CN212079012U - Butt-closing type sliding door and sliding door thereof - Google Patents

Abstract

The utility model relates to a sliding way of a butt-joint type flat-open sliding door and a sliding door thereof, which comprises a left and a right double-inclined guide horizontal chutes which are arranged at the inner top and the inner bottom of a door frame, and a guide mechanism and a universal sliding support mechanism which are respectively arranged at the top and the bottom of the left and the right sliding doors which are matched with the door frame and are matched with the chutes; the left and right double-oblique guide transverse sliding grooves are formed in the two ends and the middle part of each transverse sliding groove, and are respectively provided with a front oblique sliding groove with two ends and a front oblique guide end and a middle oblique guide middle oblique sliding groove with two middle parts, and the front part of the middle part of the door frame is provided with a middle vertical baffle plate for shielding the front involution middle seam of the left and right sliding doors. The sliding door has the advantages that the sliding door body size can be obviously reduced, and the two sliding doors are good in sealing performance, symmetrical and attractive after being combined.

Description

Butt-closing type sliding door and sliding door thereof

Technical Field

The utility model relates to a sliding door slide especially relates to a to box-like flat-open push-and-pull door slide and push-and-pull door thereof.

Background

The existing split sliding doors, particularly cabinet sliding doors, are provided with front and rear sliding doors through front and rear sliding ways respectively, and when the front and rear sliding doors are closed, the middle edge part of a front door covers the middle edge part of a rear door. However, the sliding door significantly increases the size of the sliding door due to the additional overlapping of the front and rear doors, so that the double doors are significantly heavy. In addition, the two doors are obviously asymmetrical after one another when being closed, and the door is not in accordance with the symmetrical aesthetic examination of Chinese habits. Moreover, because the front door and the rear door can slide transversely conveniently, and the occupation of the two door handles is required, even if the front door and the rear door are closed, the front door and the rear door still have obvious middle seams, and the requirement of modern people on tighter sealing degree of storage cannot be met.

Disclosure of Invention

The utility model aims to overcome prior art's above-mentioned defect, provide one kind and can show and alleviate the push-and-pull door size, two push-and-pull doors close the pleasing to the eye formula flat-open push-and-pull door slide of symmetry back, the utility model relates to an use the push-and-pull door of this novel slide.

In order to achieve the purpose, the utility model discloses a butt-joint type sliding door slideway for a flat-open sliding door, which is characterized by comprising a left and a right double-inclined guide transverse chutes which are arranged at the inner top and the inner bottom of a door frame, and a guide mechanism and a universal sliding support mechanism which are respectively arranged at the top and the bottom of the left and the right sliding doors which are matched with the door frame and are matched with the chutes; the left and right double-oblique guide transverse sliding grooves are formed in the two ends and the middle part of each transverse sliding groove, and are respectively provided with a front oblique sliding groove with two ends and a front oblique guide end and a middle oblique guide middle oblique sliding groove with two middle parts, and the front part of the middle part of the door frame is provided with a middle vertical baffle plate for shielding the front involution middle seam of the left and right sliding doors. The transverse sliding chutes, the front outer oblique guide end oblique sliding chutes at the two ends and the middle outer oblique guide middle oblique sliding chutes at the two middle parts have the same width and the same depth; the guide mechanism and the universal sliding support mechanism at least comprise a left sliding door, a right sliding door, a top and a bottom which are arranged in pairs, and sliding blocks which are matched with the transverse sliding grooves, the front outer oblique guide end oblique sliding grooves at the two ends and the inner and outer sleeves of the two middle outer oblique guide middle oblique sliding grooves in a sliding manner. The sliding door has the advantages that the sliding door body size can be obviously reduced, and the two sliding doors are symmetrical and attractive after being closed. The slider is the rhombus slider, and its vertical and horizontal width is the same. The front baffle plate used for covering the left and right double-oblique guide transverse sliding grooves, the guide mechanism and the universal sliding support mechanism is arranged between the middle vertical baffle plate and the two side door frames or between the two side door frames, so that the sealing attractiveness is better, and the sliding door body size can be favorably reduced. The middle part of the outer side of the front of the left sliding door and the right sliding door is provided with a handle arranged at the edge of the sliding door.

As optimization, the left outer oblique guide end oblique sliding chute and the outer oblique guide middle oblique sliding chute are used for enabling the left sliding door to move forwards to the left front and to be in place, and the right outer oblique guide end oblique sliding chute and the outer oblique guide middle oblique sliding chute are used for enabling the right sliding door to move forwards to the right front and to be in place; when the sliding doors at two sides move forwards in place obliquely, the middle vertical baffle covers the involution center seam between the left sliding door and the right sliding door.

As optimization, the left side sliding door moves forwards to the stop position from the left front side through the left outer oblique guide end oblique sliding groove and the outer oblique guide middle oblique sliding groove, the right side sliding door moves forwards to the stop position from the right front side through the right outer oblique guide end oblique sliding groove and the outer oblique guide middle oblique sliding groove, the rear face of the middle vertical baffle plate is attached to the front middle side edge of the left and right sliding doors, and the two sliding doors are in a closed state.

The left side sliding door moves forwards to a stop position from the left front side through the outer oblique guide end oblique sliding groove and the outer oblique guide middle oblique sliding groove on the left side, and the right side sliding door exits from the outer oblique guide end oblique sliding groove and the outer oblique guide middle oblique sliding groove on the right side and moves to the left end along the transverse sliding groove, so that the right side sliding door is in an open state; the oblique spout moves to the position of stopping in oblique spout and the outer oblique direction of oblique spout in the direction of the outer oblique direction end on right side push-and-pull door, and when left side push-and-pull door withdrawed from left outer oblique direction end oblique spout and the oblique spout moves to the right end along horizontal spout in the outer oblique direction, left side push-and-pull door was in the open mode.

As optimization, the universal sliding support mechanism is characterized in that the top and the bottom of the left sliding door are respectively provided with an outer oblique guide left end oblique sliding chute and a transverse sliding chute which are in sliding fit with the left outer oblique guide left end oblique sliding chute and the transverse sliding chute, and an outer oblique guide left end oblique sliding block and an outer oblique guide left middle oblique sliding block which are in sliding fit with the left outer oblique guide left middle oblique sliding chute and the transverse sliding chute, and universal balls are respectively arranged below the outer oblique guide left end oblique sliding block and the outer oblique guide left middle oblique sliding block at the bottom or at the top and the bottom of the left sliding door; or the bottom of the left sliding door or the top and the bottom of the left sliding door are provided with a left pair of universal bottom wheels.

The universal sliding support mechanism is characterized in that the top and the bottom of a right sliding door are respectively provided with an outer oblique guide right-end oblique sliding chute and a transverse sliding chute which are matched with the outer oblique guide right-end oblique sliding chute and the transverse sliding chute on the right side in a sliding manner, and an outer oblique guide right-end oblique sliding block and an outer oblique guide right-middle oblique sliding block which are matched with the outer oblique guide right-end oblique sliding chute and the transverse sliding chute on the right side in a sliding manner; or the bottom or the top and the bottom of the right sliding door are provided with a right pair of universal bottom wheels; a sliding block or a universal bottom wheel or a universal ball at the top of the sliding door is fixedly arranged at the top of the sliding door or on the sliding block at the top of the sliding door through a vertical telescopic support supported by a vertical spring.

A guide mechanism is arranged on an outer oblique guide left-middle oblique slide block and an outer oblique guide right-middle oblique slide block and is used for guiding the outer oblique guide left-middle oblique slide block and the outer oblique guide right-middle oblique slide block into an outer oblique guide left-middle oblique slide groove and an outer oblique guide right-middle oblique slide groove from a transverse slide groove respectively; the other guiding mechanism is that two ends of the transverse sliding groove are provided with end inclined walls which are used for guiding the outer side wall of the left-end inclined sliding groove and the outer side wall of the right-end inclined sliding groove in a forward extending and outward inclined manner. The sliding blocks are rhombic sliding blocks which are inclined outwards.

As optimization, the guide mechanism is a guide wheel which is respectively used for being matched with the outer side wall of the outer oblique guide left-middle oblique sliding groove and the outer oblique guide right-middle oblique sliding groove in a sliding way when the elastic supports are respectively arranged on the outer oblique guide left-middle oblique sliding block and the outer oblique guide right-middle oblique sliding block in a popping way; the left oblique sliding groove and the right oblique sliding groove of the outer oblique guide left end and the left oblique sliding groove and the right oblique sliding groove of the outer oblique guide right end are respectively provided with a pit for limiting the forward oblique stopping position of the universal ball on the top wall and the bottom wall of the forward oblique end area of the right oblique sliding groove. The concave pit 80 is a semicircular or semi-elliptic spherical shell concave pit with the depth smaller than the exposed height of the universal ball 8.

As optimization, the outer oblique guide left middle oblique slide block and the outer oblique guide right middle oblique slide block are respectively fixedly provided with guide wheels which extend outwards to guide the left middle oblique slide groove and the outer oblique guide right middle oblique slide groove when extending out through the elastic telescopic supporting seat which extends horizontally and obliquely; or the outer oblique guide left-middle oblique sliding block and the outer oblique guide right-middle oblique sliding block are all outward-oblique rhombic sliding blocks, outer side guide wheel frames which extend to the outer oblique guide left-middle oblique sliding groove and the outer oblique guide right-middle oblique sliding groove and are supported by return springs are arranged on the outer sides of the outer side walls of the outer oblique guide left-middle oblique sliding groove and the outer oblique guide right-middle oblique sliding groove respectively, and a guide wheel is arranged at the front end of each guide wheel frame. The guide wheels which extend to the outside to lead the left middle oblique sliding chute and the outside to lead the right middle oblique sliding chute are respectively arranged on the outside to lead the left middle oblique sliding chute and the outside to lead the right middle oblique sliding chute when the outside to lead the left middle oblique sliding block and the outside to lead the right middle oblique sliding chute are fixedly arranged on the elastic telescopic supporting seat which extends to the outside to lead the left middle oblique sliding chute and the outside to lead the right middle oblique sliding chute when the outside to lead the left middle oblique sliding block and the outside to lead the right middle oblique sliding chute respectively.

The sliding door with the oppositely-combined type side-hung sliding door slideway of the utility model is characterized in that the left and right double-inclined guide transverse chutes are arranged at the inner top and the inner bottom of the door frame, and the guide mechanism and the universal sliding support mechanism which are matched with the chutes are respectively arranged at the top and the bottom of the left and right sliding door which are matched with the door frame; the left and right double-oblique guide transverse sliding grooves are formed in the two ends and the middle part of each transverse sliding groove, and are respectively provided with a front oblique sliding groove with two ends and a front oblique guide end and a middle oblique guide middle oblique sliding groove with two middle parts, and the front part of the middle part of the door frame is provided with a middle vertical baffle plate for shielding the front involution middle seam of the left and right sliding doors. The sliding door has the advantages that the sliding door body size can be obviously reduced, and the two sliding doors are symmetrical and attractive after being closed. The transverse sliding chutes, the front outer oblique guide end oblique sliding chutes at the two ends and the middle outer oblique guide middle oblique sliding chutes at the two middle parts have the same width and the same depth; the guide mechanism and the universal sliding support mechanism at least comprise a left sliding door, a right sliding door, a top and a bottom which are arranged in pairs, and sliding blocks which are matched with the transverse sliding grooves, the front outer oblique guide end oblique sliding grooves at the two ends and the inner and outer sleeves of the two middle outer oblique guide middle oblique sliding grooves in a sliding manner. The slider is the rhombus slider, and its vertical and horizontal width is the same. Between the middle vertical baffle and the two side door frames, or between the two side door frames, a front baffle for covering the left and right double-oblique guide transverse chutes, the guide mechanism and the universal sliding support mechanism is arranged, so that the sealing attractiveness is better, and the sliding door body size can be favorably reduced. The middle part of the outer side of the front of the left and right sliding doors 3 is provided with a handle at the side of the sliding door.

As optimization, the left outer oblique guide end oblique sliding chute and the outer oblique guide middle oblique sliding chute are used for enabling the left sliding door to move forwards to the left front and to be in place, and the right outer oblique guide end oblique sliding chute and the outer oblique guide middle oblique sliding chute are used for enabling the right sliding door to move forwards to the right front and to be in place; when the sliding doors at two sides move forwards in place obliquely, the middle vertical baffle covers the involution center seam between the left sliding door and the right sliding door.

The left side push-and-pull door moves to the position of stopping through oblique spout in oblique spout of left outer oblique direction end and the outer oblique direction, and when the right side push-and-pull door moves to the position of stopping through oblique spout in oblique spout of outer oblique direction end and the outer oblique direction in oblique spout, the side in the middle of in the front of the laminating left and right push-and-pull door behind the middle vertical baffle makes two push-and-pull doors be in the closed condition.

The left side sliding door moves forwards to a stop position from the left front side through the outer oblique guide end oblique sliding groove and the outer oblique guide middle oblique sliding groove on the left side, and the right side sliding door exits from the outer oblique guide end oblique sliding groove and the outer oblique guide middle oblique sliding groove on the right side and moves to the left end along the transverse sliding groove, so that the right side sliding door is in an open state; the oblique spout moves to the position of stopping in oblique spout and the outer oblique direction of oblique spout in the direction of the outer oblique direction end on right side push-and-pull door, and when left side push-and-pull door withdrawed from left outer oblique direction end oblique spout and the oblique spout moves to the right end along horizontal spout in the outer oblique direction, left side push-and-pull door was in the open mode.

As optimization, the universal sliding support mechanism is characterized in that the top and the bottom of the left sliding door are respectively provided with an outer oblique guide left end oblique sliding chute and a transverse sliding chute which are in sliding fit with the left outer oblique guide left end oblique sliding chute and the transverse sliding chute, and an outer oblique guide left end oblique sliding block and an outer oblique guide left middle oblique sliding block which are in sliding fit with the left outer oblique guide left middle oblique sliding chute and the transverse sliding chute, and universal balls are respectively arranged below the outer oblique guide left end oblique sliding block and the outer oblique guide left middle oblique sliding block at the bottom or at the top and the bottom of the left sliding door; or the bottom of the left sliding door or the top and the bottom of the left sliding door are provided with a left pair of universal bottom wheels.

The universal sliding support mechanism is characterized in that the top and the bottom of a right sliding door are respectively provided with an outer oblique guide right-end oblique sliding chute and a transverse sliding chute which are matched with the outer oblique guide right-end oblique sliding chute and the transverse sliding chute on the right side in a sliding manner, and an outer oblique guide right-end oblique sliding block and an outer oblique guide right-middle oblique sliding block which are matched with the outer oblique guide right-end oblique sliding chute and the transverse sliding chute on the right side in a sliding manner; or the bottom or the top and the bottom of the right sliding door are provided with a right pair of universal bottom wheels; a sliding block or a universal bottom wheel or a universal ball at the top of the sliding door is fixedly arranged at the top of the sliding door or on the sliding block at the top of the sliding door through a vertical telescopic support supported by a vertical spring.

A guide mechanism is arranged on an outer oblique guide left-middle oblique slide block and an outer oblique guide right-middle oblique slide block and is used for guiding the outer oblique guide left-middle oblique slide block and the outer oblique guide right-middle oblique slide block into an outer oblique guide left-middle oblique slide groove and an outer oblique guide right-middle oblique slide groove from a transverse slide groove respectively; the other guiding mechanism is that two ends of the transverse sliding groove are provided with end inclined walls which are used for guiding the outer side wall of the left-end inclined sliding groove and the outer side wall of the right-end inclined sliding groove in a forward extending and outward inclined manner. The sliding blocks are rhombic sliding blocks which are inclined outwards.

As optimization, the guide mechanism is a guide wheel which is respectively used for being matched with the outer side wall of the outer oblique guide left-middle oblique sliding groove and the outer oblique guide right-middle oblique sliding groove in a sliding way when the elastic supports are respectively arranged on the outer oblique guide left-middle oblique sliding block and the outer oblique guide right-middle oblique sliding block in a popping way; the left oblique sliding groove and the right oblique sliding groove of the outer oblique guide left end and the left oblique sliding groove and the right oblique sliding groove of the outer oblique guide right end are respectively provided with a pit for limiting the forward oblique stopping position of the universal ball on the top wall and the bottom wall of the forward oblique end area of the right oblique sliding groove. The concave pit 80 is a semicircular or semi-elliptic spherical shell concave pit with the depth smaller than the exposed height of the universal ball 8.

The guide wheels extend outwards to guide the left-middle inclined sliding chute and the right-middle inclined sliding chute when extending out fixedly through the elastic telescopic supporting seat extending horizontally and obliquely; or the outer oblique guide left-middle oblique sliding block and the outer oblique guide right-middle oblique sliding block are all outward-oblique rhombic sliding blocks, outer side guide wheel frames which extend to the outer oblique guide left-middle oblique sliding groove and the outer oblique guide right-middle oblique sliding groove and are supported by return springs are arranged on the outer sides of the outer side walls of the outer oblique guide left-middle oblique sliding groove and the outer oblique guide right-middle oblique sliding groove respectively, and a guide wheel is arranged at the front end of each guide wheel frame. The guide wheels which extend to the outside to lead the left middle oblique sliding chute and the outside to lead the right middle oblique sliding chute are respectively arranged on the outside to lead the left middle oblique sliding chute and the outside to lead the right middle oblique sliding chute when the outside to lead the left middle oblique sliding block and the outside to lead the right middle oblique sliding chute are fixedly arranged on the elastic telescopic supporting seat which extends to the outside to lead the left middle oblique sliding chute and the outside to lead the right middle oblique sliding chute when the outside to lead the left middle oblique sliding block and the outside to lead the right middle oblique sliding chute respectively.

After the technical scheme is adopted, the utility model discloses to box-like flat-open push-and-pull door slide and push-and-pull door thereof has and can show and alleviate push-and-pull door size, and two push-and-pull doors are closed the good advantage that symmetry is pleasing to the eye again of back leakproofness.

Drawings

Fig. 1 is a schematic top view of a sliding groove portion of a sliding way of an opposite-type side-hung sliding door of the present invention; fig. 2 is a schematic view of the overlooking structure of the left and right sliding doors of the slide way of the butt-closing type flat-open sliding door of the present invention with the elastic guide wheel and the guide slider; fig. 3 is a schematic view of the top view structure of the sliding way of the involutory side-hung sliding door and the sliding door thereof when the left and right sliding doors move to the right side and open the left side together; fig. 4 is the top view structure schematic diagram of the utility model discloses to box-like flat-open push-and-pull door slide and push-and-pull door when controlling the push-and-pull door and to right. Fig. 5 is a schematic structural view of a sliding door to which the sliding rail of the novel oppositely-closing type side-hung sliding door is applied when a left side door is opened; fig. 6 is a schematic view of the sliding door of the sliding way of the novel oppositely-closing type flat-open sliding door in the main view structure when the sliding door is oppositely closed.

Detailed Description

As shown in fig. 1-4, the slide way of the utility model comprises a left and a right double-inclined guide horizontal sliding chutes 2 arranged at the inner top and the inner bottom of a door frame 1, and a guide mechanism and a universal sliding support mechanism which are respectively arranged at the top and the bottom of a left and a right sliding doors 3 which are matched with the door frame 1 and are matched with the sliding chutes; the left and right double-oblique guide transverse sliding grooves 2 are formed by forward forming two ends of a transverse sliding groove and a middle part of the transverse sliding groove respectively with a front oblique sliding groove 21 with two ends inclined outwards and a middle oblique sliding groove 22 with two middle inclined outwards, and the front part of the middle part of the door frame 1 is provided with a middle vertical baffle 4 for shielding a forward involution middle seam of the left and right sliding doors 3. The sliding door has the advantages that the sliding door body size can be obviously reduced, and the two sliding doors are symmetrical and attractive after being closed. The transverse sliding groove 2, the front outer oblique guide end oblique sliding grooves 21 at the two ends and the middle outer oblique guide middle oblique sliding grooves 22 at the two middle parts have the same width and the same depth; the guide mechanism and the universal sliding support mechanism at least comprise a left sliding door 3, a right sliding door 3, a pair of sliding blocks 5 which are arranged at the top and the bottom of the left sliding door and the right sliding door and are sleeved with the transverse sliding groove 2, the front outer oblique guide end oblique sliding groove 21 at the two ends and the middle outer oblique guide middle oblique sliding groove 22 in the middle of the two ends in a sliding way. The sliding blocks 5 are rhombic sliding blocks, and the longitudinal width and the transverse width of the sliding blocks are the same. Between the middle vertical baffle 4 and the two side door frames 1, or between the two side door frames, a front baffle 6 for covering the left and right double-oblique guide transverse chutes 2, the guide mechanism and the universal sliding support mechanism is arranged, so that the sealing attractiveness is better, and the sliding door body size can be favorably reduced. The middle part of the outer side of the front of the left and right sliding doors 3 is provided with a side handle 7 for the sliding doors.

The left outer oblique guide end oblique sliding chute 21 and the left outer oblique guide middle oblique sliding chute 22 are used for enabling the left sliding door 3 to move forwards to the left front in position, and the right outer oblique guide end oblique sliding chute 21 and the right outer oblique guide middle oblique sliding chute 22 are used for enabling the right sliding door 3 to move forwards to the right front in position; when the sliding doors 3 on the two sides move forward obliquely and in place, the middle vertical baffle 4 covers the involutive middle seam between the left sliding door and the right sliding door.

The oblique spout 22 in oblique spout 22 the place ahead moves to stopping the position left in oblique spout 21 of left side push-and-pull door 3 via left outer oblique direction end and outer oblique direction, and the oblique spout 22 moves to stopping the position right in oblique spout 21 of outer oblique direction end and outer oblique direction in the push-and-pull door of right side push-and-pull door via the outer oblique direction end on right side, put in the front middle side of push-and-pull door 3 about the laminating of perpendicular baffle 4 back, make two push-and-pull doors 3 be in the closed condition.

The left side sliding door 3 moves forwards to a stop position from the left front side through the left outer oblique guide end oblique sliding groove 21 and the outer oblique guide middle oblique sliding groove 22, and the right side sliding door 3 exits from the right outer oblique guide end oblique sliding groove 21 and the right outer oblique guide middle oblique sliding groove 22 and moves to the left end along the transverse sliding groove, so that the right side sliding door 3 is in an open state; the oblique spout 22 moves to the position of stopping in oblique spout 21 of the outer oblique direction end and the outer oblique direction of right side push-and-pull door 3 via the right side, and when left side push-and-pull door 3 withdraws from left outer oblique direction end oblique spout 21 and outer oblique direction in oblique spout 22 and moves to the right end along horizontal spout, left side push-and-pull door 3 is in the open mode.

The universal sliding support mechanism is characterized in that the top and the bottom of a left sliding door 3 are respectively provided with an outer oblique guide left end oblique sliding groove 21 and a transverse sliding groove 2 which are matched with the left outer oblique guide left end oblique sliding groove 21 and the transverse sliding groove 2 in a sliding manner, and an outer oblique guide left end oblique sliding block 5 and an outer oblique guide left middle oblique sliding block 5 which are matched with the left outer oblique guide left middle oblique sliding groove 22 and the transverse sliding groove 2 in a sliding manner, universal balls 8 are respectively arranged under the outer oblique guide left end oblique sliding block 5 and the outer oblique guide left middle oblique sliding block 5 at the bottom or at the top and the bottom of the left sliding door 3, and a left pair of universal bottom wheels can be arranged at the bottom or; the universal sliding support mechanism is that the top and the bottom of the right sliding door 3 are respectively provided with an outer oblique guide right-end oblique sliding groove 21 and a transverse sliding groove 2 which are in sliding fit with the right side and an outer oblique guide right-end oblique sliding block 5 which are in sliding fit with the right side and the right side, the outer oblique guide right-end oblique sliding block 5 and the outer oblique guide right-end oblique sliding block 5 of the right sliding door 3 or the top and the bottom and the outer oblique guide right-end oblique sliding block 5 are respectively provided with universal balls 8 below the right-end oblique sliding block 5, and the right sliding door 3 or the top and the bottom can also be provided with a right pair. The sliding block 5 or universal bottom wheel or universal ball 8 on the top of the sliding door 3 is fixedly arranged on the top of the sliding door 3 or the sliding block 5 on the top of the sliding door 3 through a vertical telescopic support supported by a vertical spring.

A guide mechanism is arranged on an outer oblique guide left middle oblique slide block 5 and an outer oblique guide right middle oblique slide block 5 and is used for guiding the outer oblique guide left middle oblique slide block 5 and the outer oblique guide right middle oblique slide block 5 into an outer oblique guide left middle oblique slide groove 22 and an outer oblique guide right middle oblique slide groove 22 from a transverse slide groove 2 respectively; the other guiding mechanism is that the two ends of the transverse sliding chute 2 are provided with end inclined walls which are extended along the outer side wall of the inclined sliding chute 21 at the left end and are guided along the outer side wall of the inclined sliding chute 21 at the right end. The sliding block 5 is a rhombic sliding block which inclines outwards. The guide mechanism is that the outer oblique guide left-middle oblique slide block 5 and the outer oblique guide right-middle oblique slide block 5 are respectively provided with a guide wheel 9 which is respectively used for being matched with the outer side wall of the outer oblique guide left-middle oblique slide groove 22 and the outer oblique guide right-middle oblique slide groove 22 in a sliding way when being popped up by elastic supports; pits 80 for limiting the forward oblique stop position of the universal ball 8 are respectively arranged on the top wall and the bottom wall of the forward oblique end area of the outward oblique guide left end oblique sliding groove 21, the outward oblique guide left middle oblique sliding groove 22, the outward oblique guide right end oblique sliding groove 21 and the outward oblique guide right middle oblique sliding groove 22. The concave pit 80 is a semicircular or semi-elliptic spherical shell concave pit with the depth smaller than the exposed height of the universal ball 8.

The rear concave platforms formed by the outer oblique guide left-middle oblique sliding block 5 and the outer oblique guide right-middle oblique sliding block 5 are fixedly provided with guide wheels 9 which extend to the outer oblique guide left-middle oblique sliding groove 22 and the outer oblique guide right-middle oblique sliding groove 22 when extending out respectively through the horizontal oblique extending elastic telescopic supporting seat 90. The guide wheel frame is provided with a guide wheel frame, the guide wheel frame is provided with a guide wheel, and the guide wheel frame extends to the outer oblique guide left-middle oblique sliding groove and the outer oblique guide right-middle oblique sliding groove respectively.

As shown in fig. 5-6, the sliding door using the sliding way of the involutory side-hung sliding door of the utility model is provided with left and right double-inclined guiding horizontal sliding chutes 2 at the inner top and the inner bottom of the door frame 1, and guiding mechanisms and universal sliding supporting mechanisms which are matched with the sliding chutes and are respectively arranged at the top and the bottom of the left and right sliding doors 3 which are matched with the door frame 1; the left and right double-oblique guide transverse sliding grooves 2 are formed by forward forming two ends of a transverse sliding groove and a middle part of the transverse sliding groove respectively with a front oblique sliding groove 21 with two ends inclined outwards and a middle oblique sliding groove 22 with two middle inclined outwards, and the front part of the middle part of the door frame 1 is provided with a middle vertical baffle 4 for shielding a forward involution middle seam of the left and right sliding doors 3. The sliding door has the advantages that the sliding door body size can be obviously reduced, and the two sliding doors are symmetrical and attractive after being closed. The transverse sliding groove 2, the front outer oblique guide end oblique sliding grooves 21 at the two ends and the middle outer oblique guide middle oblique sliding grooves 22 at the two middle parts have the same width and the same depth; the guide mechanism and the universal sliding support mechanism at least comprise a left sliding door 3, a right sliding door 3, a pair of sliding blocks 5 which are arranged at the top and the bottom of the left sliding door and the right sliding door and are sleeved with the transverse sliding groove 2, the front outer oblique guide end oblique sliding groove 21 at the two ends and the middle outer oblique guide middle oblique sliding groove 22 in the middle of the two ends in a sliding way. The sliding blocks 5 are rhombic sliding blocks, and the longitudinal width and the transverse width of the sliding blocks are the same. Between the middle vertical baffle 4 and the two side door frames 1, or between the two side door frames, a front baffle 6 for covering the left and right double-oblique guide transverse chutes 2, the guide mechanism and the universal sliding support mechanism is arranged, so that the sealing attractiveness is better, and the sliding door body size can be favorably reduced. The middle part of the outer side of the front of the left and right sliding doors 3 is provided with a side handle 7 for the sliding doors.

The left outer oblique guide end oblique sliding chute 21 and the left outer oblique guide middle oblique sliding chute 22 are used for enabling the left sliding door 3 to move forwards to the left front in position, and the right outer oblique guide end oblique sliding chute 21 and the right outer oblique guide middle oblique sliding chute 22 are used for enabling the right sliding door 3 to move forwards to the right front in position; when the sliding doors 3 on the two sides move forward obliquely and in place, the middle vertical baffle 4 covers the involutive middle seam between the left sliding door and the right sliding door.

The oblique spout 22 in oblique spout 22 the place ahead moves to stopping the position left in oblique spout 21 of left side push-and-pull door 3 via left outer oblique direction end and outer oblique direction, and the oblique spout 22 moves to stopping the position right in oblique spout 21 of outer oblique direction end and outer oblique direction in the push-and-pull door of right side push-and-pull door via the outer oblique direction end on right side, put in the front middle side of push-and-pull door 3 about the laminating of perpendicular baffle 4 back, make two push-and-pull doors 3 be in the closed condition.

The left side sliding door 3 moves forwards to a stop position from the left front side through the left outer oblique guide end oblique sliding groove 21 and the outer oblique guide middle oblique sliding groove 22, and the right side sliding door 3 exits from the right outer oblique guide end oblique sliding groove 21 and the right outer oblique guide middle oblique sliding groove 22 and moves to the left end along the transverse sliding groove, so that the right side sliding door 3 is in an open state; the oblique spout 22 moves to the position of stopping in oblique spout 21 of the outer oblique direction end and the outer oblique direction of right side push-and-pull door 3 via the right side, and when left side push-and-pull door 3 withdraws from left outer oblique direction end oblique spout 21 and outer oblique direction in oblique spout 22 and moves to the right end along horizontal spout, left side push-and-pull door 3 is in the open mode.

The universal sliding support mechanism is characterized in that the top and the bottom of a left sliding door 3 are respectively provided with an outer oblique guide left end oblique sliding groove 21 and a transverse sliding groove 2 which are matched with the left outer oblique guide left end oblique sliding groove 21 and the transverse sliding groove 2 in a sliding manner, and an outer oblique guide left end oblique sliding block 5 and an outer oblique guide left middle oblique sliding block 5 which are matched with the left outer oblique guide left middle oblique sliding groove 22 and the transverse sliding groove 2 in a sliding manner, universal balls 8 are respectively arranged under the outer oblique guide left end oblique sliding block 5 and the outer oblique guide left middle oblique sliding block 5 at the bottom or at the top and the bottom of the left sliding door 3, or a left pair of universal bottom wheels are arranged at the bottom or; the universal sliding support mechanism is that the top and the bottom of the right sliding door 3 are respectively provided with an outer oblique guide right-end oblique sliding groove 21 and a transverse sliding groove 2 which are in sliding fit with the right side and an outer oblique guide right-end oblique sliding block 5 which are in sliding fit with the right side and the right side, the outer oblique guide right-end oblique sliding block 5 and the outer oblique guide right-end oblique sliding block 5 of the right sliding door 3 or the top and the bottom and the outer oblique guide right-end oblique sliding block 5 are respectively provided with universal balls 8 below the right-end oblique sliding block 5, and the right sliding door 3 or the top and the bottom can also be provided with a right pair. The sliding block 5 or universal bottom wheel or universal ball 8 on the top of the sliding door 3 is fixedly arranged on the top of the sliding door 3 or the sliding block 5 on the top of the sliding door 3 through a vertical telescopic support supported by a vertical spring.

A guide mechanism is arranged on an outer oblique guide left middle oblique slide block 5 and an outer oblique guide right middle oblique slide block 5 and is used for guiding the outer oblique guide left middle oblique slide block 5 and the outer oblique guide right middle oblique slide block 5 into an outer oblique guide left middle oblique slide groove 22 and an outer oblique guide right middle oblique slide groove 22 from a transverse slide groove 2 respectively; the other guiding mechanism is that the two ends of the transverse sliding chute 2 are provided with end inclined walls which are extended along the outer side wall of the inclined sliding chute 21 at the left end and are guided along the outer side wall of the inclined sliding chute 21 at the right end. The sliding block 5 is a rhombic sliding block which inclines outwards. The guide mechanism is that the outer oblique guide left-middle oblique slide block 5 and the outer oblique guide right-middle oblique slide block 5 are respectively provided with a guide wheel 9 which is respectively used for being matched with the outer side wall of the outer oblique guide left-middle oblique slide groove 22 and the outer oblique guide right-middle oblique slide groove 22 in a sliding way when being popped up by elastic supports; pits 80 for limiting the forward oblique stop position of the universal ball 8 are respectively arranged on the top wall and the bottom wall of the forward oblique end area of the outward oblique guide left end oblique sliding groove 21, the outward oblique guide left middle oblique sliding groove 22, the outward oblique guide right end oblique sliding groove 21 and the outward oblique guide right middle oblique sliding groove 22. The concave pit 80 is a semicircular or semi-elliptic spherical shell concave pit with the depth smaller than the exposed height of the universal ball 8.

The rear concave platforms formed by the outer oblique guide left-middle oblique sliding block 5 and the outer oblique guide right-middle oblique sliding block 5 are fixedly provided with guide wheels 9 which extend to the outer oblique guide left-middle oblique sliding groove 22 and the outer oblique guide right-middle oblique sliding groove 22 when extending out respectively through the horizontal oblique extending elastic telescopic supporting seat 90. The guide wheel frame is provided with a guide wheel frame, the guide wheel frame is provided with a guide wheel, and the guide wheel frame extends to the outer oblique guide left-middle oblique sliding groove and the outer oblique guide right-middle oblique sliding groove respectively. The guide wheels which extend to the outside to lead the left middle oblique sliding chute and the outside to lead the right middle oblique sliding chute are respectively arranged on the outside to lead the left middle oblique sliding chute and the outside to lead the right middle oblique sliding chute when the outside to lead the left middle oblique sliding block and the outside to lead the right middle oblique sliding chute are fixedly arranged on the elastic telescopic supporting seat which extends to the outside to lead the left middle oblique sliding chute and the outside to lead the right middle oblique sliding chute when the outside to lead the left middle oblique sliding block and the outside to lead the right middle oblique sliding chute respectively.

In a word, the utility model discloses to box-like flat-open push-and-pull door slide and push-and-pull door thereof has and can show and alleviate the push-and-pull door volume, and two push-and-pull doors are closed the good advantage that symmetry is pleasing to the eye again of back leakproofness.

Claims (10)

1. The slide way of the oppositely-closing type side-hung sliding door is characterized by comprising left and right double-inclined guide transverse slide grooves which are arranged at the inner top and the inner bottom of a door frame, and guide mechanisms and universal sliding support mechanisms which are respectively arranged at the top and the bottom of the left and right sliding doors which are matched with the door frame and are matched with the slide grooves; the left and right double-oblique guide transverse sliding grooves are formed in the two ends and the middle part of each transverse sliding groove, and are respectively provided with a front oblique sliding groove with two ends and a front oblique guide end and a middle oblique guide middle oblique sliding groove with two middle parts, and the front part of the middle part of the door frame is provided with a middle vertical baffle plate for shielding the front involution middle seam of the left and right sliding doors.

2. The slide way of the oppositely-closing type side-hung sliding door according to claim 1, wherein the oblique sliding chute at the outer oblique guiding end on the left side and the oblique sliding chute in the outer oblique guiding middle are used for the left side sliding door to move forwards and to be in place leftwards and forwards, and the oblique sliding chute at the outer oblique guiding end on the right side and the oblique sliding chute in the outer oblique guiding middle are used for the right side sliding door to move forwards and to be in place rightwards and forwards; when the sliding doors at two sides move forwards in place obliquely, the middle vertical baffle covers the involution center seam between the left sliding door and the right sliding door.

3. The slide way of the oppositely-closing type side-hung sliding door according to claim 2, wherein when the left side sliding door moves forwards to a stop position from the left front side through the left outer oblique guide end oblique sliding chute and the outer oblique guide middle oblique sliding chute, and the right side sliding door moves forwards to the right front side through the right outer oblique guide end oblique sliding chute and the outer oblique guide middle oblique sliding chute to the stop position, the rear surface of the middle vertical baffle plate is attached to the middle side edge of the front surface of the left sliding door and the right sliding door, so that the two sliding doors are in a closed state;

the left side sliding door moves forwards to a stop position from the left front side through the outer oblique guide end oblique sliding groove and the outer oblique guide middle oblique sliding groove on the left side, and the right side sliding door exits from the outer oblique guide end oblique sliding groove and the outer oblique guide middle oblique sliding groove on the right side and moves to the left end along the transverse sliding groove, so that the right side sliding door is in an open state; the oblique spout moves to the position of stopping in oblique spout and the outer oblique direction of oblique spout in the direction of the outer oblique direction end on right side push-and-pull door, and when left side push-and-pull door withdrawed from left outer oblique direction end oblique spout and the oblique spout moves to the right end along horizontal spout in the outer oblique direction, left side push-and-pull door was in the open mode.

4. The slide way of the involutory flat-open sliding door according to any one of claims 1 to 3, characterized in that the universal sliding support mechanism is an outer oblique guide left-end oblique slider and an outer oblique guide left-middle oblique slider which are respectively arranged at the top and the bottom of the left sliding door and are respectively matched with the left outer oblique guide left-end oblique sliding chute and the left lateral sliding chute in a sliding manner, and are matched with the left outer oblique guide left-middle oblique sliding chute and the lateral sliding chute in a sliding manner, and universal balls are respectively arranged under the outer oblique guide left-end oblique slider and the outer oblique guide left-middle oblique slider at the bottom or at the top and the bottom of the left sliding door; or the bottom or the top and the bottom of the left sliding door are provided with a left pair of universal bottom wheels;

the universal sliding support mechanism is characterized in that the top and the bottom of a right sliding door are respectively provided with an outer oblique guide right-end oblique sliding chute and a transverse sliding chute which are matched with the outer oblique guide right-end oblique sliding chute and the transverse sliding chute on the right side in a sliding manner, and an outer oblique guide right-end oblique sliding block and an outer oblique guide right-middle oblique sliding block which are matched with the outer oblique guide right-end oblique sliding chute and the transverse sliding chute on the right side in a sliding manner; or the bottom or the top and the bottom of the right sliding door are provided with a right pair of universal bottom wheels;

a guide mechanism is arranged on an outer oblique guide left-middle oblique slide block and an outer oblique guide right-middle oblique slide block and is used for guiding the outer oblique guide left-middle oblique slide block and the outer oblique guide right-middle oblique slide block into an outer oblique guide left-middle oblique slide groove and an outer oblique guide right-middle oblique slide groove from a transverse slide groove respectively; the other guiding mechanism is that two ends of the transverse sliding groove are provided with end inclined walls which are used for guiding the outer side wall of the left-end inclined sliding groove and the outer side wall of the right-end inclined sliding groove in a forward extending and outward inclined manner.

5. The slide way of the oppositely-closing type side-hung sliding door according to claim 4, wherein the guide mechanism is a guide wheel which is respectively matched with the outer side wall of the outer obliquely-guided left-middle oblique sliding chute and the outer obliquely-guided right-middle oblique sliding chute in a sliding way when the outer obliquely-guided left-middle oblique sliding block and the outer obliquely-guided right-middle oblique sliding block are respectively provided with an elastic support for popping; the left oblique sliding groove and the right oblique sliding groove of the outer oblique guide left end and the left oblique sliding groove and the right oblique sliding groove of the outer oblique guide right end are respectively provided with a pit for limiting the forward oblique stopping position of the universal ball on the top wall and the bottom wall of the forward oblique end area of the right oblique sliding groove.

6. The slide way of the oppositely-closing type side-hung sliding door according to claim 5, wherein the outward-inclined left-middle-inclined slide block and the outward-inclined right-middle-inclined slide block are respectively fixedly provided with a guide wheel which extends outwards and obliquely to the left-middle-inclined slide groove and the outward-inclined right-middle-inclined slide groove when extending out through the horizontally and obliquely extending elastic telescopic support seat; or the outer oblique guide left-middle oblique sliding block and the outer oblique guide right-middle oblique sliding block are all outward-oblique rhombic sliding blocks, outer side guide wheel frames which extend to the outer oblique guide left-middle oblique sliding groove and the outer oblique guide right-middle oblique sliding groove and are supported by return springs are arranged on the outer sides of the outer side walls of the outer oblique guide left-middle oblique sliding groove and the outer oblique guide right-middle oblique sliding groove respectively, and a guide wheel is arranged at the front end of each guide wheel frame.

7. A sliding door using the slide way of the involutory side-hung sliding door of claim 1, characterized in that the inner top and the inner bottom of the door frame are provided with a left and a right double-inclined guide transverse slide grooves, and the top and the bottom of the left and the right sliding doors matched with the door frame are respectively provided with a guide mechanism and a universal sliding support mechanism matched with the slide grooves; the left and right double-oblique guide transverse sliding grooves are formed in the two ends and the middle part of each transverse sliding groove, and are respectively provided with a front oblique sliding groove with two ends and a front oblique guide end and a middle oblique guide middle oblique sliding groove with two middle parts, and the front part of the middle part of the door frame is provided with a middle vertical baffle plate for shielding the front involution middle seam of the left and right sliding doors.

8. The sliding door according to claim 7, wherein the left outer oblique guide end oblique sliding chute and the outer oblique guide middle oblique sliding chute allow the left sliding door to move forward to the left front and to be in place, and the right outer oblique guide end oblique sliding chute and the outer oblique guide middle oblique sliding chute allow the right sliding door to move forward to the right front and to be in place; when the sliding doors at two sides move forwards in place obliquely, the middle vertical baffle covers the involution center seam between the left sliding door and the right sliding door.

9. The sliding door according to claim 7 or 8, wherein the universal sliding support mechanism is an outer oblique guide left-end oblique slider and an outer oblique guide left-middle oblique slider which are respectively arranged at the top and the bottom of the left sliding door and are respectively matched with the left outer oblique guide left-end oblique sliding chute and the left lateral sliding chute in a sliding manner, and are respectively matched with the left outer oblique guide left-middle oblique sliding chute and the left lateral sliding chute in a sliding manner, and universal balls are respectively arranged under the outer oblique guide left-end oblique slider and the outer oblique guide left-middle oblique slider at the bottom or at the top and the bottom of the left sliding door; or the bottom or the top and the bottom of the left sliding door are provided with a left pair of universal bottom wheels;

the universal sliding support mechanism is characterized in that the top and the bottom of a right sliding door are respectively provided with an outer oblique guide right-end oblique sliding chute and a transverse sliding chute which are matched with the outer oblique guide right-end oblique sliding chute and the transverse sliding chute on the right side in a sliding manner, and an outer oblique guide right-end oblique sliding block and an outer oblique guide right-middle oblique sliding block which are matched with the outer oblique guide right-end oblique sliding chute and the transverse sliding chute on the right side in a sliding manner; or the bottom or the top and the bottom of the right sliding door are provided with a right pair of universal bottom wheels;

a guide mechanism is arranged on an outer oblique guide left-middle oblique slide block and an outer oblique guide right-middle oblique slide block and is used for guiding the outer oblique guide left-middle oblique slide block and the outer oblique guide right-middle oblique slide block into an outer oblique guide left-middle oblique slide groove and an outer oblique guide right-middle oblique slide groove from a transverse slide groove respectively; the other guiding mechanism is that two ends of the transverse sliding groove are provided with end inclined walls which are used for guiding the outer side wall of the left-end inclined sliding groove and the outer side wall of the right-end inclined sliding groove in a forward extending and outward inclined manner.

10. The sliding door according to claim 9, wherein the guide mechanism is a guide wheel for sliding engagement with the outer side wall of the outer oblique guide left-middle oblique sliding groove and the outer oblique guide right-middle oblique sliding groove respectively when the outer oblique guide left-middle oblique sliding block and the outer oblique guide right-middle oblique sliding block are respectively provided with an elastic support for springing out; the left oblique sliding groove and the right oblique sliding groove of the outer oblique guide left end and the left oblique sliding groove and the right oblique sliding groove of the outer oblique guide right end are respectively provided with a pit for limiting the forward oblique stopping position of the universal ball on the top wall and the bottom wall of the forward oblique end area of the right oblique sliding groove.

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