阅读说明：本技术 一种无障碍淋浴屏安全固定结构 (Barrier-free shower screen safety fixing structure ) 是由 谢炜 杨煜铭 莫章秀 高雯 于 2020-10-22 设计创作，主要内容包括：本发明公开了一种无障碍淋浴屏安全固定结构,包括排水机构和安装于过水机构上的转轴机构,所述排水机构包括下水座、地漏组件和排水过滤组件,所述地漏组件和排水过滤组件安装于下水座内；所述转轴机构包括底座组件、紧固组件和转轴组件,所述底座组件通过紧固组件安装于排水过滤组件上,所述转轴组件与底座组件旋转连接,所述转轴门安装固定于转轴组件上。采用本发明,使得排水装置能与转轴门配合使用,节省淋浴房门的占地面积,从而减少淋浴房的占地面积。(The invention discloses a safe fixing structure of an obstacle-free shower screen, which comprises a drainage mechanism and a rotating shaft mechanism arranged on a water passing mechanism, wherein the drainage mechanism comprises a lower water seat, a floor drain assembly and a drainage filtering assembly, and the floor drain assembly and the drainage filtering assembly are arranged in the lower water seat; the rotating shaft mechanism comprises a base assembly, a fastening assembly and a rotating shaft assembly, the base assembly is installed on the drainage filtering assembly through the fastening assembly, the rotating shaft assembly is rotatably connected with the base assembly, and the rotating shaft door is installed and fixed on the rotating shaft assembly. By adopting the invention, the drainage device can be matched with the rotating shaft door for use, so that the floor area of the shower room door is saved, and the floor area of the shower room is reduced.)

1. A barrier-free shower screen safety fixing structure is characterized by comprising a drainage mechanism and a rotating shaft mechanism arranged on a water passing mechanism, wherein the drainage mechanism comprises a lower water seat, a floor drain assembly and a drainage filtering assembly, and the floor drain assembly and the drainage filtering assembly are arranged in the lower water seat;

the rotating shaft mechanism comprises a base assembly, a fastening assembly and a rotating shaft assembly, the base assembly is installed on the drainage filtering assembly through the fastening assembly, the rotating shaft assembly is rotatably connected with the base assembly, and the rotating shaft door is installed and fixed on the rotating shaft assembly.

2. The barrier-free shower screen safety fixing structure as claimed in claim 1, wherein the base assembly comprises a base, the base is provided with a socket and a through hole, the socket is provided with a jack, the rotating shaft assembly is rotatably connected with the base through the jack, and the fastening assembly is used for mounting the base on the drainage filtering assembly through the through hole.

3. The barrier-free shower screen safety fixing structure as claimed in claim 2, wherein the base assembly further comprises a surface cover covering the base, one side surface of the surface cover is an opening, and a notch is formed by extending inwards from the opening, and the inserting position is inserted into the notch through the opening;

the face lid is connected with the base through the block subassembly, the block subassembly is including locating the lower inclined plane on the base, locating the sand grip of face lid inside wall and locating the last inclined plane on the sand grip, the sand grip extends to the opening, the face lid makes lower inclined plane and last inclined plane be connected through the opening to make the base along in the inclined plane embedding face lid, realize that the face lid is connected with the base block.

4. A barrier-free shower screen safety fixing structure as claimed in claim 3, wherein the base is provided at opposite sides thereof with position-limiting strips for limiting the movement of the face cover;

the base corresponds open-ended one side is equipped with the strip of paper used for sealing, the base is equipped with and inwards extends the seat of inserting that forms from the strip of paper used for sealing inner wall, insert the position and locate on inserting the seat, be connected through the cambered surface between the upper surface of inserting the seat and the side parallel with the strip of paper used for sealing inner wall.

5. The barrier-free shower screen safety fixing structure as claimed in claim 2, wherein the fastening assembly comprises a fastening seat and a fastening member, the fastening seat is disposed below the drain filtering assembly, the size of the through hole is larger than that of the fastening member, and the fastening member passes through the through hole, the drain filtering assembly and the fastening seat in sequence to be fixedly connected, so that the base is mounted on the drain filtering assembly.

6. The barrier-free shower screen safety fixing structure of claim 2, wherein the rotation shaft assembly comprises a rotation shaft, a fixing cover and a locking member, the rotation shaft comprises a shaft portion and a door connecting portion, the shaft portion is inserted into the through hole to rotatably connect the rotation shaft with the base, the rotation shaft door is clamped between the door connecting portion and the fixing cover, and the door connecting portion, the rotation shaft door and the fixing cover are relatively fixed through the locking member.

7. The barrier-free shower screen safety fixing structure of claim 6, wherein a first spacer and a second spacer are further provided between the door coupling portion and the fixing cover, the first spacer is coupled to the door coupling portion, the second spacer is coupled to the fixing cover, and the pivot door is provided between the first spacer and the second spacer;

the bottom parts of the first cushion block and the second cushion block are provided with clamping strips, and the clamping strips are clamped on the bottom surface of the rotating shaft door so that the first cushion block and the second cushion block are both relatively fixed with the rotating shaft door;

the door connecting portion is provided with a locking hole, and the locking piece sequentially penetrates through the fixing cover, the second cushion block, the rotating shaft door, the first cushion block and the locking hole to be fixedly connected.

8. The barrier-free shower screen safety fixing structure as claimed in claim 5, wherein the lower water seat is provided with a lower water port and a lower water hole, the floor drain assembly is arranged on the lower water hole, the drainage filter assembly is arranged in the lower water seat through the lower water port, and the drainage filter assembly is in clearance fit with the lower water seat;

the drainage filtering component comprises a first drainage cover, a second drainage cover and a third drainage cover which are sequentially connected, and the second drainage cover is detachably connected with the lower water base;

the first drainage cover comprises first supporting legs and first supporting strips erected on the first supporting legs, the first supporting strips are parallel to each other and arranged at equal intervals, and the distance is 7-10 mm;

two adjacent first supporting strips on two sides of the first drainage cover are jointed and connected;

the base is arranged above the first supporting strips, the fastening seat is arranged below the first supporting strips, and the fastening piece sequentially penetrates through the through holes and the gaps between two adjacent first supporting strips to be fixedly connected with the fastening seat, so that the base is arranged on the first drainage cover;

the area of the base is smaller than that of the first drainage cover.

9. The barrier-free shower screen safety fixing structure of claim 8, wherein the second drain cover comprises a second supporting leg and a second supporting bar erected on the second supporting leg, the second supporting bar being parallel to each other and arranged at equal intervals; the third drainage cover comprises third supporting legs and third supporting bars erected on the third supporting legs, and the third supporting bars are parallel to each other and arranged at equal intervals;

the second supporting strips and the third supporting strips are arranged in a one-to-one correspondence mode.

10. The barrier-free shower screen safety fixing structure as claimed in claim 9, wherein the length of the second drain cover is greater than the sum of the lengths of the first drain cover and the third drain cover, the length of the first drain cover is 160-180mm, and the length of the third drain cover is 70-90 mm;

the floor drain assembly comprises a water seal piece, a sealing gasket and a filter screen, wherein the water seal piece is installed in the sewer hole, the sealing gasket for preventing leakage is arranged between the water seal piece and the sewer hole, and the filter screen for filtering is arranged above the water seal piece.

Technical Field

The invention relates to the field of drainage devices, in particular to a safe fixing structure of an obstacle-free shower screen.

Background

In the existing shower room, in order to prevent water from flowing out of the shower room from a gap below a door, a threshold is usually arranged below a shower room door, a user needs to cross the threshold to enter and exit the shower room, the shower room door matched with the threshold is usually a rotating shaft door, the rotating shaft door refers to a door which rotates by taking a door leaf central line as an axis to realize opening and closing, and a rotating shaft of the rotating shaft door is arranged on the threshold. The arrangement of the doorsill not only makes people trip easily and unsafe, but also brings inconvenience for people to go in and out of the shower room, for example, the old or the disabled need to use a wheelchair. In order to solve the problem, a drainage device is arranged below a shower door of the existing shower room, so that water flowing through the lower part of the shower door is drained through the drainage device and cannot flow out of the shower room, and the shower room is prevented from being wetted. However, the existing drainage device can only be adapted to a sliding door, and the sliding door refers to a door with a door leaf which can be opened and closed by being pushed and pulled left and right along the width direction. The use of the sliding door has high requirement on the space, but if the space is narrow, the shower room is not suitable for the sliding door, so that the use of the drainage device is greatly limited under the condition. For example, patent No. 201621313425.9 discloses a "shower room with a central water drain and a water-proof floor drain with obstacles", comprising a shower room body, glass and a guide rail, wherein the bottom of the shower room body is fixed on the ground, the floor drain installed on the ground and the inner side of the shower room body are the ground in the shower room, the outer side of the floor drain is the ground outside the shower room, the glass is connected with the guide rail on the floor drain through a groove on a sliding piece of the shower room at the bottom of the glass, the guide rail is provided with one or more concave-convex grooves, a handle is fixed on the glass, a water receiving groove is arranged inside the floor drain, a water outlet is connected below the water receiving groove, the left top end and the right top end of the water receiving groove are respectively provided with an inner water inlet and an outer water inlet, the heights of the inner water inlet and the outer water inlet are flush with the ground, the bottom of the glass is in clearance fit with the groove between the guide rails through shower room water strips arranged on the shower room fixing blocks. The patent discloses that a guide rail is arranged on a drainage device, and a glass door slides left and right along the guide rail to realize opening and closing. And owing to set up the guide rail, the drainage can not be realized to the corresponding position of guide rail, has reduced drainage device's drainage area, influences the drainage effect. The structure of the drainage device can not be matched with the rotating shaft door for use, so that the shower room occupies a large space and is difficult to be used in a bathroom with a narrow space.

In addition, current drainage device drainage lid can not be dismantled, if dismantle then need demolish the shower door earlier, bring very big inconvenience for the cleanness. However, if the drainage device is not clean, bacteria are easy to breed when wastes, impurities and the like are left in the drainage device for a long time, and a sanitary dead angle is formed.

Disclosure of Invention

The invention aims to solve the technical problem of providing a barrier-free shower screen safety fixing structure, so that a drainage device can be matched with a rotating shaft door for use, the floor area of a shower room door is saved, and the floor area of a shower room is reduced.

The invention aims to solve the technical problem of providing a barrier-free shower screen safety fixing structure which not only has good waterproof effect, but also is convenient to clean.

In order to solve the technical problems, the invention provides a barrier-free shower screen safety fixing structure which comprises a drainage mechanism and a rotating shaft mechanism arranged on a water passing mechanism, wherein the drainage mechanism comprises a lower water seat, a floor drain assembly and a drainage filtering assembly, and the floor drain assembly and the drainage filtering assembly are arranged in the lower water seat;

the rotating shaft mechanism comprises a base assembly, a fastening assembly and a rotating shaft assembly, the base assembly is installed on the drainage filtering assembly through the fastening assembly, the rotating shaft assembly is rotatably connected with the base assembly, and the rotating shaft door is installed and fixed on the rotating shaft assembly.

As an improvement of the above scheme, the base assembly comprises a base, the base is provided with an inserting position and a through hole, the inserting position is provided with a jack, the rotating shaft assembly is rotatably connected with the base through the jack, and the fastening assembly is used for installing the base on the drainage filtering assembly through the through hole.

As an improvement of the above scheme, the base assembly further comprises a face cover covering the base, one side face of the face cover is provided with an opening, the face cover extends inwards from the opening to form a notch, and the inserting position is embedded into the notch through the opening;

the face lid is connected with the base through the block subassembly, the block subassembly is including locating the lower inclined plane on the base, locating the sand grip of face lid inside wall and locating the last inclined plane on the sand grip, the sand grip extends to the opening, the face lid makes lower inclined plane and last inclined plane be connected through the opening to make the base along in the inclined plane embedding face lid, realize that the face lid is connected with the base block.

As an improvement of the scheme, the two opposite sides of the base are provided with limiting strips for limiting the movement of the surface cover;

the base corresponds open-ended one side is equipped with the strip of paper used for sealing, the base is equipped with and inwards extends the seat of inserting that forms from the strip of paper used for sealing inner wall, insert the position and locate on inserting the seat, be connected through the cambered surface between the upper surface of inserting the seat and the side parallel with the strip of paper used for sealing inner wall.

As an improvement of the scheme, the fastening assembly comprises a fastening seat and a fastening piece, the fastening seat is arranged below the drainage filtering assembly, the size of the through hole is larger than that of the fastening piece, and the fastening piece sequentially penetrates through the through hole and the drainage filtering assembly to be fixedly connected with the fastening seat, so that the base is installed on the drainage filtering assembly.

As an improvement of the above scheme, the rotating shaft assembly includes a rotating shaft, a fixing cover and a locking member, the rotating shaft includes a shaft portion and a door connecting portion, the shaft portion is inserted into the through hole so as to rotatably connect the rotating shaft with the base, the rotating shaft door is clamped between the door connecting portion and the fixing cover, and the door connecting portion, the rotating shaft door and the fixing cover are relatively fixed through the locking member.

As an improvement of the above scheme, a first cushion block and a second cushion block are further arranged between the door connecting part and the fixed cover, the first cushion block is connected with the door connecting part, the second cushion block is connected with the fixed cover, and the rotating shaft door is arranged between the first cushion block and the second cushion block;

the bottom parts of the first cushion block and the second cushion block are provided with clamping strips, and the clamping strips are clamped on the bottom surface of the rotating shaft door so that the first cushion block and the second cushion block are both relatively fixed with the rotating shaft door;

the door connecting portion is provided with a locking hole, and the locking piece sequentially penetrates through the fixing cover, the second cushion block, the rotating shaft door, the first cushion block and the locking hole to be fixedly connected.

As an improvement of the scheme, the drain seat is provided with a drain port and a drain hole, the floor drain assembly is arranged on the drain hole, the drainage filtering assembly is arranged in the drain seat through the drain port, and the drainage filtering assembly is in clearance fit with the drain seat;

the drainage filtering component comprises a first drainage cover, a second drainage cover and a third drainage cover which are sequentially connected, and the second drainage cover is detachably connected with the lower water base;

the first drainage cover comprises first supporting legs and first supporting strips erected on the first supporting legs, the first supporting strips are parallel to each other and arranged at equal intervals, and the distance is 7-10 mm;

two adjacent first supporting strips on two sides of the first drainage cover are jointed and connected;

the base is arranged above the first supporting strips, the fastening seat is arranged below the first supporting strips, and the fastening piece sequentially penetrates through the through holes and the gaps between two adjacent first supporting strips to be fixedly connected with the fastening seat, so that the base is arranged on the first drainage cover;

the area of the base is smaller than that of the first drainage cover.

As an improvement of the above scheme, the second drainage cover comprises second supporting legs and second supporting bars erected on the second supporting legs, and the second supporting bars are parallel to each other and arranged at equal intervals; the third drainage cover comprises third supporting legs and third supporting bars erected on the third supporting legs, and the third supporting bars are parallel to each other and arranged at equal intervals;

the second supporting strips and the third supporting strips are arranged in a one-to-one correspondence mode.

As an improvement of the above scheme, the length of the second drainage cover is greater than the sum of the lengths of the first drainage cover and the third drainage cover, the length of the first drainage cover is 160-180mm, and the length of the third drainage cover is 70-90 mm;

the floor drain assembly comprises a water seal piece, a sealing gasket and a filter screen, wherein the water seal piece is installed in the sewer hole, the sealing gasket for preventing leakage is arranged between the water seal piece and the sewer hole, and the filter screen for filtering is arranged above the water seal piece.

The implementation of the invention has the following beneficial effects:

the rotating shaft mechanism which is connected with the rotating shaft door in an installing mode is arranged on the drainage filtering component of the drainage mechanism, the drainage device and the rotating shaft door are matched for use, the large occupied space of the shower room caused by the adoption of a sliding door is avoided, and therefore the shower room is suitable for the shower room with a narrow space.

Specifically, drainage filter assembly is including the first drainage lid that connects gradually, second drainage lid and third drainage lid, and the pedestal mounting of pivot mechanism is covered in first drainage, utilizes the cooperation of fastener and fastening seat to be connected, makes base fixed mounting on the first bracing strip of first drainage lid to come to adjust the position of base through the through-hole on the base, so that the pivot of installing on the base aligns with the pivot at pivot door top, guarantees that the pivot door is in the vertical state. The area of base is less than the area of first drainage lid makes the base can not shelter from the area of drainage lid too much, makes drainage mechanism can receive water droplet on the shower door completely to play fine drainage, water-proof effects, avoid water to be stained with the space outside the shower room. The pivot subassembly passes through jack and base swivelling joint, and the pivot door is installed on the pivot subassembly, makes the pivot door can realize the switch around the rotation of axes to make the pivot door can use with drainage device cooperation, save the area of shower room door, thereby reduce the area in shower room.

Wherein, the second drainage lid can be dismantled, is convenient for daily to the inside cleanness of lower water stand, avoids wastes material, impurity etc. to stay in drainage mechanism for a long time and causes bacterial growing, forms sanitary dead angle. The second drainage cover is independent of the first drainage cover and the third drainage cover, and the rotating shaft door is not required to be detached firstly for detaching the second drainage cover, so that the cleaning is facilitated. The third drainage cover enables the side wall of the shower room not to be arranged at the edge of the drainage mechanism, but a part of the drainage mechanism is exposed out of the shower room, so that enough buffer space is provided when water is flushed into the lower water seat, the phenomenon that the kinetic energy of the water is too large and overflows the lower water seat to cause the space outside the shower room to be wetted is avoided, and a good waterproof effect is achieved.

Drawings

FIG. 1 is a schematic structural view of a safety fixing structure of the barrier-free shower screen according to the present invention;

FIG. 2 is a schematic structural view of the spindle mechanism of FIG. 1;

FIG. 3 is an exploded view of FIG. 2;

FIG. 4 is a front view of the spindle assembly of FIG. 2;

FIG. 5 is a cross-sectional view taken along line A-A of FIG. 4;

FIG. 6 is a front view of the base of FIG. 2;

FIG. 7 is a top view of FIG. 6;

FIG. 8 is a perspective view of FIG. 6;

FIG. 9 is a front view of the face cover of FIG. 2;

FIG. 10 is a cross-sectional view taken along line B-B of FIG. 9;

FIG. 11 is a perspective view of the face cover of FIG. 9;

FIG. 12 is a cross-sectional view of a portion of the base assembly of FIG. 2;

FIG. 13 is a front view of the drain mechanism of FIG. 1;

FIG. 14 is a cross-sectional view taken along line C-C of FIG. 13;

FIG. 15 is an enlarged view at D of FIG. 14;

FIG. 16 is a perspective view of FIG. 13;

FIG. 17 is an exploded view of FIG. 16;

FIG. 18 is an enlarged view of the drain filter assembly of FIG. 17;

FIG. 19 is a front view of the first drain cover of FIG. 18;

FIG. 20 is a left side view of FIG. 19;

FIG. 21 is a top view of FIG. 19;

FIG. 22 is an exploded view of the safety fastening structure of the barrier-free shower screen according to the present invention;

FIG. 23 is an exploded view of the first drain cover and spindle mechanism of FIG. 22;

FIG. 24 is a view showing a state of use of the barrier-free shower screen safety fixing structure of the present invention in a shower room;

FIG. 25 is an enlarged view of a portion of the safety securement structure of the barrier-free shower screen of FIG. 24;

fig. 26 is another use state reference diagram of fig. 25.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.

Referring to fig. 1-26, the invention discloses a safe fixing structure of an obstacle-free shower screen, which comprises a drainage mechanism and a rotating shaft mechanism arranged on a water passing mechanism, wherein the drainage mechanism comprises a lower water seat 1, a floor drain assembly and a drainage filtering assembly, and the floor drain assembly and the drainage filtering assembly are arranged in the lower water seat 1;

the rotating shaft mechanism comprises a base assembly, a fastening assembly and a rotating shaft assembly, the base assembly is installed on the drainage filtering assembly through the fastening assembly, the rotating shaft assembly is rotatably connected with the base assembly, and the rotating shaft door is installed and fixed on the rotating shaft assembly.

As shown in fig. 6-8, the base assembly includes a base 8, the base 8 is provided with an insertion position 81 and a through hole 85, the insertion position 81 is provided with an insertion hole 81a, the rotating shaft assembly is rotatably connected with the base 8 through the insertion hole 81a, and the fastening assembly mounts the base 8 on the drainage filter assembly through the through hole 85. The base mounting is fixed on drainage filtering component, and pivot unit mount is on the base, but and the rotation for can revolute the pivot subassembly rotation with pivot subassembly fixed connection's pivot door, realize the switch door, thereby make pivot door and drainage mechanism cooperation use, solved the problem that current drainage device can only the adaptation push-and-pull door.

Preferably, as shown in fig. 9-12, the base assembly further includes a surface cover 9 covering the base 8, an opening 91 is formed on one side surface of the surface cover 9, a notch 92 is formed by extending inward from the opening 91, and the plug 81 is inserted into the notch 92 through the opening 91. The face cover can play a role in decoration and also can play a role in water resistance. And in order to be used with the base in a matching way, the surface cover is provided with a notch matched with the inserting position, so that the surface cover covers the base to form a whole, and the waterproof effect is better. Specifically, face lid 9 is connected with base 8 through the block subassembly, the block subassembly is including locating lower inclined plane 83a on base 8, locating the sand grip 93 of face lid 9 inside wall and locating last inclined plane 93a on the sand grip 93, the sand grip 93 extends to opening 91, face lid 9 makes lower inclined plane 83a and last inclined plane 93a be connected through opening 91 to make base 8 along last inclined plane 93a embedding face lid 9 in, realize face lid 9 and base 8 block and be connected. The lower inclined surfaces 83a are arranged on two opposite sides of the bottom surface of the base 8, the inclined surfaces of the lower inclined surfaces 83a face downwards, the convex strips 93 are arranged on two opposite sides in the surface cover 9, and the inclined surfaces of the lower inclined surfaces 83a face upwards. The face cover makes lower inclined plane and last inclined plane butt joint earlier through the opening to push the base along last inclined plane in the face cover. The base and the face cover are connected in a clamping mode through the lower inclined plane and the upper inclined plane, and therefore the face cover covers the base.

Preferably, two opposite sides of the base 8 are provided with limiting strips 83 for limiting the movement of the face cover 9. Specifically, the limiting strip is arranged on one side of the limiting strip, which is the same as the lower inclined surface, so that the situation that the face cover moves left and right can be avoided, and the base and the face cover are relatively fixed.

Preferably, a seal 84 is disposed on one side of the base 8 corresponding to the opening 91, the base 8 is provided with a socket 82 formed by extending inward from an inner wall of the seal 84, the socket 81 is disposed on the socket 82, and an upper surface of the socket 82 is connected with a side surface parallel to the inner wall of the seal 84 through an arc surface 82 a. The opening of face lid can be sealed in the setting of strip of paper used for sealing, guarantees the holistic aesthetic property of base subassembly, can play waterproof effect simultaneously. The setting of inserting the seat can guarantee the steadiness that face lid and base are connected and the bulk strength of base subassembly, helps bearing the pressure of pivot door. And the friction between the face cover and the inserting seat can be reduced by arranging the cambered surface, so that the base is smoother and easier in the process of being embedded into the face cover.

As shown in fig. 2, 3, 12, 22 and 23, the fastening assembly includes a fastening seat 10 and a fastening member 11, the fastening seat 10 is disposed below the drainage filter assembly, the size of the through hole 85 is larger than that of the fastening member 11, and the fastening member 11 passes through the through hole 85 and the drainage filter assembly in sequence and is fixedly connected with the fastening seat 10, so that the base 8 is mounted on the drainage filter assembly. The fastening seat is provided with a screw hole, the fastening piece is a large flat head machine wire, and the fastening seat is arranged in the water discharging seat, namely below the drainage filtering component. The fastener passes through the through-hole in proper order, drainage filtering component and the screw threaded connection of fastening seat to be fixed in on the drainage filtering component with the base. The size of through-hole is greater than the size of fastener, removes the base and makes the fastener arrange the different positions of through-hole in, reaches the purpose of adjusting the relative position between base and the fastener to make the pivot on the base align with the pivot at pivot door top, guarantee that the pivot door is in the vertical state.

Preferably, the fastening assembly further comprises a gasket, and the fastening member 11 sequentially penetrates through the gasket, the through hole 85 and the drainage filter assembly to be fixedly connected with the fastening seat 10. The gasket is a rubber gasket. The setting up of gasket guarantees that the position between fastener and the base is relatively fixed, does not squint to guarantee the steadiness that pivot mechanism and drainage filtering component are connected.

As shown in fig. 2-5 and 22-23, the rotating shaft assembly includes a rotating shaft 12, a fixing cover 13 and a locking member 14, the rotating shaft 12 includes a shaft portion 121 and a door connecting portion 122, the shaft portion 121 is inserted into the through hole 85 to rotatably connect the rotating shaft 12 with the base 8, the rotating shaft door 100 is clamped between the door connecting portion 122 and the fixing cover 13, and the door connecting portion 122, the rotating shaft door 100 and the fixing cover 13 are relatively fixed by the locking member 14. The door connecting part is of an L shape, and the bottom of the door connecting part can play a good supporting role in the rotating shaft door. The locking part is an inner hexagonal countersunk head screw, and a decorative cover for shielding the locking part is arranged outside the locking part. The rotating shaft is rotatably connected with the base, so that the rotating shaft door arranged on the rotating shaft component can rotate around the rotating shaft to open and close the door. The rotating shaft door is fixedly arranged on the rotating shaft through the fixing cover and the locking piece.

Preferably, as shown in fig. 3, a washer is sleeved on the shaft portion 121, and the door connecting portion 122 is connected to the insertion site 81 through the washer. The setting of packing ring can reduce the door and connect the portion and insert the friction between the position, makes the rotation of pivot more smooth and easy.

Preferably, as shown in fig. 4-5, a first spacer 15 and a second spacer 16 are further disposed between the door connecting portion 122 and the fixed cover 13, the first spacer 15 is connected to the door connecting portion 122, the second spacer 16 is connected to the fixed cover 13, and the rotating shaft door 100 is disposed between the first spacer 15 and the second spacer 16. The first cushion block and the second cushion block are rubber cushion blocks. Because the shower door generally is the glass door, the setting of first cushion and second cushion is avoided door connecting portion and fixed lid to cause the damage to it when centre gripping pivot door, also can increase frictional force, makes the pivot door can install in the pivot firmly.

Preferably, as shown in fig. 3, the bottom of the first cushion block 15 and the bottom of the second cushion block 16 are provided with a position-locking strip 17, and the position-locking strip 17 is locked on the bottom surface of the revolving door 100 so that the first cushion block 15 and the second cushion block 16 are both fixed relative to the revolving door 100. The setting of screens strip can further guarantee the relative fixation of pivot door and door connecting portion, fixed lid mounted position, has increaseed the stability that the pivot door was installed on the pivot subassembly to guarantee the security that the pivot door used.

Specifically, as shown in fig. 5, the door connecting portion 122 is provided with a locking hole 123, and the locking member 123 sequentially passes through the fixing cover 13, the second spacer 16, the rotating shaft door 100, and the first spacer 15 to be fixedly connected to the locking hole 123. The locking hole is a screw hole, and the locking piece sequentially penetrates through the fixing cover, the second cushion block, the rotating shaft door, the first cushion block and the locking hole in threaded connection. The cooperation of locking part and locking hole makes the pivot door install in the pivot, even the relative fixed in position between fixed lid, second cushion, pivot door, first cushion and the pivot.

The drainage filter assembly is characterized in that the drainage seat 1 is provided with a drainage port 1b and a drainage hole 1a, the floor drain assembly is arranged on the drainage hole 1a, the drainage filter assembly is installed in the drainage seat 1 through the drainage port 1b, and the drainage filter assembly is in clearance fit with the drainage seat 1. It should be noted that a groove matched with the lower water base is dug in the ground below the rotating shaft door, a sewer is arranged at the bottom of the groove, the lower water base is installed in the groove, and a water outlet hole is arranged corresponding to the sewer. The water outlet is flush with the top of the drainage filtering component, or the top of the water outlet is slightly higher than the top of the drainage filtering component, so that the water can enter and exit the shower room without obstruction.

As shown in fig. 16 to 18, the drainage filter assembly comprises a first drainage cover 5, a second drainage cover 6 and a third drainage cover 7 which are connected in sequence, wherein the second drainage cover 6 is detachably connected with the lower water seat 1. Wherein the first drain cover 5, the second drain cover 6 and the third drain cover 7 have the same height. The second drainage lid can be dismantled, is convenient for daily clean down the water stand inside, avoids wastes material, impurity etc. to stay in drainage mechanism for a long time and causes bacterial growing, forms sanitary dead angle. The second drainage cover is independent of the first drainage cover and the third drainage cover, and the rotating shaft door is not required to be detached firstly for detaching the second drainage cover, so that the cleaning is facilitated. The third drainage cover enables the side wall of the shower room not to be arranged at the edge of the drainage mechanism, but a part of the drainage mechanism is exposed out of the shower room, so that enough buffer space is provided when water is flushed into the lower water seat, the phenomenon that the kinetic energy of the water is too large and overflows the lower water seat to cause the space outside the shower room to be wetted is avoided, and a good waterproof effect is achieved.

As shown in fig. 18 and 23, the first drain cover 5 includes a first supporting leg 51 and a first supporting bar 52 erected on the first supporting leg 51, and the first supporting bar 52 is parallel to each other and arranged at equal intervals. The two first supporting legs 51 are arranged in parallel, and have a supporting function on the first supporting bar, so that the first supporting bar is prevented from sinking due to stress. First stay is parallel to each other and equidistant setting, except can effectively separating rubbish, wastes material and impurity, can also play the supporting role to the pivot door effectively, and intensity is high to and can resist the produced torsion of pivot door when rotatory, avoid first drainage lid atress to warp, influence the result of use. The distance d is 7-10 mm. Preferably, the spacing d is 8 mm. The supporting capacity of first drainage lid can be guaranteed in equidistant setting, and the interval between the first bracing piece of injecing guarantees that the pivot can be installed on first drainage lid. Since the fastening member has a certain size, the fastening member needs to pass through the gap between the first supporting bars when the base is fixedly mounted to the first drain cover by the fastening member. If the spacing is too small, the fasteners cannot pass through; if the spacing is too large, the installation is not facilitated, and the supporting strength is affected.

Preferably, as shown in fig. 20 to 21, two adjacent first supporting bars 52 on two sides of the first drainage cover 5 are in fit connection, so that the strength of the two sides of the first drainage cover can be enhanced, and the first drainage cover is prevented from being deformed by torsion generated when the rotating shaft door rotates.

Specifically, as shown in fig. 3, 12, and 22-23, the base 8 is disposed above the first supporting bar 52, the fastening seat 10 is disposed below the first supporting bar 52, and the fastening member 11 sequentially passes through the through hole 85 and the gap between two adjacent first supporting bars 52 to be fixedly connected to the fastening seat 10, so that the base 8 is mounted on the first drainage cover 5. The fastener passes through the through hole, and the clearance of two adjacent first supporting strips is connected with the fastening seat screw thread below the first supporting strips, but the base adjusts the rotating shaft through the through hole and aligns with the rotating shaft at the top of the rotating shaft door, and then the fastener is screwed down, so that the base is fixed on the first supporting strips.

Preferably, the area of the base 8 is smaller than that of the first drain cover 5. The existing drainage device is matched with a sliding door for use, and the position of the installation guide rail can not drain water, so that the drainage area of the drainage device is reduced, and the drainage effect is influenced. The area of the base of the invention is smaller than that of the first drainage cover, the base can not shield the first drainage cover too much or completely, and the drainage function of the first drainage cover is ensured, thereby ensuring the drainage effect of the drainage mechanism.

As shown in fig. 18, the second drainage cover 6 includes a second supporting leg 61 and a second supporting bar 62 erected on the second supporting leg 62, and the second supporting bars 62 are parallel to each other and are arranged at equal intervals. The number of the second stays is preferably 10. The second supporting legs 61 are arranged in parallel and are used for supporting the second supporting bars, and the second supporting bars are prevented from sinking due to stress. The second support bars are parallel to each other and arranged at equal intervals, so that garbage, wastes and impurities can be effectively separated, and a better support effect can be achieved. The third drainage cover 7 comprises a third supporting leg 71 and a third supporting bar 72 erected on the third supporting leg 71, and the third supporting bar 72 is parallel to each other and arranged at equal intervals. The number of the third supporting strips is preferably 10. The two third supporting legs 71 are arranged in parallel, and have a supporting function on the third supporting bar, so that the third supporting bar is prevented from sinking due to stress. The third support bars are parallel to each other and arranged at equal intervals, so that garbage, wastes and impurities can be effectively separated, and a better support effect can be achieved.

Preferably, the second supporting strips 62 and the third supporting strips 72 are arranged in a one-to-one correspondence, so that the drainage cover can have an integral effect and an attractive appearance, and can also support each other, thereby enhancing the overall strength of the drainage cover.

In order to ensure a better filtering effect, it is preferable that the spacing between the second and third supporting strips 62 and 72 is smaller than the spacing between the first supporting strips 52, as shown in fig. 13.

It should be noted that the first support bar 52, the second support bar 62, and the third support bar 72 are square bars, and the square bars are 3 × 5 square bars.

Preferably, the length L2 of the second drain cover 6 is greater than the sum of the lengths of the first drain cover 5 and the third drain cover 7 (L1+ L3), i.e., the second drain cover is the longest section of the entire drain filter assembly, so that it can ensure enough space for cleaning the lower water seat. And the length of the first drainage cover and the third drainage cover is not too long, and the lower water seat where the first drainage cover and the third drainage cover are located is difficult to clean if the length of the first drainage cover and the third drainage cover is too long. Since the rotation shaft is installed on the first drain cover, that is, the rotation shaft door is installed on the first drain cover, the first drain cover cannot be detached. In order to ensure that water in the lower water seat cannot flow out of the shower room, the side wall of the shower room is required to be pressed on the third drainage cover, as shown in the figure, the side wall of the shower room is pressed in the middle of the third drainage cover, so that part of the third drainage cover is exposed out of the shower room, enough buffer space is formed when water is flushed into the lower water seat, the phenomenon that the kinetic energy of the water is too large and overflows the lower water seat to cause the space outside the shower room to be wetted is avoided, and a good waterproof effect is achieved. Thus, the third drain cover cannot be detached either.

Preferably, the length L1 of the first drain cover 5 is 160-180mm, and the length L3 of the third drain cover 7 is 70-90 mm. More preferably, the length L1 of the first drain cover 5 is 170mm, and the length L3 of the third drain cover 7 is 80 mm. The length of the first drainage cover is limited, so that the rotating shaft is ensured to have a sufficient installation position and a sufficient supporting force for the rotating shaft door. The length of the third drainage cover is limited, so that the third drainage cover does not overflow due to the fact that the third drainage cover is too short and the lower water seat extending out of the shower room is too small; and is not too long to facilitate cleaning of the lower drain seat in which the third drain cover is located.

As shown in fig. 15 and 17, the floor drain assembly comprises a water seal member 2, a sealing gasket 3 and a filter screen 4, wherein the water seal member 2 is installed in the lower water hole 11, the sealing gasket 3 for preventing leakage is arranged between the water seal member 2 and the lower water hole 11, and the filter screen 4 for filtering is arranged above the water seal member 2. Water flows through the gap between the support bars through the sewer opening and enters the sewer seat, waste, impurities and the like in water are filtered and separated through the filter screen, the waste, the impurities and the like are reserved in the sewer seat, and the sewer is prevented from being blocked. The water seal piece separates the sewer seat from the sewer through water, and peculiar smell in the sewer is prevented from being diffused into the shower room.

The implementation of the invention has the following beneficial effects:

the rotating shaft mechanism which is connected with the rotating shaft door in an installing mode is arranged on the drainage filtering component of the drainage mechanism, the drainage device and the rotating shaft door are matched for use, the large occupied space of the shower room caused by the adoption of a sliding door is avoided, and therefore the shower room is suitable for the shower room with a narrow space.

Specifically, drainage filter assembly is including the first drainage lid that connects gradually, second drainage lid and third drainage lid, and the pedestal mounting of pivot mechanism is covered in first drainage, utilizes the cooperation of fastener and fastening seat to be connected, makes base fixed mounting on the first bracing strip of first drainage lid to come to adjust the position of base through the through-hole on the base, so that the pivot of installing on the base aligns with the pivot at pivot door top, guarantees that the pivot door is in the vertical state. The area of base is less than the area of first drainage lid makes the base can not shelter from the area of drainage lid too much, makes drainage mechanism can receive water droplet on the shower door completely to play fine drainage, water-proof effects, avoid water to be stained with the space outside the shower room. The pivot subassembly passes through jack and base swivelling joint, and the pivot door is installed on the pivot subassembly, makes the pivot door can realize the switch around the rotation of axes to make the pivot door can use with drainage device cooperation, save the area of shower room door, thereby reduce the area in shower room.

Wherein, the second drainage lid can be dismantled, is convenient for daily to the inside cleanness of lower water stand, avoids wastes material, impurity etc. to stay in drainage mechanism for a long time and causes bacterial growing, forms sanitary dead angle. The second drainage cover is independent of the first drainage cover and the third drainage cover, and the rotating shaft door is not required to be detached firstly for detaching the second drainage cover, so that the cleaning is facilitated. The third drainage cover enables the side wall of the shower room not to be arranged at the edge of the drainage mechanism, but a part of the drainage mechanism is exposed out of the shower room, so that enough buffer space is provided when water is flushed into the lower water seat, the phenomenon that the kinetic energy of the water is too large and overflows the lower water seat to cause the space outside the shower room to be wetted is avoided, and a good waterproof effect is achieved.

In conclusion, the barrier-free shower screen safety fixing structure provided by the invention enables the drainage device to be matched with the rotating shaft door for use, so that the floor area of a shower room door is saved, and the floor area of a shower room is reduced; not only has good waterproof effect, but also is convenient to clean.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.