CN108423809B - Livestock-raising water treatment integrated equipment - Google Patents

Abstract

The invention discloses a livestock breeding water treatment integrated device which structurally comprises a water inlet pipeline, a shell, an inner partition wall, a control valve, a water temperature adjusting device and a flow guide wall, wherein the water inlet pipeline is arranged on the side surface of the shell, penetrates through the shell and is communicated with the interior of the shell, the inner partition wall is arranged in a U-shaped structure, the inner partition wall is fixedly arranged in the shell, the control valve is arranged on the left side of a front panel of the shell, the water temperature adjusting device is arranged in the shell, the flow guide wall is arranged in the shell and is arranged between the inner partition wall and the inner wall of the shell.

Description

Livestock-raising water treatment integrated equipment

Technical Field

The invention relates to livestock breeding water treatment integrated equipment, and belongs to the field of water treatment equipment.

Background

With the adjustment of economic structure of China, the livestock breeding in China has developed from traditional courtyard type breeding to intensive large-scale direction, and the livestock breeding develops rapidly, so that the serious problem of environmental pollution is brought, and the pollution problem of excrement, urine and washing wastewater generated by the livestock breeding is most serious;

the discharged water of the excrement, urine and wastewater contains veterinary drugs, heavy metal ions, high-concentration organic matters and the like, which become important factors restricting the development of livestock breeding industry in China, cause surface water and underground water to be polluted, and have great destructive effect on farmland crops; because the organic matter concentration is high, the breeding wastewater which is black, thick and stink is generated, and if the breeding wastewater can not be well treated, the living environment of offspring and descendants can be seriously damaged, so that an effective treatment scheme is found, and the breeding wastewater becomes a preoccupation for the development of the livestock breeding industry in China.

At present, the livestock-raising place is mostly in rural areas, keeps away from urban pipe networks, and livestock-raising waste water has organic pollutants such as COD, BOD, ammonia nitrogen of high concentration, and the change of drainage water volume quality is big, and the impact load is bigger, and traditional livestock-raising water treatment scheme has can't satisfy the cultivation cause demand of this day's rapid development, and different traditional scheme has different problems in the aspect of the difference:

the traditional livestock breeding wastewater treatment scheme does not comprise pretreatment, such as a grating, a grit chamber, a collecting tank and the like, the hydrolysis acidification tank is treated by adding aerobic activated sludge, the effluent treated by the scheme has good water quality, but the floor area is 15-20 square meters per ton of water, the number of treated structures is large, the water investment is generally 3000 plus materials per 5000 yuan per ton, the operation cost is 0.8-2.5 yuan per ton of water, the sludge amount is large, the management and maintenance are complex, and the cost is high;

the traditional anaerobic treatment and contact oxidation treatment has good effluent quality after treatment and good impact load resistance effect, because the amount of the sludge for anaerobic treatment is greatly reduced, but the occupied area is 15-20 square meters per ton of water, which is basically the same as that of the hydrolytic acidification and aerobic activated sludge treatment, although the anaerobic treatment needs longer retention time, the contact oxidation treatment is slightly shorter than that of the activated sludge treatment, so the occupied areas of the two are not much different, the water investment is generally about 3500 plus 6000 yuan per ton, the operation cost is also 0.8-2.5 yuan per ton of water, and the operation and management are complicated and troublesome;

the traditional anaerobic and biological stabilization pond has the advantages that the treated effluent has good quality, can resist impact load, has small investment per ton of water, is about 2000-3000 yuan/ton, has low operation cost, is about 0.5-2.5 yuan/ton of water, has small sludge amount, has the largest occupied area due to the biological stabilization pond, is generally 30-60 square meters per ton of water, is suitable for being used for modifying a waste pond in a rural area, and otherwise cannot be used, has poor sanitary conditions, and can be used for breeding mosquitoes and flies in the stabilization pond;

the traditional UASB and CASS processing manual rapid infiltration treatment has good effluent quality after treatment, can resist impact load, has small operation cost which is about 0.8-1.6 yuan per ton of water, but has large floor area which is about 15-25 sq.m per ton of water, complex operation management, needs to be matched with automatic equipment, has large investment and needs 4000 yuan per ton of water treatment and 5000 yuan per ton;

the effluent water treated by the traditional oxidation ditch method has good quality, can resist impact load, and has the operation cost of 0.8-2 yuan/ton water, but has larger floor area, generally 18-30 square meters/ton water, about 4000 and 5000 yuan/ton water investment, the effluent water quality is influenced by the change of air temperature, and the operation is more complex;

in some places, livestock breeding wastewater is discharged without being treated, the amount of the livestock breeding wastewater is increased year by year in China with large population and small land, the ecological environment requirement cannot be met by natural treatment in the nature, and a new livestock breeding wastewater treatment scheme is urgently needed to be found in the early days in the current situation of serious livestock breeding wastewater pollution, so that the problems existing in the current livestock breeding wastewater treatment scheme are solved, and the situation that livestock breeding wastewater is not treated in some places is turned.

When the livestock breeding water treatment integrated equipment in the prior art adopts an oxidation ditch method to treat water, the water temperature cannot be kept, so that the quality of effluent water is influenced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the livestock breeding water treatment integrated equipment to solve the problem that the water temperature cannot be kept when the livestock breeding water treatment integrated equipment adopts an oxidation ditch method to treat water, so that the quality of effluent water is influenced.

In order to achieve the purpose, the invention is realized by the following technical scheme: a livestock breeding water treatment integrated device structurally comprises a water inlet pipeline, a shell, an inner partition wall, a control valve, a water temperature adjusting device and a guide wall, wherein the water inlet pipeline is arranged on the side face of the shell, penetrates through the shell and is communicated with the interior of the shell, the inner partition wall is arranged in a U-shaped structure, the inner partition wall is fixedly arranged in the shell, the control valve is arranged on the left side of a front panel of the shell, the water temperature adjusting device is arranged in the shell, the guide wall is arranged in the shell, and the guide wall is arranged between the inner partition wall and the inner wall of the shell;

the water temperature adjusting device consists of an inner wall of the shell, an inner working cavity, an aerator, a cooling control device, a driving control device, a heating device, a motor rotating shaft, a motor fixing block, a motor, a first connecting wire, an inner wall extending fixing plate block, a distribution box and a water outlet pipeline;

the inner working cavity is a cavity enclosed by the inner wall of the shell, the number of the aerators is two, the two aerators are respectively arranged at two ends of the U-shaped inner partition wall, the cooling control device is mechanically matched with the drive control device, the cooling control device and the heating device are arranged at the bottom of the inner cavity of the shell in a bilateral symmetry structure, the drive control device is mechanically matched with a motor rotating shaft, the motor rotating shaft is electrically connected with a motor, the heating device is mechanically matched with the motor rotating shaft, the motor is arranged at the right lower corner of the inner cavity of the shell, the motor fixing block is arranged at one side of the motor far away from the inner wall of the shell, the motor fixing block is fixedly connected with the motor, an inner wall extending fixing plate block is arranged in the positive north direction of the motor, the inner wall extending fixing plate block is vertically welded with the inner wall of the shell, and a distribution box is fixedly arranged on the, the block terminal be connected with connecting wire electricity, the block terminal be connected with the motor electricity through connecting wire, outlet conduit install on shell back panel, outlet conduit run through the shell and communicate with each other with interior working chamber.

Furthermore, the cooling control device comprises a connecting pipe, a cooling liquid circulating pipe, a concave rod, a fixing block, a roller, a driving rod, a fixing plate, a U-shaped driving rod, a cooling liquid conveying pipeline, a convex rod, a fixing rod, a spring and a rectangular inner wall extending fixing block.

Furthermore, the cooling liquid circulating pipe is tightly attached to the inner side of the inner wall of the shell, the first connecting pipe connects the cooling liquid circulating pipe tightly attached to the inner side of the inner wall of the shell with the cooling liquid circulating pipe tightly attached to the inner partition wall, the cooling liquid conveying pipeline is communicated with the cooling liquid circulating pipe, a control valve is installed on the port of the cooling liquid conveying pipeline, two rectangular inner wall extending fixing blocks are arranged and are respectively arranged in a symmetrical structure, fixing blocks are arranged on the opposite sides of the two rectangular inner wall extending fixing blocks, two first driving rods are arranged, one ends of the two first driving rods are fixed on the fixing plate, the opposite sides of the other ends of the two first driving rods are respectively fixed on the two fixing blocks through a first spring, a concave rod and a convex rod are respectively arranged on the opposite sides of the two first driving rods, and the concave rod is matched with the convex rod, the U-shaped driving rod is arranged outside the two first driving rods, the two ends of the U-shaped driving rod are provided with idler wheels, the two idler wheels are mechanically connected with the two first driving rods, one side, away from the inner wall of the shell, of the U-shaped driving rod is provided with a fixing rod, the fixing rod and the U-shaped driving rod are welded into a whole, the fixing rod is mechanically connected with a drive control device, the fixing rod drives the U-shaped driving rod to do lifting motion under the action of the drive control device, when the fixing rod moves upwards, the idler wheels at the two ends of the U-shaped driving rod push the two first fixing rods to move towards one end connected with the first spring, so that the two first springs stretch, the concave rods and the convex rods are arranged on one side, opposite to the two first driving rods, and when the two first driving rods move towards each other, the concave rods push the ends of the two first fixing rods to move towards each other, The convex rod realizes the laminating, close coolant liquid pipeline, when a dead lever downstream, originally be in the shrink of two springs No. one of tensile state, and exert a power to two actuating levers No. one and make two actuating levers move mutually contrary, consequently, concave pole, the separation of convex rod, coolant liquid passes through coolant liquid pipeline and gets into in the coolant liquid circulating pipe, and enter into the coolant liquid circulating pipe that hugs closely with interior interlayer wall through a connecting pipe No. one, realize the reduction of temperature in the working chamber, make the temperature in the working chamber keep on the best production temperature.

Furthermore, the drive control device comprises a sliding block, a rectangular sliding cavity, a second drive rod, a second fixed rod, a third drive rod, a first rotary disc, a first rotary shaft, a first conical wheel, a second conical wheel and a first drive chip.

Furthermore, the sliding block is arranged in the rectangular sliding cavity, the sliding block is matched with the rectangular sliding cavity, one end of the second driving rod is mechanically connected with the third driving rod, the other end of the second driving rod is fixed on the sliding block, one end of the third driving rod, which is far away from the second driving rod, is fixed in the first rotating disc, the first rotating disc is provided with the second conical wheel, the second conical wheel is matched with the first rotating disc, two ends of the first rotating shaft are respectively and mechanically connected with the first conical wheel and the second conical wheel, the first conical wheel is arranged on one end, which is far away from the motor, of the motor rotating shaft, the motor rotating shaft is mechanically connected with the first rotating shaft through the first conical wheel, the first driving chip is arranged on the first rotating disc, the second fixing rod is arranged on one side, which is close to the first rotating disc, of the rectangular sliding cavity, and the first conical wheel changes the mechanical transmission direction of the motor rotating shaft, thereby make a pivot rotate to change the mechanical transmission direction of a pivot through No. two cone pulleys, No. one carousel rotates under No. two cone pulleys's effect, No. three actuating levers drive No. two actuating levers and rotate, and under No. two actuating levers's effect, the sliding block is middle-upper and lower slip in the rectangle sliding chamber, when the sliding block slides down in the rectangle sliding chamber, drive a dead lever downstream, realize the input of coolant liquid, thereby reduce the temperature of working chamber.

Furthermore, heating device by high temperature circulating pipe, No. two connecting pipes, heating ring, No. one inner wall extend fixed block, L type dead lever, rectangle chamber, movable frame, No. two carousels, No. two pivot, No. three cone pulleys, T type fixing base, a fixed axle, current conducting plate, rectangle fixed block, No. two connecting wire, No. four actuating levers, No. five actuating levers, No. four cone pulleys, No. five actuating levers, No. two inner wall extend fixed block and constitute.

Furthermore, the high-temperature circulating pipe is arranged on one side tightly attached to the outer wall of the shell, the high-temperature circulating pipe tightly attached to the outer wall of the shell is communicated with the high-temperature circulating pipe tightly attached to the inner partition wall through a second connecting pipe, more than ten heating rings are evenly distributed in the high-temperature circulating pipe, the conducting plate is connected with the heating rings and is electrically connected with a second connecting lead, one end of the second connecting lead is electrically connected with the distribution box, the other end of the second connecting lead penetrates through the rectangular fixing block and is fixed on the rectangular fixing block, the second inner wall extension fixing block is fixedly arranged on one side, far away from the inner wall of the shell, of the motor fixing block, the second inner wall extension fixing block is fixedly connected with a panel at the bottom of the shell, the T-shaped fixing seat is vertically connected with the second inner wall extension fixing block, the first fixing shaft penetrates through one end of the fifth driving, the T-shaped fixing seat is characterized in that one end, far away from the second inner wall extension fixing block, of the T-shaped fixing seat is fixedly provided with a second rotary table, the second rotary table is provided with a third conical wheel, two ends of a second rotary shaft are respectively and mechanically connected with the third conical wheel and the fourth conical wheel, the fourth conical wheel is installed on a motor rotary shaft, the second rotary table is provided with a driving chip, the second rotary table is provided with a fixed column, the fixed column and the second rotary table are integrally constructed, the fixed column is arranged in a movable frame, the middle of a fifth driving rod is fixed on the movable frame through a fixed shaft, the fifth driving rod is mechanically connected with the fourth driving rod through the fifth driving rod, the fourth driving rod penetrates through a rectangular cavity and is in sliding fit with the rectangular cavity, one end, far away from the fifth driving rod, of the fourth driving rod is fixedly connected with the rectangular fixing block, no. one the inner wall extend fixed block bottom and L type dead lever fixed connection, the one end and the rectangle chamber fixed connection of L type dead lever, under the effect of No. four cone pulleys, No. two pivot rotations change mechanical transmission direction through No. three cone pulleys, thereby make No. two turntables rotate, No. two turntables rotate and drive the fixed column and rotate, thereby the movable frame rotates along with it and drives No. five actuating levers and move thereupon, No. five actuating levers drive No. five actuating levers and No. four actuating lever motion, make No. four actuating levers slide and do elevating movement in the rectangle chamber, when No. four actuating lever upward movements, can promote rectangle fixed block upward movement, thereby make No. two connect the wire and be connected with the current conducting plate electricity, thereby produce the temperature in the heat improves the working chamber after the heating ring circular telegram.

Furthermore, the two ends of the L-shaped fixing rod are respectively fixedly connected with the first inner wall extension fixing block and the rectangular cavity, the first inner wall extension fixing block is fixed on the outer wall of one side, close to the driving device, of the high-temperature circulating pipe and is fixedly connected with the outer wall of the high-temperature circulating pipe, the position of the rectangular cavity can be fixed, and therefore the movement track of the fourth driving rod in the lifting process is fixed, and normal operation of equipment is guaranteed.

Advantageous effects

The water to be treated enters the shell from the water inlet pipeline, passes through the two aerators in sequence under the flow guiding action of the flow guiding wall, is subjected to temperature sensing and conduction when the shell is internally provided with the temperature sensing and conduction device, when the temperature in the working cavity is sensed to be overhigh, the control valve is opened and cooling liquid is injected from the control valve, electric energy in the distribution box is transmitted into the motor through the first connecting lead, the motor converts the electric energy into mechanical energy and outputs the mechanical energy through the rotating shaft of the motor, the rotating shaft of the motor rotates, the first conical wheel changes the mechanical transmission direction of the rotating shaft of the motor, so that the first rotating shaft rotates, the mechanical transmission direction of the first rotating shaft is changed through the second conical wheel, the first rotating disc rotates under the action of the second conical wheel, the third driving rod drives the second driving rod to rotate, and under the action of the second driving rod, the sliding block slides up and down in the rectangular sliding cavity, when the sliding block, the first fixed rod drives the U-shaped driving rod to do lifting motion, when the first fixed rod moves upwards, the rollers at two ends of the U-shaped driving rod push the ends of the two first fixed rods connected with the first springs to move towards each other, so that the two first springs are stretched, the opposite sides of the two first driving rods are respectively provided with the concave rod and the convex rod, when the two first driving rods move towards each other, the concave rod and the convex rod are jointed to close the cooling liquid conveying pipeline, when the first fixed rod moves downwards, the two first springs which are originally in a stretching state contract, and a force is applied to the two first driving rods to enable the two first driving rods to move oppositely, so that the concave rod and the convex rod are separated, the cooling liquid enters the cooling liquid circulating pipe through the cooling liquid conveying pipeline and enters the cooling liquid circulating pipe clung to the inner interlayer wall through the first connecting pipe, the temperature in the working cavity is reduced, so that the temperature in the working cavity is kept at the optimal production temperature, under the action of a fourth conical wheel, a second rotating shaft rotates and changes the mechanical transmission direction through a third conical wheel, so that a second rotating disc rotates, the second rotating disc rotates to drive a fixed column to rotate, a movable frame rotates along with the second rotating shaft to drive a fifth driving rod to move along with the fifth driving rod, the fifth driving rod drives the fifth driving rod and the fourth driving rod to move, so that the fourth driving rod slides in a rectangular cavity and performs lifting motion, when the fourth driving rod moves upwards, a rectangular fixed block can be pushed to move upwards, so that a second connecting lead is electrically connected with a conductive plate, and a heating ring generates heat after being electrified so as to improve the temperature in the working cavity. Therefore, the temperature in the working cavity is kept within a certain range, and the working efficiency and the working quality of the equipment are prevented from being influenced by the temperature.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of an integrated livestock breeding water treatment device according to the present invention;

FIG. 2 is a schematic structural view of an integrated livestock breeding water treatment device according to the present invention;

FIG. 3 is a schematic structural view of an integrated livestock breeding water treatment device according to the present invention;

fig. 4 is a schematic structural view of the livestock breeding water treatment integrated equipment.

Fig. 5 is a partial structural view of fig. 4.

In the figure: a water inlet pipeline-1, a shell-2, an inner interlayer wall-3, a control valve-4, a water temperature adjusting device-5, a guide wall-6, a shell inner wall-501, an inner working cavity-502, an aerator-503, a cooling control device-504, a driving control device-505, a heating device-506, a motor rotating shaft-507, a motor fixing block-508, a motor-509, a first connecting wire-510, an inner wall extension fixing block-511, a distribution box-512, a water outlet pipeline-513, a first connecting pipe-5041, a cooling liquid circulating pipe-5042, a concave rod-5043, a fixing block-5044, a roller-5045, a first driving rod-5046, a fixing plate-5047, a U-shaped driving rod-5048, a cooling liquid conveying pipeline-5049, a water temperature adjusting device-5, a guide wall-6, Convex rod-50410, first fixed rod-50411, first spring-50412, rectangular inner wall extension fixed block-50413, sliding block-5051, rectangular sliding cavity-5052, second driving rod-5053, second fixed rod-5054, third driving rod-5055, first rotary plate-5056, first rotating shaft-5057, first conical wheel-5058, second conical wheel-5059, first driving chip-50510, high-temperature circulating pipe-5061, second connecting pipe-5062, heating ring-5063, first inner wall extension fixed block-5064, L-shaped fixed rod-5065, rectangular cavity-5066, movable frame-5067, second rotary plate-5068, second rotating shaft-5069, third conical wheel-50610, T-shaped fixed seat-50611, first fixed shaft-50612, conductive plate-50613, T-shaped fixed block-50611, first fixed shaft-50612, conductive plate-50613, and second rotating shaft, A rectangular fixing block-50614, a second connecting lead-50615, a fourth driving rod-50616, a fifth driving rod-50617, a fourth cone wheel-50618, a fifth driving rod-50619 and a second inner wall extension fixing block-50620.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-5, the present invention provides an integrated water treatment apparatus for livestock breeding, which structurally comprises a water inlet pipe 1, a housing 2, an inner partition wall 3, a control valve 4, a water temperature adjusting device 5, and a guide wall 6, wherein the water inlet pipe 1 is installed on a side surface of the housing 2, the water inlet pipe 1 penetrates through the housing 2 and is communicated with the inside of the housing 2, the inner partition wall 3 is installed in a U-shaped structure, the inner partition wall 3 is fixedly installed in the housing 2, the control valve 4 is installed on a left side of a front panel of the housing 2, the water temperature adjusting device 5 is installed in the housing 2, the guide wall 6 is installed between the inner partition wall 3 and an inner wall of the housing 2, and the water temperature adjusting device 5 is composed of a housing inner wall 501, an inner working chamber 502, an aerator 503, a temperature reduction control device 504, a drive control device 505, and a water temperature adjusting device, The device comprises a heating device 506, a motor rotating shaft 507, a motor fixing block 508, a motor 509, a first connecting lead 510, an inner wall extending fixing plate 511, a distribution box 512 and a water outlet pipeline 513, wherein the inner working cavity 502 is a cavity surrounded by the inner wall 501 of the shell, two aerators 503 are arranged, the two aerators 503 are respectively arranged at two ends of the U-shaped inner partition wall 3, the cooling control device 504 is mechanically matched with a driving control device 505, the cooling control device 504 and the heating device 506 are arranged at the bottom of the inner cavity of the shell 2 in a left-right symmetrical structure, the driving control device 505 is mechanically matched with the motor rotating shaft 507, the motor rotating shaft 507 is electrically connected with the motor 509, the heating device 506 is mechanically matched with the motor rotating shaft 507, the motor 509 is arranged at the lower right corner of the inner cavity of the shell 2, the motor fixing block 508 is arranged on one side of the motor 509 far away from the inner wall of the shell 2, motor fixed block 508 and motor 509 fixed connection, motor 509 north and south on be equipped with the fixed plate 511 of inner wall extension, the inner wall extend fixed plate 511, with 2 inner wall vertical welding of shell, the fixed plate 511 of inner wall extension on fixedly be equipped with block terminal 512, block terminal 512 be connected with connecting wire 510 electricity, block terminal 512 be connected with motor 509 electricity through connecting wire 510, outlet conduit 513 install on 2 back panels of shell, outlet conduit 513 run through shell 2 and communicate with each other with interior working chamber 502, cooling controlling means 504 by a connecting pipe 5041, coolant liquid circulating pipe 5042, concave pole 5043, fixed block 5044, gyro wheel 5045, a driving rod 5046, fixed plate 5047, U type driving rod 5048, coolant liquid conveying pipe 5049, convex pole 50410, a fixed pole 50411, a spring 50412, A rectangular inner wall extension fixing block 50413, wherein the cooling liquid circulating pipe 5042 is tightly attached to the inner side of the inner wall of the shell 2, the first connecting pipe 5041 is used for tightly attaching the cooling liquid circulating pipe 5042 on the inner side of the inner wall of the shell 2 and the cooling liquid circulating pipe 5042 tightly attached to the inner partition wall 3, the cooling liquid conveying pipe 5049 is communicated with the cooling liquid circulating pipe 5042, a control valve 4 is installed at the port of the cooling liquid conveying pipe 5049, the rectangular inner wall extension fixing blocks 50413 are provided with two opposite fixing blocks 5044, the two opposite sides of the two rectangular inner wall extension fixing blocks 50413 are respectively provided with two fixing blocks 5044, the first driving rod 5046 is provided with two driving rods 5046, one end of each driving rod 5046 is fixed on the fixing plate 5047, the other opposite side of the other end of each driving rod 5046 is respectively fixed on the two fixing blocks 5044 through a first spring 50412, and one opposite side of each driving rod 5046 is respectively provided with a concave rod 50, The convex rod 50410, the concave rod 5043 is matched with the convex rod 50410, the U-shaped driving rod 5048 is arranged outside two first driving rods 5046, two ends of the U-shaped driving rod 5048 are respectively provided with a roller 5045, the two rollers 5045 are mechanically connected with the two first driving rods 5046, one side of the U-shaped driving rod 5048, which is far away from the inner wall of the shell 2, is provided with a first fixing rod 50411, the first fixing rod 50411 and the U-shaped driving rod 5048 are mechanically welded into an integral structure, the first fixing rod 50411 is mechanically connected with the driving control device 505, under the action of the driving control device 505, the first fixing rod 50411 drives the U-shaped driving rod 5048 to do lifting motion, when the first fixing rod 50411 moves upwards, the rollers 5045 at two ends of the U-shaped driving rod 5048 push one ends of the two first fixing rods 50411 and one end of the first spring 50412 to move towards each other, so that the two first springs 50412 stretch, the opposite sides of the two first driving rods 5046 are respectively provided with a concave rod 5043 and a convex rod 50410, when the two first driving rods 5046 move towards each other, the concave rod 5043 and the convex rod 50410 are attached to close a cooling liquid conveying pipeline 5049, when the first fixing rod 50411 moves downwards, the two first springs 50412 which are originally in a stretching state contract and apply a force to the two first driving rods 5046 to enable the two first driving rods 5046 to move oppositely, therefore, the concave rod 5043 and the convex rod 50410 are separated, cooling liquid enters the cooling liquid circulating pipeline 5042 through the cooling liquid conveying pipeline 5049 and enters the cooling liquid circulating pipeline 5042 which is attached to the inner interlayer wall 3 through a first connecting pipe 5041 to achieve the temperature reduction in the working cavity, so that the temperature in the working cavity is kept at the optimal production temperature, and the driving control device 505 of the sliding block comprises 5051, a rectangular sliding cavity 5052, a rectangular sliding cavity 50410, A second driving rod 5053, a second fixing rod 5054, a third driving rod 5055, a first rotating disc 5056, a first rotating shaft 5057, a first conical wheel 5058, a second conical wheel 5059 and a first driving chip 50510, wherein the sliding block 5051 is installed in a rectangular sliding cavity 5052, the sliding block 5051 is matched with the rectangular sliding cavity 5052, one end of the second driving rod 5053 is mechanically connected with the third driving rod 5055, the other end of the second driving rod 5053 is fixed on the sliding block 5051, one end of the third driving rod 5055 far away from the second driving rod 5053 is fixed in the first rotating disc 5056, the second conical wheel 5059 is installed on the first rotating disc 5056, the second conical wheel 5059 is matched with the first rotating disc 5056, two ends of the first rotating shaft 5057 are respectively mechanically connected with the first conical wheel 5058 and the second conical wheel 5059, the first conical wheel 5058 is installed on one end of the rotating shaft 507 far away from the motor 509, and the first rotating shaft 5057 is mechanically connected with the first conical wheel 5058, the first driving chip 50510 is mounted on the first rotary disc 5056, the second fixing rod 5054 is mounted on one side of the rectangular sliding cavity 5052, which is close to the first rotary disc 5056, the first conical wheel 5058 changes the mechanical transmission direction of the motor rotating shaft 507, so that the first rotating shaft 5057 rotates, the mechanical transmission direction of the first rotating shaft 5057 is changed through the second conical wheel 5059, the first rotary disc 5056 rotates under the action of the second conical wheel 5059, the third driving rod 5055 drives the second driving rod 5053 to rotate, the sliding block 5051 slides up and down in the rectangular sliding cavity 5052 under the action of the second driving rod 5053, when the first fixing rod 50411 slides down in the rectangular sliding cavity 5052, the first fixing rod 50411 moves down, so that the cooling liquid is input is achieved, the temperature of the working cavity is reduced, and the heating device is formed by a high-temperature circulating pipe 5061, a second connecting pipe 5062, a heating ring 5063 and a first inner wall extending fixing block 5064, An L-shaped fixed rod 5065, a rectangular cavity 5066, a movable frame 5067, a second rotating disc 5068, a second rotating shaft 5069, a third conical wheel 50610, a T-shaped fixed seat 50611, a first fixed shaft 50612, a conductive plate 50613, a rectangular fixed block 50614, a second connecting lead 50615, a fourth driving rod 50616, a fifth driving rod 50617, a fourth conical wheel 50618, a fifth driving rod 50619, and a second inner wall extending fixed block 50620, wherein the high temperature circulating tube 5061 is mounted on one side of the outer wall of the outer shell 2, the high temperature circulating tube 5061 tightly attached to the outer wall of the outer shell 2 is communicated with the high temperature circulating tube 5061 tightly attached to the inner wall of the distribution box layer 3 through a second connecting tube 5062, the heating ring 5063 is provided with more than ten high temperature circulating tubes 5061 and evenly distributed in the high temperature circulating tube 5063, the conductive plate 50613 is connected with the heating ring 5063 and electrically connected with the second connecting lead 50615, one end of the second connecting lead 50615 is electrically, the other end runs through rectangle fixed block 50614 and fixes on rectangle fixed block 50614, No. two inner wall extension fixed blocks 50620 fixed mounting be kept away from on one side of shell 2 inner wall at motor fixed block 508, No. two inner wall extension fixed blocks 50620 and shell 2 bottom panel fixed connection, No. two inner wall extension fixed blocks 50620 and No. two inner wall extension fixed blocks 50620 be connected perpendicularly, No. one fixed axle 50612 run through the one end of No. five driving lever 50619 and fix No. five driving lever 50619 on T type fixing base 50611, T type fixing base 50611 keep away from one end of No. two inner wall extension fixed blocks 50620 on fixed be equipped with No. two carousel 5068, No. two carousel 5068 on be equipped with No. three cone-shaped wheel 50610, No. two pivot 5069 both ends respectively with No. three cone-shaped wheel 50610, No. four cone-shaped wheel 50618 mechanical connection, No. four cone-shaped wheel 50618 install on motor pivot 507, No. two cone 5068 on be equipped with a drive chip, the second rotating disc 5068 is provided with a fixed column, the fixed column and the second rotating disc 5068 are arranged in an integrated structure, the fixed column is arranged in a movable frame 5067, the middle of a fifth driving rod 50619 is fixed on the movable frame 5067 through a fixed shaft, the fifth driving rod 50619 is mechanically connected with a fourth driving rod 50616 through a fifth driving rod 50617, the fourth driving rod 50616 penetrates through a rectangular cavity 5066 and is in sliding fit with the rectangular cavity 5066, one end of the fourth driving rod 50616, which is far away from the fifth driving rod 50617, is fixedly connected with a rectangular fixed block 50614, the bottom end of the first inner wall extension fixed block 5064 is fixedly connected with an L-shaped fixed rod 5065, one end of the L-shaped fixed rod 5065 is fixedly connected with the rectangular cavity 5066, under the action of a fourth conical wheel 50618, a second rotating shaft 5069 rotates and changes the mechanical transmission direction through a third conical wheel 50610, so that the second rotating disc 5068 rotates, the second rotating disc 5068 rotates to drive the fixed column to rotate, the movable frame 5067 rotates with the fixed column to drive the fifth driving rod 50619 to move, the fifth driving rod 50619 drives the fifth driving rod 50617 and the fourth driving rod 50616 to move, so that the fourth driving rod 50616 slides in the rectangular cavity 5066 and moves up and down, when the fourth driving rod 50616 moves up, the rectangular fixed block 50614 can be pushed to move up, so that the second connecting wire 50615 is electrically connected with the conductive plate 50613, the heating ring 5063 generates heat after being electrified so as to increase the temperature in the working cavity, two ends of the L-shaped fixed rod 5065 are fixedly connected with the first inner wall extending fixed block 5064 and the rectangular cavity 5066 respectively, the first inner wall extending fixed block 5064 is fixed on the outer wall of one side of the high-temperature circulating pipe 5061 close to the driving device 505 and is fixedly connected with the outer wall of the high-temperature circulating pipe 5061, so that the position of the rectangular cavity, therefore, the movement track of the driving rod 50616 in the lifting process is fixed, and the normal operation of the equipment is guaranteed.

The motor 507 of the present invention is a medium for converting electric energy into mechanical energy and outputting the mechanical energy, and is controlled by a forward and reverse rotation circuit.

Water to be treated enters the shell 2 from the water inlet pipeline 1, passes through the two aerators 503 in sequence under the flow guiding action of the flow guiding wall 6, when temperature sensing conduction is installed in the shell 2, when the temperature in the working cavity is sensed to be overhigh, the control valve 4 is opened and cooling liquid is injected from the control valve 4, electric energy in the distribution box is conveyed into the motor 509 through the first connecting lead 510, the motor 509 converts the electric energy into mechanical energy and outputs the mechanical energy through the motor rotating shaft 507, the motor rotating shaft 507 rotates, the first conical wheel 5058 changes the mechanical transmission direction of the motor rotating shaft 507, so that the first rotating shaft 5057 rotates, the second conical wheel 5059 changes the mechanical transmission direction of the first rotating shaft 5057, the first rotating disc 5056 rotates under the action of the second conical wheel 5059, the third driving rod 5055 drives the second driving rod 5053 to rotate, and under the action of the second driving rod 5053, the sliding block 5051 slides up and down in the rectangular sliding cavity 5052, when the sliding block 5051 slides downwards in the rectangular sliding cavity 5052, the first fixing rod 50411 drives the U-shaped driving rod 5048 to move up and down, when the first fixing rod 50411 moves upwards, the rollers 5045 at two ends of the U-shaped driving rod 5048 push one ends of the two first fixing rods 50411 connected with the first springs 50412 to move towards each other, so that the two first springs 50412 are stretched, the opposite sides of the two first driving rods 5046 are respectively provided with the concave rod 5043 and the convex rod 50410, when the two first driving rods 5046 move towards each other, the concave rod 5043 and the convex rod 50410 are attached to close the cooling liquid conveying pipeline 5049, when the first fixing rod 50411 moves downwards, the two first springs 50412 which are originally in a stretched state contract, and a force is applied to the two first driving rods 5046 to enable the two first driving rods 5046 to move oppositely, so that the concave rods 5043 and 50410 are separated, the cooling liquid enters the cooling liquid circulating pipe 5042 through the cooling liquid conveying pipeline 5049, and enters the coolant circulation pipe 5042 closely attached to the inner partition wall 3 through a connection pipe 5041, the temperature in the working cavity is reduced, so that the temperature in the working cavity is kept at the optimal production temperature, under the action of the fourth conical wheel 50618, the second rotating shaft 5069 rotates and changes the mechanical transmission direction through the third conical wheel 50610, so that the second rotating disc 5068 rotates, the second rotating disc 5068 rotates to drive the fixed column to rotate, the movable frame 5067 rotates to drive the fifth driving rod 50619 to move, the fifth driving rod 50619 drives the fifth driving rod 50617 and the fourth driving rod 50616 to move, so that the drive rod No. four 50616 slides in the rectangular cavity 5066 and moves up and down, when the driving rod 50616 moves upwards, the rectangular fixing block 50614 can be pushed to move upwards, thereby electrically connecting the connection lead 50615 to the conductive plate 50613 and the heating ring 5063 generates heat when energized to raise the temperature in the working chamber.

The invention solves the problem that when the livestock breeding water treatment integrated equipment adopts an oxidation ditch method to treat water, the water temperature cannot be kept, so that the water quality of outlet water is influenced.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A livestock breeding water treatment integrated device structurally comprises a water inlet pipeline (1), a shell (2), an inner partition wall (3), a control valve (4), a water temperature adjusting device (5) and a flow guide wall (6), wherein the water inlet pipeline (1) is installed on the side face of the shell (2), the water inlet pipeline (1) penetrates through the shell (2) and is communicated with the inside of the shell (2), the inner partition wall (3) is installed in a U-shaped structure, the inner partition wall (3) is fixedly installed in the shell (2), the control valve (4) is arranged on the left side of a front panel of the shell (2), the water temperature adjusting device (5) is installed in the shell (2), the flow guide wall (6) is installed in the shell (2), and the flow guide wall (6) is arranged between the inner partition wall (3) and the inner wall of the shell (2), the method is characterized in that:

the water temperature adjusting device (5) consists of a shell inner wall (501), an inner working cavity (502), an aerator (503), a cooling control device (504), a driving control device (505), a heating device (506), a motor rotating shaft (507), a motor fixing block (508), a motor (509), a first connecting wire (510), an inner wall extending fixing plate block (511), a distribution box (512) and a water outlet pipeline (513);

the inner working cavity (502) is a cavity surrounded by an inner wall (501) of the shell, two aerators (503) are arranged, the two aerators (503) are respectively arranged at two ends of the U-shaped inner interlayer wall (3), the cooling control device (504) is mechanically matched with the drive control device (505), the cooling control device (504) and the heating device (506) are arranged at the bottom of the inner cavity of the shell (2) in a bilateral symmetry structure, the drive control device (505) is mechanically matched with the motor rotating shaft (507), the motor rotating shaft (507) is electrically connected with the motor (509), the heating device (506) is mechanically matched with the motor rotating shaft (507), the motor (509) is arranged at the right lower corner of the inner cavity of the shell (2), the motor fixing block (508) is arranged at one side of the motor (509) far away from the inner wall of the shell (2), motor fixed block (508) and motor (509) fixed connection, motor (509) the north direction on be equipped with inner wall extension fixed plate (511), with shell (2) inner wall vertical welding, inner wall extension fixed plate (511) on fixed block (512) that is equipped with, block terminal (512) be connected with connecting wire (510) electricity, block terminal (512) be connected with motor (509) electricity through connecting wire (510), outlet conduit (513) install on shell (2) back panel, outlet conduit (513) run through shell (2) and interior working chamber (502) communicate with each other.

2. The livestock breeding water treatment integrated equipment of claim 1, wherein: the cooling control device (504) comprises a first connecting pipe (5041), a cooling liquid circulating pipe (5042), a concave rod (5043), a fixing block (5044), a roller (5045), a first driving rod (5046), a fixing plate (5047), a U-shaped driving rod (5048), a cooling liquid conveying pipeline (5049), a convex rod (50410), a first fixing rod (50411), a first spring (50412) and a rectangular inner wall extending fixing block (50413).

3. The livestock breeding water treatment integrated equipment of claim 2, wherein: the cooling liquid circulating pipe (5042) is tightly attached to the inner side of the inner wall of the shell (2), the first connecting pipe (5041) connects the cooling liquid circulating pipe (5042) tightly attached to the inner side of the inner wall of the shell (2) with the cooling liquid circulating pipe (5042) tightly attached to the inner interlayer wall (3), the cooling liquid conveying pipeline (5049) is communicated with the cooling liquid circulating pipe (5042), a control valve (4) is installed on the port of the cooling liquid conveying pipeline (5049), two rectangular inner wall extending fixing blocks (50413) are arranged and are respectively arranged in a symmetrical structure, fixing blocks (5044) are arranged on the opposite sides of the two rectangular inner wall extending fixing blocks (50413), two driving rods (5046) are arranged, one ends of the two first driving rods (5046) are fixed on a fixing plate (5047), and the opposite sides of the other ends of the two first driving rods (5046) are respectively fixed on the two fixing blocks (5044) through a first spring (50412), two relative one sides of a actuating lever (5046) on be equipped with concave type pole (5043), convex pole (50410) respectively, concave type pole (5043) cooperate with convex pole (50410), U type actuating lever (5048) locate two actuating levers (5046) outsides, U type actuating lever (5048) both ends on all install gyro wheel (5045), two gyro wheels (5045) and two actuating lever (5046) mechanical connection, U type actuating lever (5048) keep away from and be equipped with No. one fixed rod (50411) on one side of shell (2) inner wall, fixed rod (50411) and U type actuating lever (5048) mechanical welding structure as an organic whole, a fixed rod (50411) and drive control device (505) mechanical connection.

4. The livestock breeding water treatment integrated equipment of claim 1, wherein: the drive control device (505) comprises a sliding block (5051), a rectangular sliding cavity (5052), a second drive rod (5053), a second fixed rod (5054), a third drive rod (5055), a first rotating disc (5056), a first rotating shaft (5057), a first conical wheel (5058), a second conical wheel (5059) and a first drive chip (50510).

5. The livestock breeding water treatment integrated equipment of claim 4, wherein: the sliding block (5051) is installed in a rectangular sliding cavity (5052), the sliding block (5051) is matched with the rectangular sliding cavity (5052), one end of a second driving rod (5053) is mechanically connected with a third driving rod (5055), the other end of the second driving rod (5053) is fixed on the sliding block (5051), one end, far away from the second driving rod (5053), of the third driving rod (5055) is fixed in a first rotating disc (5056), a second conical wheel (5059) is installed on the first rotating disc (5056), the second conical wheel (5059) is matched with the first rotating disc (5056), two ends of the first rotating shaft (5057) are respectively and mechanically connected with the first conical wheel (5058) and the second conical wheel (5059), the first conical wheel (5058) is installed at one end, far away from a motor (509), of the motor rotating shaft (507) and the first rotating shaft (5057) are mechanically connected through the first conical wheel (5058), the first drive chip (50510) is mounted on the first rotary disc (5056), and the second fixing rod (5054) is mounted on one side of the rectangular sliding cavity (5052) close to the first rotary disc (5056).

6. The livestock breeding water treatment integrated equipment of claim 1, wherein: heating device (506) by high temperature circulating pipe (5061), No. two connecting pipes (5062), heating ring (5063), No. one inner wall extension fixed block (5064), L type dead lever (5065), rectangular chamber (5066), movable frame (5067), No. two carousel (5068), No. two pivot (5069), No. three cone pulley (50610), T type fixing base (50611), No. one fixed axle (50612), conductive plate (50613), rectangle fixed block (50614), No. two connecting wire (50615), No. four actuating lever (50616), No. five actuating lever (50617), No. four cone pulley (50618), No. five actuating lever (50619), No. two inner wall extension fixed block (50620) constitute.

7. The livestock breeding water treatment integrated equipment of claim 6, wherein: the high-temperature circulating pipe (5061) is installed on one side tightly attached to the outer wall of the shell (2), the high-temperature circulating pipe (5061) tightly attached to the outer wall of the shell (2) is communicated with the high-temperature circulating pipe (5061) tightly attached to the inner interlayer wall (3) through a second connecting pipe (5062), the heating ring (5063) is provided with more than ten high-temperature circulating pipes and is evenly distributed in the high-temperature circulating pipe (5061), the conducting plate (50613) is connected with the heating ring (5063) and is electrically connected with a second connecting lead (50615), one end of the second connecting lead (50615) is electrically connected with the distribution box (512), the other end of the second connecting lead penetrates through the rectangular fixing block (50614) and is fixed on the rectangular fixing block (50614), the second inner wall extension fixing block (50620) is fixedly installed on one side, far away from the inner wall of the shell (2), and the second inner wall extension fixing block (50620) is fixedly connected with a panel at the bottom of the shell (2), the T-shaped fixing seat (50611) is vertically connected with a second inner wall extending fixing block (50620), a first fixing shaft (50612) penetrates through one end of a fifth driving rod (50619) and fixes the fifth driving rod (50619) on the T-shaped fixing seat (50611), one end, far away from the second inner wall extending fixing block (50620), of the T-shaped fixing seat (50611) is fixedly provided with a second rotating disc (5068), the second rotating disc (5068) is provided with a third conical wheel (50610), two ends of a second rotating shaft (5069) are respectively and mechanically connected with the third conical wheel (50610) and a fourth conical wheel (50618), the fourth conical wheel (50618) is installed on a motor rotating shaft (507), the second rotating disc (5068) is provided with a driving chip, the second rotating disc (5068) is provided with a fixing column, and the fixing column and the second rotating disc (5068) are in an integrated structure, the fixed column locate in activity frame (5067), fix on activity frame (5067) through a fixed axle in the middle of the No. five actuating lever (50619), No. five actuating lever (50619) through No. five actuating lever (50617) and No. four actuating lever (50616) mechanical connection, No. four actuating lever (50616) run through rectangular cavity (5066) and with rectangular cavity (5066) sliding fit, No. four actuating lever (50616) keep away from the one end and the fixed block of rectangle (50614) fixed connection of No. five actuating lever (50617), an inner wall extend fixed block (5064) bottom and L type dead lever (5065) fixed connection, the one end and the rectangular cavity (5066) fixed connection of L type dead lever (5065).

8. The livestock breeding water treatment integrated equipment of claim 7, wherein: the both ends of L type dead lever (5065) respectively with an inner wall extend fixed block (5064), rectangle chamber (5066) fixed connection, an inner wall extend fixed block (5064) fix on high temperature circulating pipe (5061) be close to drive arrangement (505) one side outer wall and with the outer wall fixed connection of high temperature circulating pipe (5061).

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