CN109944410B

CN109944410B - Ceramic tile for kitchen floor

Info

Publication number: CN109944410B
Application number: CN201910403534.1A
Authority: CN
Inventors: 不公告发明人
Original assignee: Guangdong Guanxing Ceramics Enterprise Co ltd
Current assignee: GUANGDONG GUANXING CERAMICS ENTERPRISE Co.,Ltd.
Priority date: 2019-05-15
Filing date: 2019-05-15
Publication date: 2020-10-30
Anticipated expiration: 2039-05-15
Also published as: CN109944410A

Abstract

The invention belongs to the technical field of ceramic tiles, and particularly relates to a ceramic tile for a kitchen floor, wherein a ceramic tile body is uniformly provided with threaded water guide holes, and the bottom end of the ceramic tile body is provided with a water drainage cavity; a spiral supporting rod is connected with the inner part of the threaded water guide hole in a threaded manner, and a rotating cavity is formed in the spiral supporting rod; the bottom end in the rotating cavity is provided with a rolling ball, and a rotating rod is inserted in the rotating cavity; the outer wall of the rotating rod is provided with a spiral groove, and the spiral groove is matched with the rolling ball to slide; the top end of the rotating rod is connected with a rotating fan blade through a rotating column, and the rotating rod is uniformly provided with drainage channels; the outer wall of the spiral supporting rod is uniformly provided with a water guide groove; the sewage accumulated in the thread water guide holes is prevented from being blocked, so that the drainage effect of the ceramic tile body is further influenced; prevent simultaneously that the sewage of ceramic tile body upper surface gathering is too much, when the staff walked on soft ceramic tile body, because the elasticity of soft ceramic tile, lead to sewage splash phenomenon.

Description

Ceramic tile for kitchen floor

Technical Field

The invention belongs to the technical field of ceramic tiles, and particularly relates to a ceramic tile for a kitchen floor.

Background

At present, with the progress of society and the development of economy, a great deal of resources are consumed, and meanwhile, serious pollution is caused. The pollution of the building industry is particularly serious, and the ceramic tiles are widely applied to decorating and protecting walls and floors of buildings and structures.

Soft tiles are one of the categories of ceramic tiles, and the texture of soft tiles is different from that of traditional tiles; the soft tile is soft, looks like a cow leather when being touched, has prominent patterns and strong stereoscopic impression; the soft ceramic tile mainly adds flexible elements into the ceramic tile, changes the cold and hard texture of the traditional ceramic tile, and is more flexible and more warm.

When the existing soft ceramic tile is used, the properties of the soft ceramic tile are different due to different use occasions and use environments; if the soft ceramic tiles are used in kitchens of restaurants, the phenomenon that some tableware of porcelain is damaged when the tableware of porcelain falls off can be prevented due to the soft texture of the soft ceramic tiles; but because soft ceramic tile water absorption performance is relatively poor, lead to kitchen easy gathering sewage on the ground, when the staff is walking, because the elasticity that has of soft ceramic tile, and then make subaerial sewage produce the splash phenomenon.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides the ceramic tile for the kitchen floor, which is mainly used for solving the problems that the existing soft ceramic tile is poor in water absorption performance, so that sewage is easy to gather on the floor of the kitchen of a restaurant, and when workers walk, the sewage on the floor is splashed due to the elasticity of the soft ceramic tile.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a ceramic tile for kitchen floors, which comprises a ceramic tile body; the ceramic tile body is uniformly provided with threaded water guide holes, and the bottom end of the ceramic tile body is provided with a drainage cavity; the threaded water guide hole is communicated with the drainage cavity, and an inclined groove is formed in the upper end of the threaded water guide hole; a spiral supporting rod is connected to the inner part of the threaded water guide hole in a threaded manner, and a rotating cavity is formed in the spiral supporting rod; the bottom end in the rotating cavity is provided with a rolling ball, and a rotating rod is inserted in the rotating cavity; the outer wall of the rotating rod is provided with a spiral groove, and the spiral groove is matched with the rolling ball to slide; the bottom end of the rotating rod is arranged in the drainage cavity through a bearing, the top end of the rotating rod is connected with a rotating fan blade through a rotating column, and drainage grooves are uniformly formed in the outer surface of the rotating rod; the outer wall of the spiral supporting rod is uniformly provided with a water guide groove, and the water guide groove is communicated with the rotating cavity; the bottom end of the drainage cavity is provided with a water flowing channel, and the water flowing channel is communicated with the drainage cavity through the through hole; when the ceramic tile is in work, the arranged ceramic tile body is formed by pressing an upper part and a lower part, the ceramic tile body is laid on the bottom surface of a kitchen of a restaurant, the laid ceramic tile is made of soft ceramic tile materials, when a kitchen worker walks on the bottom surface, the upper surface of the ceramic tile body can be sunken downwards, meanwhile, sewage gathered on the upper surface of the ceramic tile body can flow into the threaded water guide hole, the threaded water guide hole sunken downwards can drive the threaded spiral supporting rod to move downwards, the rolling ball is arranged in the rotating cavity and further can move downwards, the rolling ball moving downwards can slide in the spiral groove formed in the outer surface of the rotating rod, the bottom end of the rotating rod is arranged in the drainage cavity through the bearing, the rotating ball moving downwards can drive the rotating rod to rotate in the rotating cavity, the rotating blade can drive the rotating blade to rotate in the rotating cavity, and the rotating blade pumps the air in the threaded water guide hole into the rotating cavity through the water guide groove, meanwhile, sewage gathered in the thread water guide holes is adsorbed by the rotating fan blades, so that the sewage is accelerated to enter the rotating cavity, the sewage flowing into the rotating cavity flows into the drainage cavity through the drainage groove, the sewage on the ceramic tile body is further removed, the phenomenon that the sewage gathered in the thread water guide holes is blocked is prevented, and the drainage effect of the ceramic tile body is further influenced; meanwhile, excessive sewage accumulated on the upper surface of the tile body is prevented, and when workers walk on the soft tile body, the sewage is prevented from splashing due to the elasticity of the soft tile; the spiral support rod and the dwang that set up simultaneously not only play the effect of drainage, play the supporting role to soft ceramic tile body simultaneously, prevent that ceramic tile body material from crossing soft phenomenon that leads to the subsidence.

Preferably, the top end of the rotating rod is uniformly provided with sliding grooves, and the sliding grooves are matched with the rolling balls; the pitch of the spiral groove formed in the upper end of the rotating rod is larger than that of the spiral groove formed in the lower end of the spiral supporting rod; when the rotary blade type sewage treatment device works, after the rotary blade absorbs sewage in the thread water guide hole to the rotary cavity, the arranged sliding groove can perform a shunting effect on the sewage gathered in the rotary cavity, so that the phenomenon that the rotary cavity is blocked due to excessive sewage in the rotary cavity is prevented; the pitch of the spiral groove formed in the upper end of the rotating rod is larger than that of the spiral groove formed in the lower end of the spiral supporting rod, and when the rolling balls slide in the large-pitch rotating groove, the rotating speed of the rotating rod is increased, so that the rotating adsorption capacity of the rotating blade is improved; when the rolling ball rotates in the spiral groove with small pitch, the rotating speed of the rotating rod and the descending distance of the spiral supporting rod are reduced, and the upper part of the ceramic tile body is supported.

Preferably, the bottom end of the drainage cavity is uniformly provided with supporting blocks, supporting grooves are formed in the supporting blocks, and buffer springs are inserted in the supporting grooves; the top end of the buffer spring is arranged on the side surface of the threaded water guide hole, and the buffer spring is connected with a flexible sliding rod; the end part of the flexible sliding rod is provided with an inserting block, and the inserting block is positioned at the bottom end of the drainage groove; when the tile body is in work, when the upper half part of the tile body is sunken downwards, the buffer spring arranged in the drainage cavity is extruded, so that the arranged buffer spring has a certain supporting effect; when the tile body rebounds upwards, the restoring force of the arranged buffer spring can accelerate the restoring of the upper half part of the tile body, so that the drainage effect of the tile body is improved; when compression spring compressed down, can drive the inserted block that sets up on the flexible slide bar and slide in the water drainage tank, and then scrape out the operation to the sewage in the water drainage tank, prevent that sewage from producing in the water drainage tank and pile up the phenomenon.

Preferably, a flexible metal sheet is arranged on the inner wall of the threaded water guide hole, and the bottom end of the flexible metal sheet is tightly attached to the spiral support rod; the top end of the insertion block is provided with an arc-shaped groove, the end part of the insertion block is provided with a sealing bulge, and the sealing bulge is tightly contacted with the drainage groove; when the spiral supporting rod works, when the spiral water guide hole drives the spiral supporting rod to move downwards, the rolling bead is in sliding connection with the spiral groove, and the spiral groove can play an inertia supporting role on the spiral supporting rod, so that the spiral supporting rod and the spiral water guide hole generate relative movement, the spiral supporting rod and the flexible metal sheet generate friction, and the spiral water guide hole is heated; when compression spring downstream, the arc wall that sets up on the piece is discharged through the plug to the sewage in the water drainage tank, when compression spring upward movement, drives flexible slide bar upward drainage tank internal motion, makes the sealed arch that sets up on the plug to closely laminate the effect of striking off the dust to the inner wall of water drainage tank, extrudees the sewage in the water drainage tank simultaneously, and then makes the bonding thing of striking off mix with sewage, and then plays the effect of blowdown.

Preferably, the top end of the rotating column is connected with a sliding rod, and the sliding rod is inserted at the outer end of the spiral supporting rod in a sliding manner; the top end of the sliding rod is provided with a scraping spring, and the side end part of the scraping spring is contacted with the flexible metal sheet; when the scraping device works, when the rotating column rotates, the sliding rod arranged at the top end of the rotating column is driven to rotate, so that the scraping spring rotates in the threaded water guide hole, and the function of scraping sewage and bonded sundries in the threaded water guide hole is achieved; meanwhile, when the upper surface of the ceramic tile body moves downwards, the thread water guide hole generates extrusion force on the scraping spring, so that the scraping spring can support the thread water guide hole, and the phenomenon that the thread water guide hole shrinks due to extrusion deformation of the ceramic tile body is prevented, and the sewage discharge effect of the thread water guide hole is further influenced; when the tile body recovers, the effect of quick recovery of the tile body can be realized under the action of the recovery force of the scraping spring; meanwhile, the rotating scraping spring can push the particle sundries gathered in the thread water guide hole out of the thread water guide hole, so that the phenomenon that the particle sundries are accumulated in the thread water guide hole is further prevented.

Preferably, the rotating fan blades are uniformly provided with filtering holes, and the end parts of the rotating fan blades are provided with arc-shaped baffles; an annular collecting tank is arranged on the rotating column, a sewage discharging cavity is arranged in the rotating column, and the sewage discharging cavity is communicated with the water flowing channel; the during operation, after screw thread water guide downthehole sewage entered into the rotation chamber, partly sewage can fall into on the pivoted rotating fan blade, and then when rotating fan blade rotates, the sewage that falls on rotating fan blade filters the granule debris that mix with in sewage through filtering the hole, the water drainage tank flows into water drainage chamber, the while is mingled with the tiny particle debris in the sewage and enters into annular collecting vat through cowl under rotating fan blade pivoted centrifugal force effect in, fall into the flow channel through the blowdown chamber, and then separate sewage and the granule debris that mix with, prevent that the granule debris in the sewage from taking place blocking phenomenon in water drainage tank.

The invention has the following beneficial effects:

1. according to the invention, through the matching of the spiral supporting rod and the rotating rod, sewage in the thread water guide hole is adsorbed by the rotating fan blades, so that the sewage is accelerated to enter the rotating cavity, and the sewage entering the rotating cavity flows into the drainage cavity through the drainage groove, so that the sewage on the ceramic tile body is removed, and the phenomenon that the sewage accumulated in the thread water guide hole is blocked is prevented, and the drainage effect of the ceramic tile body is further influenced; prevent simultaneously that the sewage of ceramic tile body upper surface gathering is too much, when the staff walked on soft ceramic tile body, because the elasticity of soft ceramic tile, lead to sewage splash phenomenon.

2. According to the ceramic tile, the scraping spring is arranged, when the upper surface of the ceramic tile body moves downwards, the thread water guide hole generates extrusion force on the scraping spring, so that the scraping spring can support the thread water guide hole, the phenomenon that the thread water guide hole shrinks due to extrusion deformation of the ceramic tile body is prevented, and the sewage discharge effect of the thread water guide hole is further influenced; when the ceramic tile body resumes, the ceramic tile body can realize the effect of recovering fast scraping the spring and being in the effect of recovery power.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a front view of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

in the figure: the ceramic tile comprises a ceramic tile body 1, a threaded water guide hole 11, a drainage cavity 12, a water flowing channel 13, a spiral supporting rod 2, a rotating cavity 21, a water guide groove 22, a rolling ball 3, a rotating rod 4, a spiral groove 41, a drainage groove 42, a sliding groove 43, a bearing 5, a rotating column 6, an annular collecting groove 61, a sewage discharging cavity 62, a rotating fan blade 7, a filtering hole 71, an arc-shaped baffle plate 72, a supporting block 8, a supporting groove 81, a buffer spring 9, a flexible sliding rod 101, an inserting block 102, an arc-shaped groove 103, a sealing bulge 104, a flexible metal sheet 105, a sliding rod 106 and a scraping spring 107.

Detailed Description

A ceramic tile for kitchen floor according to an embodiment of the present invention will be described below with reference to fig. 1 to 3.

As shown in fig. 1 and 2, the ceramic tile for kitchen floor according to the present invention comprises a tile body 1; the method is characterized in that: threaded water guide holes 11 are uniformly formed in the ceramic tile body 1, and a water drainage cavity 12 is formed in the bottom end of the ceramic tile body 1; the threaded water guide hole 11 is communicated with the drainage cavity 12, and an inclined groove is formed in the upper end of the threaded water guide hole 11; the spiral supporting rod 2 is connected with the inner part of the threaded water guide hole 11 in a threaded manner, and a rotating cavity 21 is formed in the spiral supporting rod 2; the rolling ball 3 is arranged at the bottom end inside the rotating cavity 21, and the rotating rod 4 is inserted in the rotating cavity 21; the outer wall of the rotating rod 4 is provided with a spiral groove 41, and the spiral groove 41 is matched with the rolling bead 3 to slide; the bottom end of the rotating rod 4 is arranged in the drainage cavity 12 through a bearing 5, the top end of the rotating rod 4 is connected with a rotating fan blade 7 through a rotating column 6, and drainage grooves 42 are uniformly formed in the outer surface of the rotating rod 4; the outer wall of the spiral supporting rod 2 is uniformly provided with water chutes 22, and the water chutes 22 are communicated with the rotating cavity 21; the bottom end of the drainage cavity 12 is provided with a water flowing channel 13, and the water flowing channel 13 is communicated with the drainage cavity 12 through a through hole; when the ceramic tile is in operation, the ceramic tile body 1 is formed by pressing an upper part and a lower part, the ceramic tile body 1 is laid on the bottom surface of a kitchen of a restaurant, the laid ceramic tile is made of soft ceramic tile materials, when a kitchen worker walks on the bottom surface, the upper surface of the ceramic tile body 1 can be sunken downwards, simultaneously, sewage gathered on the upper surface of the ceramic tile body 1 can flow into the threaded water guide hole 11, the threaded water guide hole 11 sunken downwards can drive the threaded spiral supporting rod 2 to move downwards, the rolling bead 3 is arranged in the rotating cavity 21 and further enables the rolling bead 3 to move downwards, the rolling bead 3 moving downwards can slide in the spiral groove 41 formed on the outer surface of the rotating rod 4, the bottom end of the rotating rod 4 is arranged in the drainage cavity 12 through the bearing 5, the rolling bead 3 moving downwards can drive the rotating rod 4 to rotate in the rotating cavity 21, the rotating blade 7 can be driven by the rotating rod 4 to rotate in the rotating cavity 21, the rotating fan blade 7 sucks gas in the threaded water guide hole 11 into the rotating cavity 21 through the water guide groove 22, meanwhile, sewage gathered in the threaded water guide hole 11 is adsorbed by the rotating fan blade 7 and then enters the rotating cavity 21 in an accelerated manner, the sewage entering the rotating cavity 21 flows into the drainage cavity 12 through the drainage groove 42, and then the sewage on the ceramic tile body 1 is removed, so that the phenomenon that the sewage gathered in the threaded water guide hole 11 is blocked is prevented, and the drainage effect of the ceramic tile body 1 is further influenced; meanwhile, excessive sewage accumulated on the upper surface of the ceramic tile body 1 is prevented, and when workers walk on the soft ceramic tile body 1, the sewage is prevented from splashing due to the elasticity of the soft ceramic tile; spiral support rod 2 and dwang 4 that set up simultaneously not only play the effect of drainage, play the supporting role to soft ceramic tile body 1 simultaneously, prevent that the phenomenon that the material of ceramic tile body 1 is crossed soft and is leaded to the subsidence.

As shown in fig. 1, the top end of the rotating rod 4 is uniformly provided with sliding grooves 43, and the sliding grooves 43 are matched with the rolling beads 3; the pitch of the spiral groove 41 formed in the upper end of the rotating rod 4 is larger than that of the spiral groove 41 formed in the lower end of the spiral supporting rod 2; when the device works, after the rotating fan blades 7 absorb the sewage in the threaded water guide holes 11 to the rotating cavity 21, the arranged sliding grooves 43 can perform a shunting effect on the sewage gathered in the rotating cavity 21, so that the phenomenon that the rotating cavity 21 is blocked due to excessive sewage in the rotating cavity 21 is prevented; the pitch of the spiral groove 41 formed at the upper end of the rotating rod 4 is larger than that of the spiral groove 41 formed at the lower end of the spiral supporting rod 2, when the rolling ball 3 slides in the large-pitch rotary groove, the rotating speed of the rotating rod 4 is accelerated, and the rotating adsorption capacity of the rotating blade is improved; when the rolling ball 3 rotates in the spiral groove 41 with a small pitch, the rotating speed of the rotating rod 4 and the descending distance of the spiral support rod 2 are reduced, and the upper part of the tile body 1 is supported.

As shown in fig. 1 and 3, the bottom end of the drainage cavity 12 is uniformly provided with supporting blocks 8, supporting grooves 81 are formed in the supporting blocks 8, and buffer springs 9 are inserted into the supporting grooves 81; the top end of the buffer spring 9 is arranged on the side surface of the threaded water guide hole 11, and the buffer spring 9 is connected with a flexible sliding rod 101; the end part of the flexible sliding rod 101 is provided with an insertion block 102, and the insertion block 102 is positioned at the bottom end of the drainage groove 42; when the tile is in work, when the upper half part of the tile body 1 is sunken downwards, the buffer spring 9 arranged in the drainage cavity 12 is extruded, so that the arranged buffer spring 9 has a certain supporting function; when the tile body 1 rebounds upwards, the restoring force of the arranged buffer spring 9 can accelerate the restoring of the upper half part of the tile body 1, so that the drainage effect of the tile body 1 is improved; when the compression spring is compressed downwards, the insertion block 102 arranged on the flexible sliding rod 101 is driven to slide in the drainage groove 42, so that the sewage in the drainage groove 42 is scraped out, and the accumulation of the sewage in the drainage groove 42 is prevented.

As shown in fig. 1, 2 and 3, a flexible metal sheet 105 is disposed on an inner wall of the threaded water guide hole 11, and a bottom end of the flexible metal sheet 105 is closely attached to the spiral support rod 2; the top end of the insertion block 102 is provided with an arc-shaped groove 103, the end part of the insertion block 102 is provided with a sealing bulge 104, and the sealing bulge 104 is tightly contacted with the drainage groove 42; when the spiral water guide hole 11 drives the spiral support rod 2 to move downwards, the spiral groove 41 can play an inertia support role for the spiral support rod 2 due to the sliding connection of the rolling bead 3 and the spiral groove 41, so that the spiral support rod 2 and the spiral water guide hole 11 move relatively, the spiral support rod 2 and the flexible metal sheet 105 rub against each other, and the spiral water guide hole 11 is heated; when compression spring downstream, the arc wall 103 that sets up on the sewage in the water drainage tank 42 passes through the plug block 102 discharges, when compression spring upstream, drives flexible slide bar 101 and makes progress water drainage tank 42 internal motion, makes the sealed arch 104 that sets up on the plug block 102 closely laminate the inner wall of water drainage tank 42 and strike off the dust, extrudees the sewage in the water drainage tank 42 simultaneously, and then makes the bonding thing of striking off mix with sewage, and then plays the effect of blowdown.

As shown in fig. 1, the top end of the rotating column 6 is connected with a sliding rod 106, and the sliding rod 106 is slidably inserted into the outer end of the spiral support rod 2; the top end of the sliding rod 106 is provided with a scraping spring 107, and the side end of the scraping spring 107 is contacted with the flexible metal sheet 105; when the rotary column 6 rotates, the sliding rod 106 arranged at the top end of the rotary column 6 is driven to rotate, so that the scraping spring 107 rotates in the threaded water guide hole 11, and the sewage and the bonded sundries in the threaded water guide hole 11 are scraped; meanwhile, when the upper surface of the tile body 1 moves downwards, the threaded water guide hole 11 generates extrusion force on the scraping spring 107, so that the scraping spring 107 can support the threaded water guide hole 11, and the phenomenon that the threaded water guide hole 11 shrinks due to extrusion deformation of the tile body 1 of the threaded water guide hole 11 is prevented, and further the sewage discharge effect of the threaded water guide hole 11 is influenced; when the tile body 1 recovers, the tile body 1 can realize the effect of quick recovery under the action of the recovery force of the scraping spring 107; meanwhile, the rotating scraping spring 107 can push the particle impurities accumulated in the threaded water guide hole 11 out of the threaded water guide hole 11, thereby further preventing the particle impurities from accumulating in the threaded water guide hole 11.

As shown in fig. 1 and 3, the rotating blades 7 are uniformly provided with filtering holes 71, and the end portions of the rotating blades 7 are provided with arc-shaped baffles 72; an annular collecting groove 61 is formed in the rotating column 6, a sewage discharging cavity 62 is formed in the rotating column 6, and the sewage discharging cavity 62 is communicated with the water flowing channel 13; during operation, after entering into rotation chamber 21 when the interior sewage of screw thread water guide hole 11, partly sewage can fall into on the pivoted rotating fan blade 7, and then when rotating fan blade 7 rotates, the sewage that falls on rotating fan blade 7 filters the granule debris that mix with in the sewage through filtering hole 71, water drainage tank 42 flows into water drainage chamber 12, the while is mingled with the granule debris that mix with in the sewage and enters into annular collecting vat 61 through cowl 72 under rotating fan blade 7 pivoted centrifugal force effect in, fall into flowing water passageway 13 through blowdown chamber 62, and then separate sewage and the granule debris that mix with, prevent that the granule debris in the sewage from taking place blocking phenomenon in water drainage tank 42.

The specific working process is as follows:

when the ceramic tile is in operation, the ceramic tile body 1 is formed by pressing an upper part and a lower part, the ceramic tile body 1 is laid on the bottom surface of a kitchen of a restaurant, the laid ceramic tile is made of soft ceramic tile materials, when a kitchen worker walks on the bottom surface, the upper surface of the ceramic tile body 1 can be sunken downwards, simultaneously, sewage gathered on the upper surface of the ceramic tile body 1 can flow into the threaded water guide hole 11, the threaded water guide hole 11 sunken downwards can drive the threaded spiral supporting rod 2 to move downwards, the rolling ball 3 can move downwards due to the rotating cavity 21 formed by the rolling ball 3, the rolling ball 3 moving downwards can slide in the spiral groove 41 formed on the outer surface of the rotating rod 4, the bottom end of the rotating rod 4 is arranged in the drainage cavity 12 through the bearing 5, the rolling ball 3 moving downwards can drive the rotating rod 4 to rotate in the rotating cavity 21, the rotating blade 7 can be driven by the rotating rod 4 to rotate in the rotating cavity 21, pivoted rotating fan blade 7 rotates the chamber 21 through guiding gutter 22 with 11 gaseous suction in screw thread water guide hole, the sewage of gathering in screw thread water guide hole 11 simultaneously is through rotating fan blade 7's absorption, and then accelerate to enter into and rotate the chamber 21, the sewage that enters into in the rotation chamber 21 flows into in water drainage chamber 12 through water drainage tank 42, and then clears away the sewage on ceramic tile body 1, prevent that the gathering from taking place blocking phenomenon at the sewage in screw thread water guide hole 11, and then influences ceramic tile body 1's drainage effect.

In the description of the present invention, it is to be understood that the terms "center", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be taken as limiting the scope of the present invention.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from its scope. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. A ceramic tile for kitchen floors, comprising a tile body (1); the method is characterized in that: the ceramic tile body is made of soft porcelain, threaded water guide holes (11) are uniformly formed in the ceramic tile body (1), and a water drainage cavity (12) is formed in the bottom end of the ceramic tile body (1); the threaded water guide hole (11) is communicated with the drainage cavity (12), and an inclined groove is formed in the upper end of the threaded water guide hole (11); the spiral supporting rod (2) is connected with the inner part of the threaded water guide hole (11) in a threaded manner, and a rotating cavity (21) is formed in the spiral supporting rod (2); the rolling ball (3) is arranged at the bottom end in the rotating cavity (21), and the rotating rod (4) is inserted in the rotating cavity (21); the outer wall of the rotating rod (4) is provided with a spiral groove (41), and the spiral groove (41) is matched with the rolling bead (3) to slide; the bottom end of the rotating rod (4) is arranged in the drainage cavity (12) through a bearing (5), the top end of the rotating rod (4) is connected with a rotating fan blade (7) through a rotating column (6), and drainage grooves (42) are uniformly formed in the outer surface of the rotating rod (4); the outer wall of the spiral supporting rod (2) is uniformly provided with water guide grooves (22), and the water guide grooves (22) are communicated with the rotating cavity (21); the bottom end of the drainage cavity (12) is provided with a water flowing channel (13), and the water flowing channel (13) is communicated with the drainage cavity (12) through the through hole; the ceramic tile body (1) is arranged to be formed by pressing an upper part and a lower part, the ceramic tile body (1) is paved on the bottom surface of a kitchen of a restaurant, the paved ceramic tile is made of soft ceramic tile materials, when a kitchen worker walks on the bottom surface, the upper surface of the ceramic tile body (1) can be sunken downwards, simultaneously, sewage gathered on the upper surface of the ceramic tile body (1) can flow into the threaded water guide hole (11), the threaded water guide hole (11) sunken downwards can drive the threaded spiral support rod (2) to move downwards, as the rolling bead (3) is arranged in the rotating cavity (21), the rolling bead (3) can move downwards, and further, the rolling bead (3) moving downwards can slide in the spiral groove (41) formed in the outer surface of the rotating rod (4), as the bottom end of the rotating rod (4) is arranged in the water drainage cavity (12) through the bearing (5), and further, the rolling bead (3) moving downwards can drive the rotating rod (4) to rotate in the rotating cavity (21), the rotating rod (4) can drive the rotating fan blade (7) to rotate in the rotating cavity (21), the rotating fan blade (7) sucks gas in the threaded water guide hole (11) into the rotating cavity (21) through the water guide groove (22), and meanwhile, sewage gathered in the threaded water guide hole (11) is adsorbed by the rotating fan blade (7), so that the sewage is accelerated to enter the rotating cavity (21), the sewage entering the rotating cavity (21) flows into the water drainage cavity (12) through the water drainage groove (42), so that the sewage on the ceramic tile body (1) is cleared, the sewage gathered in the threaded water guide hole (11) is prevented from being blocked, and the water drainage effect of the ceramic tile body (1) is influenced; meanwhile, excessive sewage accumulated on the upper surface of the ceramic tile body (1) is prevented, and when workers walk on the soft ceramic tile body (1), the sewage is splashed due to the elasticity of the soft ceramic tile; the spiral supporting rod (2) and the rotating rod (4) arranged at the same time not only have the drainage effect, but also have the supporting effect on the soft ceramic tile body (1) so as to prevent the ceramic tile body (1) from sinking due to over-soft materials;

the top end of the rotating rod (4) is uniformly provided with sliding grooves (43), and the sliding grooves (43) are matched with the rolling beads (3); the pitch of the spiral groove (41) formed in the upper end of the rotating rod (4) is larger than that of the spiral groove (41) formed in the lower end of the spiral supporting rod (2); when the rotating fan blades (7) adsorb sewage in the threaded water guide holes (11) to the rotating cavity (21), the arranged sliding grooves (43) can divide the sewage gathered in the rotating cavity (21) to prevent the rotating cavity (21) from being blocked due to excessive sewage in the rotating cavity (21); the pitch of the spiral groove (41) formed in the upper end of the rotating rod (4) is larger than that of the spiral groove (41) formed in the lower end of the spiral supporting rod (2), when the rolling balls (3) slide in the large-pitch rotating groove, the rotating speed of the rotating rod (4) is accelerated, and the rotating adsorption capacity of the rotating blade is improved; when the rolling ball (3) rotates in the spiral groove (41) with small pitch, the rotating speed of the rotating rod (4) and the descending distance of the spiral supporting rod (2) are reduced, and the upper part of the ceramic tile body (1) is supported;

supporting blocks (8) are uniformly arranged at the bottom end of the drainage cavity (12), supporting grooves (81) are formed in the supporting blocks (8), and buffer springs (9) are inserted in the supporting grooves (81); the top end of the buffer spring (9) is arranged on the side surface of the threaded water guide hole (11), and the buffer spring (9) is connected with a flexible sliding rod (101); the end part of the flexible sliding rod (101) is provided with an insertion block (102), and the insertion block (102) is positioned at the bottom end of the drainage groove (42); when the upper half part of the tile body (1) is sunken downwards, the buffer spring (9) arranged in the drainage cavity (12) can be extruded, so that the arranged buffer spring (9) has a supporting function; when the tile body (1) rebounds upwards, the restoring force of the arranged buffer spring (9) can accelerate the restoring of the upper half part of the tile body (1), so that the drainage effect of the tile body (1) is improved; when the compression spring is compressed downwards, the plug-in block (102) arranged on the flexible sliding rod (101) can be driven to slide in the drainage groove (42), so that the sewage in the drainage groove (42) can be scraped out, and the accumulation of the sewage in the drainage groove (42) can be prevented.

2. The ceramic tile for kitchen floors as claimed in claim 1, wherein: a flexible metal sheet (105) is arranged on the inner wall of the threaded water guide hole (11), and the bottom end of the flexible metal sheet (105) is tightly attached to the spiral support rod (2); the top end of the insertion block (102) is provided with an arc-shaped groove (103), the end part of the insertion block (102) is provided with a sealing bulge (104), and the sealing bulge (104) is in close contact with the drainage groove (42).

3. A ceramic tile for kitchen use as claimed in claim 2, characterized in that: the top end of the rotating column (6) is connected with a sliding rod (106), and the sliding rod (106) is inserted at the outer end of the spiral supporting rod (2) in a sliding manner; the top end of the sliding rod (106) is provided with a scraping spring (107), and the side end part of the scraping spring (107) is contacted with the flexible metal sheet (105).

4. The ceramic tile for kitchen floors as claimed in claim 1, wherein: the rotating fan blades (7) are uniformly provided with filter holes (71), and the end parts of the rotating fan blades (7) are provided with arc-shaped baffles (72); an annular collecting groove (61) is formed in the rotating column (6), a sewage discharging cavity (62) is formed in the rotating column (6), and the sewage discharging cavity (62) is communicated with the water flowing channel (13).