recited in claim 6, wherein: the lubricating frame (81) is communicated with the sliding groove (3) through a lubricating hole (86), one end, close to the displacement plate (85), of the linkage rod (89) is set to be an inclined plane, a third spring is arranged between the polygonal frame (83) and the lubricating frame (81), and a liquid inlet hole is formed in the top of the quantitative frame (87).

8. A panoramic door of no-lower track design as recited in claim 7, wherein: the quantitative frame (87) is communicated with the inside of the lubricating frame (81) through a quantitative hole, a fourth spring is arranged between the sealing block (810) and the quantitative frame (87), and a fifth spring is arranged between the lubricating plate (84) and the lubricating frame (81).