CN111425016A - Section bar connection structure and shower room - Google Patents

Abstract

The invention discloses a profile connecting structure and a shower room, wherein the profile connecting structure is used for realizing the assembly and disassembly of a first profile and a second profile which are arranged in parallel along a first direction, and the first direction is vertical to the length direction of the profiles; the connecting structure comprises a first limiting piece and a second limiting piece, and the first limiting piece is fixedly connected to the first section bar; the second limiting piece is configured to be in sliding connection with the second profile only along the length direction; the first limiting part is suitable for supporting the second limiting part in the length direction when the second limiting part slides to the first locking position, and limiting the second limiting part in the first direction. The sectional material connecting structure and the shower room provided by the invention can not damage the sectional material when being installed, so that the overall appearance and the service life of the shower room can be improved.

Description

Section bar connection structure and shower room

Technical Field

The invention relates to the field of but not limited to bathroom products, in particular to a profile connecting structure and a shower room.

Background

When people are decorated, a shower room is usually arranged in a bathroom and is usually formed by combining a plurality of shower doors with glass plates. When each shower door is installed, a fixed frame is usually fixed on a wall body, then an adjusting frame for loading a glass plate is close to the fixed frame along the horizontal direction, the end distance of the fixed frame and the adjusting frame is adjusted to enable the adjusting frame to be in a vertical state, and finally holes are drilled in the side faces of the fixed frame and the adjusting frame and are fastened together through threaded fasteners and the like.

Because shower door frame uses the aluminum product to make usually, the later stage drilling damages the frame surface easily, influences the outward appearance of product, even causes the damage of adjusting the frame or fixed frame. Particularly, for the shower door, the side surface parallel to the shower glass is a part which can be directly observed by a user when the user enters or leaves the toilet, and is particularly obvious, so that the drilling of the shower door can greatly influence the overall appearance of the shower door and the shower room. In addition, because the drilling needs the cooperation of at least two installers just can accomplish, it takes longer time, and the installation is comparatively inconvenient.

Disclosure of Invention

The present invention has been made to overcome the above-mentioned drawbacks and problems occurring in the prior art, and an object of the present invention is to provide a sectional material coupling structure and a shower room, which do not damage at least the sectional material when installed, thereby improving the overall appearance and lifespan of the shower room.

In order to achieve the above object, a first aspect of the present invention provides a profile connecting structure for enabling a first profile and a second profile arranged in parallel to be assembled and disassembled along a first direction, wherein the first direction is perpendicular to the length direction of the profiles; the connection structure includes: the first limiting piece is fixedly connected to the first section bar; and a second stop configured to be slidably coupled to the second profile only along the length direction; the first limiting part is suitable for supporting the second limiting part in the length direction when the second limiting part slides to the first locking position, and limiting the second limiting part in the first direction.

In one embodiment: after the first profile and the second profile are connected, the second limiting piece is shielded by the first profile or the second profile in the direction perpendicular to the length direction and the first direction; the connecting structure further comprises an operating member which is rotatably connected with the second section and is configured to be actuated at the end part of the second section; the second locating part is connected with a second profile in a rotation stopping mode, the operating part is in spiral fit with the second locating part, and the spiral axis of the operating part extends in the length direction to drive the second locating part to slide in the length direction relative to the second profile.

In one embodiment: the operating piece is fixedly connected with the first profile, and the first support piece is fixedly connected with the second profile and supports the operating piece in the length direction.

In one embodiment: the first supporting piece is provided with a yielding hole for the operating piece to pass through.

In one embodiment: the first limiting part is provided with a yielding groove which is open towards the first direction, and the operating part is slidably arranged in the yielding groove along the first direction.

In one embodiment: further comprising: the third limiting piece is fixedly connected to the first section bar; the fourth limiting part is configured to be connected to the second profile in a sliding mode only along the length direction and is connected with the second profile in a rotation stopping mode; the fourth limiting part is in screw fit with the operating part in a screw direction opposite to that of the second limiting part so as to be driven by the fourth limiting part to slide relative to the second profile along a direction opposite to that of the second limiting part; the third limiting member is suitable for limiting the fourth limiting member in the first direction when the fourth limiting member slides to the second locking position.

In one embodiment: further comprising: and the first supporting piece is fixedly connected to the second section bar and is suitable for supporting the fourth limiting piece in the length direction.

In one embodiment, the operating member includes: the first screw is in threaded connection with the second limiting piece along a first spiral direction; the second screw rod extends in the same direction as the first screw rod and is in threaded connection with the fourth limiting piece along a second spiral direction opposite to the first spiral direction; and the connecting rod is fixedly connected with the first screw rod and the second screw rod so that the operating piece can synchronously drive the second limiting piece and the fourth limiting piece.

In one embodiment: the second limiting piece is fixed relative to the second section bar in the first direction; the first limiting piece and the second limiting piece are both provided with tooth parts which can be meshed with each other, and the tooth parts comprise a plurality of teeth which are arranged at intervals along a first direction; when the second limiting piece slides to the first locking position, the tooth part of the second limiting piece is meshed with the tooth part of the first limiting piece so as to limit the relative movement of the two limiting pieces and the two profiles along the first direction.

In one embodiment: the second limiting piece is fixed relative to the second section bar in the first direction; the second limiting piece is provided with a dovetail sliding block; the connection structure further includes: the sliding matching seat is fixedly connected to the second section bar and is provided with a dovetail sliding chute; dovetail chute and dovetail slider follow length direction sliding fit in order to realize the second locating part is followed length direction sliding fit connects in the second section bar, and the relative second section bar in first direction is fixed.

In one embodiment: the first section bar and the second section bar are in splicing fit along the first direction, and splicing fitting faces parallel to the first direction and the length direction are formed so as to limit relative movement of the first section bar and the second section bar in a direction perpendicular to the length direction and the first direction.

In order to achieve the above object, a second aspect of the present invention provides a profile connecting structure for enabling a first profile and a second profile arranged in parallel to be assembled and disassembled in a first direction, wherein the first direction is perpendicular to the length direction of the profiles; the connection structure includes: the first limiting piece is fixedly connected to the first section bar; the second limiting piece is configured to be connected to the second profile in a sliding mode only along the length direction, and is limited by the first limiting piece in the first direction when the second limiting piece slides to the locking position; the operating piece is rotationally connected with the second section bar and drives the second limiting piece to slide to the locking position through screw fit; and the second supporting piece is fixedly connected to the first profile or the second profile and is suitable for supporting the operating piece in the length direction.

In order to achieve the above object, a third aspect of the present invention provides a shower room, comprising: a first profile secured to the wall; a second section bar connected to the first section bar by the section bar connecting structure according to any one of the above technical solutions; and the first shower glass is arranged on the second section bar.

In one embodiment, the method further comprises: the third section bar is fixed on the wall body; a fourth section bar, which comprises a section bar fixing part and a section bar rotating part which are hinged with each other; the section fixing part is connected to the third section through the section connecting structure; and the second shower glass is arranged on the section bar rotating part and rotates relative to the wall body.

In one embodiment: the first shower glass and the second shower glass are vertically arranged; the shower room further comprises: the fifth section bar is fixedly connected with one end, far away from the second section bar, of the first shower glass; and the sixth section bar is connected to the fifth section bar through the section bar connecting structure and is matched with one end stop of the second shower glass far away from the fourth section bar.

Compared with the prior art, the invention has the following beneficial effects:

(1) according to the section bar connecting structure, the first limiting piece and the second limiting piece which can establish a limiting matching relation in the first direction are used as the middle connecting pieces and are respectively configured to be fixedly connected to the first section bar and only slide to the second section bar along the length direction, so that the second limiting piece can be locked or unlocked to the first limiting piece in the first direction by sliding, and the first section bar and the second section bar can be assembled and disassembled in the first direction; therefore, when the section bar is connected, the section bar does not need to be drilled in the later period in the direction vertical to the length direction and the first direction, the section bar cannot be damaged, and the overall appearance of a section bar product can be improved;

(2) according to the section bar connecting structure, when the section bars are connected, the first limiting piece has a supporting effect on the second limiting piece in the length direction, so that the second limiting piece cannot be reversely separated from the locking position due to self factors when the second limiting piece is not disturbed, and stable connection of the section bars under the conventional condition is guaranteed;

(3) the profile connecting structure provided by the embodiment of the invention is provided with an operating piece, wherein the operating piece is configured to be actuated at the end part of the second profile and can drive the second limiting piece to slide; an installer can operate the operating part at the end part of the profile, so that the second limiting part is driven, convenience is provided for the installer to operate the second limiting part, and the problem that the installer cannot operate the second limiting part from the side surface of the profile when the two profiles approach each other along the first direction due to the fact that the second limiting part is shielded by the first profile or the second profile in the second direction after the first profile and the second profile are connected in some scenes is solved;

(4) according to the profile connecting structure, the operating part is configured to be in spiral fit with the second limiting part, and the second limiting part is in rotation stopping connection with the second profile, so that the second limiting part is driven to slide along the length direction by rotating the operating part, and the profile connecting structure has the advantages of stable transmission and labor saving; the operating part and the second limiting part are in screw fit, so that the operating part and the second limiting part are relatively fixed in the length direction when the operating part is not actuated, and the sliding stroke of the second limiting part is convenient to control;

(5) in the section bar connecting structure of the embodiment of the invention, the first supporting piece is fixedly connected with the second section bar and supports the operation piece in the length direction; before the whole body formed by the operating part, the second limiting part and the second profile is not connected with the first profile and the first limiting part, an installer does not need to worry about that the operating part and the second limiting part slide to exceed the locking position too much to cause the increase of installation procedures and difficulty in installation, and does not need to apply continuous acting force to the whole body formed by the operating part and the second limiting part to keep the whole body at a position suitable for actuating the whole body;

(6) according to the section bar connecting structure, the first supporting piece is provided with the abdicating hole for the operating piece to pass through, so that the operating piece can be guided when being connected to the second section bar;

(7) in the profile connecting structure provided by the embodiment of the invention, the first limiting piece is provided with the abdicating groove which is opened towards the first direction, and the operating piece is arranged in the abdicating groove in a sliding manner along the first direction, so that the first profile and the second profile are closer to each other in the first direction after being connected;

(8) the profile connecting structure in the embodiment of the invention further comprises a third limiting part and a fourth limiting part, wherein the third limiting part limits the fourth limiting part in the first direction when the fourth limiting part slides to the corresponding locking position of the fourth limiting part; when the second limiting part and the fourth limiting part are in corresponding locking positions, the second limiting part and the fourth limiting part are driven by the operating part to abut against the first limiting part and the third limiting part along opposite directions, so that the directions of the second limiting part and the fourth limiting part which are separated from the corresponding locking positions are opposite, the second limiting part and the fourth limiting part can be mutually limited to be separated from the corresponding locking positions at the corresponding locking positions to form interlocking, and when external disturbance occurs, the first profile and the second profile can still be stably connected due to the interlocking relationship;

(9) in the section bar connecting structure provided by the embodiment of the invention, the operating part is in screw fit with the second limiting part and the fourth limiting part, so that a screw pre-tightening force can be generated, the second limiting part and the fourth limiting part are respectively and continuously abutted against the first limiting part and the third limiting part along the length direction, and the abutting directions are opposite, so that a tensioning effect is achieved, a certain friction force can be generated, and the limiting fit of each limiting part in the first direction is tighter;

(10) in the profile connecting structure of the embodiment of the invention, when the second profile is connected to the first profile, the first limiting piece provides a supporting function for the whole body formed by the second limiting piece, the fourth limiting piece and the operating piece, so that the second limiting piece and the fourth limiting piece are prevented from being separated from corresponding locking positions; the first supporting piece provides a supporting function for the whole body through the fourth limiting piece, so that the second limiting piece and the fourth limiting piece are prevented from sliding to exceed corresponding locking positions;

(11) according to the section bar connecting structure, the operating part is rotationally connected with the second section bar and comprises the first screw rod, the second screw rod and the connecting rod which extend in the same direction and are fixedly connected with each other, the spiral directions of the first screw rod and the second screw rod are opposite, and the first screw rod and the second screw rod are respectively in spiral fit with the second limiting part and the fourth limiting part, so that the first screw rod and the second screw rod can be synchronously driven to slide to or from corresponding locking positions along opposite directions, and the assembly and disassembly efficiency is high; furthermore, the operating member of split construction facilitates its easier assembly and connection to the second section bar with only a small operating space in the length direction;

(12) according to the section bar connecting structure, the limiting matching of the limiting piece in the first direction is achieved in a tooth meshing mode, and as the teeth of the tooth part are arranged at intervals in the first direction and are relatively small in distance, the teeth of the tooth part can still be meshed adaptively under the condition of low assembling precision, the assembling power is high, and the efficiency is correspondingly improved; in addition, when the distance between the first profile and the second profile after connection needs to be adjusted, because the teeth of the tooth part are arranged at intervals along the first direction, when the first profile and the second profile are at different distances, the first limiting part and the second limiting part can still realize limiting matching in the first direction, so that the profile connection structure has an adjusting function, namely, the distance and the angle between the first profile and the second profile after connection along the first direction can be adjusted, and the profile connection structure is particularly suitable for installation when the two profiles need to form an included angle;

(13) in the section bar connecting structure provided by the embodiment of the invention, the second limiting piece and the second section bar only have the freedom degree of relative sliding along the length direction by adopting the mode that the second limiting piece is provided with the dovetail slide block, and the second section bar is fixedly connected with the sliding matching seat with the dovetail slide groove, so that the corresponding function is realized under the condition of conveniently manufacturing the second section bar;

(14) in the profile connecting structure of the embodiment of the invention, when the first limiting piece does not support the second limiting piece in the length direction, the second supporting piece is fixedly connected to the second profile, and the operating piece is supported in the length direction, so that the supporting function of the first limiting piece and the first supporting piece on the whole formed by the second limiting piece and the operating piece under two different conditions is integrated; therefore, no matter whether the section bar is connected or not, the second support piece can provide effective support for the operating piece and the second limiting piece, the second limiting piece is prevented from unnecessarily sliding in the assembling and disassembling process, and efficient and stable section bar connection is realized;

(15) the shower room provided by the embodiment of the invention inherits all advantages due to the application of the section bar connecting structure of the embodiment, and has the characteristics of complete product appearance, convenience and quickness in installation and easiness in adjustment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of a section bar connecting structure according to embodiment 1 of the present invention;

FIG. 2 is a schematic view of a profile connecting structure in example 1 of the present invention at the time of installation;

FIG. 3 is a schematic structural view of a section bar connecting structure according to embodiment 2 of the present invention;

FIG. 4 is a schematic view of the sectional bar joining structure of example 2 of the present invention at the time of installation;

FIG. 5 is a perspective view and a partially enlarged schematic view of a section bar connecting structure according to embodiment 3 of the present invention after connection;

FIG. 6 is a perspective view and a partially enlarged schematic view of the connecting structure of the section bar of embodiment 3 of the present invention before connection;

FIG. 7 is an exploded view of the connecting structure of section bars according to example 3 of the present invention;

FIG. 8 is an enlarged view of a portion of area A of FIG. 7;

FIG. 9 is an enlarged partial view of the area B in FIG. 7;

FIG. 10 is an exploded view of the section bar connecting structure of example 3 of the present invention at another angle;

fig. 11 is a top view of a profile joint structure according to example 3 of the present invention;

FIG. 12 is a top view of the profile connecting structure of example 3 after adjustment and installation;

fig. 13 is a sectional view of a section a-a in fig. 11 and a partially enlarged schematic view thereof when the section bar joining structure of embodiment 3 of the present invention is unlocked;

fig. 14 is a sectional view of a section a-a in fig. 11 and a partially enlarged schematic view thereof when the profile connecting structure of embodiment 3 of the present invention is locked;

fig. 15 is a sectional view of the section B-B of fig. 11 and a partially enlarged view thereof when the section bar joining structure of embodiment 3 of the present invention is unlocked;

fig. 16 is a sectional view of the section B-B in fig. 11 and a partially enlarged view thereof when the section bar connecting structure of embodiment 3 of the present invention is locked;

fig. 17 is a sectional view of the section C-C of fig. 11 and a partially enlarged schematic view thereof when the section bar joining structure of embodiment 3 of the present invention is unlocked;

fig. 18 is a sectional view of the section C-C of fig. 11 and a partially enlarged schematic view thereof when the section bar connecting structure of embodiment 3 of the present invention is locked;

fig. 19 is a sectional view of the section D-D of fig. 12 and a partially enlarged view thereof, when the section bar joining structure of embodiment 3 of the present invention is unlocked;

fig. 20 is a sectional view of a section D-D in fig. 12 and a partially enlarged schematic view thereof when the profile connecting structure according to embodiment 3 of the present invention is locked;

FIG. 21 is a perspective view of the shower enclosure of embodiment 4 of the present invention after the first shower glass, the first section bar and the second section bar are installed;

FIG. 22 is an exploded view of the second shower glass, the third section bar, the fourth section bar and the connecting structure of the section bars in the shower room of the embodiment 4 of the invention;

FIG. 23 is a perspective view of the second shower glass, the third section bar and the fourth section bar of the shower room of the embodiment 4 of the invention before installation;

FIG. 24 is a perspective view of the second shower glass, the third section bar and the fourth section bar of the shower room of the embodiment 4 of the invention after being installed;

FIG. 25 is an exploded view of the fifth and sixth sectional materials and their connecting structure of the shower room in accordance with embodiment 4 of the present invention;

FIG. 26 is a perspective view of the shower room of embodiment 4 of the present invention.

Description of the main reference numerals:

a first section bar 10, a second section bar 20, a third section bar 30, a fourth section bar 40, a section bar fixing part 41, a section bar rotating part 42, a fifth section bar 50, a sixth section bar 60, a first shower glass 70 and a second shower glass 80; the first position-limiting member 110(210, 310), the second position-limiting member 120(220, 320), the operating member 130(230, 370), the first supporting member 140, the second supporting member 240, the third position-limiting member 330, the fourth position-limiting member 340, the first sliding seat 350, the second sliding seat 360, and the operating member 370; the tooth portion 311(321), the relief groove 312, the dovetail slider 322, the threaded hole 323(341), the seat body 351, the support plate 352, the relief hole 353, the dovetail sliding groove 361, the first screw rod 371, the second screw rod 372, the connecting rod 373, the operating nut 374, the rotation stop plane 3711(3721), the connecting insertion hole 3731 and the abutting insertion hole 3732.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are presently preferred embodiments of the invention and are not to be taken as an exclusion of other embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In the claims, the specification and the drawings of the present invention, unless otherwise expressly limited, the terms "first", "second" or "third", etc. are used for distinguishing between different items and not for describing a particular sequence.

In the claims, the specification and the drawings of the present invention, unless otherwise expressly limited, all directional or positional relationships indicated by the terms "center," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," "counterclockwise," and the like are based on the directional or positional relationships indicated in the drawings and are used for convenience in describing the present invention and for simplicity in description, but do not indicate or imply that the device or element so indicated must have a particular orientation or be constructed and operated in a particular orientation, and therefore should not be construed as limiting the scope of the present invention.

In the claims, the description and the drawings of the present application, unless otherwise expressly limited, the terms "fixedly connected" or "fixedly connected" should be interpreted broadly, that is, any connection between the two that does not have a relative rotational or translational relationship, that is, non-detachably fixed, integrally connected, and fixedly connected by other devices or elements.

In the claims, the specification and the drawings of the present invention, the terms "including", "having" and their variants, if used, are intended to be inclusive and not limiting.

The following embodiments of the present invention exemplarily show various profile coupling structures for realizing non-destructive assembly and disassembly of a first profile 10 and a second profile 20 arranged in parallel in a first direction perpendicular to a length direction of the profiles.

It should be noted that the reason why the present invention limits the direction of assembling and disassembling the sectional material to the first direction is that in some scenes, such as a bathroom scene as an example, the sectional material is heavy in weight and the longitudinal space of a toilet is small, so that it is not easy to relatively move and dislocate the sectional material in the longitudinal direction when the sectional material is assembled and disassembled, and the assembling and disassembling operation in the horizontal direction can be performed, and the present invention aims to realize the nondestructive assembling and disassembling of the sectional material in the similar scenes.

In addition, in a shower room, the first section bar 10 and the second section bar 20 connected to each other can be generally inserted and matched along the first direction, and form an insertion and matching surface parallel to the first direction and the length direction, so as to limit the relative movement of the two sections in a direction (hereinafter referred to as a second direction) perpendicular to both the length direction and the first direction, and therefore, the following embodiments of the present invention do not relate to the limit relationship of the two sections in the second direction. It should be understood that, based on the disclosure of the present invention, a person skilled in the art may add a limiting structure corresponding to the second direction to each limiting element of the following embodiments of the present invention, so that the limiting element can achieve each limiting and stable connection in other application scenarios.

Example 1

Referring to fig. 1-2, there is shown a profile connecting structure including: a first limiting member 110, a second limiting member 120, an operating member 130 and a first supporting member 140.

The first limiting member 110 is fixedly connected to the first profile 10. In each embodiment of the present invention, the first limiting member 110 is fixed to the first section bar 10 by a threaded fastener, but other fastening methods may be adopted.

The second retaining member 120 is configured to be slidably connected to the second profile 20 only along the length direction. In other words, the second position-limiting member 120 has only a degree of freedom to slide along the length direction relative to the second profile 20, is connected to the second profile 20 in a rotation-stop manner, and cannot move relative to the second profile 20 in the first direction. The embodiments of the present invention preferably achieve the above configuration by using the second limiting member 120 having a dovetail slider and the second profile 20 having a dovetail sliding groove, and the specific structure thereof will be more clearly shown in the following embodiments.

In this embodiment, the second limiting member 120 can slide to a locking position, and the first limiting member 110 is adapted to support the second limiting member 120 in the length direction and limit the second limiting member in the first direction when the second limiting member slides to the locking position. In other words, when the second limiting member 120 is located at the locking position, since the first limiting member 110 and the second limiting member 120 establish a limiting fit relationship, and the second limiting member 120 is relatively fixed with the second profile 20 in the first direction, the first profile 10 and the second profile 20 are connected in the first direction through the two limiting members; in the length direction, due to the supporting effect of the first limiting member 110 on the second limiting member 120, the second limiting member 120 does not release its limiting fit relation with the first limiting member 110 due to the self-weight factor and slides reversely relative to the first limiting member 110 to disengage from the locking position, which is particularly suitable for scenes (such as shower room scenes) which are not disturbed in the length direction after the section bars are connected. When the sectional material needs to be disassembled, only external disturbance needs to be applied to enable the second limiting part 120 to reversely slide and break away from the locking position, and the assembling and disassembling processes are very convenient and fast.

With respect to the limit fit in the first direction after the first limiting member 110 and the second limiting member 120 slide relatively, the embodiments of the present invention are preferably implemented by engaging teeth, and the specific structure will be more clearly shown in the following embodiments. In other embodiments, the first limiting member 110 and the second limiting member 120 can also be limited by a plug-in fit manner such as a plug-in buckle and a slot.

In the embodiment of the present invention, the first limiting member 110 and the second limiting member 120 capable of establishing a limiting fit relationship in the first direction are used as intermediate connecting members, and are respectively configured to be fixedly connected to the first profile 10 and slidably connected to the second profile 20 only along the length direction, so that the second limiting member 120 can be locked or unlocked to the first limiting member 110 in the first direction by sliding, thereby realizing the assembly and disassembly of the first profile 10 and the second profile 20 in the first direction. Therefore, when the section bar is connected, the section bar does not need to be drilled in the later period in the second direction, the section bar cannot be damaged, and the overall appearance of a section bar product can be improved. The supporting action of the first limiting member 110 on the second limiting member 120 in the length direction enables the second limiting member 120 not to reversely break away from the locking position due to self factors when not disturbed, and ensures the stable connection of the profile under the conventional condition.

Further, the operating member 130 of the present embodiment is rotatably connected to the second profile 20 and configured to be actuated at an end of the second profile 20 to drive the second limiting member 120 to slide along the length direction relative to the second profile 20. In the embodiments of the present invention, the operation element 130 and the second limiting element 120 are preferably configured to be in a spiral fit, and the spiral axis thereof extends along the length direction, so that the second limiting element 120 is driven to slide when the operation element 130 rotates due to the rotation-stopping connection between the second limiting element 120 and the second profile 20. In addition, since the operating element 130 and the second limiting element 120 are screwed, when the operating element 130 is not actuated, the two are relatively fixed in the length direction, so that the sliding stroke of the second limiting element 120 can be controlled, and the advantages and effects thereof will be more clearly shown in the description of the subsequent embodiments. In other embodiments, a cam transmission mode is also applicable to convert the rotary motion and the linear motion. Furthermore, in other embodiments, the operating element 130 can be configured to slide relative to the second profile 20 to directly abut against and drive the second limiting element 120 to slide. Therefore, in the present invention, the operation element 130 is movably connected to the second section bar 20, and can drive the second position-limiting element 120 to perform the sliding motion.

The operation member 130 is provided in the embodiment to provide convenience for the installer to operate the second limiting member 120, because in some scenes, such as a bathroom scene for example, after the first profile 10 and the second profile 20 are connected, the second limiting member 120 is shielded by the first profile 10 or the second profile 20 in the second direction, so that the installer cannot operate the second limiting member 120 from the side of the profiles (i.e. in the second direction) when the two profiles approach each other in the first direction. In this embodiment, with the operation element 130, the installer can operate the operation element 130 at the end of the profile (in the bathroom scene, generally the upper end), so as to drive the second limiting element 120. It is understood that, if the first profile 10 and the second profile 20 do not shield the position-limiting member in the direction in a certain application scene, for example, the first profile 10 and the second profile 20 are plate-shaped profiles, and the plate surfaces thereof are perpendicular to the first direction, the installer can directly operate the second position-limiting member 120 by hand, so that the operation member 130 is not needed.

Thus, referring to FIG. 2 and the orientation shown, the assembly and disassembly process of this embodiment is as follows: when the connecting device is installed, the second profile 20 is close to the first profile 10 along the first direction, and the operating part 130 is rotated towards the first circumferential direction to make the second limiting part 120 slide downwards, and the second limiting part is in limiting fit with the first limiting part 110 in the first direction at the locking position to realize the connection of the two profiles; during the dismantling process, the operating member 130 is rotated in the reverse direction of the first circumferential direction and the second limiting member 120 is slid upwards to release the limiting fit relation with the first limiting member 110, and then the second profile 20 is separated from the first profile 10 along the first direction, thereby completing the dismantling of the two profiles.

The present embodiment is a preferred embodiment, and includes the first supporting member 140, and the first supporting member 140 is fixed to the second section bar 20 and supports the operation element 130 in the length direction. Illustratively, the operating member 130 has a horizontal stop portion, and the first supporting member 140 has a stop surface adapted to cooperate with the stop portion to support the operating member 130. Therefore, before the whole of the operating member 130, the second limiting member 120 and the second profile 20 is not connected to the first profile 10 and the first limiting member 110, an installer does not need to worry about the problem that the operating member 130 and the second limiting member 120 slide to more than the locking position, thereby increasing the number of installation processes and making installation difficult, and does not need to apply continuous force to the whole of the operating member 130 and the second limiting member 120 to keep the whole at a position suitable for actuating the operating member 130 and the second limiting member 120. In essence, the above structure limits the sliding stroke of the second limiting member 120, so that the operating member 130 can be more easily driven during the mounting and dismounting operation, thereby improving the mounting and dismounting efficiency.

Furthermore, in order to enable the operation element 130 to be stably movably connected to the second profile 20, the first supporting element 140 is provided with a relief hole for the operation element 130 to pass through, so that the supporting element also plays a role in guiding the operation element 130 when the operation element 130 is connected to the second profile 20.

In addition, in this embodiment, the first limiting member 110 is provided with a receding groove opening towards the first direction, and the operating member 130 is slidably disposed in the receding groove along the first direction, so that the first profile 10 and the second profile 20 have a closer distance in the first direction after being connected.

Example 2

Referring to fig. 3 to 4, there is shown another profile connection structure different from embodiment 1, which comprises: a first limiting member 210, a second limiting member 220, an operating member 230 and a second supporting member 240.

The first limiting member 210 is fixedly connected to the first section bar 10.

The second limiting member 220 is configured to be slidably connected to the second profile 20 only along the length direction, and is limited by the first limiting member 210 in the first direction when it is slid to a locking position.

The operating member 230 is rotatably connected to the second section bar 20, and drives the second limiting member 220 to slide to the locking position through screw fitting. Since the operating element 230 is screwed with the second limiting element 220, when the operating element 230 does not drive the second limiting element 220, the two elements are fixed relatively in the length direction and form a whole.

The second supporting member 240 is fixed to the second section bar 20 and adapted to support the operation member 230 in the length direction.

Referring to fig. 4 and the direction shown, the assembly and disassembly process of this embodiment is as follows: when the connecting device is installed, the second profile 20 is close to the first profile 10 along the first direction, and the operating part 230 is rotated towards the first circumferential direction to make the second limiting part 220 slide upwards, and the second limiting part is in limiting fit with the first limiting part 210 in the first direction at the locking position to realize the connection of the two profiles; during the removal, the operation member 230 is rotated in the reverse direction of the first circumferential direction and the second limiting member 220 is slid downward to release the limiting fit relation with the first limiting member 210, and then the second profile 20 is separated from the first profile 10 along the first direction, thereby completing the removal of the two profiles.

It can be seen that this embodiment has basically the same construction, principle and use as embodiment 1, but the main difference is that: first, the first limiting member 210 of the present embodiment does not play a role of supporting the second limiting member 220 when the first limiting member is in limit fit with the second limiting member 220; secondly, in the present embodiment, the second supporting member 240 is adopted to integrate the supporting function of the first limiting member 210 and the first supporting member of embodiment 1 on the whole of the second limiting member 220 and the operating member 230 under two different conditions.

Specifically, in the present embodiment, the operating member 230 has a horizontal stopping portion, and the second supporting member 240 is fixed to the second section bar 20 and is provided with a stopping surface adapted to cooperate with the stopping portion, so as to support the operating member 230 and fix the operating member 230 relative to the second section bar 20 in the length direction. Since the first limiting member 210 cannot support the second limiting member 220 when the second limiting member 220 is located at the locking position, the second supporting member 240 is adopted in the present embodiment to achieve a corresponding supporting function, and when the second limiting member 220 slides to the locking position, the second supporting member 240 supports the whole body formed by the second limiting member 220 and the operating member 230, so as to prevent the second limiting member 220 from reversely sliding relative to the first limiting member 210 and separating from the locking position. In addition, when the two profiles are not connected, the whole body formed by the second limiting member 220 and the operating member 230 is acted by the second supporting member 240, so that the whole body does not slide to exceed the locking position excessively, the installation process is not increased, the installation is difficult, an installer does not need to apply continuous acting force to the whole body to keep the whole body at a position suitable for actuating the whole body, and the assembly and disassembly efficiency is improved.

Therefore, in this embodiment, the second supporting member 240 can provide effective support for the operating member 230 and the second limiting member 220 no matter whether the profile is connected or not, so as to prevent the second limiting member 220 from unnecessarily sliding during the assembling and disassembling process, thereby realizing efficient and stable profile connection.

In an embodiment with a poor effect, the second supporting member 240 may also be fixedly connected to the first profile 10, which, needless to say, can only support the whole of the second limiting member 220 and the operating member 230 in the longitudinal direction when the profiles are connected, and can not support the whole of the second limiting member 220 and the operating member 230 in the longitudinal direction when the profiles are not connected, and the second limiting member 220 is easily slid beyond the locking position, which causes an unnecessary installation process and a reduction in installation efficiency to a certain extent.

It should be understood that other specific structures of this embodiment can be configured correspondingly with reference to embodiment 1, for example, a limiting matching structure for implementing the first limiting member 210 and the second limiting member 220, a connecting structure for implementing the second limiting member 220 and the second profile 20 having only a sliding degree of freedom along the length direction, and the structures of the abdicating hole and the abdicating slot, which are not described in detail in this embodiment.

Further, it goes without saying that when the operation direction of the operation member 230 of the present embodiment completely corresponds to the embodiment, the screw direction of the screw fitting should be opposite to that of embodiment 1; naturally, the same spiral direction may be used, and the operation direction exactly opposite to that of embodiment 1 may be correspondingly used.

Example 3

This example provides a more specific and preferred embodiment of the application of the invention to a shower cubicle scenario. Referring to fig. 5 to 20, embodiment 3 provides a profile connecting structure, which includes a first limiting member 310, a second limiting member 320, a first sliding fit seat 350, a third limiting member 330, a fourth limiting member 340, a second sliding fit seat 360 and an operating member 370.

It should be noted that, as can be seen from the drawings, the first profile 10 and the second profile 20 corresponding to the present embodiment are inserted and matched along the first direction to form an insertion and matching surface perpendicular to the second direction, so that the two are configured to establish a limit matching relationship in the second direction. And, since the present embodiment is applied to a shower room scene, the first section bar 10 and the second section bar 20 are both vertically arranged.

Returning to the connection structure of the present embodiment, the first limiting member 310 and the third limiting member 330 are locked to two end portions of the first profile 10 along the first direction by threaded fasteners. A tooth portion 311 is disposed on a surface of the first limiting member 310 perpendicular to the length direction, and includes a plurality of teeth arranged at intervals along the first direction. In addition, the first limiting member 310 further has a recess 312 opened in the first direction, and the opening faces away from the first profile 10. In the embodiment, the first limiting member 310 and the third limiting member 330 have the same structure, but they are mirror-symmetrical when being installed on the first profile 10, and therefore the detailed structure of the third limiting member 330 will not be described in detail below.

The first sliding fit seat 350 and the second sliding fit seat 360 are also locked to two ends of the second profile 20 along the first direction by threaded fasteners, and the positions of the first limiting member 310 and the third limiting member 330 are substantially corresponding to each other. The first sliding-fit seat 350 includes a seat body 351 and a support plate 352 perpendicular to the seat body, the seat body 351 extends along the length direction, and the support plate 352 is perpendicular to the length direction. In this embodiment, the supporting plate 352 divides the seat body 351 into two parts in the length direction, wherein one part is configured as a dovetail groove (not shown in the drawings, and the structure thereof can refer to the dovetail groove 361 of the second sliding fit seat 360) extending along the length direction, and the other part is used for being fastened and connected with the second section bar 20 through a threaded fastener. In addition, the support plate is also provided with a yielding hole 353. In this embodiment, the first sliding fitting seat 350 and the second sliding fitting seat 360 are also identical in structure, but they are mirror images when installed on the second profile 20, and therefore detailed descriptions of the second sliding fitting seat 360 are omitted.

The second limiting member 320 and the fourth limiting member 340 are both slidably connected to the second section bar 20, and when they slide to the first locking position and the second locking position, they are respectively in limiting fit with the first limiting member 310 and the third limiting member 330 in the first direction. In this embodiment, except for the structure of the part of the second limiting member 320 and the fourth limiting member 340 engaged with the operating member 370, other parts have the same structure, so for the other parts, the second limiting member 320 will be taken as an example for explanation, and the description of the structure of the fourth limiting member 340 and the same structure thereof will not be repeated.

The second limiting member 320 is also provided with a tooth portion 321 on a surface thereof perpendicular to the length direction, which also includes a plurality of teeth arranged at intervals along the first direction, and the tooth portion is adapted to be engaged with the tooth portion 311 of the first limiting member 310 when the second limiting member 320 slides to the first locking position, so as to achieve a limiting matching relationship between the first limiting member 310 and the second limiting member 320 in the first direction. In addition, the second limiting member 320 further has a dovetail slider 322, which is slidably engaged with the dovetail groove of the first sliding engagement seat 350 along the length direction, so that the second limiting member 320 is slidably connected to the second profile 20 along the length direction, and the dovetail slider 322 is connected with the dovetail groove in a locking manner, so that the second limiting member 320 has only a degree of freedom sliding along the length direction relative to the second profile 20, is rotatably connected to the second profile 20 in a locking manner, and is relatively fixed to the second profile 20 in the first direction, i.e., the second limiting member 320 is slidably connected to the second profile 20 only along the length direction, so that the corresponding function is realized under the condition of conveniently manufacturing the second profile 20, otherwise, the second profile 20 is required to be specially grooved, which results in an excessively high cost and a complicated process. Further, the second limiting member 320 is provided with a threaded hole 323 with a first spiral direction, and the fourth limiting member 340 is provided with a threaded hole 341 with a second spiral direction opposite to the first spiral direction.

The operation member 370 is rotatably connected to the second profile 20 and includes a first screw rod 371, a second screw rod 372 and a connecting rod 373 extending in the same direction and fixedly connected to each other. The first screw rod 371 has an external thread adapted to the threaded hole 323 of the second limiting member 320, and is screwed with the second limiting member 320 along a first screw direction through the external thread; the second screw 372 has an external thread adapted to the threaded hole 341 of the fourth limiting member 340, and is screwed with the fourth limiting member 340 along a second screw direction through the external thread, so that the screw directions of the first screw 371 and the second screw 372 are opposite. The two ends of the connecting rod 373 are detachably and fixedly connected to the first screw rod 371 and the second screw rod 372, respectively, so as to facilitate the assembly of the operating member 370 and prevent the three from being separated in the extending direction.

In a specific structure, the ends of the first screw rod 371 and the second screw rod 372, which are engaged with the connecting rod 373, are formed with non-rotation structures, preferably rotation-stopping planes 3711(3721), and the two ends of the connecting rod 373 are also formed with connecting insertion holes 3731 having corresponding structures, so that the first screw rod 371 and the second screw rod 372 are inserted into the connecting rod 373 from the connecting insertion holes 3731 to realize rotation-stopping connection with the connecting rod 373. The connecting rod 373 further has an abutting insertion hole 3732 communicating with the connecting insertion hole, and by screwing the stud into the abutting insertion hole 3732 so that the end portion thereof abuts against the rotation stop planes 3711(3721) of the first screw 371 and the second screw 372, the positioning of the two screws in the extending direction thereof is realized, thereby realizing the fixed connection of the first screw 371, the second screw 372 and the connecting rod 373.

Thus, the operating member 370 may be assembled and connected to the second profile 20 by: the first screw rod 371 upwards passes through the threaded hole 323 of the second limiting member 320 and the abdicating hole 353 of the first sliding matching seat 350 along the length direction; the second screw 372 downwards passes through the threaded hole 341 of the fourth limiting member 340 and the abdicating hole of the second sliding fit seat 360 along the length direction; at this time, the connection insertion holes 3731 of the connection rods 373 are respectively sleeved into the corresponding end portions of the two screws, and then the studs are locked into the abutting insertion holes 3732, so that the assembly of the operation member 370 can be realized, and the spiral axes of the screws extend along the length direction. It will be appreciated that the operating member 370 in a split configuration facilitates easier assembly and connection to the second profile 20 with only a small operating space in the length direction.

Based on the same principle as the foregoing embodiment, since the second limiting member 320 and the fourth limiting member 340 are respectively connected to the second profile 20 through the first sliding fitting seat 350 and the second sliding fitting seat 360, and the first screw 371 and the second screw 372 are integrally fixed, the operating member 370 can synchronously drive the second limiting member 320 and the fourth limiting member 340 to slide only by operating one of the first screw 371 and the second screw 372. Preferably, since the screw directions of the second limiting element 320 and the fourth limiting element 340 and the operating element 370 are opposite, so that the operating element 370 can synchronously drive the second limiting element 320 and the fourth limiting element 340 to slide in opposite directions, the second limiting element 320 and the fourth limiting element 340 can synchronously slide to the first locking position and the second locking position, or synchronously slide away from the first locking position and the second locking position. Thus, the above arrangement has the effect of quick assembly and disassembly, especially in a shower room scenario, since the lower end of the profile generally needs to be in contact with the floor, the installer can rotate the operation member 370 at the upper end of the profile, i.e. operate the two sets of position limiting members.

Referring to fig. 11, 13-18, the assembly and disassembly process of this embodiment is as follows: during installation, the operating member 370 is rotated in a first circumferential direction to minimize the distance between the second limiting member 320 and the fourth limiting member 340, and then the second profile 20 is moved close to the first profile 10 in the first direction, and the operating member 370 (the second screw 372) is rotated in the opposite direction of the first circumferential direction to slide the second limiting member 320 downward and the fourth limiting member 340 upward, and when the operating member slides to a corresponding locking position, the operating member is respectively in limiting fit with the first limiting member 310 and the third limiting member 330 in the first direction to connect the two profiles; during the dismantling process, the operating member 370 (the second screw 372) is rotated in the first circumferential direction to slide the second limiting member 320 upwards and the fourth limiting member 340 downwards, so that the limiting fit relationship between the fourth limiting member 340 and the first limiting member 310 and the third limiting member 330 is released, and finally the second profile 20 is separated from the first profile 10 in the first direction, thereby completing the dismantling of the two profiles.

It goes without saying that the sliding strokes of the second limiting member 320 and the fourth limiting member 340 need to be configured so that the operating member 370 can be driven to slide to the corresponding locking positions at the same time, and the situation that only one of the limiting members reaches the locking position and the other one of the limiting members cannot reach is avoided.

When the second limiting member 320 and the fourth limiting member 340 are both located at the corresponding locking positions, the first limiting member 310 supports the second limiting member 320, and the functional relationship thereof corresponds to the first limiting member 110 and the second limiting member 120 of embodiment 1, and thus the description thereof is omitted. In addition, in the embodiment, since the profile is vertically disposed, although the third limiting member 330 cannot prevent the fourth limiting member 340 from being separated from the locking position, since the fourth limiting member 340 and the second limiting member 320 are both spirally engaged with the operating member 370, when the operating member 370 is not actuated, the operating member 370, the second limiting member 320 and the operating member 370 are fixed to each other in the length direction to form a whole, and the first limiting member 310 has a supporting function on the whole, so that the second limiting member 320 and the fourth limiting member 340 are prevented from being separated from the corresponding locking positions.

In addition, since the screw-fit can generate a screw pre-tightening force, the second limiting member 320 and the fourth limiting member 340 are driven by the operating member 370 to continuously abut against the first limiting member 310 and the third limiting member 330 along the length direction, and since the abutting directions are opposite, the whole body formed by the two members has a tensioning effect relative to the first limiting member 310 and the third limiting member 330, so that a certain friction force can be generated, and the limiting fit of the limiting members in the first direction is tighter.

Further, since the abutting directions of the second limiting member 320 and the fourth limiting member 340 are opposite, the directions of the second limiting member and the fourth limiting member being separated from the corresponding locking positions are also opposite, so that the second limiting member and the fourth limiting member can be mutually limited to be separated from the corresponding locking positions at the corresponding locking positions, and an interlock is formed. Therefore, when the whole of the second limiting member 320, the fourth limiting member 340 and the operation member 370 is disturbed, the second limiting member 320 and the fourth limiting member 340 will not be separated from the corresponding locking positions due to the interlocking relationship, so that the connection between the first profile 10 and the second profile 20 is more stable. Therefore, in a special scene that the section bar is not vertically arranged, the embodiment is particularly suitable for use and has a relatively stable connection effect. As such, the support according to the embodiments of the present invention is not limited to be understood as the support along the length direction, and should be understood in a broad sense according to the specific application scenario.

When the second profile 20 is not connected to the first profile 10, the second sliding fitting seat 360 with the supporting plate supports the fourth limiting member 340. Similarly, since the second limiting member 320, the fourth limiting member 340 and the operating member 370 are fixed to each other in the length direction and form a whole, and the second sliding fit base 360 also supports the whole, the second limiting member 320 and the fourth limiting member 340 are prevented from sliding beyond the corresponding locking positions, so that the second sliding fit base 360 supports the first supporting member 140 in embodiment 1. Similarly, since the first sliding fitting seat 350 also has a supporting plate, in other special scenes, the first sliding fitting seat and the second sliding fitting seat 360 limit the sliding stroke of the whole along the length direction, and the interlocking effect is also achieved.

It can be seen that the first limiting member 310, the third limiting member 330, the first sliding fitting seat 350 and the second sliding fitting seat 360 can respectively support the second limiting member 320, the fourth limiting member 340 and the operating member 370 when the two profiles are in different states.

It should be noted that, the embodiments of the present invention preferably implement the limit fitting of the limit member in the first direction by engaging the teeth, and the advantages are: firstly, because the teeth of the tooth part are arranged at intervals along the first direction and have smaller mutual distance, the teeth of the tooth part can still be meshed adaptively under the condition of low assembly precision, the assembly power is high, and the efficiency is correspondingly improved; secondly, when the distance between the first profile 10 and the second profile 20 after connection needs to be adjusted, because the teeth of the tooth portion are arranged at intervals along the first direction, when the distance between the teeth is different, the first limiting member 310 and the second limiting member 320, and the third limiting member 330 and the fourth limiting member 340 can still realize limiting matching in the first direction. Therefore, the profile connecting structures adopting the corresponding structures have the adjusting function, namely, the distance and the angle between the first profile 10 and the second profile 20 after the two profiles are connected along the first direction can be adjusted. This is particularly useful when two profiles are to be installed at an included angle, for example in a shower room setting where the wall is not vertical, the included angle of the two profiles needs to be adjusted to position the profile carrying the shower glass in a vertical position.

Referring to fig. 12, 19-20, the adjustment installation process of the present embodiment is as follows: firstly, the first profile 10 is fixed to a wall, then the operating part 370 is rotated towards the first circumferential direction, so that the distance between the second limiting part 320 and the fourth limiting part 340 is minimum, then the second profile 20 is close to the first profile 10 along the first direction, so that two ends of the second profile are respectively kept at a certain distance from the first profile 10, and the second profile 20 is ensured to be in a vertical state, at the moment, the operating part 370 (the second screw 372) is rotated towards the first circumferential direction in the reverse direction, so that the second limiting part 320 slides downwards, the fourth limiting part 340 slides upwards, and when the operating part slides to a corresponding locking position, the operating part is respectively in limiting fit with the first limiting part 310 and the third limiting part 330 in the first direction, so that the connection of the two profiles is realized.

It can be seen that, due to the adjustment and installation, when the second profile 20 is not connected to the first profile 10, the control of the sliding stroke of the second limiting member 320 and the fourth limiting member 340 in the length direction is particularly important, which can prevent the second limiting member 320 and the fourth limiting member 340 from unnecessarily sliding when the limiting matching relationship of the limiting members needs to be released during the adjustment process, thereby improving the efficiency of the adjustment and installation.

Preferably, in this embodiment, after the first profile 10 and the second profile 20 are connected, the operation member 370 slides into the yielding groove provided in the first limiting member 310 and the third limiting member 330 along the first direction, so that after the first profile 10 and the second profile 20 are connected, one end (or two ends) of the first profile can be in a state of being closer to each other in the first direction, thereby increasing the adjustment range of the adjustment process.

Further, the operating member 370 of the present embodiment further includes an operating nut 374, which is used for being screwed with the first screw rod 371 or the second screw rod 372, and has two signs corresponding to the sliding directions of the limiting members in the rotating directions, so that the installer can directly operate the operating nut.

Example 4

Referring to fig. 21 to 26, on the basis of embodiment 3, the present invention also provides a shower room, which includes: first profile 10, second profile 20, third profile 30, fourth profile 40, fifth profile 50, sixth profile 60, first shower glass 70 and second shower glass 80. In this embodiment, the first shower glass 70 and the second shower glass 80 are vertically disposed.

Referring to fig. 21, the first profile 10 is fixed to a wall, and the second profile 20 is connected to the first profile 10 by the profile connection structure of embodiment 3. The first shower glass 70 is installed on the second section bar 20.

Referring to fig. 22 to 24, the third profile 30 is fixed to a wall, and the fourth profile 40 includes a profile fixing portion 41 and a profile rotating portion 42 hinged to each other. The profile fixing portion 41 is connected to the third profile 30 by the profile connecting structure of embodiment 3, and the second shower glass 80 is installed on the profile rotating portion 42 to rotate relative to the wall. Since the parts and the working principle of the profile connecting structure of the third profile 30 and the fourth profile 40 are substantially the same as those of the profile connecting structure of the first profile 10 and the second profile 20, and the shapes and appearances are slightly different, the description thereof is omitted.

Referring to fig. 25 to 26, the fifth section bar 50 is fixedly connected to the end of the first shower glass 70 far from the second section bar, and the sixth section bar 60 is connected to the fifth section bar 50 through the section bar connecting structure of embodiment 3 and is in stop fit with the end of the second shower glass 80 far from the fourth section bar 40. The parts and the working principle of the profile connecting structure of the fifth profile 50 and the sixth profile 60 are substantially the same as those of the profile connecting structure of the first profile 10 and the second profile 20, and the shapes and appearances are slightly different, so the description thereof is omitted. In addition, in this embodiment, one end of the second shower glass 80, which is far away from the fourth section bar 40, is provided with a metal strip, and a magnetic strip is arranged at a position where the sixth section bar 60 is matched with the second shower glass 80, so that the magnetic strips are magnetically attracted and matched when the sixth section bar and the second shower glass are close to each other, thereby improving the use experience of the shower room.

Because the shower room of this embodiment has used the section bar connection structure of aforementioned embodiment, therefore it has inherited this section bar connection structure's whole advantage, has the characteristics that the product appearance is complete, the installation is convenient, easily adjust.

The description of the above specification and examples is intended to be illustrative of the scope of the present invention and is not intended to be limiting. Modifications, equivalents and other improvements which may occur to those skilled in the art and which may be made to the embodiments of the invention or portions thereof through a reasonable analysis, inference or limited experimentation, in light of the common general knowledge, the common general knowledge in the art and/or the prior art, are intended to be within the scope of the invention.

Claims (15)

1. A section bar connecting structure is used for realizing the assembly and disassembly of a first section bar and a second section bar which are arranged in parallel along a first direction, wherein the first direction is vertical to the length direction of the section bars; characterized in that, the connection structure includes:

the first limiting piece is fixedly connected to the first section bar; and

a second stopper configured to be slidably attached to the second profile only in the longitudinal direction;

the first limiting part is suitable for supporting the second limiting part in the length direction when the second limiting part slides to the first locking position, and limiting the second limiting part in the first direction.

2. The profile connecting structure according to claim 1, wherein: after the first profile and the second profile are connected, the second limiting piece is shielded by the first profile or the second profile in the direction perpendicular to the length direction and the first direction;

the connecting structure further comprises an operating member which is rotatably connected with the second section and is configured to be actuated at the end part of the second section;

the second locating part is connected with a second profile in a rotation stopping mode, the operating part is in spiral fit with the second locating part, and the spiral axis of the operating part extends in the length direction to drive the second locating part to slide in the length direction relative to the second profile.

3. The profile connecting structure according to claim 2, further comprising:

and the first supporting piece is fixedly connected to the second section bar and supports the operating piece in the length direction.

4. The profile connecting structure according to claim 3, wherein: the first supporting piece is provided with a yielding hole for the operating piece to pass through.

5. A profile connecting structure according to claim 2, wherein: the first limiting part is provided with a yielding groove which is open towards the first direction, and the operating part is slidably arranged in the yielding groove along the first direction.

6. The profile connecting structure according to claim 2, further comprising:

the third limiting piece is fixedly connected to the first section bar; and

the fourth limiting part is configured to be connected to the second profile in a sliding mode only along the length direction and is connected with the second profile in a rotation stopping mode; the fourth limiting part is in screw fit with the operating part in a screw direction opposite to that of the second limiting part so as to be driven by the fourth limiting part to slide relative to the second profile along a direction opposite to that of the second limiting part;

the third limiting member is suitable for limiting the fourth limiting member in the first direction when the fourth limiting member slides to the second locking position.

7. A profile connecting structure according to claim 6, further comprising:

and the first supporting piece is fixedly connected to the second section bar and is suitable for supporting the fourth limiting piece in the length direction.

8. A profile connecting structure according to claim 6, wherein said operating member comprises:

the first screw is in threaded connection with the second limiting piece along a first spiral direction;

the second screw rod extends in the same direction as the first screw rod and is in threaded connection with the fourth limiting piece along a second spiral direction opposite to the first spiral direction; and

and the connecting rod is fixedly connected with the first screw rod and the second screw rod so that the operating piece can synchronously drive the second limiting piece and the fourth limiting piece.

9. A profile connecting structure according to claim 1, wherein: the second limiting piece is fixed relative to the second section bar in the first direction;

the first limiting piece and the second limiting piece are both provided with tooth parts which can be meshed with each other, and the tooth parts comprise a plurality of teeth which are arranged at intervals along a first direction;

when the second limiting piece slides to the first locking position, the tooth part of the second limiting piece is meshed with the tooth part of the first limiting piece so as to limit the relative movement of the two limiting pieces and the two profiles along the first direction.

10. A profile connecting structure according to claim 1, wherein: the second limiting piece is fixed relative to the second section bar in the first direction; the second limiting piece is provided with a dovetail sliding block;

the connection structure further includes:

the sliding matching seat is fixedly connected to the second section bar and is provided with a dovetail sliding chute; dovetail chute and dovetail slider follow length direction sliding fit in order to realize the second locating part is followed length direction sliding fit connects in the second section bar, and the relative second section bar in first direction is fixed.

11. A profile connecting structure according to any one of claims 1 to 10, wherein: the first section bar and the second section bar are in splicing fit along the first direction, and splicing fitting faces parallel to the first direction and the length direction are formed so as to limit relative movement of the first section bar and the second section bar in a direction perpendicular to the length direction and the first direction.

12. A section bar connecting structure is used for realizing the assembly and disassembly of a first section bar and a second section bar which are arranged in parallel along a first direction, wherein the first direction is vertical to the length direction of the section bars; characterized in that, the connection structure includes:

the first limiting piece is fixedly connected to the first section bar;

the second limiting piece is configured to be connected to the second profile in a sliding mode only along the length direction, and is limited by the first limiting piece in the first direction when the second limiting piece slides to the locking position;

the operating piece is rotationally connected with the second section bar and drives the second limiting piece to slide to the locking position through screw fit; and

and the second supporting piece is fixedly connected to the first profile or the second profile and is suitable for supporting the operating piece in the length direction.

13. A shower room is characterized by comprising:

a first profile secured to the wall;

a second profile connected to the first profile by a profile connection according to any one of claims 1-12; and

and the first shower glass is arranged on the second section bar.

14. The shower enclosure as claimed in claim 13, further comprising:

the third section bar is fixed on the wall body;

a fourth section bar, which comprises a section bar fixing part and a section bar rotating part which are hinged with each other; the section fixing part is connected to the third section through the section connecting structure; and

and the second shower glass is arranged on the section bar rotating part and rotates relative to the wall body.

15. The shower enclosure of claim 14, wherein the first shower glass is disposed vertically to the second shower glass;

the shower room further comprises:

the fifth section bar is fixedly connected with one end, far away from the second section bar, of the first shower glass; and

and the sixth section bar is connected to the fifth section bar through the section bar connecting structure and is matched with one end stop of the second shower glass far away from the fourth section bar.

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