CN113175036A - A offal transformation subassembly for not having spray offal - Google Patents

Abstract

The invention belongs to the field of spray launching reconstruction, and particularly relates to a launching reconstruction assembly for non-spray launching, which comprises a bathtub, a sealing cover, a hose, a one-way valve and a water leakage mechanism, wherein the bathtub bottom is provided with a water containing cavity; according to the invention, water sprayed by a shower is collected by the bathtub, part of water falling into the bathtub is temporarily accumulated in the water containing cavity through the water leaking mechanism, and when the water surface in the bathtub submerges the foot surface, the water in the water containing cavity and the bathtub is extruded into the sewer pipe of the wash basin through the hose by repeatedly treading two rubber bags. The water leakage mechanism cuts off the communication between the bathtub and the water containing cavity when the rubber bag is stepped, so that the pressure in the water containing cavity is increased when the rubber bag is pressed, and the water in the water containing cavity is further ensured to be smoothly discharged into the sewer pipe through the hose under the extrusion of the rubber bag.

Description

A offal transformation subassembly for not having spray offal

Technical Field

The invention belongs to the field of spray launching modification, and particularly relates to a launching modification assembly for non-spray launching.

Background

The toilet without the shower facility is not provided with a floor drain, and if the toilet without the shower facility needs to be additionally provided with the shower facility through reconstruction construction, the floor drain communicated with a sewer pipe needs to be installed by breaking the floor of the toilet so as to facilitate floor drainage in the shower bathing process.

However, the construction time for modifying and installing the floor drain by damaging the ground is long, and the modification cost is high. The construction of burying the sewer pipe in the ground causes unrecoverable damage to the ground to a certain extent, and even after the ground is repaired, the appearance is also influenced by reasons such as color difference of floor tiles.

The present invention is directed to a launch modification assembly for non-shower launching that solves the above problems.

Disclosure of Invention

In order to solve the defects in the prior art, the invention discloses a drainage reconstruction assembly for non-spraying drainage, which is realized by adopting the following technical scheme.

In the description of the present invention, it should be noted that the terms "inside", "outside", "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally use, which are merely for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, or be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

A launching transformation assembly for launching without spraying comprises a bathtub, a sealing cover, a hose, a one-way valve and a water leakage mechanism, wherein the bottom of the bathtub is provided with a water containing cavity; the outer side wall of the bathtub bottom is provided with a water inlet, a water outlet and an air inlet which are communicated with the water containing cavity; the water inlet is sealed by a sealing cover, the water outlet is provided with a hose communicated with a sewer pipe of the wash basin, and the air inlet is provided with a one-way valve allowing air to enter the water containing cavity in a one-way manner; the bottom in the bathtub is provided with two hemispherical shell-shaped rubber bags communicated with the water containing cavity and a plurality of water leakage mechanisms for leaking water in the bathtub into the water containing cavity.

The water leakage mechanism comprises a cylindrical block, a guide sleeve, a sliding plug, an elastic rope, a steel wire rope and a sliding block, wherein the cylindrical block is in sealing threaded fit with a circular groove C which is communicated with the water containing cavity and is arranged at the bottom in the bathtub; a cylindrical sliding block axially slides in a through circular groove D in the middle of the end face of the cylindrical block; two arc chutes which are concentric with the axis and communicated with the water containing cavity are symmetrically distributed on the inner wall of the circular groove D, and the two chutes are communicated through an arc guide sleeve which is concentric with the axis and positioned above the sliding block; a water leakage groove is formed in the side wall of the guide sleeve; two arc-shaped sliding plugs connected through an elastic rope slide in the guide sleeve and the two sliding chutes; the two sliding plugs respectively open and close the two sliding grooves.

The slide block moving vertically upwards drives the two slide plugs to rapidly close the corresponding slide grooves respectively through the steel wire rope.

As a further improvement of the technology, the rubber bag is arranged at a circular groove B at the bottom in the bathtub, and the water entering the water containing cavity is extruded by the pedal rubber bag and is pressed into the sewer pipe through the hose. A hard tube A is arranged at the water inlet, and a sealing cover is in threaded fit with the tail end of the hard tube; the air inlet is provided with a hard tube B through a mounting seat, and the one-way valve is arranged at the tail end of the hard tube B; an inner hexagonal groove matched with the hexagonal wrench is formed in the end face of the upper end of the cylindrical block.

As a further improvement of the technology, the outside of the basin bottom of the bathtub is vertically matched with a sliding sleeve in a sliding way; the slide sleeve is uniformly provided with a blocking rod which is axially sealed and slidably matched with a circular groove A which is communicated with the water containing cavity on the bathtub bottom. The stopping rod is used for stopping the hair entering the water containing cavity, and the water outlet is prevented from being blocked by the hair entering the water containing cavity in the using process. A movable groove A matched with the hard pipe A, a movable groove B matched with the hose and a movable groove C matched with the hard pipe B are formed in the side wall of the sliding sleeve; two guide blocks A are symmetrically arranged on the inner wall of the sliding sleeve and respectively slide in two guide grooves A on the outer side wall of the bathtub bottom. The matching of the guide block A and the guide groove A plays a role in positioning and guiding the axial sliding of the sliding sleeve on the bottom of the bathtub.

As a further improvement of the technology, the water containing cavity is internally provided with a guide plate which divides the water containing cavity into a plurality of narrower water flow channels communicated with the water inlet and the water outlet, when the water containing cavity is cleaned by a water gun through the water inlet, water flow with pressure entering the water containing cavity through the water inlet continues to keep moving direction and pressure towards the water outlet, and the water with pressure entering the water containing cavity is ensured to wash and clean sludge at the bottom in the water containing cavity and hair hooked on the blocking rod. Each guide plate is provided with a plurality of communicating grooves for communicating adjacent flowing water channels.

As a further improvement of the technology, a slag discharging groove which enlarges the size of the corresponding sliding groove is arranged at the notch of the sliding groove at the lower end of the cylindrical block; a steel wire rope arranged on each sliding plug bypasses the lower end of the sliding block and is connected with an L seat arranged at a corresponding side sliding groove opening at the lower end of the cylindrical block through a pulley B arranged on a U seat, and a pulley A for supporting the corner of the corresponding steel wire rope is arranged on each L seat; two guide blocks B are symmetrically arranged on the sliding block and respectively slide in the two guide grooves B on the inner wall of the circular groove D; the two ends of the elastic rope are respectively connected with the inner walls of the containing grooves on the end faces of the two sliding plugs.

Compared with the traditional non-spraying drainage improvement measure, the invention collects water sprayed by a shower through the bathtub, temporarily and partially accumulates water falling into the bathtub in the water containing cavity through the water leakage mechanism, and when the water surface in the bathtub submerges the instep, the water in the water containing cavity and the bathtub is extruded into the drainage pipe of the wash basin through the hose by repeatedly treading and pressing the two rubber bags. The water leakage mechanism cuts off the communication between the bathtub and the water containing cavity when the rubber bag is stepped, so that the pressure in the water containing cavity is increased when the rubber bag is pressed, and the water in the water containing cavity is further ensured to be smoothly discharged into the sewer pipe through the hose under the extrusion of the rubber bag.

In addition, when the invention is used for carrying out sewage reconstruction on the toilet without the bathroom, the floor drain does not need to be installed by damaging the floor of the bathroom, thereby reducing the sewage reconstruction cost of the bathroom. Meanwhile, the invention can move freely and flexibly, can move out of the toilet when not in use, and can move into the toilet at any time when in use, thereby ensuring that people who are convenient in the toilet do not have narrow feelings due to larger convenient space. The invention has simple structure and better use effect.

Drawings

Fig. 1 is a schematic cross-sectional view of the present invention in cooperation with the sewer pipe of a sink and two views thereof.

Fig. 2 is a schematic cross-sectional view of an internal guide plate of the bathtub from two viewing angles.

Fig. 3 is a schematic sectional view of the distribution of the guide plates in the bath tub.

FIG. 4 is a schematic cross-sectional view of the tub and its two viewing angles.

Fig. 5 is a schematic view of the guide plate.

Figure 6 is a schematic view of a sliding sleeve.

Fig. 7 is a schematic view of a water leakage mechanism.

Fig. 8 is an overall sectional view of the water leakage mechanism.

FIG. 9 is a schematic cross-sectional view of the cylindrical block, guide sleeve and sliding plug.

Fig. 10 is a schematic cross-sectional view of a cylindrical block.

Figure 11 is a schematic cross-sectional view of the sliding sleeve and its components.

Fig. 12 is a schematic cross-sectional view of a spool and its spool.

Fig. 13 is a schematic view of the slider, the U-shaped seat and the pulley B.

Number designation in the figures: 1. a bathtub; 2. a water containing cavity; 3. a water inlet; 4. a water outlet; 5. an air inlet; 6. a circular groove A; 7. a circular groove B; 8. a circular groove C; 9. a guide groove A; 10. a hard tube A; 11. sealing the cover; 12. a hose; 13. a branch pipe; 14. a sewer pipe; 15. a hard tube B; 16. a one-way valve; 17. a mounting seat; 18. a rubber bladder; 19. a sliding sleeve; 20. a guide block A; 21. a arresting bar; 22. a guide plate; 23. a communicating groove; 24. a movable groove A; 25. a movable groove B; 26. a movable groove C; 27. a water leakage mechanism; 28. a cylindrical block; 29. a circular groove D; 30. an inner hexagonal groove; 31. a chute; 32. a slag discharge groove; 33. a guide groove B; 34. a guide sleeve; 35. a water leakage groove; 36. a sliding plug; 37. accommodating grooves; 38. an elastic cord; 39. a wire rope; 40. a pulley A; 41. an L seat; 42. a pulley B; 43. a U seat; 44. a slider; 45. and a guide block B.

Detailed Description

The drawings are schematic illustrations of the implementation of the present invention to facilitate understanding of the principles of structural operation. The specific product structure and the proportional size are determined according to the use environment and the conventional technology.

As shown in fig. 1, 2 and 3, it comprises a bathtub 1, a cover 11, a hose 12, a one-way valve 16 and a water leakage mechanism 27, wherein, as shown in fig. 1, 2 and 4, the bathtub 1 has a water containing cavity 2 at the bottom; the outer side wall of the bottom of the bathtub 1 is provided with a water inlet 3, a water outlet 4 and an air inlet 5 which are communicated with the water containing cavity 2; the water inlet 3 is sealed by a sealing cover 11, a hose 12 communicated with a sewer pipe 14 of the wash basin is arranged at the water outlet 4, and a one-way valve 16 allowing air to enter the water containing cavity 2 in a one-way manner is arranged at the air inlet 5; two hemispherical shell-shaped rubber bags 18 communicated with the water containing cavity 2 and a plurality of water leakage mechanisms 27 for leaking water in the bathtub 1 into the water containing cavity 2 are arranged at the bottom in the bathtub 1.

As shown in fig. 7 and 8, the water leaking mechanism 27 comprises a cylindrical block 28, a guide sleeve 34, a sliding plug 36, an elastic rope 38, a steel wire rope 39 and a sliding block 44, wherein as shown in fig. 1, the cylindrical block 28 is in sealing threaded fit with a circular groove C8 which is arranged at the bottom in the bathtub 1 and communicated with the water containing cavity 2; as shown in fig. 8 and 10, a cylindrical slider 44 axially slides in a through circular groove D29 in the middle of the end surface of the cylindrical block 28; two arc chutes 31 which are concentric with the central axis and are communicated with the water containing cavity 2 are symmetrically distributed on the inner wall of the circular groove D29, and the two chutes 31 are communicated through arc guide sleeves 34 which are concentric with the central axis and are positioned above the sliding block 44; as shown in fig. 11, the side wall of the guide sleeve 34 is provided with a water leakage groove 35; as shown in fig. 8 and 9, two arc-shaped sliding plugs 36 connected by an elastic rope 38 slide in the guide sleeve 34 and the two sliding chutes 31; the two sliding plugs 36 open and close the two slide grooves 31, respectively.

As shown in fig. 8 and 9, the vertically upward moving slide 44 drives the two sliding plugs 36 through the wire rope 39 to rapidly close the corresponding sliding chutes 31.

As shown in figures 2 and 4, the rubber bag 18 is arranged at a circular groove B7 at the bottom in the bathtub 1, and the foot-operated rubber bag 18 presses the water entering the water containing cavity 2 and presses the water in the water containing cavity 2 into the sewer pipe 14 through the hose 12. As shown in fig. 1 and 4, a hard pipe a10 is arranged at the water inlet 3, and a sealing cover 11 is in threaded fit with the tail end of the hard pipe; as shown in fig. 1, 2 and 4, a hard tube B15 is mounted at the air inlet 5 through a mounting seat 17, and a check valve 16 is mounted at the tail end of a hard tube B15; as shown in fig. 10, the upper end surface of the cylindrical block 28 is provided with an inner hexagonal groove 30 for engaging with a hexagonal wrench.

As shown in fig. 1 and 2, a sliding sleeve 19 is vertically and slidably matched on the outer side of the bathtub bottom of the bathtub 1; as shown in figures 1, 4 and 6, the sliding sleeve 19 is uniformly provided with a blocking rod 21 which is axially, hermetically and slidably matched with a circular groove A6 on the bottom of the bathtub 1 and communicated with the water containing cavity 2. The blocking rod 21 is used for blocking hairs entering the water containing cavity 2 and preventing the hairs entering the water containing cavity 2 from blocking the water outlet 4 in the using process. As shown in fig. 1, 2 and 6, the side wall of the sliding sleeve 19 is provided with a movable groove a24 matched with the hard tube a10, a movable groove B25 matched with the hose 12 and a movable groove C26 matched with the hard tube B15; two guide blocks A20 are symmetrically arranged on the inner wall of the sliding sleeve 19, and the two guide blocks A20 slide in two guide grooves A9 on the outer side wall of the bathtub bottom of the bathtub 1 respectively. The cooperation of the guide block A20 and the guide groove A9 plays a positioning and guiding role for the axial sliding of the sliding sleeve 19 on the bottom of the bathtub 1.

As shown in fig. 2, 3 and 5, the water containing cavity 2 is provided with a guide plate 22 separating the water containing cavity 2 into a plurality of narrower water flow channels communicating the water inlet 3 with the water outlet 4, when the water gun is used for cleaning the water containing cavity 2 through the water inlet 3, the water flow entering the water containing cavity 2 through the water inlet 3 and having pressure continues to keep the movement direction and pressure of the water outlet 4, and the water entering the water containing cavity 2 and having pressure is ensured to wash and clean the sludge at the bottom in the water containing cavity 2 and the hair hooked on the blocking rod 21. Each guide plate 22 is provided with a plurality of communicating grooves 23 for communicating the adjacent water flow channels.

As shown in fig. 8, 10 and 13, the opening of the chute 31 at the lower end of the cylindrical block 28 is provided with a slag discharge groove 32 which increases the size of the corresponding chute 31; a steel wire rope 39 arranged on each sliding plug 36 rounds the lower end of the sliding block 44 and is connected with an L seat 41 arranged at the notch of the sliding groove 31 at the corresponding side at the lower end of the cylindrical block 28 through a pulley B42 arranged on the U seat 43, and a pulley A40 for supporting the corner of the corresponding steel wire rope 39 is arranged on each L seat 41; two guide blocks B45 are symmetrically arranged on the sliding block 44, and the two guide blocks B45 slide in two guide grooves B33 on the inner wall of the circular groove D29 respectively; as shown in fig. 8 and 12, the two ends of the elastic cord 38 are respectively connected with the inner walls of the accommodating grooves 37 on the end surfaces of the two sliding plugs 36.

The check valve 16 of the present invention is known in the art.

The working process of the invention is as follows: in the initial state, the cylindrical block 28 of the water leaking mechanism 27 is screwed into the circular groove C8 at the bottom in the bathtub 1, and the upper end of the cylindrical block 28 is flush with the bottom in the bathtub 1. All the arresting rods 21 on the sliding sleeve 19 are inserted into the water containing cavity 2 and form a hook and block for the hairs entering the water containing cavity 2. The two sliding plugs 36 of each water leaking mechanism 27 are located in the corresponding guide sleeve 34 at the middle and tightly attached to each other under the action of the elastic rope 38 in the corresponding pre-stretched state, and the two sliding plugs 36 are respectively opened to the sliding chutes 31 on the corresponding sides. Two steel wire ropes 39 in the water leakage mechanism 27 are in a stretched state, and the sliding blocks 44 are located at the lowest extreme position in the circular groove D29.

When the invention is used for improving the bathroom without the bathroom, only the water heater and the shower spray which are matched with the shower need to be arranged in the bathroom, and the floor drain communicated with the sewer pipe 14 does not need to be arranged by damaging the ground of the bathroom, thereby reducing the cost for improving the bathroom to the maximum extent.

When a person needs to take a shower in the toilet which is modified by the shower bath device and has no floor drain, the shower bath device is firstly moved into the toilet from the storage room, so that the bathtub 1 is positioned right below shower spray for collecting water falling from the shower spray, and the water falling from the shower spray in the shower bath process is prevented from falling on the non-waterproof toilet floor. Then, the end of the hose 12 is inserted into the branch pipe 13 on the side wall of the sewer pipe 14 of the wash basin.

During the shower bath process when the bather stands in the bathtub 1, the water falling into the bottom of the bathtub 1 enters the water containing cavity 2 and the hose 12 through the chute 31 in the open state on the water leaking mechanism 27, and when the water level in the bathtub 1 is found to submerge the foot surface due to rising, the water containing cavity 2 and the hose 12 are filled with water. At this time, both the rubber bladders 18 are stepped on with both feet in a reciprocating manner.

When the rubber bag 18 is deflated towards the water containing cavity 2 under the action of the sole of a foot, the water containing cavity 2 and the hose 12 are instantaneously extruded, the sliding blocks 44 in the water leaking mechanisms 27 are instantaneously and vertically contracted into the circular grooves D29 on the corresponding cylindrical blocks 28 under the action of pressure, the sliding blocks 44 in each water leaking mechanism 27 pull the corresponding two steel wire ropes 39 through the corresponding two pulleys B42, the two steel wire ropes 39 in the two water leaking mechanisms 27 respectively pull the corresponding sliding plugs 36 to quickly slide into the corresponding sliding grooves 31, the two sliding plugs 36 quickly move back and forth and respectively close the corresponding sliding grooves 31, and the elastic ropes 38 connecting the two sliding plugs 36 are further stretched. Meanwhile, the sliding plug 36 sliding into the chute 31 pushes the hair flowing down into the chute 31 and staying at the notch of the chute 31 into the slag discharging groove 32 with a larger space, and the hair entering the slag discharging groove 32 falls into the water containing cavity 2 because the slag discharging groove 32 has a larger space.

The circular groove D29 on the water leakage mechanism 27 is blocked by the slide block 44, and the two slide grooves 31 are respectively blocked by the corresponding slide plugs 36, so the water leakage mechanism 27 isolates the interior of the bathtub 1 from the water containing cavity 2 after the rubber bag 18 is stepped on by feet, the water in the water containing cavity 2 cannot reversely enter the bathtub 1 while the rubber bag 18 pressurizes the water containing cavity 2 under the stepping action of the feet, and meanwhile, enough pressure in the water containing cavity 2 is ensured to press part of the water in the water containing cavity 2 into the sewer pipe 14 of the wash basin for discharging through the hose 12, so that the water with the water level lower than the upper end of the sewer pipe 14 of the wash basin enters the sewer pipe 14, and further, the effective water discharge in the shower process is realized.

When the rubber bag 18 is restored under the action of the deformation elastic force thereof, the extrusion force applied to the water in the water containing cavity 2 disappears, the pressure applied to the slide block 44 on the water leakage mechanism 27 is eliminated instantly, the two slide plugs 36 in the water leakage mechanism 27 slide back into the guide sleeve 34 instantly under the reset action of the corresponding elastic ropes 38 to complete reset, the two slide plugs 36 respectively pull the slide block 44 together through the corresponding steel wire ropes 39 to reset instantly, the two slide plugs 36 respectively open the corresponding slide grooves 31 instantly, the water leakage mechanism 27 communicates the bathtub 1 with the water containing cavity 2 instantly, and the water in the bathtub 1 continuously enters the water containing cavity 2 through the two slide grooves 31 opened on the water leakage mechanism 27 to supplement the water in the hose 12 discharged to the sewer pipe 14.

In the movement process of the sliding block 44 in the water leakage mechanism 27, the transmission mode of the pulley B42 on the sliding block 44 and the steel wire rope 39 enables the vertical movement speed of the sliding block 44 to be one half of the movement speed of the sliding plug 36, so that the movement of the sliding block 44 is ensured to drive the sliding plug 36 to move rapidly through the pulley B42 and the steel wire rope 39, and timely closing or timely opening of the corresponding sliding chute 31 is instantly completed.

After repeated steps on the rubber bladder 18, the water at the bottom of the bathtub 1 is gradually squeezed into the sewer pipe 14 of the wash basin and drained away.

When the hair floating in the bathtub 1 enters the water containing cavity 2 along with the flowing water, the hair is hooked on the blocking rod 21, and the water outlet 4 cannot be blocked along with the water in the water containing cavity. When the shower bath is finished, most of the water in the bathtub 1 is squeezed into the sewer pipe 14 of the wash basin to be drained again by repeatedly stepping on the rubber bag 18, then the hose 12 is taken out of the sewer pipe 14 and placed in a washbasin, the bathtub 1 is lifted to a certain height, and the residual water in the bathtub 1, the water containing cavity 2 and the hose 12 automatically flows into the washbasin, so that the complete cleaning of the water in the bathtub 1 is finished.

When the bathtub 1 is lifted, the sliding sleeve 19 vertically slides downwards to the limit relative to the bathtub 1 under the action of self weight, the upper ends of all the arresting rods 21 are quickly contracted into the corresponding circular grooves A6 and release the hairs hooked thereon, and the hairs released in the water containing cavity 2 are discharged out along with running water through the water outlet 4. In the process of discharging the residual water in the bathtub 1, the water containing cavity 2 and the hose 12, the bathtub 1 is shaken back and forth, so that the water in the bathtub 1 moves through the communicating groove 23 on the guide plate 22 in the direction vertical to the guide plate 22, and the sludge accumulated at the bottom in the water containing cavity 2 is cleaned.

After the residual water in the bathtub 1, the water containing cavity 2 and the hose 12 is completely discharged, the sealing cover 11 of the water inlet 3 is opened, water is sprayed into the water containing cavity 2 through the water gun, the residual sludge at the bottom in the water containing cavity 2 and the hair retained at the water outlet 4 are washed and cleaned by the water sprayed into the water containing cavity 2, and the sludge and the hair are discharged through the hose 12 under the washing of the water with certain washing pressure.

The flowing direction of the water filled into the water containing cavity 2 by the water gun is quickly guided to the direction of the water outlet 4 by the plurality of water flowing channels at the separation part of the guide plate 22 in the water containing cavity 2, and the impact pressure of the water entering the water containing cavity 2 is reduced, so that the water entering the water containing cavity 2 can effectively wash detained hair and sludge.

When the washing is finished, the bathtub 1 is put on the ground again, the sliding sleeve 19 is reset relative to the bathtub 1 under the pressure of the bathtub 1, and all the arresting bars 21 are inserted into the water containing cavity 2 again.

When the damaged water leaking mechanism 27 needs to be replaced, the hexagonal wrench is matched with the inner hexagonal groove 30 of the cylindrical block 28 on the water leaking mechanism 27 to rotate the cylindrical block 28, so that the cylindrical block 28 is rotated away from the corresponding circular groove C8, and simultaneously, the whole water leaking mechanism 27 is driven to be detached from the circular groove C8 on the bathtub 1. After the damaged water leaking mechanism 27 is detached from the bathtub 1, a new water leaking mechanism 27 is reversely screwed into the corresponding circular groove C8 by a hexagon wrench.

In the process of recovering the rubber bag 18, the water containing cavity 2 sucks air inwards through the one-way valve 16, so that the rubber bag 18 is ensured to be effectively recovered.

In conclusion, the beneficial effects of the invention are as follows: according to the invention, water sprayed by a shower is collected by the bathtub 1, part of the water falling into the bathtub 1 is temporarily stored in the water containing cavity 2 through the water leakage mechanism 27, and when the water surface in the bathtub 1 submerges the foot surface, the water in the water containing cavity 2 and the bathtub 1 is extruded into the sewer pipe 14 of the wash basin through the hose 12 by repeatedly treading and pressing the two rubber bags 18. The water leakage mechanism 27 cuts off the communication between the bathtub 1 and the water containing cavity 2 when the rubber bag 18 is stepped on, so as to ensure that the pressure in the water containing cavity 2 is increased when the rubber bag 18 is pressed, and further ensure that the water in the water containing cavity 2 is smoothly discharged into the sewer pipe 14 through the hose 12 under the extrusion of the rubber bag 18.

In addition, when the invention is used for carrying out sewage reconstruction on the toilet without the bathroom, the floor drain does not need to be installed by damaging the floor of the bathroom, thereby reducing the sewage reconstruction cost of the bathroom. Meanwhile, the invention can move freely and flexibly, can move out of the toilet when not in use, and can move into the toilet at any time when in use, thereby ensuring that people who are convenient in the toilet do not have narrow feelings due to larger convenient space.

Claims (5)

1. The utility model provides a launching transformation subassembly for not having spraying launching which characterized in that: the water-saving bathtub comprises a bathtub, a sealing cover, a hose, a one-way valve and a water leakage mechanism, wherein the bathtub bottom is provided with a water containing cavity; the outer side wall of the bathtub bottom is provided with a water inlet, a water outlet and an air inlet which are communicated with the water containing cavity; the water inlet is sealed by a sealing cover, the water outlet is provided with a hose communicated with a sewer pipe of the wash basin, and the air inlet is provided with a one-way valve allowing air to enter the water containing cavity in a one-way manner; the bottom in the bathtub is provided with two hemispherical shell-shaped rubber bags communicated with the water containing cavity and a plurality of water leakage mechanisms for leaking water in the bathtub into the water containing cavity;

the water leakage mechanism comprises a cylindrical block, a guide sleeve, a sliding plug, an elastic rope, a steel wire rope and a sliding block, wherein the cylindrical block is in sealing threaded fit with a circular groove C which is communicated with the water containing cavity and is arranged at the bottom in the bathtub; a cylindrical sliding block axially slides in a through circular groove D in the middle of the end face of the cylindrical block; two arc chutes which are concentric with the axis and communicated with the water containing cavity are symmetrically distributed on the inner wall of the circular groove D, and the two chutes are communicated through an arc guide sleeve which is concentric with the axis and positioned above the sliding block; a water leakage groove is formed in the side wall of the guide sleeve; two arc-shaped sliding plugs connected through an elastic rope slide in the guide sleeve and the two sliding chutes; the two sliding plugs respectively switch the two sliding chutes;

the slide block moving vertically upwards drives the two slide plugs to rapidly close the corresponding slide grooves respectively through the steel wire rope.

2. A launch modification assembly for non-shower launch, as defined in claim 1, wherein: the rubber bag is arranged at a circular groove B at the bottom in the bathtub; a hard tube A is arranged at the water inlet, and a sealing cover is in threaded fit with the tail end of the hard tube; the air inlet is provided with a hard tube B through a mounting seat, and the one-way valve is arranged at the tail end of the hard tube B; an inner hexagonal groove matched with the hexagonal wrench is formed in the end face of the upper end of the cylindrical block.

3. A launch modification assembly for non-shower launch, as defined in claim 1, wherein: a sliding sleeve is vertically matched with the outer side of the bathtub bottom in a sliding manner; the slide sleeve is uniformly provided with a blocking rod which is axially, hermetically and slidably matched with a circular groove A which is communicated with the water containing cavity on the bathtub bottom; a movable groove A matched with the hard pipe A, a movable groove B matched with the hose and a movable groove C matched with the hard pipe B are formed in the side wall of the sliding sleeve; two guide blocks A are symmetrically arranged on the inner wall of the sliding sleeve and respectively slide in two guide grooves A on the outer side wall of the bathtub bottom.

4. A launch modification assembly for non-shower launch, as defined in claim 1, wherein: the water containing cavity is internally provided with a guide plate which divides the water containing cavity into a plurality of narrower water flow channels communicating the water inlet and the water outlet; each guide plate is provided with a plurality of communicating grooves for communicating adjacent flowing water channels.

5. A launch modification assembly for non-shower launch, as defined in claim 1, wherein: a slag discharge groove which increases the size of the corresponding sliding groove is formed in the notch of the sliding groove at the lower end of the cylindrical block; a steel wire rope arranged on each sliding plug bypasses the lower end of the sliding block and is connected with an L seat arranged at a corresponding side sliding groove opening at the lower end of the cylindrical block through a pulley B arranged on a U seat, and a pulley A for supporting the corner of the corresponding steel wire rope is arranged on each L seat; two guide blocks B are symmetrically arranged on the sliding block and respectively slide in the two guide grooves B on the inner wall of the circular groove D; the two ends of the elastic rope are respectively connected with the inner walls of the containing grooves on the end faces of the two sliding plugs.

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