CN109761385B

CN109761385B - Mud-water separation device in sewage treatment

Info

Publication number: CN109761385B
Application number: CN201910175441.8A
Authority: CN
Inventors: 张淑华
Original assignee: Hainan Yuanshengyuan Environmental Protection Co ltd
Current assignee: Hainan yuanshengyuan environmental protection Co.,Ltd.
Priority date: 2019-03-08
Filing date: 2019-03-08
Publication date: 2021-08-03
Anticipated expiration: 2039-03-08
Also published as: CN109761385A

Abstract

The invention relates to the field of sewage treatment, in particular to a mud-water separation device in sewage treatment, wherein a bearing device can control the on-off of mud and water, and the mud and water are filtered in the process of controlling the on-off of the mud and water; the mud-water separation device can separate mud from water; the separation rate of the mud-water separation device can be adjusted by the rate adjusting device; the underframe can collect the mud and water after separation, and when the mud and water reach certain quality, can realize discharging mud and water automatically. The device comprises a bearing device, a mud-water separation device, a speed adjusting device and an underframe, and the on-off of mud-water flow is conveniently controlled by controlling two upper side closing rods to be close to or away from each other simultaneously; when the muddy water flows through the lower side closing rod, the muddy water can be simply filtered through the on-off of the lower side closing rod; through the connection between the two slide bar sleeve springs, the two tension springs and the lower end push spring, the impact of muddy water flow on the T-shaped rod can be relieved.

Description

Mud-water separation device in sewage treatment

Technical Field

The invention relates to the field of sewage treatment, in particular to a sludge-water separation device in sewage treatment.

Background

For example, patent No. cn201810853761.x is a mud-water separation device, which comprises a boom suspended on the water surface, the boom is connected with a pair of spaced vertical plates, each vertical plate is provided with a through groove, an excavating mechanism is arranged between the two vertical plates, the excavating mechanism comprises a pair of cross-hinged connecting plates, the lower edge of each connecting plate is connected with an arc bucket, the two arc buckets are spliced into a hopper for excavating, a bidirectional cylinder is arranged at the upper end of the two connecting plates, a piston rod of the bidirectional cylinder is hinged with the upper edge of one connecting plate, the other piston rod of the bidirectional cylinder is hinged with the upper edge of the other connecting plate, the two connecting plates are hinged through a horizontal hinge rod, each end of the horizontal hinge rod is inserted into the corresponding through groove, the boom is provided with a linear driving mechanism, and the free end of the linear driving mechanism is connected with the horizontal hinge rod. The excavating mechanism moves up and down along the through groove due to the existence of the through groove, and the bidirectional air cylinder is matched with the pair of hinged arc buckets and drives the arc buckets to open and close to grab silt.

Disclosure of Invention

The invention aims to provide a mud-water separation device in sewage treatment, wherein a bearing device can control the on-off of mud and water, and the mud and water are filtered in the process of controlling the on-off of the mud and water; the mud-water separation device can separate mud from water; the separation rate of the mud-water separation device can be adjusted by the rate adjusting device; the underframe can collect the mud and water after separation, and when the mud and water reach certain quality, can realize discharging mud and water automatically.

The purpose of the invention is realized by the following technical scheme:

a mud-water separation device in sewage treatment comprises a bearing device, a mud-water separation device, a speed regulation device and an underframe, wherein the bearing device comprises a bearing device outer frame, two upper side push springs, two upper side closed rods, two upper side sliders, two slide rod sleeve springs, two tension springs, a lower end push spring, two upper side rectangular sliding cavities, two middle-end slide rods, a lower end outer frame, two lower side closed rods, a T-shaped rod, two connecting slide rods, two slide rod push springs, two buffer sleeves, a plurality of buffer springs, two buffer slide rods, a T-shaped rod body, two rectangular slide blocks, two hinge rods, a vertical rod, a transverse rod, two transverse slide rods and a connecting rod, the two upper side rectangular sliding cavities are respectively arranged at the left side and the right side of the inner end of the bearing device outer frame, the two upper side closed rods are respectively slidably connected in the two upper side rectangular sliding cavities, the two middle-end slide rods are respectively fixedly connected at the left end and the right end of the inner end surface of the bearing device outer frame, two upper side push springs are respectively arranged in the two upper side rectangular sliding cavities, the lower end outer frame is fixedly connected to the lower side of the inner end surface of the bearing device outer frame, the two lower side closed rods are respectively and rotatably connected to the left end and the right end of the lower side of the inner end surface of the bearing device outer frame, the two upper side sliders are respectively and fixedly connected to the lower ends of the lower end outer frame, the upper ends of the two tension springs are respectively and fixedly connected to the left end and the right end of the lower side closed rods, the lower ends of the two tension springs are respectively and fixedly connected to the middle ends of the two lower side closed rods, the lower end push springs are arranged on the lower side of the inner end of the lower end outer frame, the T-shaped rods are slidably connected to the inner end of the lower end outer frame, the two connecting slide rods are respectively and slidably hinged to the two transverse slide rods, the two slide rod push springs are respectively sleeved on the two transverse slide rods, the two rectangular slide blocks are respectively and fixedly connected to the left end and the right end of the upper side of the T-shaped rod body, the vertical rod is fixedly connected to the lower end of the T-shaped rod body, the cross rod is fixedly connected to the lower end of the vertical rod, the two transverse sliding rods are respectively in sliding connection with the two rectangular sliding blocks, the two buffer sleeves are respectively in sliding connection with the two buffer sliding rods, the plurality of buffer springs are respectively arranged between the two buffer sleeves and the two buffer sliding rods, the two buffer sleeves are respectively hinged to the left end and the right end of the upper side of the inner wall of the lower end outer frame, and the lower ends of the two buffer sliding rods are respectively hinged to the left end and the right end of the cross rod;

the mud-water separation device comprises a separation device outer frame, a separation push spring I, a separation push spring II, a rotating main shaft, a fixed outer frame, a lower side sliding cavity, a right side sliding frame, an inner hollow cavity, a fixed outer frame body, an inner hollow groove, a right end rotating groove, a T-shaped sliding rod outer sleeve spring, a trapezoidal slider, a T-shaped sliding rod inner sleeve spring, two inner end rectangular communication holes, a fixed outer frame inner cavity, a rotating main shaft main body, a main shaft rectangular sliding cavity, a main shaft groove, a main shaft rectangular sliding groove, a V-shaped rod boss, a V-shaped rod hinge rod, a T-shaped sliding rod outer sleeve spring, a T-shaped sliding rod inner push spring and a mud discharge port, wherein the lower side sliding cavity is arranged on the left side of the inner end of the separation device outer frame, the right side sliding frame is fixedly connected to the right side of the inner end of the separation device outer frame, the inner end hollow cavity is arranged at the separation push spring I and the separation push spring II are both arranged in the lower cavity, the left end of a rotating main shaft is slidably connected in the lower side sliding cavity, the inner hollowed groove is arranged on the left side of the inner end of the fixed outer frame body, the right end rotating groove is arranged on the right side of the inner end of the fixed outer frame body, the inner hollowed groove is rotatably connected with the right side sliding frame, the T-shaped sliding rod is fixedly connected with the fixed outer frame body, the outer side of the T-shaped sliding rod is sleeved with a spring, the outer end of the T-shaped sliding rod is sleeved with the outer end of the T-shaped sliding rod, a trapezoidal slider is slidably connected with the T-shaped sliding rod, the trapezoidal slider is in clearance fit with the inner wall of the fixed outer frame body, the inner side of the T-shaped sliding rod is sleeved with the inner end of the T-shaped sliding rod, two inner rectangular communication holes are both communicated with the inner cavity of the fixed outer frame, the right end rotating groove is fixedly connected in the main shaft groove through a sleeve, a plurality of main shaft rectangular sliding cavities are arranged on the main rotating main shaft body, a plurality of main shaft rectangular sliding cavities are arranged on the main shaft main body, a plurality of main shaft rectangular sliding grooves are arranged on the main body of the rotating main shaft, the V-shaped rod boss is fixedly connected to the V-shaped rod, the V-shaped rod boss is connected with the rectangular sliding cavity of the main shaft in a sliding mode, the T-shaped sliding rod inner push spring is arranged at the inner end of the rectangular sliding chute of the main shaft, the T-shaped sliding rod is connected to the inner end of the rectangular sliding chute of the main shaft in a sliding mode, the T-shaped sliding rod outer sleeve spring is sleeved on the T-shaped sliding rod, two V-shaped rod hinge rods are arranged, the lower ends of the two V-shaped rod hinge rods are respectively hinged to the left end and the right end of the V-shaped rod hinge rod, the upper ends of the two V-shaped rod hinge rods are respectively connected to the left end and the right end of the V-shaped rod in a sliding mode, and the bearing device outer frame is fixedly connected to the upper end of the separating device outer frame;

the speed adjusting device comprises a speed outer frame, an input motor, input bevel teeth, transmission bevel teeth, a height terminal, a roller rotating shaft, transmission rollers, a coupler, a rotating shaft rotating hole, a connecting rod, a threaded rod, a sliding sleeve, a manual rotating rod, a transmission main rod, a driving roller shaft sleeve, a bearing slider and a main rod sliding groove, wherein the input motor is fixedly connected to the upper end of the speed outer frame through a rack, the input bevel teeth are fixedly connected to an output shaft of the input motor, the input bevel teeth are in meshing transmission with the transmission bevel teeth, the transmission bevel teeth are fixedly connected with the roller rotating shaft, the height terminal is fixedly connected to the upper end of the inner wall of the speed outer frame, the transmission rollers are fixedly connected with the roller rotating shaft, the rotating hole is formed in the left end of the inner wall of the speed outer frame, the connecting rod is hinged to the sliding sleeve, the sliding sleeve is connected with the threaded rod through threads, and the left end and right end of the threaded rod are respectively rotatably connected to the left end and right end of the inner wall of the speed outer frame, the manual rotating rod is fixedly connected to the right end of the threaded rod, the right end of the transmission main rod is rotatably connected to the speed outer rod, the driving roller is in interference fit connection with the outer ring of a shaft sleeve of the driving roller, the inner ring of the shaft sleeve of the driving roller is in interference fit connection with the bearing slider, the bearing slider is in sliding connection with the main rod sliding groove, the main rod sliding groove is arranged on the transmission main rod, the coupler is fixedly connected to the left end of the transmission main rod, the speed outer rod is fixedly connected to the right end of the fixed outer rod body, the right end of the rotating main shaft body is in clearance fit connection with the rotating shaft rotating hole, the right end of the rotating main shaft body is fixedly connected to the coupler, the upper end of the connecting rod is in clearance fit connection with the right end of the bearing slider, and the driving roller is in meshing transmission with the transmission roller;

the chassis comprises a chassis outer frame, two chassis supports, a plurality of chassis hinged rods, a plurality of chassis push springs, a speed adjusting device rotating frame, a cleaning slide rod boss, a cleaning slide rod push spring, a cleaning slider, a slider hinged rod, a slide rod slider, a sludge discharge communication hole, a drainage communication hole, two U-shaped chutes, a bearing outer frame, two side wall clamps, two clamp push springs, two side wall closed rods, two closed grooves, an upper side push spring, a lower side push spring, a plurality of U-shaped clamping grooves I, a hollow cavity II, a plurality of U-shaped clamping grooves II, a chassis T-shaped slide rod and two hinged slide rods, wherein the two chassis supports are respectively and fixedly connected with the chassis outer frame, the chassis hinged rods are all in sliding hinge joint with the chassis outer frame, the chassis push springs are all arranged in the chassis hinged rods, the speed adjusting device rotating frame is fixedly connected on the cleaning slide rod boss, the cleaning slide rod is arranged on the cleaning slide rod boss, the cleaning slide bar pushing spring is sleeved on the cleaning slide bar, the cleaning slider is slidably connected at the upper end of a boss of the cleaning slide bar, the slider hinge rod is hinged with the cleaning slider, the lower end of the slider hinge rod is hinged with the slide bar slider, the slide bar slider is slidably connected with the cleaning slide bar, the sludge discharge communication hole and the water discharge communication hole are respectively arranged at the left end and the right end of the chassis frame, the two U-shaped chutes are respectively arranged on the bearing frame, the two side wall clips are respectively slidably connected in the two U-shaped chutes, the two clip pushing springs are respectively sleeved on the two side wall clips, the two clip pushing springs are respectively arranged in the two U-shaped chutes, the chassis T-shaped slide bar is slidably connected with the bearing frame, the upper side pushing spring and the lower side pushing spring are respectively arranged at the lower end of the bearing frame, the two side wall closing rods are respectively connected with the two closing grooves in a clearance fit manner, and the chassis T-shaped slide bar is slidably connected with the chassis frame, the upper side pushes away the spring and all sets up the lower extreme at the chassis frame with the lower side pushes away the spring, a plurality of U type draw-in grooves one, fretwork cavity two and a plurality of U type draw-in groove two all set up the inner at the chassis frame, the upper end of two articulated slide bars is connected with two lateral wall checkposts are articulated respectively, the lower extreme of two articulated slide bars all with chassis T type slide bar sliding connection, fixed frame changes the frame clearance fit with speed adjusting device and is connected, separator frame fixed connection is in the upper end of chassis frame, it is provided with two to bear the frame, two bear the frame respectively sliding connection at fretwork cavity one and fretwork cavity two, the lower extreme of a plurality of chassis hinge bars articulates respectively and connects on a plurality of lateral wall closure bars.

As a further optimization of the technical scheme, in the mud-water separation device in sewage treatment, the upper side push spring, the slide rod sleeve spring, the lower end push spring and the buffer spring are all in a compressed state, and the slide rod push spring and the tension spring are all in a stretched state.

As a further optimization of the technical scheme, the first separating push spring and the second separating push spring are both in a compressed state.

The sludge-water separation device in the sewage treatment has the beneficial effects that:

according to the mud-water separation device in sewage treatment, the two upper side closing rods are controlled to be close to or away from each other at the same time, so that the on-off of the mud-water flow is conveniently controlled; when the muddy water flows through the lower side closing rod, the muddy water can be simply filtered through the on-off of the lower side closing rod; through the connection among the two sliding rod sleeve springs, the two tension springs and the lower end push spring, the impact of muddy water flow on the T-shaped rod can be relieved; when the rotating main shaft rotates, the V-shaped rod is driven to rotate, under the centrifugal action of the rotating main shaft, the muddy water flows out of the fixed outer frame through the through holes which are formed in the fixed outer frame and matched with the trapezoidal sliders under the action of the muddy water flows and the V-shaped rod, and meanwhile, the retained mud is discharged through the mud discharge port, so that the muddy water separation is realized; the transmission ratio between the transmission roller and the driving roller is changed by changing the center distance between the transmission roller and the driving roller.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram showing the overall structure of a sludge-water separation apparatus for sewage treatment according to the present invention;

FIG. 2 is a schematic view showing the overall structure of a sludge-water separation apparatus for sewage treatment according to the present invention;

FIG. 3 is a first structural diagram of a bearing device of the sludge-water separation device in sewage treatment according to the present invention;

FIG. 4 is a second structural diagram of a bearing device of the sludge-water separation device in sewage treatment according to the present invention;

FIG. 5 is a third structural view of a bearing device of the sludge-water separation device in sewage treatment according to the present invention;

FIG. 6 is a fourth structural diagram of a bearing device of the sludge-water separation device in sewage treatment according to the present invention;

FIG. 7 is a fifth structural view of a bearing device of the sludge-water separation device in sewage treatment according to the present invention;

FIG. 8 is a sixth structural view of a bearing device of the sludge-water separation device in sewage treatment according to the present invention;

FIG. 9 is a first schematic structural view of a sludge-water separation apparatus of the sludge-water separation apparatus for sewage treatment according to the present invention;

FIG. 10 is a second schematic structural view of a sludge-water separating apparatus of the sludge-water separating apparatus for sewage treatment according to the present invention;

FIG. 11 is a third schematic structural view of a sludge-water separating apparatus of the sludge-water separating apparatus for sewage treatment according to the present invention;

FIG. 12 is a fourth schematic structural view of a sludge-water separating apparatus of the sludge-water separating apparatus for sewage treatment according to the present invention;

FIG. 13 is a fifth schematic structural view of a sludge-water separating apparatus of the sludge-water separating apparatus for sewage treatment according to the present invention;

FIG. 14 is a sixth schematic structural view of a sludge-water separating apparatus of the sludge-water separating apparatus for sewage treatment according to the present invention;

FIG. 15 is a first schematic view of a first embodiment of a velocity adjusting apparatus of a sludge-water separation apparatus for sewage treatment according to the present invention;

FIG. 16 is a second schematic structural view of a velocity adjusting apparatus of a sludge-water separation apparatus for sewage treatment according to the present invention;

FIG. 17 is a third schematic view showing the structure of a speed adjusting device of a sludge-water separating device in sewage treatment according to the present invention;

FIG. 18 is a first schematic view showing the construction of the bottom frame of the sludge-water separation apparatus for sewage treatment according to the present invention;

FIG. 19 is a second schematic view showing the structure of the bottom frame of the sludge-water separation apparatus for sewage treatment according to the present invention;

FIG. 20 is a third schematic view showing the construction of the bottom frame of the sludge-water separating device in sewage treatment according to the present invention;

FIG. 21 is a seventh structural view of a carrying device of the sludge-water separating device in sewage treatment according to the present invention;

FIG. 22 is a fourth schematic view showing the construction of the bottom frame of the sludge-water separating device in sewage treatment according to the present invention;

FIG. 23 is a fifth schematic view showing the structure of the bottom frame of the sludge-water separation apparatus for sewage treatment according to the present invention.

In the figure: a carrier device 1; a bearing device outer frame 1-1; an upper side push spring 1-2; an upper side closing lever 1-3; 1-4 of upper sliders; a slide bar is sleeved with a spring 1-5; 1-6 of a tension spring; a lower end push spring 1-7; 1-8 of an upper rectangular sliding cavity; a middle slide bar 1-9; 1-10 parts of a lower end outer frame; lower closure bars 1-11; 1-12 parts of T-shaped rod; connecting sliding rods 1-13; a slide rod push spring 1-14; buffer sleeves 1-15; buffer springs 1-16; buffer slide bar 1-17; 1-18T-shaped rod bodies; 1-19 rectangular sliding blocks; hinge rods 1-20; 1-21 parts of vertical rod; 1-22 of cross bar; transverse sliding rods 1-23; connecting rods 1-25; a mud-water separation device 2; a separation device outer frame 2-1; separating a first push spring 2-2; separating a second push spring 2-3; rotating the main shaft 2-4; fixing the outer frame 2-5; lower slide cavity 2-6; 2-7 of a right sliding frame; 2-8 parts of a hollow cavity at the inner end; fixing the outer frame body 2-9; 2-10 parts of hollow grooves at the inner ends; 2-11 of right rotary groove; 2-12 of T-shaped slide bars; the outer side of the T-shaped slide bar is sleeved with 2-13 springs; 2-14 parts of a trapezoidal slider; 2-15 parts of T-shaped slide bar inner side spring; inner end rectangular communication holes 2-16; fixing the inner cavity 2-17 of the outer frame; rotating the main shaft body 2-18; a main shaft rectangular sliding cavity 2-19; 2-20 parts of a main shaft groove; a main shaft rectangular chute 2-21; 2-22 parts of a V-shaped rod; 2-23 parts of a V-shaped rod boss; the V-shaped rod hinge rods 2-24; t-shaped slide bars 2-25; the T-shaped slide bar is externally sleeved with springs 2-26; a T-shaped slide bar inner push spring 2-27; 2-28 parts of a sludge discharge port; a rate adjusting device 3; rate outer frame 3-1; inputting a motor 3-2; inputting 3-3 of bevel gear; 3-4 parts of transmission bevel gear; height terminals 3-5; 3-6 parts of roller rotating shaft; 3-7 parts of transmission rollers; 3-8 of a coupler; 3-9 rotating holes of the rotating shaft; 3-10 parts of a connecting rod; 3-11 parts of a threaded rod; 3-12 parts of a sliding sleeve; 3-13 of a manual rotating rod; the transmission main rods 3-14; drive rollers 3-15; drive roller bushings 3-16; 3-17 parts of bearing slider; main rod chutes 3-18; a chassis 4; a chassis outer frame 4-1; an underframe support 4-2; chassis hinge bar 4-3; 4-4 of a chassis push spring; rotating a frame 4-5 by a speed adjusting device; cleaning sliding rod bosses 4-6; cleaning the sliding rod 4-7; cleaning 4-8 parts of a sliding rod push spring; cleaning the sliders for 4-9 times; 4-10 of a slider hinge rod; 4-11 parts of a slide bar slider; 4-12 sludge discharge communicating holes; 4-13 of drainage communication holes; 4-14 of U-shaped chutes; 4-15 of a bearing outer frame; side wall clips 4-16; 4-17 of a clip push spring; sidewall closure bars 4-18; closure grooves 4-19; 4-20 parts of upper side push spring; 4-21 of lower push spring; 4-22 parts of a U-shaped clamping groove I; a hollow-out cavity I is 4-23; a hollow-out cavity II 4-24; 4-25 parts of a U-shaped clamping groove II; 4-26 of a T-shaped sliding rod of the underframe; the slide bars 4-27 are articulated.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 23, and a sludge-water separation device in sewage treatment comprises a bearing device 1, a sludge-water separation device 2, a speed regulation device 3 and a chassis 4, wherein the bearing device 1 comprises a bearing device outer frame 1-1, two upper push springs 1-2, two upper closing rods 1-3, two upper sliders 1-4, two sliding rod sleeve springs 1-5, two tension springs 1-6, a lower push spring 1-7, two upper rectangular sliding cavities 1-8, two middle-end sliding rods 1-9, a lower end outer frame 1-10, two lower closing rods 1-11, a t-shaped rod 1-12, two connecting sliding rods 1-13, two sliding rod push springs 1-14, two buffer sleeves 1-15, and a plurality of buffer springs 1-16, Two buffer slide bars 1-17, T-shaped bar bodies 1-18, two rectangular slide blocks 1-19, two hinge bars 1-20, vertical bars 1-21, cross bars 1-22, two transverse slide bars 1-23 and connecting bars 1-25, wherein two upper rectangular slide cavities 1-8 are respectively arranged at the left and right sides of the inner end of a bearing device outer frame 1-1, two upper closed bars 1-3 are respectively connected in the two upper rectangular slide cavities 1-8 in a sliding manner, two middle slide bars 1-9 are respectively fixedly connected at the left and right ends of the inner end surface of the bearing device outer frame 1-1, two upper push springs 1-2 are respectively arranged in the two upper rectangular slide cavities 1-8, a lower end outer frame 1-10 is fixedly connected at the lower side of the inner end surface of the bearing device outer frame 1-1, and two lower closed bars 1-11 are respectively rotatably connected below the inner end surface of the bearing device outer frame 1-1 Two upper sliders 1-4 are respectively and fixedly connected with the lower ends of two upper closing rods 1-3 at the left and right ends of the side, the upper ends of two tension springs 1-6 are respectively and fixedly connected with the left and right ends of a lower end outer frame 1-10, the lower ends of two tension springs 1-6 are respectively and fixedly connected with the middle ends of two lower closing rods 1-11, lower end push springs 1-7 are arranged at the lower sides of the inner ends of the lower end outer frames 1-10, T-shaped rods 1-12 are slidably connected with the inner ends of the lower end outer frames 1-10, two connecting slide rods 1-13 are respectively and slidably hinged with two transverse slide rods 1-23, two slide rod push springs 1-14 are respectively sleeved on the two transverse slide rods 1-23, two rectangular sliders 1-19 are respectively and fixedly connected with the left and right ends of the upper sides of T-shaped rod bodies 1-18, two hinged rods 1-20 are respectively fixedly connected to the left end and the right end of the lower side of a T-shaped rod body 1-18, a vertical rod 1-21 is fixedly connected to the lower end of the T-shaped rod body 1-18, a cross rod 1-22 is fixedly connected to the lower end of the vertical rod 1-21, two transverse sliding rods 1-23 are respectively connected with two rectangular sliding blocks 1-19 in a sliding manner, two buffer sleeves 1-15 are respectively connected with two buffer sliding rods 1-17 in a sliding manner, a plurality of buffer springs 1-16 are respectively arranged between the two buffer sleeves 1-15 and the two buffer sliding rods 1-17, the two buffer sleeves 1-15 are respectively hinged to the left end and the right end of the upper side of the inner wall of a lower end outer frame 1-10, and the lower ends of the two buffer sliding rods 1-17 are respectively hinged to the left end and the right end of the cross rod 1-22;

the two upper side closing rods 1-3 are controlled to be close to each other or to be away from each other at the same time, so that the on-off of the muddy water flow is conveniently controlled; when the muddy water flows through the lower side closing rod 1-11, the muddy water can be simply filtered through the on-off of the lower side closing rod 1-11; through the connection among the two sliding rod sleeve springs 1-5, the two tension springs 1-6 and the lower end push springs 1-7, the impact of muddy water flow on the T-shaped rods 1-12 can be relieved;

the mud-water separation device 2 comprises a separation device outer frame 2-1, a separation push spring I2-2, a separation push spring II 2-3, a rotating main shaft 2-4, a fixed outer frame 2-5, a lower side sliding cavity 2-6, a right side sliding frame 2-7, an inner end hollow cavity 2-8, a fixed outer frame body 2-9, an inner end hollow groove 2-10, a right end rotary groove 2-11, a T-shaped sliding rod 2-12, a T-shaped sliding rod outer side sleeve spring 2-13, a trapezoid slider 2-14, a T-shaped sliding rod inner side sleeve spring 2-15, two inner end rectangular communication holes 2-16, a fixed outer frame inner cavity 2-17, a rotating main shaft main body 2-18, a main shaft rectangular sliding cavity 2-19, a main shaft groove 2-20, a main shaft rectangular sliding groove 2-21, a V-shaped rod 2-22, a main shaft rectangular sliding groove 2-20, a V-shaped rod 2-9, V-shaped rod boss 2-23, V-shaped rod hinge rod 2-24, T-shaped slide rod 2-25, T-shaped slide rod outer sleeve spring 2-26, T-shaped slide rod inner push spring 2-27 and mud discharge port 2-28, lower side slide cavity 2-6 is arranged on the left side of the inner end of the outer frame 2-1 of the separating device, right side slide frame 2-7 is fixedly connected on the right side of the inner end of the outer frame 2-1 of the separating device, inner end hollow cavity 2-8 is arranged on the inner end of the outer frame 2-1 of the separating device, separating push spring one 2-2 and separating push spring two 2-3 are both arranged in the lower side slide cavity 2-6, the left end of the rotating main shaft 2-4 is slidably connected in the lower side slide cavity 2-6, inner end hollow groove 2-10 is arranged on the left side of the inner end of the fixed outer frame body 2-9, right end rotating groove 2-11 is arranged on the right side of the inner end of the fixed outer frame body 2-9, the inner hollow grooves 2-10 are rotatably connected with a right sliding frame 2-7, a T-shaped sliding rod 2-12 is fixedly connected with a fixed outer frame body 2-9, a T-shaped sliding rod outer sleeve spring 2-13 is sleeved at the outer end of the T-shaped sliding rod 2-12, a trapezoidal slider 2-14 is slidably connected with the T-shaped sliding rod 2-12, the trapezoidal slider 2-14 is in clearance fit connection with the inner wall of the fixed outer frame body 2-9, a T-shaped sliding rod inner sleeve spring 2-15 is sleeved at the inner end of the T-shaped sliding rod 2-12, two inner end rectangular communication holes 2-16 are both communicated with a fixed outer frame inner cavity 2-17, a right end rotary groove 2-11 is fixedly connected in a main shaft groove 2-20 through a sleeve, a plurality of main shaft rectangular sliding cavities 2-19 are arranged, and a plurality of main shaft rectangular sliding cavities 2-19 are all arranged on a main rotary main shaft body 2-18, a plurality of main shaft rectangular sliding grooves 2-21 are arranged, the plurality of main shaft rectangular sliding grooves 2-21 are all arranged on a main rotating shaft body 2-18, V-shaped rod bosses 2-23 are fixedly connected on V-shaped rods 2-22, the V-shaped rod bosses 2-23 are connected with main shaft rectangular sliding cavities 2-19 in a sliding manner, T-shaped slide rod inner push springs 2-27 are arranged at the inner ends of the main shaft rectangular sliding grooves 2-21, T-shaped slide rods 2-25 are connected at the inner ends of the main shaft rectangular sliding grooves 2-21 in a sliding manner, T-shaped slide rod outer sleeve springs 2-26 are sleeved on the T-shaped slide rods 2-25, two V-shaped rod hinge rods 2-24 are arranged, the lower ends of the two V-shaped rod hinge rods 2-24 are respectively hinged at the left end and the right end of the V-shaped rod hinge rods 2-24, the upper ends of the two V-shaped rod hinge rods 2-24 are respectively connected at the left end and the right end of the V-shaped rod hinge rods 2-22 in a sliding manner, the outer frame 1-1 of the bearing device is fixedly connected with the upper end of the outer frame 2-1 of the separating device;

when the rotating main shaft 2-4 rotates, the V-shaped rod 2-22 is driven to rotate, under the centrifugal action of the rotating main shaft 2-4, the muddy water flows are driven to flow out of the fixed outer frame 2-5 through the through hole which is arranged on the fixed outer frame 2-5 and matched with the trapezoidal slider 2-14 under the centrifugal action of the V-shaped rod 2-22 and the muddy water flows, and meanwhile, the retained mud is discharged through the mud discharge port 2-28, so that the mud and water separation is realized;

the speed adjusting device 3 comprises a speed outer frame 3-1, an input motor 3-2, input bevel gears 3-3, transmission bevel gears 3-4, a height terminal 3-5, a roller rotating shaft 3-6, transmission rollers 3-7, a coupler 3-8, rotating shaft rotating holes 3-9, connecting rods 3-10, threaded rods 3-11, a sliding sleeve 3-12, a manual rotating rod 3-13, a transmission main rod 3-14, driving rollers 3-15, a driving roller shaft sleeve 3-16, a bearing slider 3-17 and a main rod sliding groove 3-18, wherein the input motor 3-2 is fixedly connected to the upper end of the speed outer frame 3-1 through a rack, the input bevel gears 3-3 are fixedly connected to an output shaft of the input motor 3-2, the input bevel gears 3-3 are in meshing transmission with the transmission bevel gears 3-4, the transmission bevel gear 3-4 is fixedly connected with the roller rotating shaft 3-6, the height terminal 3-5 is fixedly connected with the upper end of the inner wall of the speed outer frame 3-1, the transmission roller 3-7 is fixedly connected with the roller rotating shaft 3-6, the rotating shaft rotating hole 3-9 is arranged at the left end of the inner wall of the speed outer frame 3-1, the connecting rod 3-10 is hinged with the sliding sleeve 3-12, the sliding sleeve 3-12 is connected with the threaded rod 3-11 through threads, the left end and the right end of the threaded rod 3-11 are respectively and rotatably connected with the left end and the right end of the inner wall of the speed outer frame 3-1, the manual rotating rod 3-13 is fixedly connected with the right end of the threaded rod 3-11, the right end of the transmission main rod 3-14 is rotatably connected with the speed outer frame 3-1, the driving roller 3-15 is in interference fit with the outer ring of the driving roller shaft sleeve 3-16, the inner ring of a driving roller shaft sleeve 3-16 is connected with a bearing slider 3-17 in an interference fit manner, the bearing slider 3-17 is connected with a main rod sliding groove 3-18 in a sliding manner, the main rod sliding groove 3-18 is arranged on a transmission main rod 3-14, a coupler 3-8 is fixedly connected at the left end of the transmission main rod 3-14, a speed rate outer frame 3-1 is fixedly connected at the right end of a fixed outer frame body 2-9, the right end of a rotating main shaft body 2-18 is connected in a rotating shaft rotating hole 3-9 in a clearance fit manner, the right end of the rotating main shaft body 2-18 is fixedly connected on the coupler 3-8, the upper end of a connecting rod 3-10 is connected at the right end of the bearing slider 3-17 in a clearance fit manner, and a driving roller 3-15 is in meshing transmission with a driving roller 3-7;

the transmission ratio between the transmission roller 3-7 and the driving roller 3-15 is changed by changing the center distance between the transmission roller 3-7 and the driving roller 3-15;

the chassis 4 comprises a chassis outer frame 4-1, two chassis supports 4-2, a plurality of chassis hinged rods 4-3, a plurality of chassis push springs 4-4, a speed adjusting device rotating frame 4-5, a cleaning slide rod boss 4-6, a cleaning slide rod 4-7, a cleaning slide rod push spring 4-8, a cleaning slide 4-9, a slide hinged rod 4-10, a slide rod slide 4-11, a sludge discharge communicating hole 4-12, a drainage communicating hole 4-13, two U-shaped sliding chutes 4-14, a bearing outer frame 4-15, two side wall clamps 4-16, two clamp push springs 4-17, two side wall closed rods 4-18, two closed grooves 4-19, an upper side push spring 4-20, a lower side push spring 4-21, a plurality of U-shaped clamping grooves one 4-22, A first hollow-out cavity 4-23, a second hollow-out cavity 4-24, a plurality of U-shaped clamping grooves 4-25, a T-shaped chassis slide bar 4-26 and two hinged slide bars 4-27, wherein two chassis supports 4-2 are respectively fixedly connected with a chassis outer frame 4-1, a plurality of chassis hinged bars 4-3 are respectively in sliding hinge with the chassis outer frame 4-1, a plurality of chassis push springs 4-4 are respectively arranged in the chassis hinged bars 4-3, a speed adjusting device rotating frame 4-5 is fixedly connected with a cleaning slide bar boss 4-6, a cleaning slide bar 4-7 is arranged on the cleaning slide bar boss 4-6, a cleaning slide bar push spring 4-8 is sleeved on the cleaning slide bar 4-7, a cleaning slide bar 4-9 is in sliding connection with the upper end of the cleaning slide bar boss 4-6, a slide bar hinged bar 4-10 is in hinged connection with the cleaning slide bar 4-9, the lower end of a slider hinged rod 4-10 is hinged with a slider 4-11, the slider 4-11 is connected with a cleaning slider 4-7 in a sliding way, a sludge discharge communication hole 4-12 and a water discharge communication hole 4-13 are respectively arranged at the left end and the right end of an underframe outer frame 4-1, two U-shaped chutes 4-14 are respectively arranged on a bearing outer frame 4-15, two side wall clamps 4-16 are respectively connected in the two U-shaped chutes 4-14 in a sliding way, two clamp push springs 4-17 are respectively sleeved on the two side wall clamps 4-16, the two clamp push springs 4-17 are respectively arranged in the two U-shaped chutes 4-14, two side wall closing rods 4-18 are respectively connected at the left end and the right end of the underframe outer frame 4-1 in a rotating way, and two closing grooves 4-19 are respectively arranged at the left end and the right end of the underframe outer frame 4-1, two side wall closing rods 4-18 are respectively connected with two closing grooves 4-19 in a clearance fit manner, a T-shaped bottom frame sliding rod 4-26 is connected with a bearing outer frame 4-15 in a sliding manner, an upper side push spring 4-20 and a lower side push spring 4-21 are respectively arranged at the lower end of the bearing outer frame 4-15, a plurality of U-shaped clamping grooves I4-22, hollow cavities I4-23, hollow cavities II 4-24 and a plurality of U-shaped clamping grooves II 4-25 are respectively arranged at the inner end of the bottom frame outer frame 4-1, the upper ends of two hinged sliding rods 4-27 are respectively connected with two side wall clamps 4-16 in a hinged manner, the lower ends of the two hinged sliding rods 4-27 are respectively connected with the T-shaped bottom frame sliding rod 4-26 in a sliding manner, a fixed outer frame 2-5 is connected with a speed adjusting device rotating frame 4-5 in a clearance fit manner, a separating device outer frame 2-1 is fixedly connected at the upper end of the bottom frame outer frame 4-1, two bearing outer frames 4-15 are arranged, the two bearing outer frames 4-15 are respectively connected in the hollow cavities I4-23 and the hollow cavities II 4-24 in a sliding mode, and the lower ends of the plurality of chassis hinge rods 4-3 are respectively connected to the plurality of side wall closing rods 4-18 in a hinged mode.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1 to 23, and the present embodiment will further describe the first embodiment, in which the upper push spring 1-2, the slide bush spring 1-5, the lower push spring 1-7 and the buffer spring 1-16 are all in a compressed state, and the slide push spring 1-14 and the tension spring 1-6 are all in a stretched state.

The third concrete implementation mode:

the first embodiment will be described with reference to fig. 1 to 23, and the first and second separation push springs 2 to 2 and 2 to 3 are compressed.

The invention relates to a mud-water separation device in sewage treatment, which has the working principle that:

when the muddy water is used, the muddy water is poured from the upper end of the outer frame 1-1 of the bearing device, the muddy water falls onto the T-shaped rods 1-12 under the action of gravity, when the mass of the muddy water on the T-shaped rods 1-12 reaches a certain degree, the T-shaped rods 1-12 are driven to move downwards under the action of the gravity of the muddy water, the two upper side closing rods 1-3 are close to each other and the upper end of the outer frame 1-1 of the bearing device is closed through the connection between the transverse sliding rods 1-23 and the connecting sliding rods 1-13 and the hinging between the connecting sliding rods 1-13 and the upper side sliders 1-4 and the fixed connection between the upper side sliders 1-4 and the upper side closing rods 1-3, so that the muddy water on the upper side of the outer frame 1-1 of the bearing device cannot fall into the outer frame 1-1 of the bearing device, and when the T-shaped rods 1-12 move downwards, the lower side closing rod 1-11 is driven to be folded outwards through the connecting rod 1-25, so that muddy water which falls into the outer frame 1-1 of the bearing device falls into the outer frame 2-1 of the separating device, the input motor 3-2 is started, the input motor 3-2 drives the transmission roller 3-7 to rotate through the meshing between the input bevel gear 3-3 and the transmission bevel gear 3-4, the transmission main rod 3-14 is driven to rotate through the meshing between the transmission roller 3-7 and the driving roller 3-15, the rotation main shaft 2-4 is driven to rotate through the coupling 3-8 connected between the transmission main rod 3-14 and the rotation main shaft 2-4, when the rotation main shaft 2-4 rotates, the V-shaped rod 2-22 is driven to rotate, and through the action between the V-shaped rod 2-22 and muddy water flow, under the centrifugal action of the rotating main shaft 2-4, the muddy water flows out of the fixed outer frame 2-5 through the through holes on the fixed outer frame 2-5 matched with the trapezoidal sliders 2-14, and meanwhile, the retained mud is discharged through the mud discharge ports 2-28, so that the muddy water separation is realized; manually rotating the manual rotating rods 3-13, changing the positions of the sliding sleeves 3-12 on the threaded rods 3-11 through the fixed connection between the manual rotating rods 3-13 and the threaded rods 3-11, changing the positions of the bearing sliders 3-17 on the transmission main rods 3-14 through the threaded connection between the threaded rods 3-11 and the sliding sleeves 3-12 and changing the center distance between the transmission rollers 3-7 and the driving rollers 3-15 through the sliding sleeves 3-12 and the connecting rods 3-10, changing the transmission ratio between the transmission rollers 3-7 and the driving rollers 3-15 through changing the center distance between the transmission rollers 3-7 and the driving rollers 3-15, and changing the speed of the transmission main rods 3-14, further adjusting the separation rate of the mud-water separation device 2; separated water falls into a bearing outer frame 4-15 on the left side of the device through the upper end of a lug boss 4-6 of a cleaning slide rod and a drainage communication hole 4-13, separated mud falls into the bearing outer frame 4-15 on the right side of the device through a mud drainage communication hole 4-12, the working state of the bearing outer frame 4-15 is shown in figure 19, when the water in the bearing outer frame 4-15 reaches a certain quality through mud, a T-shaped slide rod 4-26 of an underframe moves downwards, two side wall clamps 4-16 are driven to approach each other through a hinged slide rod 4-27 and are separated from a U-shaped clamping groove one 4-22 or a U-shaped clamping groove two 4-25, so that the bearing outer frame 4-15 moves downwards, and a side wall closing rod 4-18 is driven to be folded outwards through a hinged rod 4-3 of the underframe while the bearing outer frame 4-15 moves downwards, so that the water or sludge in the bearing frame 4-15 flows out of the closed groove 4-19, thereby realizing the collection and automatic discharge of the water or sludge.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a mud-water separation device among sewage treatment, is including bearing device (1), mud-water separation device (2), speed adjusting device (3) and chassis (4), its characterized in that: the bearing device (1) comprises a bearing device outer frame (1-1), two upper side push springs (1-2), two upper side closed rods (1-3), two upper side sliders (1-4), two sliding rod sleeve springs (1-5), two tension springs (1-6), a lower end push spring (1-7), two upper side rectangular sliding cavities (1-8), two middle end sliding rods (1-9), a lower end outer frame (1-10), two lower side closed rods (1-11), a T-shaped rod (1-12), two connecting sliding rods (1-13), two sliding rod push springs (1-14), two buffer sleeves (1-15), a plurality of buffer springs (1-16), two buffer sliding rods (1-17), a T-shaped rod body (1-18), Two rectangular sliding blocks (1-19), two hinged rods (1-20), vertical rods (1-21), cross rods (1-22), two transverse sliding rods (1-23) and connecting rods (1-25), wherein two upper rectangular sliding cavities (1-8) are respectively arranged at the left side and the right side of the inner end of a bearing device outer frame (1-1), two upper closed rods (1-3) are respectively connected in the two upper rectangular sliding cavities (1-8) in a sliding manner, two middle sliding rods (1-9) are respectively fixedly connected at the left end and the right end of the inner end face of the bearing device outer frame (1-1), two upper push springs (1-2) are respectively arranged in the two upper rectangular sliding cavities (1-8), and a lower end outer frame (1-10) is fixedly connected at the lower side of the inner end face of the bearing device outer frame (1-1), two lower side closing rods (1-11) are respectively and rotatably connected with the left end and the right end of the lower side of the inner end surface of a bearing device outer frame (1-1), two upper side sliders (1-4) are respectively and fixedly connected with the lower ends of the two upper side closing rods (1-3), the upper ends of two tension springs (1-6) are respectively and fixedly connected with the left end and the right end of a lower end outer frame (1-10), the lower ends of the two tension springs (1-6) are respectively and fixedly connected with the middle ends of the two lower side closing rods (1-11), lower end push springs (1-7) are arranged on the lower sides of the inner ends of the lower end outer frames (1-10), T-shaped rods (1-12) are respectively and slidably connected with the inner ends of the lower end outer frames (1-10), two connecting slide rods (1-13) are respectively and slidably hinged with the two transverse slide rods (1-23), the two slide rod push springs (1-14) are respectively sleeved on the two transverse slide rods (1-23), two rectangular sliding blocks (1-19) are respectively and fixedly connected with the left end and the right end of the upper side of a T-shaped rod body (1-18), two hinged rods (1-20) are respectively and fixedly connected with the left end and the right end of the lower side of the T-shaped rod body (1-18), a vertical rod (1-21) is fixedly connected with the lower end of the T-shaped rod body (1-18), a transverse rod (1-22) is fixedly connected with the lower end of the vertical rod (1-21), two transverse sliding rods (1-23) are respectively and slidably connected with the two rectangular sliding blocks (1-19), two buffer sleeves (1-15) are respectively and slidably connected with the two buffer sliding rods (1-17), a plurality of buffer springs (1-16) are respectively arranged between the two buffer sleeves (1-15) and the two buffer sliding rods (1-17), and the two buffer sleeves (1-15) are respectively and hingedly connected with the left end of the upper side of the The lower ends of the two buffer slide bars (1-17) are respectively hinged with the left end and the right end of the cross bar (1-22);

the mud-water separation device (2) comprises a separation device outer frame (2-1), a separation push spring I (2-2), a separation push spring II (2-3), a rotating main shaft (2-4), a fixed outer frame (2-5), a lower side sliding cavity (2-6), a right side sliding frame (2-7), an inner end hollow cavity (2-8), a fixed outer frame body (2-9), an inner end hollow groove (2-10), a right end rotating groove (2-11), a T-shaped sliding rod (2-12), a T-shaped sliding rod outer side sleeve spring (2-13), a trapezoidal slider (2-14), a T-shaped sliding rod inner side sleeve spring (2-15), two inner end rectangular communication holes (2-16), a fixed outer frame inner cavity (2-17), a rotating main shaft main body (2-18), a main shaft rectangular sliding cavity (2-19), A main shaft groove (2-20), a main shaft rectangular sliding chute (2-21), a V-shaped rod (2-22), a V-shaped rod boss (2-23), a V-shaped rod hinge rod (2-24), a T-shaped sliding rod (2-25), a T-shaped sliding rod outer sleeve spring (2-26), a T-shaped sliding rod inner push spring (2-27) and a sludge discharge port (2-28), wherein a lower side sliding cavity (2-6) is arranged at the left side of the inner end of a separating device outer frame (2-1), a right side sliding frame (2-7) is fixedly connected at the right side of the inner end of the separating device outer frame (2-1), an inner end hollow cavity (2-8) is arranged at the inner end of the separating device outer frame (2-1), a separating push spring I (2-2) and a separating push spring II (2-3) are both arranged in the lower side sliding cavity (2-6), the left end of a rotating main shaft (2-4) is connected in a lower side sliding cavity (2-6) in a sliding manner, an inner end hollow groove (2-10) is arranged on the left side of the inner end of a fixed outer frame body (2-9), a right end rotating groove (2-11) is arranged on the right side of the inner end of the fixed outer frame body (2-9), the inner end hollow groove (2-10) is connected with a right side sliding frame (2-7) in a rotating manner, a T-shaped sliding rod (2-12) is fixedly connected with the fixed outer frame body (2-9), a T-shaped sliding rod outer side sleeve spring (2-13) is sleeved at the outer end of the T-shaped sliding rod (2-12), a trapezoidal slider (2-14) is connected with the T-shaped sliding rod (2-12) in a sliding manner, the trapezoidal slider (2-14) is connected with the inner wall of the fixed outer frame body (2-9) in a clearance fit manner, a T-shaped sliding rod inner side sleeve spring (2-15) is sleeved at the inner end of the T-shaped sliding rod (2-12), two inner end rectangular communication holes (2-16) are communicated with an inner cavity (2-17) of a fixed outer frame, a right end rotary groove (2-11) is fixedly connected in a main shaft groove (2-20) through a sleeve, a plurality of main shaft rectangular sliding cavities (2-19) are arranged on a main rotating shaft main body (2-18), a plurality of main shaft rectangular sliding grooves (2-21) are arranged on the main rotating shaft main body (2-18), a V-shaped rod boss (2-23) is fixedly connected on a V-shaped rod (2-22), the V-shaped rod boss (2-23) is connected with the main shaft rectangular sliding cavities (2-19) in a sliding manner, a T-shaped sliding rod inner push spring (2-27) is arranged at the inner end of the main shaft rectangular sliding grooves (2-21), t-shaped slide bars (2-25) are slidably connected at the inner ends of rectangular chutes (2-21) of the main shaft, T-shaped slide bar outer sleeve springs (2-26) are sleeved on the T-shaped slide bars (2-25), two V-shaped rod hinge rods (2-24) are arranged, the lower ends of the two V-shaped rod hinge rods (2-24) are respectively and hingedly connected at the left end and the right end of the V-shaped rod hinge rods (2-24), the upper ends of the two V-shaped rod hinge rods (2-24) are respectively and slidably connected at the left end and the right end of the V-shaped rods (2-22), and a bearing device outer frame (1-1) is fixedly connected at the upper end of a separating device outer frame (2-1);

the speed adjusting device (3) comprises a speed outer frame (3-1), an input motor (3-2), input bevel teeth (3-3), transmission bevel teeth (3-4), a height terminal (3-5), a roller rotating shaft (3-6), transmission rollers (3-7), a coupler (3-8), a rotating shaft rotating hole (3-9), a connecting rod (3-10), a threaded rod (3-11), a sliding sleeve (3-12), a manual rotating rod (3-13), a transmission main rod (3-14), a driving roller (3-15), a driving roller shaft sleeve (3-16), a bearing slider (3-17) and a main rod sliding groove (3-18), wherein the input motor (3-2) is fixedly connected to the upper end of the speed outer frame (3-1) through a rack, the input bevel gear (3-3) is fixedly connected to an output shaft of an input motor (3-2), the input bevel gear (3-3) is in meshing transmission with the transmission bevel gear (3-4), the transmission bevel gear (3-4) is fixedly connected with a roller rotating shaft (3-6), a height terminal (3-5) is fixedly connected to the upper end of the inner wall of the speed outer frame (3-1), a transmission roller (3-7) is fixedly connected with the roller rotating shaft (3-6), a rotating shaft rotating hole (3-9) is arranged at the left end of the inner wall of the speed outer frame (3-1), a connecting rod (3-10) is hinged with a sliding sleeve (3-12), the sliding sleeve (3-12) is connected with a threaded rod (3-11) through threads, the left end and the right end of the threaded rod (3-11) are respectively and rotatably connected to the left end and the right end of the inner wall of the speed outer frame (3-1), the manual rotating rod (3-13) is fixedly connected at the right end of the threaded rod (3-11), the right end of the transmission main rod (3-14) is rotatably connected on the speed outer frame (3-1), the driving roller (3-15) is in interference fit connection with the outer ring of the driving roller shaft sleeve (3-16), the inner ring of the driving roller shaft sleeve (3-16) is in interference fit connection with the bearing slider (3-17), the bearing slider (3-17) is in sliding connection with the main rod sliding groove (3-18), the main rod sliding groove (3-18) is arranged on the transmission main rod (3-14), the coupler (3-8) is fixedly connected at the left end of the transmission main rod (3-14), the speed outer frame (3-1) is fixedly connected at the right end of the fixed outer frame body (2-9), the right end of the rotating main shaft body (2-18) is in clearance fit connection with the rotating shaft rotating hole (3-9), the right ends of the main rotating shaft bodies (2-18) are fixedly connected to the shaft couplers (3-8), the upper ends of the connecting rods (3-10) are connected to the right ends of the bearing sliders (3-17) in a clearance fit mode, and the driving rollers (3-15) are in meshing transmission with the transmission rollers (3-7);

the chassis (4) comprises a chassis outer frame (4-1), two chassis supports (4-2), a plurality of chassis hinged rods (4-3), a plurality of chassis push springs (4-4), a speed adjusting device rotating frame (4-5), a cleaning slide rod boss (4-6), a cleaning slide rod (4-7), a cleaning slide rod push spring (4-8), a cleaning slider (4-9), a slider hinged rod (4-10), a slide rod slider (4-11), a mud discharge communication hole (4-12), a water discharge communication hole (4-13), two U-shaped sliding grooves (4-14), a bearing outer frame (4-15), two side wall clamps (4-16), two clamp push springs (4-17), two side wall closing rods (4-18), two closing grooves (4-19), An upper side push spring (4-20), a lower side push spring (4-21), a plurality of U-shaped clamping grooves I (4-22), a hollow-out cavity I (4-23), a hollow-out cavity II (4-24), a plurality of U-shaped clamping grooves II (4-25), an underframe T-shaped sliding rod (4-26) and two hinged sliding rods (4-27), wherein two underframe brackets (4-2) are respectively and fixedly connected with an underframe outer frame (4-1), a plurality of underframe hinged rods (4-3) are respectively and slidably hinged with the underframe outer frame (4-1), a plurality of underframe push springs (4-4) are respectively arranged in the underframe hinged rods (4-3), a speed adjusting device rotating frame (4-5) is fixedly connected on a cleaning sliding rod boss (4-6), a cleaning sliding rod (4-7) is arranged on the cleaning sliding rod boss (4-6), a cleaning slide bar push spring (4-8) is sleeved on a cleaning slide bar (4-7), a cleaning slider (4-9) is connected to the upper end of a cleaning slide bar boss (4-6) in a sliding manner, a slider hinge rod (4-10) is hinged with the cleaning slider (4-9), the lower end of the slider hinge rod (4-10) is hinged with a slide bar slider (4-11), the slide bar slider (4-11) is connected with the cleaning slide bar (4-7) in a sliding manner, a sludge discharge communication hole (4-12) and a water discharge communication hole (4-13) are respectively arranged at the left end and the right end of an underframe outer frame (4-1), two U-shaped chutes (4-14) are respectively arranged on a bearing outer frame (4-15), two side wall clamps (4-16) are respectively connected in the two U-shaped chutes (4-14) in a sliding manner, two clip push springs (4-17) are respectively sleeved on two side wall clips (4-16), the two clip push springs (4-17) are respectively arranged in two U-shaped sliding grooves (4-14), two side wall closing rods (4-18) are respectively connected to the left end and the right end of an underframe outer frame (4-1) in a rotating mode, two closing grooves (4-19) are respectively arranged at the left end and the right end of the underframe outer frame (4-1), the two side wall closing rods (4-18) are respectively connected with the two closing grooves (4-19) in a clearance fit mode, underframe T-shaped sliding rods (4-26) are connected with a bearing outer frame (4-15) in a sliding mode, an upper side push spring (4-20) and a lower side push spring (4-21) are respectively arranged at the lower end of the bearing outer frame (4-15), and a plurality of U-shaped clamping grooves I (4-22), The hollow-out cavities I (4-23), the hollow-out cavities II (4-24) and the U-shaped clamping grooves II (4-25) are all arranged at the inner end of the chassis outer frame (4-1), the upper ends of the two hinged sliding rods (4-27) are respectively hinged with the two side wall clamps (4-16), the lower ends of the two hinged sliding rods (4-27) are respectively connected with the chassis T-shaped sliding rods (4-26) in a sliding manner, the fixed outer frame (2-5) is connected with the speed adjusting device rotating frame (4-5) in a clearance fit manner, the separating device outer frame (2-1) is fixedly connected at the upper end of the chassis outer frame (4-1), the two bearing outer frames (4-15) are arranged, the two bearing outer frames (4-15) are respectively connected in the hollow-out cavities I (4-23) and the hollow-out cavities II (4-24) in a sliding manner, the lower ends of the plurality of chassis hinge rods (4-3) are respectively hinged on the plurality of side wall closing rods (4-18).

2. The sludge-water separation device in sewage treatment according to claim 1, wherein: the upper side push spring (1-2), the sliding rod sleeve spring (1-5), the lower end push spring (1-7) and the buffer spring (1-16) are all in a compressed state, and the sliding rod push spring (1-14) and the tension spring (1-6) are all in a stretched state.

3. The sludge-water separation device in sewage treatment according to claim 1, wherein: the first separating push spring (2-2) and the second separating push spring (2-3) are both in a compressed state.