CN108423809A - 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

A kind of livestock-raising water process integrated equipment

Technical field

The present invention is a kind of livestock-raising water process integrated equipment, belongs to field of water treatment equipment.

Background technology

With the adjustment of China's economic structure, China's livestock-raising was cultivated from traditional courtyard-style to intensive scale already Change direction to develop, since livestock-raising development is swift and violent, brings serious problem of environmental pollution, excrement that livestock-raising generates, Urine and flushing waste water pollution problem the most seriously protrude；

Contain veterinary drug, heavy metal ion and high-enriched organics etc. in the draining of these excrement, urine and waste water, it has also become An important factor for restricting the development of China's livestock breeding industry, has resulted in surface water, underground water is got dirty, and has to farmland crops very big Destruction；Because of its organic concentration height, generation sludge is more, the breeding wastewater of pitch-black thick stench, if cannot be well It is administered, it will therefore the serious living environment for destroying descendants finds effective processing scheme, it has also become in The task of top priority of state's livestock-raising career development.

Currently, livestock-raising place is most of in rural area, far from urban pipe network, livestock-raising waste water has high concentration The organic pollutions such as COD, BOD, ammonia nitrogen, draining water change of water quality is big, and impact load is bigger, traditional livestock-raising water process Scheme can no longer meet the cultivation cause demand of fast development today, and there is not in terms of different for different traditional schemes Same problem：

Traditional livestock-raising wastewater treatment scheme does not include pretreatment, such as grid, setting pot, collecting-tank, hydrolysis acid Changing pond adds aerobic activated sludge to handle, and treated that effluent quality is good for the program, but exist take up a large area 15-20 square metres/ Ton water, processing structures are more, and generally 3000-5000 yuan/ton of water investment, operating cost is in 0.8-2.5 yuan/ton of water, sludge quantity Larger, management service is complicated, of high cost；

Oxidation processes are touched in traditional anaerobism adjunction, and effluent quality is preferable after processing, and anti impulsion load effect is good, detests due to having Oxygen processing sludge quantity is greatly reduced, but is existed and taken up a large area 15-20 square metres/ton of water, is substantially added with hydrolysis acidification aerobic Active sludge treatment is identical, although anaerobism needs longer residence times, the catalytic oxidation specific activity Treatment of Sludge time is slightly shorter, therefore The two floor space is not much different, water is invested generally at 3500-6000 yuan/ton or so, and operating cost is also at 0.8-2.5 yuan/ton Water, operational administrative complexity trouble；

Traditional anaerobism adds biological stabilization pond to handle, and effluent quality is good after processing, can anti impulsion load, ton water investment compared with Small, about between 2000-3000 yuan/ton, operating cost is low, and probably in 0.5-2.5 yuan/ton of water, sludge quantity is smaller, but due to There is biological stabilization pond, floor space is maximum, generally in 30-60 square metres/ton of water, has discarded pond transformation to make suitable for rural area With otherwise can not using, sanitary condition is very poor, and stabilization pond grows mosquitos and flies etc.；

Traditional UASB adds CASS that manpower rapid-infiltration is added to handle, and effluent quality is good after processing, can anti impulsion load, operating cost It is smaller, about in 0.8-1.6 yuan/ton of water, but exist and take up a large area, probably in 15-25 square metres/ton of water, operational administrative is multiple It is miscellaneous, it needs to coordinate automation equipment, investment is big, and water process needs 4000-5000 yuan/ton；

Traditional oxidation ditch process processing, effluent quality is preferable after processing, can be with anti impulsion load, and operating cost is in 0.8-2 Yuan/ton water, but that there are floor spaces is bigger, and generally in 18-30 square metres/ton of water, investment is about 4000-5000 yuan/ton Water, effluent quality can be influenced by temperature change, and operation operation is more complicated；

Also some places have just been discharged there are livestock-raising waste water is unprocessed, the China few in face of soil of having a large population, Breeding wastewater amount increases year by year, handles the demand that much can not meet ecological environment naturally by nature, faces getting worse The serious present situation of livestock-raising contaminated wastewater, there is an urgent need to find a kind of new livestock-raising wastewater treatment scheme early, with Change current livestock-raising wastewater treatment scheme there are the problem of, reverse some place also livestock-raising waste water is not handled Situation.

When prior art livestock-raising water process integrated equipment is using oxidation ditch process processing water, water temperature cannot be kept, to Influence effluent quality.

Invention content

In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of livestock-raising water process integrated equipment, with When solving livestock-raising water process integrated equipment using oxidation ditch process processing water, water temperature cannot be kept, to influence effluent quality The problem of.

To achieve the goals above, the present invention is to realize by the following technical solutions：A kind of livestock-raising water process Integrated equipment, structure include water inlet line, shell, internal portioning layer wall, control valve, water temperature regulation device, training wall, described Water inlet line be mounted on shell side, the water inlet line through shell and with communicated in shell, the internal portioning layer wall be in U The installing of type structure is vertical, and the internal portioning layer wall is fixedly mounted in the shell, and it is left that the control valve is set to outer casing frontispiece panel Side, the water temperature regulation device are installed inside the shell, and the training wall is installed inside the shell, and the training wall is set to interior Between interlayer wall and outer casing inner wall；

The water temperature regulation device is filled by outer casing inner wall, interior working chamber, aerator, cooling control device, drive control It sets, heating device, machine shaft, motor fixed block, motor, No.1 connecting wire, inner wall extend fixed plate, distribution box, go out Waterpipe forms；

The interior working chamber is the cavity surrounded by outer casing inner wall, there are two the aerator is set, described two Aerator is separately mounted on the both ends of U-shaped internal portioning layer wall, the cooling control device and drive dynamic control device mechanical engagement, The cooling control device is mounted on bottom of shell inner cavity, drive control dress with the symmetrical structure of heating device It sets and is electrically connected with motor with machine shaft mechanical engagement, the machine shaft, the heating device and machine shaft machinery Cooperation, the motor are mounted at the shell inner cavity lower right corner, and the motor fixed block is set to motor far from outer casing inner wall On side, the motor fixed block is fixedly connected with motor, and the motor direct north is equipped with inner wall and extends fixed plate Block, the inner wall extend fixed plate and outer casing inner wall vertical welding, and the inner wall extends to be fixed on fixed plate Distribution box, the distribution box are electrically connected with No.1 connecting wire, and the distribution box passes through No.1 connecting wire and motor electricity Connection, the outlet conduit are mounted on shell rear surface panel, and the outlet conduit is communicated through shell with interior working chamber.

Further, the cooling control device is by No.1 connecting tube, coolant liquid circulation pipe, concave bar, fixed block, rolling Wheel, No.1 drive rod, fixed plate, U-shaped drive rod, coolant delivery pipeline, convex bar, No.1 fixed link, No.1 spring, rectangle Inner wall extends fixed block composition.

Further, on the coolant liquid circulation pipe is tightly attached on the inside of outer casing inner wall, the No.1 connecting tube will be tight The coolant liquid circulation pipe being attached on the inside of outer casing inner wall and the coolant liquid circulation pipe being close to internal portioning layer wall are connected, described Coolant delivery pipeline is communicated with coolant liquid circulation pipe, is equipped with control valve on the coolant delivery pipeline port, institute The rectangle inner wall stated extends fixed block and sets there are two and set up respectively in symmetrical structure, and described two rectangle inner walls extend solid Determine to be equipped with fixed block on the opposite side of block, there are two the No.1 drive rod is set, described two No.1 drive rods One end is fixed in fixed plate, and the side that the other end is runed counter to is separately fixed at by No.1 spring on two fixed blocks, described Concave bar, convex bar are respectively equipped on the opposite side of two No.1 drive rods, the concave bar is matched with convex bar, institute The U-shaped drive rod stated is set on the outside of two No.1 drive rods, and idler wheel is mounted on the U-shaped drive rod both ends, described Two idler wheels and two No.1 drive rods are mechanically connected, and the side of the U-shaped drive rod far from outer casing inner wall is equipped with No.1 Fixed link, the No.1 fixed link are welded as integral structure with U-shaped drive rod machinery, and the No.1 fixed link is controlled with driving Device for mechanical connection processed, under the action of drive dynamic control device, No.1 fixed link drives U-shaped drive rod to move up and down, when one When number fixed link moves upwards, the idler wheel at U-shaped drive rod both ends pushes one that two No.1 fixed links are connected with No.1 spring End moves toward one another so that two No.1 spring elongations, two No.1 drive rods are respectively equipped with concave bar, convex on opposite side Bar, when two No.1 drive rods move toward one another, concave bar, convex bar realize fitting, coolant delivery pipeline are closed, when one When number fixed link moves downward, it is in two No.1 spring contractions of tensional state originally, and two No.1 drive rods are applied Add a power that two No.1 drive rods is made to run counter to movement, therefore, concave bar, convex bar detach, and coolant liquid is defeated by coolant liquid It send pipeline to enter in coolant liquid circulation pipe, and enters the coolant liquid circulation pipe being close to internal portioning layer wall by No.1 connecting tube In, realize the reduction of temperature in working chamber so that the temperature in working chamber is maintained in best production temperature.

Further, the drive dynamic control device by sliding shoe, rectangular slide chamber, No. two drive rods, No. two fixed links, No. three drive rods, No.1 turntable, No.1 shaft, No.1 taper cone pulley, No. two taper cone pulleies, No.1 driving chip composition.

Further, the sliding shoe is mounted on rectangular slide intracavitary, and the sliding shoe matches with rectangular slide chamber It closes, one end of described No. two drive rods is mechanically connected with No. three drive rods, and the other end is fixed on sliding shoe, described No. three The one end of drive rod far from No. two drive rods is fixed in No.1 turntable, and No. two taper cone pulleies, institute are housed on the No.1 turntable No. two taper cone pulleies stated are matched with No.1 turntable, the both ends of the No.1 shaft respectively with No.1 taper cone pulley, No. two tapers Wheel mechanical connect, the No.1 taper cone pulley be mounted on machine shaft on far from motor one end on, the machine shaft with No.1 shaft is mechanically connected by No.1 taper cone pulley, and the No.1 driving chip is mounted on No.1 turntable, described No. two Fixed link is mounted on rectangular slide chamber on the side of No.1 turntable, and No.1 taper cone pulley changes the machine driving side of machine shaft To, so that No.1 shaft rotates, and changes the machine driving direction of No.1 shaft by No. two taper cone pulleies, the cone at No. two No.1 turntable rotates under the action of shape wheel, and No. three drive rods drive No. two drive rod rotations, and under the action of No. two drive rods, Sliding shoe slides up and down in rectangular slide chamber, when sliding shoe slide downward in rectangular slide chamber, drives No.1 fixed link It moves downward, realizes the input of coolant liquid, to reduce the temperature of working chamber.

Further, the heating device is extended solid by high temperature circulation pipe, No. two connecting tubes, heating ring, No.1 inner wall Determine block, L-type fixed link, rectangular cavity, activity box, No. two turntables, No. two shafts, No. three taper cone pulleies, T-type fixed seat, No.1 to fix Axis, conductive plate, rectangle fixed block, No. two connecting wires, No. four drive rods, No. five drive rods, No. four taper cone pulleies, No. five drivings Bar, No. two inner walls extend fixed block composition.

Further, the high temperature circulation pipe is mounted on and is tightly attached on the side of outer shell outer wall, and described being tightly attached to is outer The high temperature circulation pipe of shell outer wall is communicated by No. two connecting tubes and the high temperature circulation pipe being close to internal portioning layer wall, the heating ring Equipped with ten or more and equal distribution in high temperature circulation pipe, the conductive plate is connected with heating ring and is connect with No. two Conducting wire is electrically connected, and one end of described No. two connecting wires is electrically connected with distribution box, and the other end runs through rectangle fixed block and fixation On rectangle fixed block, described No. two inner walls extend fixed block and are fixedly mounted on side of the motor fixed block far from outer casing inner wall On, described No. two inner walls extend fixed block and are fixedly connected with outer casing bottom panel, and the T-type fixed seat is prolonged with No. two inner walls Fixed block vertical connection is stretched, No. five drive rods through one end of No. five drive rods and are fixed on T-type by the No.1 fixing axle In fixed seat, the T-type fixed seat is fixed with No. two turntables on one end far from No. two inner walls extension fixed blocks, described No. two turntables are equipped with No. three taper cone pulleies, and described No. two shaft both ends connect with No. three taper cone pulleies, No. four taper wheel mechanicals respectively It connects, described No. four taper cone pulleies are mounted on machine shaft, and described No. two turntables are equipped with a driving chip, described No. two It is set on turntable there are one fixed column, the fixed column is set up with No. two turntables in integral structure, and the fixed column, which is set to, lives In dynamic frame, it is fixed on activity box by a fixing axle among described No. five drive rods, described No. five drive rods pass through No. five drive rods and No. four drive rods are mechanically connected, and described No. four drive rods are slidably matched through rectangular cavity and with rectangular cavity, Described one end of No. four drive rods far from No. five drive rods is fixedly connected with rectangle fixed block, and the No.1 inner wall extends solid Determine block bottom end to be fixedly connected with L-type fixed link, one end of the L-type fixed link is fixedly connected with rectangular cavity, in No. four tapers Under the action of wheel, No. two shaft rotations simultaneously change machine driving direction by No. three taper cone pulleies, so that No. two turntable rotations, No. two turntable rotations drive fixed column rotation, activity box to rotate therewith to drive No. five drive rods to move therewith, No. five drivings Bar affects No. five drive rods and No. four drive rod movements so that and No. four drive rods are slided and are moved up and down in rectangular cavity, When No. four drive rods move upwards, rectangle fixed block can be pushed to move upwards, so that No. two connecting wires and conduction Plate is electrically connected, and heating ring generates heat to improve the temperature in working chamber after being powered.

Further, the both ends of the L-type fixed link extend fixed block with No.1 inner wall respectively, rectangular cavity is fixed and connected It connects, No.1 inner wall extension fixed block is fixed on high temperature circulation pipe and is followed on the side outer wall of driving device and with high temperature The outer wall of endless tube is fixedly connected, and the position of rectangular cavity can be made to fix, so that it is guaranteed that No. four drive rods are during lifting Movement locus is fixed, and ensures the normal operation of equipment.

Advantageous effect

The pending water of the present invention is entered from water inlet line in shell, passes through two successively under the guide functions of training wall A aerator, when sensing in working chamber when the temperature is excessively high, opens control valve when being equipped with temperature sense conduction in shell And coolant liquid is injected from control valve, the electric energy in distribution box is transported to by No.1 connecting wire in motor, and motor is by electric energy It is converted into mechanical energy and is exported by machine shaft, machine shaft rotation, No.1 taper cone pulley changes the machine driving of machine shaft Direction, so that No.1 shaft rotates, and changes the machine driving direction of No.1 shaft by No. two taper cone pulleies, at No. two No.1 turntable rotates under the action of taper cone pulley, and No. three drive rods drive No. two drive rod rotations, and in the effect of No. two drive rods Under, sliding shoe slides up and down in rectangular slide chamber, when sliding shoe slide downward in rectangular slide chamber, No.1 fixed link band It moves U-shaped drive rod to move up and down, when No.1 fixed link moves upwards, the idler wheel at U-shaped drive rod both ends pushes two No.1s One end that fixed link is connected with No.1 spring moves toward one another so that two No.1 spring elongations, two No.1 drive rods are opposite Side on be respectively equipped with concave bar, convex bar, when two No.1 drive rods move toward one another, concave bar, convex bar realize patch It closes, coolant delivery pipeline is closed, when No.1 fixed link moves downward, be in two No.1 springs of tensional state originally It shrinks, and a power is applied to two No.1 drive rods, two No.1 drive rods is made to run counter to movement, it is therefore, concave bar, convex Shape bar detaches, and coolant liquid is entered by coolant delivery pipeline in coolant liquid circulation pipe, and is entered by No.1 connecting tube In the coolant liquid circulation pipe being close to internal portioning layer wall, the reduction of temperature in working chamber is realized so that the temperature in working chamber is kept In best production temperature, under the action of No. four taper cone pulleies, No. two shaft rotations simultaneously change machinery by No. three taper cone pulleies Transmission direction, so that No. two turntable rotations, No. two turntable rotations drive fixed column rotation, activity box to rotate therewith to band It moves No. five drive rods to move therewith, No. five drive rods affect No. five drive rods and No. four drive rod movements so that No. four drivings Bar is slided and is moved up and down in rectangular cavity, when No. four drive rods move upwards, rectangle fixed block can be pushed to transport upwards Dynamic, so that No. two connecting wires are electrically connected with conductive plate, heating ring generates heat to improve in working chamber after being powered Temperature, the present invention under cooling control device, drive dynamic control device, heating device collective effect by realizing to temperature in working chamber Adjusting so that temperature in working chamber keep the working efficiency for avoiding temperature to influence equipment in a certain range with And work quality.

Description of the drawings

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon：

Fig. 1 is a kind of structural schematic diagram of livestock-raising water process integrated equipment of the present invention；

Fig. 2 is a kind of structural schematic diagram of livestock-raising water process integrated equipment of the present invention；

Fig. 3 is a kind of structural schematic diagram of livestock-raising water process integrated equipment of the present invention；

Fig. 4 is a kind of structural schematic diagram of livestock-raising water process integrated equipment of the present invention.

Fig. 5 is the partial structural diagram of Fig. 4.

In figure：Water inlet line -1, shell -2, internal portioning layer wall -3, control valve -4, water temperature regulation device -5, training wall -6, Outer casing inner wall -501, interior working chamber -502, aerator -503, cooling control device -504, drive dynamic control device -505, heating dress It sets -506, machine shaft -507, motor fixed block -508, motor -509, No.1 connecting wire -510, inner wall and extends fixed plate Block -511, distribution box -512, outlet conduit -513, No.1 connecting tube -5041, coolant liquid circulation pipe -5042, concave bar -5043, Fixed block -5044, idler wheel -5045, No.1 drive rod -5046, fixed plate -5047, U-shaped drive rod -5048, coolant liquid delivery pipe Road -5049, convex bar -50410, No.1 fixed link -50411, No.1 spring -50412, rectangle inner wall extend fixed block - 50413, sliding shoe -5051, -5052, No. two drive rods -5053 of rectangular slide chamber, No. two fixed links -5054, No. three drive rods - 5055, No.1 turntable -5056, No.1 shaft -5057, -5058, No. two taper cone pulleies -5059 of No.1 taper cone pulley, No.1 drive core Piece -50510, -5061, No. two connecting tubes -5062 of high temperature circulation pipe, heating ring -5063, No.1 inner wall extend fixed block -5064, L-type fixed link -5065, rectangular cavity -5066, activity box -5067, No. two turntables -5068, No. two shafts -5069, No. three tapers Wheel -50610, T-type fixed seat -50611, No.1 fixing axle -50612, conductive plate -50613, rectangle fixed block -50614, two Connecting wire -50615, No. four drive rods -50616, No. five drive rods -50617, No. four taper cone pulleies -50618, No. five drive rods - 50619, No. two inner walls extend fixed block -50620.

Specific implementation mode

To make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, with reference to Specific implementation mode, the present invention is further explained.

- Fig. 5 is please referred to Fig.1, the present invention provides a kind of livestock-raising water process integrated equipment, and structure includes water inlet line 1, shell 2, internal portioning layer wall 3, control valve 4, water temperature regulation device 5, training wall 6, the water inlet line 1 are mounted on shell 2 Side, the water inlet line 1 through shell 2 and with communicated in shell 2, the 3 U-shaped structure of internal portioning layer wall installing is vertical, The internal portioning layer wall 3 is fixedly mounted in shell 2, and the control valve 4 is set on the left of 2 front panel of shell, described Water temperature regulation device 5 is mounted in shell 2, and the training wall 6 is mounted in shell 2, and the training wall 6 is set to internal portioning layer Between 2 inner wall of wall 3 and shell, the water temperature regulation device 5 is by outer casing inner wall 501, interior working chamber 502, aerator 503, drop Temperature control device 504, drive dynamic control device 505, heating device 506, machine shaft 507, motor fixed block 508, motor 509, No.1 connecting wire 510, inner wall extend fixed plate 511, distribution box 512, outlet conduit 513 and form, the interior working chamber 502 be the cavity surrounded by outer casing inner wall 501, and there are two the aerator 503 is set, described two aerators 503 are distinguished On the both ends of U-shaped internal portioning layer wall 3, the cooling control device 504 and 505 mechanical engagement of drive dynamic control device, institute The cooling control device 504 stated is mounted on 2 intracavity bottom of shell, the driving with 506 symmetrical structure of heating device Control device 505 and 507 mechanical engagement of machine shaft, the machine shaft 507 are electrically connected with motor 509, the heating Device 506 and 507 mechanical engagement of machine shaft, the motor 509 are mounted at the 2 inner cavity lower right corner of shell, the motor Fixed block 508 is set on side of the motor 509 far from 2 inner wall of shell, and the motor fixed block 508 is fixed with motor 509 to be connected Connect, 509 direct north of motor be equipped with inner wall extend fixed plate 511, the inner wall extend fixed plate 511, With 2 inner wall vertical welding of shell, the inner wall extends is fixed with distribution box 512, the distribution box on fixed plate 511 512 are electrically connected with No.1 connecting wire 510, and the distribution box 512 is electrically connected by No.1 connecting wire 510 with motor 509, The outlet conduit 513 is mounted in 2 back panel of shell, and the outlet conduit 513 is through shell 2 and interior working chamber 502 communicate, and the cooling control device 504 is by No.1 connecting tube 5041, coolant liquid circulation pipe 5042, concave bar 5043, solid Determine block 5044, idler wheel 5045, No.1 drive rod 5046, fixed plate 5047, U-shaped drive rod 5048, coolant delivery pipeline 5049, Convex bar 50410, No.1 fixed link 50411, No.1 spring 50412, rectangle inner wall extend fixed block 50413 and form, described Coolant liquid circulation pipe 5042 is tightly attached on 2 inner wall of shell, and the No.1 connecting tube 5041 will be tightly attached in 2 inner wall of shell Coolant liquid circulation pipe 5042 on side and the coolant liquid circulation pipe 5042 being close to internal portioning layer wall 3 are connected, the cooling Liquid conveyance conduit 5049 is communicated with coolant liquid circulation pipe 5042, and control is equipped on 5049 port of coolant delivery pipeline Valve 4, the rectangle inner wall extend fixed block 50413 and set there are two and set up respectively in symmetrical structure, described two Rectangle inner wall extends is equipped with fixed block 5044 on the opposite side of fixed block 50413, and the No.1 drive rod 5046 is equipped with Two, one end of described two No.1 drive rods 5046 is fixed in fixed plate 5047, and the side that the other end is runed counter to is by one Number spring 50412 is separately fixed on two fixed blocks 5044, on described two opposite sides of No.1 drive rod 5046 point Not She You concave bar 5043, convex bar 50410, the concave bar 5043 matches with convex bar 50410, the U-shaped drive Lever 5048 is set to two 5046 outsides of No.1 drive rod, and idler wheel 5045 is mounted on 5048 both ends of U-shaped drive rod, Two idler wheels 5045 and two No.1 drive rods 5046 are mechanically connected, and the U-shaped drive rod 5048 is far from shell 2 The side of wall is equipped with No.1 fixed link 50411, and the No.1 fixed link 50411 is welded as with 5048 machinery of U-shaped drive rod Integral structure, the No.1 fixed link 50411 is mechanically connected with drive dynamic control device 505, in the work of drive dynamic control device 505 Under, No.1 fixed link 50411 drives U-shaped drive rod 5048 to move up and down, when No.1 fixed link 50411 moves upwards, U The idler wheel 5045 at 5048 both ends of type drive rod pushes one end that two No.1 fixed links 50411 are connected with No.1 spring 50412 It moves toward one another so that two No.1 springs 50412 stretch, and two No.1 drive rods 5046 are respectively equipped with concave on opposite side Bar 5043, convex bar 50410, when two No.1 drive rods 5046 move toward one another, concave bar 5043, convex bar 50410 are realized Fitting, coolant delivery pipeline 5049 is closed, and when No.1 fixed link 50411 moves downward, is in tensional state originally Two No.1 springs 50412 are shunk, and are applied a power to two No.1 drive rods 5046 and made two No.1 drive rods 5046 run counter to movement, and therefore, concave bar 5043, convex bar 50410 detach, and coolant liquid is entered by coolant delivery pipeline 5049 In coolant liquid circulation pipe 5042, and the coolant liquid circulation pipe being close to internal portioning layer wall 3 is entered by No.1 connecting tube 5041 In 5042, the reduction of temperature in working chamber is realized so that the temperature in working chamber is maintained in best production temperature, described Drive dynamic control device 505 is by sliding shoe 5051, the fixed link 5054, three of drive rod 5053, two of rectangular slide chamber 5052, two Drive rod 5055, No.1 turntable 5056, No.1 shaft 5057,5058, No. two taper cone pulleies 5059 of No.1 taper cone pulley, No.1 drive core Piece 50510 forms, and the sliding shoe 5051 is mounted in rectangular slide chamber 5052, the sliding shoe 5051 and rectangular slide Chamber 5052 matches, and one end of described No. two drive rods 5053 is mechanically connected with No. three drive rods 5055, and the other end is fixed on On sliding shoe 5051, described No. three one end of drive rod 5055 far from No. two drive rods 5053 are fixed on No.1 turntable 5056 In, No. two taper cone pulleies 5059, described No. two taper cone pulleies 5059 and No.1 turntable 5056 are housed on the No.1 turntable 5056 It matches, the both ends of the No.1 shaft 5057 are mechanically connected with 5058, No. two taper cone pulleies 5059 of No.1 taper cone pulley respectively, institute The No.1 taper cone pulley 5058 stated is mounted on machine shaft 507 on one end far from motor 509, the machine shaft 507 with No.1 shaft 5057 is mechanically connected by No.1 taper cone pulley 5058, and the No.1 driving chip 50510 is mounted on No.1 turntable On 5056, described No. two fixed links 5054 are mounted on rectangular slide chamber 5052 on the side of No.1 turntable 5056, No.1 Taper cone pulley 5058 changes the machine driving direction of machine shaft 507, so that No.1 shaft 5057 rotates, and passes through No. two Taper cone pulley 5059 changes the machine driving direction of No.1 shaft 5057, the No.1 turntable 5056 under the action of No. two taper cone pulley 5059 Rotation, No. three drive rods 5055 drive No. two drive rods 5053 to rotate, and under the action of No. two drive rod 5053, sliding shoe 5051 slide up and down in rectangular slide chamber 5052, when the slide downward in rectangular slide chamber 5052 of sliding shoe 5051, drive No.1 fixed link 50411 moves downward, and realizes the input of coolant liquid, to reduce the temperature of working chamber, the heating device 506 are fixed by 5061, No. two connecting tubes 5062 of high temperature circulation pipe, heating ring 5063, No.1 inner wall extension fixed block 5064, L-type Bar 5065, rectangular cavity 5066, activity box 5067, two turntable 5068, two shaft 5069, No. three taper cone pulleies 50610, T-types are solid Reservation 50611, No.1 fixing axle 50612, conductive plate 50613, the connecting wire 50615, four of rectangle fixed block 50614, two The inner wall of drive rod 50619, two of taper cone pulley 50618, five of drive rod 50617, four of drive rod 50616, five, which extends, to be fixed Block 50620 forms, and the high temperature circulation pipe 5061 is mounted on and is tightly attached on the side of 2 outer wall of shell, and described being tightly attached to is outer The high temperature circulation pipe 5061 of 2 outer wall of shell passes through No. two connecting tubes 5062 and 5061 phase of high temperature circulation pipe being close to internal portioning layer wall 3 Logical, the heating ring 5063 is equipped with ten or more and equal distribution in high temperature circulation pipe 5061, the conductive plate 50613 are connected and are electrically connected with No. two connecting wires 50615 with heating ring 5063, described No. two connecting wires 50615 One end is electrically connected with distribution box 512, and the other end is through rectangle fixed block 50614 and is fixed on rectangle fixed block 50614, described No. two inner walls extend fixed block 50620 be fixedly mounted on side of the motor fixed block 508 far from 2 inner wall of shell, it is described No. two inner walls extend fixed block 50620 and are fixedly connected with 2 bottom panel of shell, the T-type fixed seat 50611 and No. two inner walls Extend 50620 vertical connection of fixed block, the No.1 fixing axle 50612 is through one end of No. five drive rods 50619 and by five Number drive rod 50619 is fixed in T-type fixed seat 50611, and the T-type fixed seat 50611 extends far from No. two inner walls fixes No. two turntables 5068 are fixed on one end of block 50620, described No. two turntables 5068 are equipped with No. three taper cone pulleies 50610, No. two 5069 both ends of shaft are mechanically connected with 50610, No. four taper cone pulleies 50618 of No. three taper cone pulleies respectively, and described four Number taper cone pulley 50618 is mounted on machine shaft 507, and described No. two turntables 5068 are equipped with a driving chip, and described two It is set on number turntable 5068 there are one fixed column, the fixed column is set up with No. two turntables 5068 in integral structure, and described consolidates Fixed column is set in activity box 5067, and activity box 5067 is fixed on by a fixing axle among described No. five drive rods 50619 On, described No. five drive rods 50619 are mechanically connected by No. five drive rods 50617 and No. four drive rods 50616, and described four Number drive rod 50616 is slidably matched through rectangular cavity 5066 and with rectangular cavity 5066, and described No. four drive rods 50616 are far from five One end of number drive rod 50617 is fixedly connected with rectangle fixed block 50614, and the No.1 inner wall extends 5064 bottom end of fixed block It is fixedly connected with L-type fixed link 5065, one end of the L-type fixed link 5065 is fixedly connected with rectangular cavity 5066, at No. four Under the action of taper cone pulley 50618, No. two rotations of shaft 5069 simultaneously change machine driving direction by No. three taper cone pulleies 50610, from And so that No. two turntables 5068 rotate, No. two rotations of turntables 5068 drive fixed columns rotation, activity box 5067 rotate therewith to No. five drive rods 50619 are driven to move therewith, No. five drive rods 50619 affect No. five drive rods 50617 and No. four drive rods 50616 movements so that No. four drive rods 50616 are slided and moved up and down in rectangular cavity 5066, when No. four drive rods 50616 When moving upwards, rectangle fixed block 50614 can be pushed to move upwards, so that No. two connecting wires 50615 and conductive plate 50613 electrical connections, heating ring 5063 generate heat to improve the temperature in working chamber, the L-type fixed link after being powered 5065 both ends extend fixed block 5064 with No.1 inner wall respectively, rectangular cavity 5066 is fixedly connected, and the No.1 inner wall extends Fixed block 5064 be fixed on high temperature circulation pipe 5061 on the side outer wall of driving device 505 and with high temperature circulation pipe 5061 Outer wall is fixedly connected, and the position of rectangular cavity 5066 can be made to fix, so that it is guaranteed that process of No. four drive rods 50616 in lifting Middle movement locus is fixed, and ensures the normal operation of equipment.

Motor 507 of the present invention is a kind of medium converting electrical energy into mechanical energy and output, of the present invention Motor is controlled by positive and negative rotation circuit.

Pending water is entered from water inlet line 1 in shell 2, passes through two successively under the guide functions of training wall 6 Aerator 503, when sensing in working chamber when the temperature is excessively high, opens control valve when being equipped with temperature sense conduction in shell 2 Door 4 simultaneously injects coolant liquid from control valve 4, and the electric energy in distribution box is transported to by No.1 connecting wire 510 in motor 509, Motor 509 converts electrical energy into mechanical energy and is exported by machine shaft 507, and machine shaft 507 rotates, No.1 taper cone pulley 5058 Change the machine driving direction of machine shaft 507, so that No.1 shaft 5057 rotates, and passes through No. two taper cone pulleies 5059 The machine driving direction for changing No.1 shaft 5057, No.1 turntable 5056 rotates under the action of No. two taper cone pulley 5059, No. three Drive rod 5055 drives No. two drive rods 5053 to rotate, and under the action of No. two drive rod 5053, sliding shoe 5051 is in rectangle It is slided up and down in sliding cavity 5052, when the slide downward in rectangular slide chamber 5052 of sliding shoe 5051, No.1 fixed link 50411 U-shaped drive rod 5048 is driven to move up and down, when No.1 fixed link 50411 moves upwards, the rolling at 5048 both ends of U-shaped drive rod One end that 5,045 two No.1 fixed links 50411 of promotion of wheel are connected with No.1 spring 50412 moves toward one another so that two No.1s Spring 50412 stretches, and two No.1 drive rods 5046 are respectively equipped with concave bar 5043, convex bar 50410 on opposite side, when When two No.1 drive rods 5046 move toward one another, concave bar 5043, convex bar 50410 realize fitting, by coolant delivery pipeline 5049 close, and when No.1 fixed link 50411 moves downward, two No.1 springs 50412 for being in tensional state originally are shunk, And applying a power to two No.1 drive rods 5046 makes two No.1 drive rods 5046 run counter to movement, therefore, concave bar 5043, convex bar 50410 detaches, and coolant liquid is entered by coolant delivery pipeline 5049 in coolant liquid circulation pipe 5042, and It is entered by No.1 connecting tube 5041 in the coolant liquid circulation pipe 5042 being close to internal portioning layer wall 3, realizes temperature in working chamber Reduction so that the temperature in working chamber is maintained in best production temperature, under the action of No. four taper cone pulley 50618, two The rotation of number shaft 5069 simultaneously changes machine driving directions by No. three taper cone pulleies 50610, so that No. two turntables 5068 rotate, No. two rotations of turntable 5068 drive fixed column rotation, activity box 5067 to rotate therewith to drive No. five drive rods 50619 therewith Movement, No. five drive rods 50619 affect No. five drive rods 50617 and No. four drive rods 50616 to move so that No. four drive rods 50616 slide and move up and down in rectangular cavity 5066, when No. four drive rods 50616 move upwards, can push rectangle Fixed block 50614 moves upwards, so that No. two connecting wires 50615 are electrically connected with conductive plate 50613, heating ring 5063 is logical Heat is generated after electricity to improve the temperature in working chamber.

When problems solved by the invention is that livestock-raising water process integrated equipment handles water using oxidation ditch process, it cannot keep Water temperature, to influence effluent quality, the present invention is combined with each other by above-mentioned component, is controlled by cooling control device 504, driving The adjusting to temperature in working chamber is realized under device 505 processed, 506 collective effect of heating device, so that the temperature in working chamber Degree keeps the working efficiency and work quality that avoid temperature to influence equipment in a certain range.

The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention, for this field skill For art personnel, it is clear that invention is not limited to the details of the above exemplary embodiments, and without departing substantially from the present invention spirit or In the case of essential characteristic, the present invention can be realized in other specific forms.Therefore, in all respects, should all incite somebody to action Embodiment regards exemplary as, and is non-limiting, the scope of the present invention by appended claims rather than on state Bright restriction, it is intended that including all changes that come within the meaning and range of equivalency of the claims in the present invention It is interior.Any reference signs in the claims should not be construed as limiting the involved claims.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiment being appreciated that.

Claims (8)

1. a kind of livestock-raising water process integrated equipment, structure includes water inlet line (1), shell (2), internal portioning layer wall (3), control Valve (4) processed, water temperature regulation device (5), training wall (6), the water inlet line (1) is mounted on shell (2) side, described Water inlet line (1) through shell (2) and with communicated in shell (2), the internal portioning layer wall (3) U-shaped structure installing is vertical, described Internal portioning layer wall (3) be fixedly mounted in shell (2), the control valve (4) be set to shell (2) front panel on the left of, institute The water temperature regulation device (5) stated is mounted in shell (2), and the training wall (6) is mounted in shell (2), the water conservancy diversion Wall (6) is set between internal portioning layer wall (3) and shell (2) inner wall, it is characterised in that：

The water temperature regulation device (5) is by outer casing inner wall (501), interior working chamber (502), aerator (503), cooling control dress Set (504), drive dynamic control device (505), heating device (506), machine shaft (507), motor fixed block (508), motor (509), No.1 connecting wire (510), inner wall extend fixed plate (511), distribution box (512), outlet conduit (513) composition；

The interior working chamber (502) is the cavity surrounded by outer casing inner wall (501), there are two the aerator (503) is set, Two aerators (503) are separately mounted on the both ends of U-shaped internal portioning layer wall (3), the cooling control device (504) With drive dynamic control device (505) mechanical engagement, the cooling control device (504) and heating device (506) are symmetrical Structure is mounted on shell (2) intracavity bottom, the drive dynamic control device (505) and machine shaft (507) mechanical engagement, described Machine shaft (507) be electrically connected with motor (509), the heating device (506) and machine shaft (507) mechanical engagement, The motor (509) is mounted at shell (2) inner cavity lower right corner, and it is remote that the motor fixed block (508) is set to motor (509) On side from shell (2) inner wall, the motor fixed block (508) is fixedly connected with motor (509), the motor (509) direct north is equipped with inner wall extension fixed plate (511), and the inner wall extends fixed plate (511) and shell (2) inner wall vertical welding, the inner wall extends is fixed with distribution box (512), the distribution box on fixed plate (511) (512) it is electrically connected with No.1 connecting wire (510), the distribution box (512) passes through No.1 connecting wire (510) and motor (509) it is electrically connected, the outlet conduit (513) is mounted in shell (2) back panel, and the outlet conduit (513) passes through Shell (2) is worn to communicate with interior working chamber (502).

2. a kind of livestock-raising water process integrated equipment according to claim 1, it is characterised in that：The cooling control Device (504) is by No.1 connecting tube (5041), coolant liquid circulation pipe (5042), concave bar (5043), fixed block (5044), idler wheel (5045), No.1 drive rod (5046), fixed plate (5047), U-shaped drive rod (5048), coolant delivery pipeline (5049), convex Shape bar (50410), No.1 fixed link (50411), No.1 spring (50412), rectangle inner wall extend fixed block (50413) and form.

3. a kind of livestock-raising water process integrated equipment according to claim 2, it is characterised in that：The coolant liquid is followed Endless tube (5042) is tightly attached on shell (2) inner wall, and the No.1 connecting tube (5041) will be tightly attached in shell (2) inner wall Coolant liquid circulation pipe (5042) on side and the coolant liquid circulation pipe (5042) being close to internal portioning layer wall (3) are connected, described Coolant delivery pipeline (5049) communicated with coolant liquid circulation pipe (5042), the coolant delivery pipeline (5049) port On control valve (4) is installed, the rectangle inner wall extends fixed block (50413) and sets there are two and be in symmetrical structure respectively It sets up, described two rectangle inner walls extend is equipped with fixed block (5044) on the opposite side of fixed block (50413), described There are two No.1 drive rod (5046) is set, one end of described two No.1 drive rods (5046) is fixed on fixed plate (5047) On, the side that the other end is runed counter to is separately fixed at by No.1 spring (50412) on two fixed blocks (5044), described two Concave bar (5043), convex bar (50410), the concave bar are respectively equipped on the opposite side of No.1 drive rod (5046) (5043) it is matched with convex bar (50410), the U-shaped drive rod (5048) is set to two No.1 drive rods (5046) outside Side, is mounted on idler wheel (5045) on described U-shaped drive rod (5048) both ends, described two idler wheels (5045) with two one Number drive rod (5046) mechanical connection, side of the U-shaped drive rod (5048) far from shell (2) inner wall are solid equipped with No.1 Fixed pole (50411), the No.1 fixed link (50411) is welded as integral structure with U-shaped drive rod (5048) machinery, described No.1 fixed link (50411) is mechanically connected with drive dynamic control device (505).

4. a kind of livestock-raising water process integrated equipment according to claim 1, it is characterised in that：The drive control Device (505) is by sliding shoe (5051), rectangular slide chamber (5052), No. two drive rods (5053), No. two fixed links (5054), three Number drive rod (5055), No.1 turntable (5056), No.1 shaft (5057), No.1 taper cone pulley (5058), No. two taper cone pulleies (5059), No.1 driving chip (50510) forms.

5. a kind of livestock-raising water process integrated equipment according to claim 4, it is characterised in that：The sliding shoe (5051) it is mounted in rectangular slide chamber (5052), the sliding shoe (5051) is matched with rectangular slide chamber (5052), institute The one end for No. two drive rods (5053) stated is mechanically connected with No. three drive rods (5055), and the other end is fixed on sliding shoe (5051) On, the one end of described No. three drive rods (5055) far from No. two drive rods (5053) is fixed in No.1 turntable (5056), institute No. two taper cone pulleies (5059), described No. two taper cone pulleies (5059) and No.1 turntable are housed on the No.1 turntable (5056) stated (5056) match, the both ends of the No.1 shaft (5057) respectively with No.1 taper cone pulley (5058), No. two taper cone pulleies (5059) it is mechanically connected, the No.1 taper cone pulley (5058) is mounted on one end far from motor (509) on machine shaft (507) On, the machine shaft (507) is mechanically connected with No.1 shaft (5057) by No.1 taper cone pulley (5058), the No.1 Driving chip (50510) is mounted on No.1 turntable (5056), and described No. two fixed links (5054) are mounted on rectangular slide chamber (5052) on the side of No.1 turntable (5056).

6. a kind of livestock-raising water process integrated equipment according to claim 1, it is characterised in that：The heating device (506) fixed block is extended by high temperature circulation pipe (5061), No. two connecting tubes (5062), heating ring (5063), No.1 inner wall (5064), L-type fixed link (5065), rectangular cavity (5066), activity box (5067), No. two turntables (5068), No. two shafts (5069), No. three taper cone pulleies (50610), T-type fixed seat (50611), No.1 fixing axle (50612), conductive plate (50613), square Shape fixed block (50614), No. two connecting wires (50615), No. four drive rods (50616), No. five drive rods (50617), No. four Taper cone pulley (50618), No. five drive rods (50619), No. two inner walls extend fixed block (50620) and form.

7. a kind of livestock-raising water process integrated equipment according to claim 6, it is characterised in that：The high temperature circulation Pipe (5061) is mounted on and is tightly attached on the side of shell (2) outer wall, the high temperature circulation pipe for being tightly attached to shell (2) outer wall (5061) it is communicated by No. two connecting tubes (5062) and the high temperature circulation pipe (5061) being close to internal portioning layer wall (3), described adds Hot ring (5063) is equipped with ten or more and equal distribution in high temperature circulation pipe (5061), the conductive plate (50613) and Heating ring (5063) is connected and is electrically connected with No. two connecting wires (50615), the one of described No. two connecting wires (50615) End is electrically connected with distribution box (512), and the other end is through rectangle fixed block (50614) and is fixed on rectangle fixed block (50614), No. two inner walls extend the side that fixed block (50620) is fixedly mounted on separate shell (2) inner wall of motor fixed block (508) On, described No. two inner walls extend fixed block (50620) and are fixedly connected with shell (2) bottom panel, the T-type fixed seat (50611) extend fixed block (50620) vertical connection with No. two inner walls, the No.1 fixing axle (50612) is through No. five drives No. five drive rods (50619) are simultaneously fixed in T-type fixed seat (50611) by one end of lever (50619), and the T-type is fixed Seat (50611) extends far from No. two inner walls is fixed with No. two turntables (5068) on one end of fixed block (50620), and described two Number turntable (5068) is equipped with No. three taper cone pulleies (50610), described No. two shaft (5069) both ends respectively with No. three taper cone pulleies (50610), No. four taper cone pulley (50618) mechanical connections, described No. four taper cone pulleies (50618) are mounted on machine shaft (507) On, described No. two turntables (5068) are equipped with a driving chip, are set on described No. two turntables (5068) there are one fixed column, The fixed column is set up with No. two turntables (5068) in integral structure, and the fixed column is set in activity box (5067), institute It is fixed on activity box (5067) by a fixing axle among No. five drive rods (50619) stated, described No. five drive rods (50619) it is mechanically connected by No. five drive rods (50617) and No. four drive rods (50616), described No. four drive rods (50616) run through rectangular cavity (5066) and be slidably matched with rectangular cavity (5066), described No. four drive rods (50616) are far from five One end of number drive rod (50617) is fixedly connected with rectangle fixed block (50614), and the No.1 inner wall extends fixed block (5064) bottom end is fixedly connected with L-type fixed link (5065), one end and the rectangular cavity (5066) of the L-type fixed link (5065) It is fixedly connected.

8. a kind of livestock-raising water process integrated equipment according to claim 1, it is characterised in that：The L-type is fixed The both ends of bar (5065) extend fixed block (5064) with No.1 inner wall respectively, rectangular cavity (5066) is fixedly connected, the No.1 Inner wall extend fixed block (5064) be fixed on high temperature circulation pipe (5061) close to driving device (505) side outer wall on and with height The outer wall of warm circulation pipe (5061) is fixedly connected.