CN113521876B

CN113521876B - Energy-saving green building system

Info

Publication number: CN113521876B
Application number: CN202110845309.0A
Authority: CN
Inventors: 李瑞涛; 陈锴锴; 王松铭; 王�锋; 袁秋菊; 郭亚伟; 楚雪平; 张伟杰
Original assignee: Zhengzhou Xiliuhu Park
Current assignee: Zhengzhou Xiliuhu Park
Priority date: 2021-07-26
Filing date: 2021-07-26
Publication date: 2022-09-06
Anticipated expiration: 2041-07-26
Also published as: CN113521876A

Abstract

The invention relates to the field of solid-liquid separation, in particular to an energy-saving green building system. The fixed gear is fixedly arranged on the long sliding rod. The first drive gear is mounted on the long sliding rod, and the connecting rod is configured to drive the filter plate to be lifted in a vertical direction relative to the long sliding rod when the first drive gear rotates. The discharging device comprises a moving frame and a discharging gear set; the movable frame is arranged on the base in a sliding manner along the left and right directions through the guide rail; the discharging gear set comprises a rotating gear and a sliding tooth section; the rotating gear is rotatably arranged on the movable frame and is used for being meshed with the fixed gear; the sliding tooth section and the rotating gear are coaxial and fixedly mounted on the moving frame, the tooth of the sliding tooth section is located above the left side of the axis of the rotating gear and meshed with the first transmission gear, so that the first transmission gear is driven to rotate when the rotating gear and the fixed gear start to be meshed in the left moving process, the inclination angle of the filter plate is increased, filter residues on the right side of the filter plate are poured completely, and the effect of improving pouring efficiency is achieved.

Description

Energy-saving green building system

Technical Field

The invention relates to the field of energy conservation and environmental protection, in particular to an energy-saving green building system.

Background

The filter pressing equipment is an important equipment widely used for realizing solid-liquid phase separation in the industries of chemical industry, petroleum, mineral separation, pharmacy, food and the like. After the domestic sewage needing to be filtered is filtered, the filter residues of the existing filter pressing equipment are poured, because the distances between the filter plates are too close, when the filter plates incline to the left side to pour the filter residues in the filter plates, the inclination angles of the filter plates are smaller, so that the filter residues in the filter plates cannot be completely cleaned, the filter plates cannot be cleaned up only by manually processing the filter residues which cannot be cleaned up, and therefore, the filtering efficiency is lower.

Disclosure of Invention

The invention provides an energy-saving green building system, which aims to solve the problem that the existing domestic sewage treatment is not thorough.

The energy-saving green building system adopts the following technical scheme:

an energy-saving green building system comprises a house and a sedimentation tank, wherein the house is communicated with a filter pressing device through a communication mechanism in sequence through the sedimentation tank; the device also comprises a base, a plurality of filter plates, a plurality of groups of long sliding rods, a plurality of groups of filter gears and a discharging device; the plurality of filter plates are sequentially arranged on the base along the left and right sides of the base; the number of each group of the sliding long rods is two, and the sliding long rods are respectively arranged on the front side wall and the rear side wall of the filter plate in a vertically sliding manner; the number of each group of filtering gears is two, and the two groups of filtering gears are respectively arranged on the front side and the rear side of the filtering plate; the filtering gear comprises a fixed gear and a first transmission gear; the fixed gear is fixedly arranged on the long sliding rod; the first transmission gear and the fixed gear are coaxially arranged and are arranged on one side of the fixed gear, which is far away from the filter plate, the first transmission gear is rotatably arranged on the long sliding rod through a connecting rod which is horizontally arranged and is inserted on the long sliding rod, and the connecting rod is configured to drive the filter plate to be lifted relative to the long sliding rod in the vertical direction when the first transmission gear rotates; the two discharging devices are respectively arranged at the front side and the rear side of the plurality of filter plates; each discharging device comprises a moving frame and a discharging gear set; the movable frame is arranged on the base in a sliding manner along the left-right direction through the guide rail; the discharging gear set comprises a rotating gear and a sliding tooth section; the rotating gear is rotatably arranged on the movable frame and is used for being meshed with the fixed gear; the sliding tooth section and the rotating gear are coaxial and fixedly mounted on the movable frame, and teeth of the sliding tooth section are located on the upper left of the axis of the rotating gear and meshed with the first transmission gear, so that the first transmission gear is driven to rotate in the process of left movement and when the rotating gear and the fixed gear start to be meshed.

Further, the energy-saving green building system also comprises a motor and a motor gear; the motor is fixedly arranged on the movable frame, an output shaft of the motor extends inwards relative to the base, the rotating gear is fixedly arranged on the output shaft, and the sliding tooth section is rotatably arranged on the output shaft of the motor relative to the rotating gear; the motor gear is located one side that the rotating gear faces the filter plate, and is equipped with the slip rack with motor gear meshing on the base, and the motor gear is configured to when the motor drives the rotation down, drives the motor and slides about on the guide rail.

Furthermore, the discharging gear set also comprises a sliding disc; the sliding disc is positioned on the outer side of the rotating gear relative to the base, can be rotatably arranged on an output shaft of the motor, and can be arranged on the base in a left-right sliding mode through the sliding block relative to the outer side of the sliding disc of the base; the sliding tooth section is of an arc-shaped rack structure, the radius of a reference circle is the same as that of the rotating gear, and the length of the rack of the sliding tooth section is one fourth of the arc length of the rotating gear; the sliding tooth section is fixedly arranged on the sliding disk and is positioned on the left upper side of the sliding disk.

Further, the filtering gear also comprises a second transmission gear; the vertical direction is equipped with the lifting rack on the filter periphery wall, and second drive gear's axle center and connecting rod fixed connection, second drive gear and lifting rack mesh to make and drive the filter lifting at second drive gear clockwise turning.

Furthermore, a plate frame of the filter plate is of a rectangular frame structure, and lifting grooves are vertically formed in the frame body on the front side and the rear side of the plate frame; each lifting groove is a rectangular groove, and the lifting rack is fixedly arranged on the inner wall of the left side of the lifting groove.

Furthermore, two side walls of the lifting groove are provided with limit grooves extending along the vertical direction; one end of the long sliding rod, which is close to the filter plate, is provided with a lifting slide block; the lifting slide block can be installed in the lifting groove in a vertically sliding mode, the left side face and the right side face of the lifting slide block extend out of the limiting table, and the limiting table is inserted into the limiting groove and is arranged at the uppermost end of the lifting groove in an initial state.

Furthermore, a sliding block is arranged on one side of the sliding disc close to the motor; the sliding block is cuboid and is horizontally arranged; the inner side wall of the guide rail is provided with a sliding groove, and the sliding block is inserted into the sliding groove.

Furthermore, the filter plate also comprises a spring; one end of the spring is fixed at the upper end of the lifting slide block, the other end of the spring is fixed at the upper side of the lifting groove, and the spring is in a compressed force storage state in an initial state.

The invention has the beneficial effects that: according to the energy-saving green building system, the first transmission gear and the sliding tooth section are meshed with each other in the filter pressing equipment, so that when the filter plate revolves clockwise around the rotating gear, the first transmission gear rotates along the pointer under the action of the sliding tooth section, and the filter plate is further lifted by the first transmission gear through the connecting rod. The focus of filter is by the lifting of first drive gear, the focus of filter in-process that moves on, and the interval between the filter adjacent on the left side constantly increases for the angle of filter to the left bank constantly increases, and then makes the filter reach the effect that better filter residue emptys.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a filter pressing device of an embodiment of an energy-saving green building system of the present invention;

FIG. 2 is a front view of a filter pressing device in an energy-saving green building system of the present invention;

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

FIG. 4 is an enlarged view of I of FIG. 3;

FIG. 5 is a diagram showing the working process of a filter pressing device according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a lifting slide block of a filter pressing device in an embodiment of an energy-saving green building system of the invention;

FIG. 7 is a schematic diagram of the filter plate structure of the filter pressing device of the embodiment of the energy-saving green building system of the invention;

8 is a structural schematic diagram of a sliding tooth section of the filter pressing equipment of the embodiment of the energy-saving green building system;

FIG. 9 is a schematic gear diagram of a press filtration device in an embodiment of an energy efficient green building system of the present invention;

FIG. 10 is a schematic structural diagram of an embodiment of an energy efficient green building system of the present invention;

in the figure: 1. a filter plate; 110. a lifting rack; 120. a lifting groove; 2. a compression plate; 3. a base; 4. a hydraulic cylinder; 5. a motor; 501. a movable frame; 602. a first drive gear; 601. a second transmission gear; 603. a connecting rod; 7. a sliding rack; 8. a guide rail; 9. filtering the gear; 901. fixing a gear; 902. a connecting rod hole; 903. a lifting slide block; 904. a sliding long rod; 10. a discharge gear set; 1002. a slider; 1003. a sliding tooth segment; 1004. a sliding disk; 12. a sliding groove; 14. a motor gear; 16. a spring; 101. a house; 102. a sedimentation tank; 103. and (4) filter pressing equipment.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An embodiment of the energy-saving green building system of the invention, as shown in fig. 1 to 9, comprises a house 101 and a sedimentation tank 102, wherein the house 101, the sedimentation tank 102 and a filter pressing device 103 are communicated with each other by a communicating mechanism in sequence; the device also comprises a base, a plurality of filter plates 1, a plurality of groups of sliding long rods 904, a plurality of groups of filtering gears 9, a discharging device, a hydraulic cylinder 4 and a pressing plate 2. The filter plates 1 are sequentially arranged on the base 3 along the left and right sides of the base 3. The number of each group of long sliding rods 904 is two, and the two groups of long sliding rods 904 are respectively arranged on the front side wall and the rear side wall of the filter plate 1 in a vertically sliding manner. The number of each group of filtering gears 9 is two, and the two groups of filtering gears are respectively arranged at the front side and the rear side of the filtering plate 1; the filtering gear 9 includes a fixed gear 901 and a first transmission gear 602. The fixed gear 901 is fixedly mounted on the long sliding rod 904. The first transmission gear 602 and the fixed gear 901 are coaxially disposed and installed at one side of the fixed gear 901 far away from the filter plate 1, the first transmission gear 602 is horizontally disposed and inserted into the connecting rod 603 on the sliding long rod 904 and rotatably installed on the sliding long rod 904 through the connecting rod hole 902 on the sliding long rod 904, and the connecting rod 603 is configured to drive the filter plate 1 to be lifted up in the vertical direction relative to the sliding long rod 904 when the first transmission gear 602 rotates. The two discharging devices are respectively arranged at the front side and the rear side of the plurality of filter plates 1; each discharge device comprises a moving rack 501 and a discharge gear set 10. And the moving frame 501 is slidably mounted on the base 3 in the left-right direction by the guide rail 8. The discharging gear set 10 comprises a rotating gear and a sliding tooth section 1003; the rotating gear is rotatably provided to the moving frame 501 for meshing with the fixed gear 901. The sliding gear section 1003 and the rotating gear are coaxial and fixedly mounted on the moving frame 501, teeth of the sliding gear section 1003 are located on the left upper side of the axis of the rotating gear and are meshed with the first transmission gear 602, so that the first transmission gear 602 is driven to rotate in the process of left moving and when the rotating gear is meshed with the fixed gear 901. The pressing plate 2 is installed on the base 3 to be movable left and right and is located at the rightmost side of the plurality of filter plates 1. Pneumatic cylinder 4 fixed mounting is at the right-hand member of base 3, and fixed connection is in

pressure strip

2, and 4 pressurization of pneumatic cylinder make pressure strip 2 remove left, and pressure strip 2 makes and closely laminates between the filter 1, and then makes the filter effect better, and pressure strip 2 moves right during 4 release pressure of pneumatic cylinder.

In the present embodiment, as shown in fig. 1 to 5, the filter pressing device 103 further comprises a motor 5 and a motor gear 14; the motor 5 is fixedly arranged on the moving frame 501, an output shaft of the motor 5 extends inwards relative to the base 3, the rotating gear is fixedly arranged on the output shaft, and the sliding tooth section 1003 is rotatably arranged on the output shaft of the motor 5 relative to the rotating gear; the motor gear 14 is located on one side of the rotating gear, which faces the filter plate 1, the motor gear 14 and the rotating gear are mutually attached and installed, the base 3 is provided with a sliding rack 7 meshed with the motor gear 14, and the motor gear 14 is configured to drive the motor 5 to slide left and right on the guide rail 8 when the motor 5 rotates.

In this embodiment, as shown in fig. 5 and 8, the discharge gear set 10 further includes a slide disc 1004; the slide disk 1004 is located outside the rotary gear with respect to the base 3, is rotatably attached to the output shaft of the motor 5, and is attached to the base 3 so that the outside of the slide disk 1004 with respect to the base 3 can slide right and left by means of a slider, and the slide disk 1004 is merely slid. The sliding gear section 1003 is of an arc-shaped rack structure, the radius of the reference circle is the same as that of the rotating gear, and the length of the rack of the sliding gear section 1003 is one fourth of the arc length of the rotating gear. The sliding gear segment 1003 is fixedly installed on the sliding disk 1004 and located at the upper left side of the sliding disk 1004, so that the first transmission gear 602 is disengaged from the sliding gear segment 1003 during the descending process.

In the present embodiment, as shown in fig. 1, 2 and 9, the filter gear 9 further includes a second transmission gear 601. Vertical direction is equipped with lifting rack 110 on the periphery wall of filter 1, second drive gear 601's axle center and connecting rod 603 fixed connection, second drive gear 601 and lifting rack 110 meshing to the messenger drives the gear lifting when second drive gear 601 clockwise turning, and then makes filter 1 further lifting under the drive of rotating gear, makes the difference in height grow between filter 1 and the adjacent filter 1, and the focus changes.

In the present embodiment, as shown in fig. 7, the plate frame of the filter plate 1 is a rectangular frame structure, and the frame bodies on the front and rear sides of the plate frame are vertically provided with lifting grooves 120; each lifting groove 120 is a rectangular groove, and the lifting rack 110 is fixedly installed on the inner wall of the left side of the lifting groove 120, so that the second transmission gear 601 drives the filter plate 1 to be lifted when rotating clockwise.

In the present embodiment, as shown in fig. 5 to 7, two side walls of the lifting groove 120 are provided with a limiting groove extending in a vertical direction; one end of the long sliding rod 904 close to the filter plate 1 is provided with a lifting slide block 903; the lifting slider 903 is installed in the lifting groove 120 in a vertically slidable manner, the limiting table extends from the left side surface and the right side surface of the lifting slider 903, the limiting table is inserted into the limiting groove, and the limiting groove can stabilize the lifting slider 903 in the vertical sliding process at the uppermost end of the lifting groove 120 in the initial state. Be equipped with the otic placode between slip stock 904 and the lifting slide 903, the otic placode is the right triangle structure, and two right-angle sides are fixed respectively on the top of slip stock 904 and lifting slide 903, improve the stability between slip stock 904 and the lifting slide 903.

In the present embodiment, as shown in fig. 5, a slide block 1002 is provided on a side of the slide disc 1004 close to the motor 5; the slider 1002 is rectangular and is arranged horizontally; the inner side wall of the guide rail 8 is provided with a sliding groove 12, and the sliding block 1002 is inserted into the sliding groove 12, so that the sliding disc 1004 can slide left and right on the base 3. The filter plate 1 further comprises springs 16; one end of the spring 16 is fixed on the upper end of the lifting slide block 903, the other end is fixed on the upper side of the lifting groove 120, the initial state is a compressed power accumulation state, the spring 16 can enable the filter plate 1 to be quickly lifted in the lifting process, and the spring 16 plays a role in buffering when falling onto the base 3 to further protect the filter plate 1.

When the domestic sewage filter works, domestic sewage generated in the house 101 is discharged into the sedimentation tank 102 through a pipeline for sedimentation treatment, and the precipitated domestic sewage is introduced into the filter pressing equipment through the pipeline again by the high-pressure pump. In the press 103, the hydraulic cylinder 4 is opened to move the press plate 2 to the left, and the press plate 2 holds all the filter plates 1 in close contact. The motor 5 is located at the rightmost position of the plurality of filter plates 1. The sewage is injected into the filter pressing equipment along with high pressure, and the equipment filters the domestic sewage. After the filtration is completed, the hydraulic cylinder 4 is closed to release the pressing plate 2, so that the pressing plate 2 moves to the rightmost side. When the motor 5 is turned on, the motor 5 rotates to drive the motor gear 14 to rotate clockwise on the sliding rack 7 through the output shaft, so that the moving frame 501 drives the motor 5 to slide leftward on the guide rail 8, and simultaneously drives the sliding disc 1004 to slide leftward. The rotating gear is driven by the motor 5 to synchronously move leftwards and automatically transmit clockwise.

In the process that the rotating gear moves leftwards and rotates, the filter plate 1 revolves clockwise around the discharging gear set 10, the rotating gear is meshed with the fixed gear 901, the filter plate 1 rises and moves leftwards, the distance between the filter plate 1 and the adjacent left filter plate 1 is increased, the filter plate 1 is inclined leftwards, and the filter plate on the left side of the filter plate 1 is poured out preliminarily. Meanwhile, the first transmission gear is meshed with the sliding tooth section 1003, since the sliding disc 1004 only slides leftwards along with the motor 5, the first transmission gear rotates clockwise under the action of the sliding tooth section 1003 while revolving around the discharging gear set 10 along with the fixed gear 901, the first transmission gear 602 drives the second transmission gear 601 to rotate clockwise through the connecting rod 603, and the filter plate 1 is further lifted because of the meshing of the second transmission gear 601 and the lifting rack 110. In the in-process by the lifting, the lifting slide block 903 is for filter 1 downslide in lifting groove 120, and spring 16 releases elasticity extension, makes filter 1 be lifted more fast, and the meshing point is located centrobaric left side this moment, and filter 1 focus after the lifting is by corresponding raising, and then makes the further grow of angle of filter 1 left bank for the filter residue on the left side of filter 1 is thoroughly emptyd totally. Along with the rotating gear continues to rotate, the included angle between the meshing point and the gravity center becomes smaller, the angle of the filter plate 1 inclining to the left becomes smaller gradually, and the filter plate 1 is in the highest position of the filter plate 1 and returns to the vertical state. The rotating gear continues to rotate clockwise, the sliding gear section 1003 and the first transmission gear 602 are disengaged, the filter plate 1 starts to descend under the driving of the rotating gear, the filter plate 1 rotates clockwise and inclines rightwards under the action of self gravity, the meshing point is located on the left side of the gravity center at the moment, the inclination angle gradually increases along with the increase of the angle between the gravity center and the meshing point, the descending height increases, the angle of the filter plate 1 inclining rightwards under the action of self gravity at the moment becomes large, filter residues on the right side of the filter plate 1 are dumped in the process, the second transmission gear 601 rotates anticlockwise on the lifting rack 110 due to the gravity in the process, the filter plate 1 descends, and the spring 16 is compressed. The filter plate 1 returns to vertical when it comes into contact with the base 3 and the springs 16 are compressed completely into the initial state.

Along with the moving frame 501 moves leftwards, the motor 5 drives the discharging gear set 10 to sequentially clean and process filter residues on the filter plates 1 until the moving frame 501 drives the motor 5 to move to the leftmost end of the base 3 to clean all the filter plates 1.

The movable frame 501 is of a structure capable of stretching up and down, after all the filter plates 1 move to the rightmost side, the movable frame 501 shrinks, the motor 5 moves downwards to enable the discharging gear set 10 and the filtering gear 9 to be completely disengaged, the motor gear 14 and the sliding rack 7 are disengaged, the motor 5 is reset through manual operation, finally, the hydraulic cylinder 4 is opened, and the pressing plate 2 pushes leftwards to enable the filter plates 1 to reset.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, which is intended to cover any modifications, equivalents, improvements, etc. within the spirit and scope of the present invention.

Claims

1. The utility model provides an energy-saving green building system, includes house and sedimentation tank, its characterized in that: the house, the sedimentation tank and the filter pressing equipment are sequentially communicated by a communicating mechanism;

the device also comprises a filter pressing device; the filter pressing equipment includes the base, still includes:

the filter plates are sequentially arranged on the base along the left and the right of the base;

the sliding long rods are arranged on the front side wall and the rear side wall of the filter plate in a vertically sliding manner;

a plurality of groups of filtering gears, wherein the number of each group of filtering gears is two, and the two groups of filtering gears are respectively arranged on the front side and the rear side of the filtering plate; the filtering gear comprises a fixed gear and a first transmission gear; the fixed gear is fixedly arranged on the long sliding rod; the first transmission gear and the fixed gear are coaxially arranged and are arranged on one side of the fixed gear, which is far away from the filter plate, the first transmission gear is rotatably arranged on the long sliding rod through a connecting rod which is horizontally arranged and is inserted on the long sliding rod, and the connecting rod is configured to drive the filter plate to be lifted relative to the long sliding rod in the vertical direction when the first transmission gear rotates;

the two discharging devices are respectively arranged on the front side and the rear side of the plurality of filter plates; each discharging device comprises a moving frame and a discharging gear set; and is

The movable frame is slidably arranged on the base along the left-right direction through a guide rail; the discharging gear set comprises a rotating gear and a sliding tooth section; the rotating gear is rotatably arranged on the moving frame and is used for being meshed with the fixed gear; the sliding tooth section is of an arc-shaped rack structure, the radius of a reference circle is the same as that of the rotating gear, and the length of the rack of the sliding tooth section is one fourth of the arc length of the rotating gear; the sliding tooth section is fixedly arranged on the sliding disc and is positioned on the left upper side of the sliding disc; the sliding gear section and the rotating gear are coaxial and fixedly arranged on the moving frame, teeth of the sliding gear section are positioned on the left upper side of the axis of the rotating gear and are meshed with the first transmission gear, so that the first transmission gear is driven to rotate in the left moving process and when the rotating gear and the fixed gear start to be meshed, and the sliding gear section further comprises a motor and a motor gear; the motor is fixedly arranged on the movable frame, an output shaft of the motor extends inwards relative to the base, the rotating gear is fixedly arranged on the output shaft, and the sliding tooth section is rotatably arranged on the output shaft of the motor relative to the rotating gear; the motor gear is positioned on one side of the rotating gear, which faces the filter plate, a sliding rack meshed with the motor gear is arranged on the base, and the motor gear is configured to drive the motor to slide left and right on the guide rail when the motor drives the motor to rotate; the filtering gear further comprises a second transmission gear; a lifting rack is arranged on the outer peripheral wall of the filter plate in the vertical direction, the axis of a second transmission gear is fixedly connected with the connecting rod, and the second transmission gear is meshed with the lifting rack so as to drive the filter plate to be lifted when the second transmission gear rotates clockwise;

the plate frame of the filter plate is of a rectangular frame structure, and lifting grooves are vertically arranged on the frame body on the front side and the rear side of the plate frame; each lifting groove is a rectangular groove, and the lifting rack is fixedly arranged on the inner wall of the left side of each lifting groove; two side walls of the lifting groove are provided with limit grooves extending along the vertical direction; one end of the long sliding rod, which is close to the filter plate, is provided with a lifting slide block; the lifting slide block can be installed in the lifting groove in a vertically sliding mode, the left side face and the right side face of the lifting slide block extend out of the limiting table, and the limiting table is inserted into the limiting groove and is arranged at the uppermost end of the lifting groove in an initial state.

2. The energy saving green building system of claim 1, wherein:

the discharging gear set also comprises a sliding disc; the sliding disk is positioned on the outer side of the rotating gear relative to the base, can be rotatably arranged on an output shaft of the motor, and can be arranged on the base in a left-right sliding mode through the sliding block relative to the outer side of the sliding disk of the base.

3. The energy saving green building system of claim 1, wherein:

a sliding block is arranged on one side of the sliding disc close to the motor; the sliding block is cuboid and is horizontally arranged;

the inner side wall of the guide rail is provided with a sliding groove, and the sliding block is inserted into the sliding groove.

4. The energy saving green building system of claim 1, wherein:

the filter plate also comprises a spring; one end of the spring is fixed at the upper end of the lifting slide block, the other end of the spring is fixed at the upper side of the lifting groove, and the spring is in a compressed force storage state in an initial state.