阅读说明：本技术 一种分区电加热的节能型智能马桶 (Energy-saving intelligent closestool of subregion electric heating ) 是由 吴海兵 于 2021-09-13 设计创作，主要内容包括：本发明公开了一种分区电加热的节能型智能马桶,包括智能马桶的陶瓷水箱,陶瓷水箱一侧的内侧底面上分别成型有两道竖向的第一隔板和第二隔板,第二隔板分隔陶瓷水箱的内腔成储水室和加热室,陶瓷水箱的加热室内插接有固定有中隔板,中隔板分隔加热室呈上侧的恒温室和下侧的换热室,所述换热室下侧的陶瓷水箱内成型有密封底板,密封底板正下方的陶瓷水箱上成型有贯穿陶瓷水箱下底面和前端面的槽口。本发明在马桶水箱内分隔多个腔室,只需要加热部分腔室的储水,不需要加热整个水箱内的储水,能实现有效节能。(The invention discloses an energy-saving intelligent closestool with partitioned electric heating, which comprises a ceramic water tank of the intelligent closestool, wherein the inner bottom surface of one side of the ceramic water tank is respectively provided with a first vertical partition plate and a second vertical partition plate, the second partition plate partitions the inner cavity of the ceramic water tank into a water storage chamber and a heating chamber, a middle partition plate is fixedly inserted in the heating chamber of the ceramic water tank and partitions the upper thermostatic chamber and the lower heat exchange chamber of the heating chamber, a sealing bottom plate is formed in the ceramic water tank at the lower side of the heat exchange chamber, and a notch penetrating through the lower bottom surface and the front end surface of the ceramic water tank is formed in the ceramic water tank right below the sealing bottom plate. The invention separates a plurality of chambers in the water tank of the closestool, only needs to heat the water stored in part of the chambers, does not need to heat the water stored in the whole water tank, and can realize effective energy saving.)

1. The utility model provides a subregion electric heating's energy-saving intelligent closestool, includes intelligent closestool's ceramic water tank (1), and the shaping has twice vertical first baffle (11) and second baffle (12) on the inboard bottom surface of ceramic water tank (1) one side respectively, and the inner chamber that ceramic water tank (1) was separated in second baffle (12) becomes reservoir chamber (a) and heating chamber, its characterized in that: a middle partition plate (2) is fixedly inserted into a heating chamber of the ceramic water tank (1), the middle partition plate (2) separates the heating chamber into a thermostatic chamber (b) at the upper side and a heat exchange chamber (c) at the lower side, a sealing bottom plate (13) is formed in the ceramic water tank (1) at the lower side of the heat exchange chamber (c), and a notch (14) penetrating through the lower bottom surface and the front end surface of the ceramic water tank (1) is formed in the ceramic water tank (1) right below the sealing bottom plate (13);

a heat exchange water outlet pipe (3) and a heat exchange water return pipe (4) which are vertically and continuously S-shaped are respectively inserted into a heat exchange chamber (c) of the ceramic water tank (1), and the upper ends of the heat exchange water outlet pipe (3) and the heat exchange water return pipe (4) are respectively inserted and fixed on the middle partition plate (2) and communicated with the thermostatic chamber (b); the lower ends of the heat exchange water outlet pipe (3) and the heat exchange water return pipe (4) are fixedly inserted into the sealing bottom plate (13) and extend out of the sealing bottom plate (13) to be inserted and sleeved with a connecting pipe joint (6), and the sealing bottom plate (13) is fixedly inserted and sleeved with a flushing pipe joint (7) communicated with the heat exchange chamber (c); a lower water inlet groove (121) is formed in the second partition plate (12) on the upper side of the sealing bottom plate (13), an upper water inlet groove (122) is formed in the second partition plate (12) on the lower side of the middle partition plate (2) and close to the middle partition plate (2), and a water supplementing groove (111) is formed in the first partition plate (11) between the upper water inlet groove (122) and the lower water inlet groove (121); a floating valve plate (5) covering the water replenishing tank (111) is inserted between the first partition plate (11) and the second partition plate (12).

2. The intelligent zoned electrically heated energy-saving toilet according to claim 1, wherein: the floating valve plate (5) is rectangular, the front end face and the rear end face of the floating valve plate (5) are respectively abutted against the inner walls of the front side and the rear side of the ceramic water tank (1), and the end faces of the two sides of the floating valve plate (5) are respectively abutted against the first partition plate (11) and the second partition plate (12); a sealing cavity is formed on the inner side of the floating valve plate (5).

3. The intelligent zoned electrically heated energy-saving toilet according to claim 2, wherein: the distance from the upper end face of the floating valve plate (5) to the lower bottom face of the lower water inlet groove (121) is the distance from the upper end face of the floating valve plate (5) to the upper bottom face of the water supplementing groove (111).

4. The intelligent zoned electrically heated energy-saving toilet according to claim 1, wherein: the fixing mode of heat exchange outlet pipe (3), heat exchange wet return (4) and median septum (2), heat exchange outlet pipe (3) and heat exchange wet return (4) are all inserted and are established on median septum (2), the up end that median septum (2) were stretched out in the upper end of heat exchange outlet pipe (3) and heat exchange wet return (4) is inserted and is established in thermostatic chamber (b), all the plug bush is fixed with position sleeve (8) on heat exchange outlet pipe (3) and heat exchange wet return (4), position sleeve (8) are fixed on median septum (2), the length that heat exchange outlet pipe (3) were inserted and are established in thermostatic chamber (b) is less than the length that heat exchange wet return (4) were inserted and are established in thermostatic chamber (b).

5. The intelligent zoned electrically heated energy-saving toilet according to claim 1, wherein: the middle partition plate (2) and the ceramic water tank (1) are fixed in a way that the side wall of the middle partition plate (2) is respectively abutted against the inner wall of the ceramic water tank (1) and the second partition plate (12), a slot (123) penetrating through the upper end face of the second partition plate (12) is formed in the second partition plate (12) on the upper side of the middle partition plate (2), a support plate (21) is formed on one side of the middle partition plate (2), the support plate (21) penetrates through the slot (123) of the second partition plate (12) and is inserted between the first partition plate (11) and the second partition plate (12), a pressing plate (9) covering the slot (123) is inserted in the first partition plate (11) and the second partition plate (12), and the lower end face of the pressing plate (9) is abutted against the support plate (21); bolts (10) are inserted into the second partition plates (12) on the two sides of the inserting groove (123), and the bolts (10) are screwed on the pressing plate (9).

6. The intelligent zoned electrically heated energy-saving toilet according to claim 5, wherein: and a handle groove (91) communicated with the slot (123) is formed at the upper end of the pressing plate (9).

7. The intelligent zoned electrically heated energy-saving toilet according to claim 5, wherein: an L-shaped pulling plate (22) is formed on the upper end face of the middle partition plate (2), and an installation hole (221) of the electric heating rod is installed on the upper end face of the pulling plate (22).

Technical Field

The invention relates to the technical field of intelligent toilets, in particular to an energy-saving intelligent toilet with partitioned electric heating.

Background

Intelligent toilets, collectively known as intelligent toilets, exist that have many special functions: such as buttocks cleaning, lower body cleaning, moving cleaning, seat ring heat preservation, warm air drying, automatic deodorization, silence sitting and the like. Most conveniently, except that the operation can be carried out through the button panel, the remote control device is specially arranged to realize the functions, and when a consumer uses the remote control device, all the functions can be easily realized by holding the remote control device with a hand and slightly pressing the remote control device. The intelligent closestool is used for medical treatment and old health care at first, and the function of cleaning the body can effectively reduce anus diseases of all people and bacterial infection of the lower part of a female, and greatly reduces the morbidity of the diseases and anorectal diseases. The sanitary equipment mainly utilizes the spray head to wash, so that the temperature for washing is generally required to be suitable and is generally clean warm water, the warm water is mainly stored in the toilet water tank, the stored water in the whole toilet water tank is heated, the warm water is not required when the toilet is washed, and the stored water for heating the whole toilet water tank is wasted.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides an energy-saving intelligent closestool with partitioned electric heating.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

an energy-saving intelligent closestool with partitioned electric heating comprises a ceramic water tank of the intelligent closestool, wherein two vertical first partition plates and two vertical second partition plates are respectively formed on the inner bottom surface of one side of the ceramic water tank, the second partition plate partitions an inner cavity of the ceramic water tank into a water storage chamber and a heating chamber, a middle partition plate is fixedly inserted in the heating chamber of the ceramic water tank and partitions the heating chamber into a thermostatic chamber at the upper side and a heat exchange chamber at the lower side, a sealing bottom plate is formed in the ceramic water tank at the lower side of the heat exchange chamber, and a notch penetrating through the lower bottom surface and the front end surface of the ceramic water tank is formed in the ceramic water tank right below the sealing bottom plate;

a vertical continuous heat exchange water outlet pipe and a vertical continuous heat exchange water return pipe are respectively inserted into the heat exchange chamber of the ceramic water tank, and the upper ends of the heat exchange water outlet pipe and the heat exchange water return pipe are inserted and fixed on the middle partition plate and communicated with the thermostatic chamber; the lower ends of the heat exchange water outlet pipe and the heat exchange water return pipe are fixedly inserted into the sealing bottom plate and extend out of the sealing bottom plate, and a connecting pipe joint is fixedly inserted into the sealing bottom plate; a lower water inlet groove is formed in the second partition plate on the upper side of the sealing bottom plate, an upper water inlet groove is formed in the second partition plate on the lower side of the middle partition plate and close to the middle partition plate, and a water supplementing groove is formed in the first partition plate between the upper water inlet groove and the lower water inlet groove; and a floating valve plate covering the water replenishing tank is inserted between the first partition plate and the second partition plate.

Preferably, the floating valve plate is rectangular, the front end face and the rear end face of the floating valve plate respectively abut against the inner walls of the front side and the rear side of the ceramic water tank, and the end faces of the two sides of the floating valve plate respectively abut against the first partition plate and the second partition plate; the inner side of the floating valve plate is formed with a sealing cavity.

Preferably, the distance from the upper end surface of the floating valve plate to the lower bottom surface of the lower water inlet tank is the distance from the upper end surface of the floating valve plate to the upper bottom surface of the water supplementing tank.

Preferably, the fixed mode of heat transfer outlet pipe, heat transfer wet return and median septum, heat transfer outlet pipe and heat transfer wet return are all inserted and are established on the median septum, and the up end that the upper end of heat transfer outlet pipe and heat transfer wet return stretches out the median septum inserts and establish in the thermostatic chamber, all the plug bush is fixed with the position sleeve on heat transfer outlet pipe and the heat transfer wet return, and the position sleeve is fixed on the median septum, the length that the heat transfer outlet pipe was inserted and is established in the thermostatic chamber is less than the length that the heat transfer wet return inserted and is established in the thermostatic chamber.

Preferably, the middle partition board and the ceramic water tank are fixed in a manner that the side wall of the middle partition board abuts against the inner wall of the ceramic water tank and the second partition board respectively, a slot penetrating through the upper end face of the second partition board is formed in the second partition board on the upper side of the middle partition board, a support board is formed on one side of the middle partition board, the support board penetrates through the slot of the second partition board and is inserted between the first partition board and the second partition board, a pressing board covering the slot is inserted in the first partition board and the second partition board, and the lower end face of the pressing board abuts against the support board; bolts are inserted into the second partition plates on the two sides of the inserting groove and are in threaded connection with the pressing plate.

Preferably, a handle slot communicated with the slot is formed at the upper end of the pressing plate.

Preferably, a molded pull plate is formed on the upper end face of the middle partition plate, and a mounting hole of the electric heating rod is mounted on the upper end face of the pull plate.

The invention has the beneficial effects that:

the water storage device is divided into a plurality of chambers in the toilet water tank, only the water storage of partial chambers needs to be heated, the water storage in the whole water tank does not need to be heated, and effective energy conservation can be realized.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a schematic top view of the present invention;

FIG. 5 is a schematic view of a half-section structure in the front view direction of the present invention.

In the figure: 1. a ceramic water tank; 11. a first separator; 111. a water replenishing tank; 12. a second separator; 121. a lower water inlet groove; 122. an upper water inlet tank; 123. a slot; 13. sealing the bottom plate; 14. a notch; 2. a middle partition plate; 21. a support plate; 22. pulling a plate; 221. mounting holes; 3. a heat exchange water outlet pipe; 4. a heat exchange water return pipe; 5. a floating valve plate; 6. connecting a pipe joint; 7. a flushing pipe joint; 8. a positioning sleeve; 9. pressing a plate; 91. a handle groove; 10. and (4) bolts.

Detailed Description

Example (b): as shown in fig. 1 to 5, the energy-saving intelligent closestool with partitioned electric heating comprises a ceramic water tank 1 of the intelligent closestool, wherein two vertical first partition plates 11 and two vertical second partition plates 12 are respectively formed on the bottom surface of the inner side of one side of the ceramic water tank 1, the inner cavity of the ceramic water tank 1 is divided into a water storage chamber a and a heating chamber by the second partition plates 12, a middle partition plate 2 is fixedly inserted into the heating chamber of the ceramic water tank 1, the heating chamber is divided into an upper constant temperature chamber b and a lower heat exchange chamber c by the middle partition plate 2, a sealing bottom plate 13 is formed in the ceramic water tank 1 at the lower side of the heat exchange chamber c, and a notch 14 penetrating through the lower bottom surface and the front end surface of the ceramic water tank 1 is formed in the ceramic water tank 1 right below the sealing bottom plate 13;

a heat exchange water outlet pipe 3 and a heat exchange water return pipe 4 which are vertically and continuously S-shaped are respectively inserted into the heat exchange chamber c of the ceramic water tank 1, and the upper ends of the heat exchange water outlet pipe 3 and the heat exchange water return pipe 4 are inserted and fixed on the middle partition plate 2 and are communicated with the thermostatic chamber b; the lower ends of the heat exchange water outlet pipe 3 and the heat exchange water return pipe 4 are fixedly inserted into the sealing bottom plate 13 and extend out of the sealing bottom plate 13 to be fixed with a connecting pipe joint 6 in an inserting way, and the sealing bottom plate 13 is fixedly inserted with a flushing pipe joint 7 communicated with the heat exchange chamber c; a lower water inlet groove 121 is formed on the second partition plate 12 on the upper side of the sealing bottom plate 13, an upper water inlet groove 122 is formed on the second partition plate 12 on the lower side of the middle partition plate 2 and close to the middle partition plate 2, and a water supplementing groove 111 is formed on the first partition plate 11 between the upper water inlet groove 122 and the lower water inlet groove 121; a floating valve plate 5 covering the water replenishing tank 111 is inserted between the first partition plate 11 and the second partition plate 12.

The floating valve plate 5 is rectangular, the front end face and the rear end face of the floating valve plate 5 are respectively abutted against the inner walls of the front side and the rear side of the ceramic water tank 1, and the end faces of the two sides of the floating valve plate 5 are respectively abutted against the first partition plate 11 and the second partition plate 12; the inner side of the floating valve plate 5 is formed with a sealed cavity.

The distance from the upper end surface of the floating valve plate 5 to the lower bottom surface of the lower water inlet groove 121 is the distance from the upper end surface of the floating valve plate 5 to the upper bottom surface of the water supplementing groove 111.

The fixing mode of heat exchange outlet pipe 3, heat transfer wet return 4 and median septum 2, heat exchange outlet pipe 3 and heat transfer wet return 4 are all inserted and are established on median septum 2, the up end that the upper end of heat exchange outlet pipe 3 and heat transfer wet return 4 stretches out median septum 2 is inserted and is established in thermostatic chamber b, all the plug bush is fixed with position sleeve 8 on heat exchange outlet pipe 3 and the heat transfer wet return 4, position sleeve 8 is fixed on median septum 2, the length that heat exchange outlet pipe 3 was inserted and is established in thermostatic chamber b is less than the length that heat transfer wet return 4 was inserted and is established in thermostatic chamber b.

The middle partition board 2 and the ceramic water tank 1 are fixed in a way that the side wall of the middle partition board 2 is respectively abutted against the inner wall of the ceramic water tank 1 and the second partition board 12, a slot 123 penetrating through the upper end face of the second partition board 12 is formed in the second partition board 12 on the upper side of the middle partition board 2, a support board 21 is formed on one side of the middle partition board 2, the support board 21 penetrates through the slot 123 of the second partition board 12 and is inserted between the first partition board 11 and the second partition board 12, a press board 9 covering the slot 123 is inserted in the first partition board 11 and the second partition board 12, and the lower end face of the press board 9 is pressed against the support board 21; bolts 10 are inserted into the second partition plates 12 on the two sides of the slot 123, and the bolts 10 are screwed on the pressure plate 9.

The upper end of the pressing plate 9 is formed with a handle slot 91 communicated with the slot 123.

An L-shaped pulling plate 22 is formed on the upper end face of the middle partition plate 2, and an installation hole 221 of the electric heating rod is installed on the upper end face of the pulling plate 22.

The working principle is as follows: the invention is a sectional electric heating energy-saving intelligent closestool, which is mainly characterized in that a closestool water tank 1 is structurally provided with a first clapboard 11, a second clapboard 12 and a middle clapboard 2, the middle clapboard 2 divides a heating chamber at one side of the second clapboard 12 into a thermostatic chamber b and a heat exchange chamber c, an electric heating rod and a circulating pump can be arranged in the thermostatic chamber b, and water in the thermostatic chamber b can be supplied to a heat preservation pipe in a toilet seat, thereby realizing the function of heat preservation of the toilet seat;

the pipeline of the thermostatic chamber b connected with the heat preservation pipe in the toilet seat comprises a heat exchange water outlet pipe 3 and a heat exchange water return pipe 4 which are inserted in the heat exchange chamber c, the heat in the thermostatic chamber b is transferred to the heat exchange chamber c by the heat exchange water outlet pipe 3 and the heat exchange water return pipe 4, and the water in the heat exchange chamber c is used for cleaning the body; and water is conveniently supplemented into the heat exchange chamber c.

The examples are intended to illustrate the invention, but not to limit it. The described embodiments may be modified by those skilled in the art without departing from the spirit and scope of the present invention, and therefore, the scope of the appended claims should be accorded the full scope of the invention as set forth in the appended claims.