CN222128997U - A livestock breeding room with sewage discharge and cleaning structure - Google Patents

Abstract

The utility model discloses a livestock breeding room with a sewage cleaning structure, which belongs to the field of livestock technology, including a breeding room, a fence, a screw slide, a sliding frame, a sewage trough, a baffle, a drainage trough and a water pump C. A fence is fixedly installed in the front of the interior of the breeding room, a screw slide is fixedly installed in front of the inner wall of the fence, a sliding frame is provided in front of the screw slide through a slider, and a sewage trough is embedded in the lower part of the inner wall of the breeding room near the fence. In the utility model, a servo motor is turned on to drive the eccentric wheel to rotate rapidly and continuously hit the flushing frame to drive the telescopic rod and the outer spring to repeatedly expand and contract, and drive the flushing frame to shake back and forth rapidly, so that the repeatedly shaking and moving high-pressure nozzle evenly flushes the floor of the breeding room, flushes the ground debris to the surface of the baffle above the sewage trough, and passes through the baffle and falls into the sewage trough, completing the cleaning of the breeding room floor, improving the effect of efficient flushing and cleaning of the breeding room floor.

Description

Livestock-raising room with blowdown washs structure

Technical Field

The utility model belongs to the technical field of livestock raising, and particularly relates to a livestock raising room with a pollution discharge cleaning structure.

Background

Livestock raising is a series of activities for raising, managing and utilizing livestock, and relates to a plurality of links from the selection of livestock varieties suitable for local environment and production requirements, to the raising management, disease prevention and control, to the processing and selling of livestock products and the like, wherein the livestock raising also needs to pay attention to disease prevention and control, and the effects of diseases on the livestock are reduced through the measures of periodical quarantine, vaccination and the like, the cleaning of the livestock raising environment, and the health and the production performance of the livestock are ensured.

According to the searching, the application number is CN202221571634.9, the excrement and waste liquid treatment device for the live pig farm is provided with an excrement cleaning mechanism, an excrement removing shovel, a spraying frame and a brush roller are matched with each other, excrement on the ground is removed, washed and softened and rubbed, the excrement adhered to the ground is separated from the ground to be convenient to clean, the wiper plate is matched with the mixture of all the excrement and cleaning liquid to be scraped into a septic tank, the cleaning is more thorough, the spraying frame is driven by the servo electric cylinder to swing in a reciprocating manner, the spraying range of the spraying frame is increased, the flushing effect is better, and the cleaning device has the following defects that:

When the staff uses this kind of live pig plant excrement and urine waste liquid processing apparatus, when clearing up ground in the plant, cross slip table work, when moving the electric vat to the border department of keeping away from manure pit one side in the plant, remove the excrement shovel with subaerial big piece excrement and urine and scrape to the manure pit in, the water pump simultaneous working, spray the washing liquid in the water tank on the plant ground through the spray frame, wash subaerial excrement and urine, make it soften fast, servo electric vat reciprocating contraction, drive the reciprocating swing of spray frame, spray frame spraying range has been increased, and when washing ground debris through the mode of the reciprocating swing about the spray frame, because repeatedly control the spray frame of reciprocating swing, can be because of the continuous change of washing direction, easily lead to debris to disperse around, and be difficult to wash the gathering to a direction, lead to ground debris to be more messy and be difficult to clear up easily.

Disclosure of utility model

The utility model aims to solve the problems that the device for treating the excrement and the waste liquid of the pig farm easily causes that the ground sundries are more messy and are not easy to clean, and provides a livestock breeding room with a pollution discharge cleaning structure.

The livestock breeding room with the sewage disposal cleaning structure comprises a breeding room, a fence, a screw rod sliding rail, a sliding frame, a sewage disposal groove, a baffle plate, a drainage groove and a water pump C, wherein the fence is fixedly arranged in front of the inside of the breeding room, the screw rod sliding rail is fixedly arranged in front of the inner wall of the fence, the sliding frame is arranged in front of the screw rod sliding rail through a sliding block in a sliding manner, the sewage disposal groove is embedded in the lower part of the inner wall of the breeding room close to the inside of the fence, the baffle plate is arranged above the sewage disposal groove in a sliding manner, the middle part of the baffle plate is arranged in a grid net shape, the drainage groove is embedded in the lower part of the inner wall of the sewage disposal groove, the water pump C is arranged on the side of the inside of the sewage disposal groove, the water pump C is connected with an external sewage treatment station through a water guide pipe, an adjusting and flushing mechanism capable of uniformly flushing the ground sundries of the breeding room is arranged below the sliding frame, and a spraying mechanism capable of sterilizing the collected sundries and a sundries collecting and a disassembling mechanism are arranged in the sewage disposal groove.

Wherein the adjusting flushing mechanism consists of a telescopic rod, a flushing frame, a limiting clamping groove A, an adjusting frame B, a damping telescopic rod A, a limiting block, a water tank A, a water pump A, a high-pressure spray head, a servo motor and an eccentric wheel, wherein the telescopic rod is fixedly arranged at the front and back of the inner wall of the sliding frame, a spring is arranged on the outer side of the telescopic rod in a matched manner, the flushing frame is fixedly arranged between the lateral sides of the end parts of the telescopic rod, the adjusting frame A is rotatably arranged in the flushing frame through a bearing, the adjusting frame B is slidably arranged at the front inside the adjusting frame A, the damping telescopic rod A is fixedly arranged between the rear of the adjusting frame B and the front of the inner wall of the adjusting frame A, the spring is arranged on the outer side of the damping telescopic rod A in a matched manner, the utility model discloses a water-saving type electric water heater, including adjusting frame B, locating rack, servo motor, adjusting frame A, water tank A, water pump A, flushing frame B the place ahead is close to adjusting frame B rear embedding and is provided with spacing draw-in groove A around fixed mounting, flushing frame B the place ahead is close to adjusting frame B the place ahead, spacing draw-in groove A has a plurality of, and is the equidistance and encircle setting, and the stopper agrees with the slip setting in spacing draw-in groove A inboard, the carriage top is provided with water tank A, water tank A the place ahead embedding is provided with water pump A, flushing frame below embedding is provided with the high-pressure shower nozzle, the high-pressure shower nozzle has a plurality of, and is the equidistance and sets up side by side, and is connected through the water guide hose between water tank A, water pump A and the high-pressure shower nozzle, carriage inner wall top is close to flushing frame the place ahead fixed mounting of having the eccentric wheel through output shaft.

Wherein the sundries collecting and disassembling mechanism consists of a chute, a limiting clamping frame, a damping telescopic rod B, a limiting clamping block, a collecting basket, a limiting clamping groove B and a groove, the collecting basket is arranged below the baffle, the surface of the collecting basket is arranged in a grid net shape, the limiting clamping groove B is embedded and arranged at two sides above the inner wall of the collecting basket, the limiting clamping groove B is arranged in an L shape, the chute is embedded and arranged at two sides above the baffle, the limiting clamping frame is arranged below the inner part of the chute in a relative sliding way, and spacing clamping frame is "L" shape setting, and spacing clamping frame agrees with the slip setting in spacing draw-in groove B inboard, spacing draw-in groove B inner wall top embedding is provided with the recess, and the recess is semicircle form setting, spacing clamping frame inner wall top fixed mounting has damping telescopic link B and the supporting spring that is provided with in damping telescopic link B outside, damping telescopic link B tip top fixed mounting has spacing fixture block, and spacing fixture block is semicircle form setting, and spacing fixture block agrees with the slip setting in the recess inboard.

The spraying bacteriostasis mechanism comprises a sliding rail, an electric roller A, a rotating disc, an electric roller B, teeth, a water tank B, a water pump B and an atomizing nozzle, wherein the sliding rail is arranged inside the sewage draining groove, the sliding rail is in an annular arrangement, the electric roller A is arranged on the periphery of the inner wall of the sewage draining groove in a rotating mode through a bearing, the electric roller A is arranged on the inner side of the sliding rail in a matched sliding mode, the rotating disc is arranged on the inner ring of the sliding rail in a rotating mode through the bearing, a plurality of rotating discs are arranged and are in equidistant surrounding arrangement, the electric roller B is arranged on the inner wall of the sliding rail, the teeth are arranged on the upper portion of the inner wall of the sliding rail, close to the rotating disc in a rotating mode, the teeth are fixedly arranged on the outer ring of the electric roller B, the teeth are in a plurality of the equidistant surrounding arrangement, the teeth are in a trapezoidal shape, the teeth are in an engagement transmission arrangement, the side of the rotating disc is provided with the atomizing nozzle in an embedded mode, the water tank B is arranged on the side of the inner side of the cultivating chamber, and the water tank B is connected with a plurality of atomizing nozzle through a water guide hose.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

1. This kind of livestock-raising room with blowdown wash structure is through being provided with regulation washing mechanism, can make the staff pass through the telescopic link, wash the brush holder, spacing draw-in groove A, alignment jig B, damping telescopic link A, the stopper, water tank A, water pump A, high-pressure shower nozzle, servo motor, the eccentric wheel between the cooperation, utilize alignment jig B to drive the stopper freedom through damping telescopic link A and outside spring and slide spacingly in a plurality of spacing draw-in groove A inboardly, drive alignment jig A and a plurality of high-pressure shower nozzles of below change appointed washing angle, servo motor drives the eccentric wheel and beats repeatedly and wash the brush holder through telescopic link and outside spring swing's mode repeatedly, improve the effect of carrying out high-efficient washing cleaning treatment to the culture room ground.

2. This kind of livestock-raising room with blowdown washs structure is through being provided with debris collection dismouting mechanism, can make the staff pass through spout, spacing clamping frame, damping telescopic link B, spacing fixture block, collect the cooperation between basket, spacing draw-in groove B and the recess, utilizes spacing clamping frame freedom at spacing draw-in groove B inboard slip spacing, and spacing fixture block passes through damping telescopic link B and outside spring freedom at the inboard spacing mode of sliding of recess, makes things convenient for the staff to get fast and puts the effect of collecting the debris clearance that the basket will collect.

3. This kind of livestock-raising room with blowdown washs structure is through being provided with spraying antibacterial mechanism, can make the staff pass through slide rail, electronic gyro wheel A, rolling disc, electronic gyro wheel B, tooth, water tank B, water pump B and atomizer between the cooperation, utilizes electronic gyro wheel A and rolling disc outer lane tooth interlock transmission, drives rolling disc side atomizer and swings the mode that increases the atomizing chlorine dioxide disinfectant spraying range repeatedly, improves the effect of high-efficient degerming to debris and sewage that the blowdown inslot was collected.

Drawings

FIG. 1 is a schematic diagram of a schematic perspective view of a front cross-sectional view of a livestock-raising room of the present utility model;

FIG. 2 is a schematic diagram of the front cross-sectional structure of the livestock breeding room of the utility model;

FIG. 3 is a schematic diagram of a side cross-sectional configuration of a carriage in accordance with the present utility model;

FIG. 4 is a schematic diagram of the enlarged construction of FIG. 2 at A in accordance with the present utility model;

FIG. 5 is a schematic diagram of the enlarged structure of FIG. 3B in accordance with the present utility model;

FIG. 6 is a schematic diagram of the enlarged structure of FIG. 4 at C in accordance with the present utility model;

fig. 7 is a schematic diagram showing the second enlarged construction of the embodiment C in fig. 4 according to the present utility model.

The device comprises a culture room, 101, a fence, 102, a screw rod sliding rail, 103, a sliding frame, 104, a telescopic rod, 105, a flushing frame, 1051, a limit clamping groove A, 106, an adjusting frame A, 107, an adjusting frame B, 108, a damping telescopic rod A, 109, a limiting block, 2, a water tank A, 201, a water pump A, 202, a high-pressure spray head, 3, a servo motor, 301, an eccentric wheel, 4, a blow-down groove, 401, a baffle, 402, a sliding groove, 403, a limit clamping frame, 404, a damping telescopic rod B, 405, a limit clamping block, 406, a drainage groove, 5, a collecting basket, 501, a limit clamping groove B, 502, a groove, 6, a sliding rail, 601, an electric roller A, 602, a rotating disc, 603, an electric roller B, 604, teeth, 7, a water tank B, 701, a water pump B, 702, an atomizing spray head, 8 and a water pump C.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the utility model, the following components are added:

Referring to fig. 1-6, the livestock breeding room with the pollution discharge cleaning structure comprises a breeding room 1, a fence 101, a screw rod sliding rail 102, a sliding frame 103, a pollution discharge groove 4, a baffle 401, a drainage groove 406 and a water pump C8, wherein the fence 101 is fixedly installed in front of the inside of the breeding room 1, the screw rod sliding rail 102 is fixedly installed in front of the inner wall of the fence 101, the sliding frame 103 is arranged in front of the screw rod sliding rail 102 in a sliding manner through a sliding block, the pollution discharge groove 4 is embedded in the inner wall of the breeding room 1 near the fence 101, the baffle 401 is arranged above the pollution discharge groove 4 in a sliding manner, the middle of the baffle 401 is arranged in a grid net shape, the drainage groove 406 is embedded in the inner wall of the pollution discharge groove 4, the water pump C8 is arranged on the side of the inside of the pollution discharge groove 4, the water pump C8 is connected with a matched sewage treatment station through a water guide pipe, an adjusting flushing mechanism capable of uniformly flushing the ground of the breeding room is arranged below the sliding frame 103, and a spraying mechanism capable of sterilizing and a sundries collecting, a sundries collecting mechanism is arranged inside the pollution discharge groove 4.

Referring to fig. 1 to 5, the adjusting and flushing mechanism further comprises a telescopic rod 104, a flushing frame 105, a limiting clamping groove a1051, an adjusting frame a106, an adjusting frame B107, a damping telescopic rod a108, a limiting block 109, a water tank A2, a water pump a201, a high-pressure spray head 202, a servo motor 3 and an eccentric wheel 301;

The front and back parts of the inner wall of the sliding frame 103 are fixedly provided with telescopic rods 104, the outer sides of the telescopic rods 104 are provided with springs in a matching way, a flushing frame 105 is fixedly arranged between the side parts of the end parts of the telescopic rods 104, an adjusting frame A106 is rotatably arranged in the flushing frame 105 through a bearing, an adjusting frame B107 is slidably arranged in the front part of the adjusting frame A106, a damping telescopic rod A108 is fixedly arranged between the back part of the adjusting frame B107 and the front part of the inner wall of the adjusting frame A106, springs are arranged in the matching way outside the damping telescopic rod A108, limiting blocks 109 are fixedly arranged around the back part of the adjusting frame B107, a plurality of limiting clamping grooves A1051 are embedded in the front part of the flushing frame 105 near the back part of the adjusting frame B107 and are arranged in an equidistant surrounding way, the limiting blocks 109 are in a matching sliding way arranged on the inner side of the limiting clamping grooves A1051, a water tank A2 is arranged above the sliding frame 103, a water pump A201 is embedded in the front of the water tank A2, a high-pressure spray head 202 is embedded below the flushing frame 105, the high-pressure spray heads 202 are in a plurality of equidistant parallel arrangement, the water tank A2, the water pump A201 and the high-pressure spray heads 202 are connected through a water guide hose, the servo motor 3 is fixedly arranged above the inner wall of the sliding frame 103 and close to the front of the flushing frame 105, the servo motor 3 is connected with the eccentric wheel 301 through an output shaft, when a worker uses the cultivating room 1 for a long time, the domestic animals and the poultry in the cultivating room 1 need to clean sundries on the ground of the cultivating room 1 regularly, after the domestic animals and the poultry in the cultivating room 1 are driven out of the enclosure 101, the screw slide rail 102 is controlled to drive the sliding frame 103 to move to the left end part of the enclosure 101, the adjusting frame B107 is pushed to drive the damping telescopic rod A108 and the outer spring to be unfolded, the limiting block 109 is slid out of the limiting clamping groove A1051 to loosen the adjusting frame A106, the adjusting frame A106 is pushed to drive the adjusting frame A106 to rotate through a bearing, and the high-pressure spray heads 202 are changed to incline to the right side to a proper angle, after loosening the adjusting bracket B107 to enable the damping telescopic rod A108 and the outer spring shrinkage limiting block 109 to slide into the limiting clamping groove A1051 to fix the adjusting bracket A106, a worker opens the water pump A201 to pump the water-doped chlorine dioxide disinfectant into the high-pressure spray heads 202 from the water tank A2 through the water guide hose, then sprays the water-doped chlorine dioxide disinfectant from the plurality of high-pressure spray heads 202 to the ground of the culture room 1, controls the screw rod sliding rail 102 to drive the sliding frame 103 to move towards the other end, enables the high-pressure spray heads 202 to spray the high-pressure chlorine dioxide disinfectant on the ground, and simultaneously opens the servo motor 3 to drive the eccentric wheel 301 to rotate continuously to drive the flushing frame 105 to drive the telescopic rod 104 and the outer spring to repeatedly stretch, drives the flushing frame 105 to shake back and forth rapidly, enables the repeatedly-rocked and-moved high-pressure spray heads 202 to flush the ground of the culture room 1 evenly, washes the ground sundries to the surface of the baffle 401 above the sewage drain groove 4, and after penetrating the baffle 401 to fall into the sewage drain groove 4, the cleaning of the ground of the culture room 1 is completed, and the effect of high-efficiency flushing treatment of the ground of the culture room 1 is improved.

Referring to fig. 2-6, further, the sundries collecting and disassembling mechanism is composed of a chute 402, a limit clamping frame 403, a damping telescopic rod B404, a limit clamping block 405, a collecting basket 5, a limit clamping groove B501 and a groove 502;

A collecting basket 5 is arranged below the baffle 401, the surface of the collecting basket 5 is in a grid net shape, two sides above the inner wall of the collecting basket 5 are embedded with a limit clamping groove B501, the limit clamping groove B501 is in an L shape, two sides above the baffle 401 are embedded with a chute 402, a limit clamping frame 403 is arranged below the inner part of the chute 402 in a relative sliding manner, the limit clamping frame 403 is in an L shape, the limit clamping frame 403 is in fit sliding manner and is arranged inside the limit clamping groove B501, a groove 502 is embedded above the inner wall of the limit clamping groove B501, the groove 502 is in a semicircular shape, a damping telescopic rod B404 is fixedly arranged above the inner wall of the limit clamping frame 403, a spring is arranged outside the damping telescopic rod B404 in a matched manner, a limit clamping block 405 is fixedly arranged above the end part of the damping telescopic rod B404, the limit clamping block 405 is in a semicircular shape, the limit clamping block 405 is in fit sliding manner and is arranged inside the groove 502, when the repeatedly swaying and moving high-pressure spray nozzle 202 evenly washes the ground of the culture room 1, washes the ground sundries to the surface of the baffle 401 above the sewage disposal groove 4, and passes through the baffle 401 to fall into the collecting basket 5 in the sewage disposal groove 4, so that sewage passes through the collecting basket 5 to fall into the lower part inside the sewage disposal groove 4 to be collected, when a worker needs to take out sundries, the baffle 401 is pushed to be taken down from above the sewage disposal groove 4, the collecting basket 5 is driven to be taken out of the sewage disposal groove 4, the worker pushes the two limiting clamping frames 403 to slide in opposite directions inside the sliding grooves 402, the limiting clamping blocks 405 are extruded to drive the damping telescopic rods B404 and the outer springs to shrink and slide out of the grooves 502 to loosen the limiting clamping frames 403, after the limiting clamping frames 403 slide out of the limiting clamping grooves B501 to loosen the collecting basket 5, the worker carries the collecting basket 5 to a nearby garbage disposal station, the collecting basket 5 is carried back into the culture room 1, the baffle 401 is arranged above the collecting basket 5, the two limiting clamping frames 403 are pushed to slide towards opposite directions on the inner side of the chute 402, after the limiting clamping frames 403 are close to the limiting clamping groove B501, the two limiting clamping frames 403 are pushed to slide towards opposite directions on the inner side of the chute 402, the limiting clamping blocks 405 are extruded to drive the damping telescopic rod B404 and the outer side springs to shrink, after the limiting clamping frames 403 completely slide into the inner side of the limiting clamping groove B501, the damping telescopic rod B404 and the outer side springs are ejected out of the limiting clamping blocks 405 to slide into the inner side of the groove 502 to limit and fix the collecting basket 5, the baffle 401 is arranged back above the sewage draining groove 4, the collecting basket 5 is driven to be placed in the sewage draining groove 4, and the effect that the collected sundries are cleaned by the collecting basket 5 can be quickly taken and placed by workers is facilitated.

Referring to fig. 2-4, further, the spraying antibacterial mechanism is composed of a sliding rail 6, an electric roller a601, a rotating disc 602, an electric roller B603, teeth 604, a water tank B7, a water pump B701 and an atomizing nozzle 702;

The inside of the sewage draining groove 4 is provided with a sliding rail 6, the sliding rail 6 is in an annular shape, the periphery of the inner wall of the sewage draining groove 4 is provided with an electric roller A601 through a bearing in a rotating way, the electric roller A601 is in fit and sliding way and is arranged on the inner side of the sliding rail 6, the inner ring of the sliding rail 6 is provided with a rotating disc 602 through a bearing in a rotating way, the rotating disc 602 is provided with a plurality of electric rollers B603 through a bearing in an equidistant surrounding way, the inner wall of the sliding rail 6 is close to the upper part of the rotating disc 602 and is provided with a plurality of electric rollers B603 through a bearing in a rotating way, the outer ring of the electric rollers B603 and the outer ring of the rotating disc 602 are fixedly provided with teeth 604, the teeth 604 are in a trapezoid equidistant surrounding way, the teeth 604 of the outer ring of the rotating disc 602 and the teeth 604 of the outer ring of the electric rollers B603 are in a meshing transmission arrangement, the side of the rotating disc 602 are embedded with an atomizing spray head 702, the side of the inner side of the cultivating room 1 is provided with a water tank B7, the front of the water tank B7 is embedded with a water pump 701, the water tank B7, the water pump B701 and the atomizing nozzles 702 are connected through the water guide hose, when the high-pressure nozzle 202 which shakes and moves repeatedly evenly washes the ground of the culture room 1, impurities on the ground are washed to the surface of the baffle 401 above the sewage disposal groove 4 and fall into the collecting basket 5 in the sewage disposal groove 4 through the baffle 401, when sewage falls into the lower part inside the sewage disposal groove 4 through the collecting basket 5 to be collected, a worker opens a servo motor matched with the electric roller A601 to drive the electric roller A601 to repeatedly rotate clockwise for a plurality of circles on the inner side of the sliding rail 6, drives the sliding rail 6 to repeatedly rotate clockwise for 60 degrees and anticlockwise for 60 degrees on the outer side of the electric roller A601, simultaneously opens a servo motor matched with the water pump B701 and the electric roller B603 to repeatedly rotate clockwise for 60 degrees and drive the outer ring gear 604 of the electric roller B603 and the outer ring gear 604 of the rotating disc 602 to be meshed and driven, when the rotating disc 602 and the side atomizing spray heads 702 are driven to rotate repeatedly by 60 degrees clockwise and 60 degrees anticlockwise, the water pump B701 sprays atomized chlorine dioxide disinfectant in the water tank B7 from the atomizing spray heads 702 which rotate repeatedly through the water guide hose to contact sundries collected in the collecting basket 5 and sewage collected in the sewage draining groove 4, when the sewage draining groove 4 is uniformly disinfected, a worker opens the water pump C8 to discharge the collected sewage to the drainage groove 406 to a nearby sewage treatment station for treatment through the water guide pipe, and when the collecting basket 5 is taken out and carried to the nearby garbage treatment station for cleaning sundries, the sewage draining groove 4 after disinfection can avoid the influence of the collected sundries and sewage on the internal environment of the culture room 1, and the efficient degerming effect of the sundries and sewage collected in the sewage draining groove 4 is improved.

Referring to fig. 1-4, further, the electric roller a601 and the electric roller B603 are electrically connected with the storage battery through a matched servo motor and a matched control panel of the culture room 1, and the screw rod slide rail 102, the water pump a201, the servo motor 3, the water pump B701 and the water pump C8 are electrically connected with the storage battery through a matched control panel of the culture room 1.

Embodiment two:

As shown in fig. 6 and 7, the present utility model is characterized in that a groove 502 is embedded above the inner wall of a limit clamping groove B501, the groove 502 is arranged in a semicircular shape, a damping telescopic rod B404 is fixedly installed above the inner wall of a limit clamping frame 403, a spring is arranged outside the damping telescopic rod B404 in a matching manner, a limit clamping block 405 is fixedly installed above the end of the damping telescopic rod B404, the limit clamping block 405 is arranged in a semicircular shape, the limit clamping block 405 is matched with the embodiment of sliding arrangement inside the groove 502, a groove 502 is embedded above the inner wall of the limit clamping groove B501, the groove 502 is arranged in a trapezoid shape, the damping telescopic rod B404 is fixedly installed above the inner wall of the limit clamping frame 403, the spring is arranged outside the damping telescopic rod B404 in a matching manner, the limit clamping block 405 is fixedly installed above the end of the damping telescopic rod B404, and spacing fixture block 405 is trapezoidal form setting, and spacing fixture block 405 agrees with the slip setting inboard at recess 502, it slides towards opposite direction to promote two spacing clamps 403 inboard at spout 402 when the staff, extrude spacing fixture block 405 and drive damping telescopic link B404 and outside spring shrink, make spacing clamp block 403 slide into spacing draw-in groove B501 inboard after completely, damping telescopic link B404 and outside spring pop out spacing fixture block 405 slide into recess 502 inboard, make trapezoidal form spacing fixture block 405 slide into trapezoidal form recess 502 inboard after completely, will make the contact of bigger area between trapezoidal form spacing fixture block 405 and the trapezoidal form recess 502, produce bigger friction, carry out more firm spacing fixed processing with collecting basket 5, compare with first embodiment, spacing fixed effect is better.

Working principle: firstly, a worker uses the culture room 1 for a long time, after the livestock raising poultry in the culture room 1 needs to clean sundries on the ground of the culture room 1 regularly, the poultry in the culture room 1 is driven out of the enclosure fence 101, the screw rod sliding rail 102 is controlled to drive the sliding frame 103 to move to the left end part of the enclosure fence 101, the adjusting frame B107 is pushed to drive the damping telescopic rod A108 and the outer side spring to be unfolded, the limiting block 109 slides out of the limiting clamping groove A1051 to loosen the adjusting frame A106, the adjusting frame A106 is pushed to drive the adjusting frame A106 to rotate through a bearing, after a plurality of high-pressure spray heads 202 are inclined to the right side to a proper angle, the adjusting frame B107 is loosened, the damping telescopic rod A108 and the outer side spring shrinkage limiting block 109 are slid into the limiting clamping groove A1051 to fix the adjusting frame A106, the worker opens the water pump A201 to suck the chlorine dioxide disinfectant doped with water into the high-pressure spray heads 202 from the water tank A2 through the water guide hose, then spraying the chlorine dioxide disinfectant mixed with water from a plurality of high-pressure spray heads 202 to the ground of the culture room 1, controlling a screw rod sliding rail 102 to drive a sliding frame 103 to move towards the other end part, enabling the high-pressure spray heads 202 to spray the high-pressure chlorine dioxide disinfectant on the ground, cleaning the sundries on the ground, simultaneously opening a servo motor 3 to drive an eccentric wheel 301 to rotate continuously to strike a flushing brush frame 105 to drive a telescopic rod 104 and an outer spring to stretch repeatedly, driving the flushing brush frame 105 to shake rapidly back and forth, enabling the repeatedly-swayed and moved high-pressure spray heads 202 to flush the ground of the culture room 1 evenly, flushing the sundries on the ground to the surface of a baffle 401 above a blow-down tank 4, and after penetrating through the baffle 401 and falling into the blow-down tank 4, completing cleaning the ground of the culture room 1, then flushing the sundries on the ground of the culture room 1 evenly by repeatedly swaying and moving the high-pressure spray heads 202 to flush the sundries on the surface of the baffle 401 above the blow-down tank 4, the sewage passes through the baffle 401 and falls into the collecting basket 5 in the sewage draining groove 4, when the sewage passes through the collecting basket 5 and falls into the lower part in the sewage draining groove 4 to be collected, a worker opens a servo motor matched with the electric roller A601 to drive the electric roller A601 to rotate repeatedly in a plurality of clockwise circles and a plurality of anticlockwise circles on the inner side of the sliding rail 6, drives the sliding rail 6 to rotate repeatedly in a clockwise 60 DEG and anticlockwise 60 DEG on the outer side of the electric roller A601, simultaneously opens a servo motor matched with the water pump B701 and the electric roller B603 to drive the electric roller B603 to rotate repeatedly in a clockwise 60 DEG and anticlockwise 60 DEG, drives the outer ring teeth 604 of the electric roller B603 and the outer ring teeth 604 of the rotating disc 602 to be meshed and drive the rotating disc 602 and the side atomizing nozzle 702 to rotate repeatedly in a clockwise 60 DEG and anticlockwise 60 DEG, the water pump B701 sprays atomized chlorine dioxide disinfectant in the water tank B7 from the plurality of repeatedly rotating atomizing spray heads 702 through the water guide hose to contact sundries collected in the collecting basket 5 and sewage collected in the sewage draining groove 4, when the sewage draining groove 4 is uniformly disinfected, a worker opens the water pump C8 to discharge the collected sewage to the drainage groove 406 through the water guide tube to a nearby sewage treatment station for treatment, finally, when the worker needs to take out sundries, the pushing baffle 401 is taken down from the upper part of the sewage draining groove 4, the worker pushes the collecting basket 5 to take out the sewage draining groove 4, the worker pushes the two limiting clamping frames 403 to slide towards opposite directions on the inner side of the sliding groove 402, the limiting clamping blocks 405 are extruded to drive the damping telescopic rods B404 and the outer springs to shrink and slide out of the grooves 502 to loosen the limiting clamping frames 403, after the limiting clamping frames 403 slide out of the limiting clamping grooves B501 to loosen the collecting basket 5, the worker carries the collecting basket 5 to the nearby garbage treatment station, the sundries in the collecting basket 5 are cleaned, the collecting basket 5 is carried back into the culture room 1, the baffle 401 is arranged above the collecting basket 5, the two limiting clamping frames 403 are pushed to slide towards opposite directions on the inner side of the chute 402, after the limiting clamping frames 403 are close to the limiting clamping groove B501, the two limiting clamping frames 403 are pushed to slide towards opposite directions on the inner side of the chute 402, the limiting clamping blocks 405 are extruded to drive the damping telescopic rod B404 and the outer side springs to shrink, after the limiting clamping frames 403 completely slide into the inner side of the limiting clamping groove B501, the damping telescopic rod B404 and the outer side springs are ejected out of the limiting clamping blocks 405 to slide into the inner side of the groove 502 to limit and fix the collecting basket 5, and the baffle 401 is installed back onto the sewage draining groove 4 to drive the collecting basket 5 to be placed into the sewage draining groove 4.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (7)

1. The utility model provides a livestock-raising room with blowdown wash structure, includes breed room (1), enclose and keep off fence (101), lead screw slide rail (102), carriage (103), blowdown groove (4), baffle (401), water drainage tank (406) and water pump C (8), breed room (1) inside place ahead fixed mounting encloses and keep off fence (101), enclose and keep off fence (101) inner wall place ahead fixed mounting has lead screw slide rail (102), lead screw slide rail (102) place ahead is provided with carriage (103) through the slider slip, breed room (1) inner wall below is close to enclosing and keep off fence (101) inside embedding and is provided with blowdown groove (4), blowdown groove (4) top slip is provided with baffle (401), and baffle (401) middle part is the netted setting of grid, blowdown groove (4) inner wall below embedding is provided with water drainage tank (406), blowdown groove (4) inside side is provided with water pump C (8), and through water guide pipe connection between water pump C (8) side and the water drainage tank (406), water pump C (8) side is through the sewage guide pipe with outside treatment is connected with the outside and is characterized in that the regulation of the carriage is provided with debris flushing mechanism (103), the interior of the sewage draining groove (4) is provided with a spraying bacteriostasis mechanism and a sundry collecting and dismounting mechanism which can degerming the collected sundries.

2. The livestock breeding room with the pollution discharge cleaning structure as claimed in claim 1, wherein the adjusting and flushing mechanism comprises a telescopic rod (104), a flushing frame (105), a limiting clamping groove A (1051), an adjusting frame A (106), an adjusting frame B (107), a damping telescopic rod A (108), a limiting block (109), a water tank A (2), a water pump A (201), a high-pressure spray head (202), a servo motor (3) and an eccentric wheel (301);

The utility model discloses a high-pressure water pump flushing device, including slide frame (103), shock absorber, water pump (201) and water guide hose (201) between, slide frame (103) inner wall front and back fixed mounting has telescopic link (104), and the supporting spring that is provided with in telescopic link (104) outside, fixed mounting has flushing frame (105) between telescopic link (104) tip side, flushing frame (105) inside is provided with alignment jig A (106) through the bearing rotation, alignment jig A (106) inside the place ahead slip is provided with alignment jig B (107), alignment jig A (108) behind alignment jig A (107), fixed mounting has damping telescopic link A (108) between alignment jig B (107) rear and alignment jig A (106) inner wall front, and damping telescopic link A (108), and the supporting spring that is provided with in damping telescopic link (108) outside, alignment jig B (107) rear is around fixed mounting stopper (109), flushing frame (105) the place ahead is close to alignment jig A (1051) rear embedding is provided with spacing draw-in groove A (1051), and stopper (109) close to the slip setting is inboard in spacing draw-in groove A (1051), slide frame (103) top is provided with water tank A (2), water tank A (202) the place ahead is embedded between water guide hose (201) and water guide hose (201) high-pressure water pump (201), a servo motor (3) is fixedly arranged above the inner wall of the sliding frame (103) and close to the front of the flushing frame (105), and the servo motor (3) is connected with an eccentric wheel (301) through an output shaft.

3. The livestock-raising room with a pollution discharge cleaning structure as set forth in claim 1, wherein the sundries collecting and disassembling mechanism consists of a chute (402), a limiting clamping frame (403), a damping telescopic rod B (404), a limiting clamping block (405), a collecting basket (5), a limiting clamping groove B (501) and a groove (502);

The utility model discloses a damping telescopic rod B, including baffle (401), baffle (401) below is provided with collects basket (5), it is provided with spacing draw-in groove B (501) to collect the embedding of basket (5) inner wall top both sides, baffle (401) top both sides embedding is provided with spout (402), the inside below relative slip of spout (402) is provided with spacing clamping frame (403), and spacing clamping frame (403) agrees with the slip setting inboard at spacing draw-in groove B (501), spacing clamping frame B (501) inner wall top embedding is provided with recess (502), spacing clamping frame (403) inner wall top fixed mounting has damping telescopic rod B (404) and damping telescopic rod B (404) outside supporting is provided with the spring, damping telescopic rod B (404) tip top fixed mounting has spacing fixture block (405), and spacing fixture block (405) agrees with the slip setting inboard at recess (502).

4. The livestock breeding room with a pollution discharge cleaning structure as claimed in claim 1, wherein the spraying bacteriostasis mechanism consists of a sliding rail (6), an electric roller A (601), a rotating disc (602), an electric roller B (603), teeth (604), a water tank B (7), a water pump B (701) and an atomization nozzle (702);

The utility model discloses a sewage draining groove, including sewage draining groove (4), including drain groove (4), drain groove (4) inner wall are provided with slide rail (6) inside through the bearing rotation, slide rail (6) inner circle is provided with rolling disc (602) through bearing rotation, slide rail (6) inner wall is close to rolling disc (602) oblique top all and is provided with electric gyro wheel B (603) through bearing rotation, and electric gyro wheel B (603) outer lane and rolling disc (602) outer lane equal fixed mounting have tooth (604), and are the interlock transmission setting between rolling disc (602) outer lane tooth (604) and electric gyro wheel B (603) outer lane tooth (604), rolling disc (602) side all imbeds and is provided with atomizer (702), the inside side of breed room (1) is provided with water tank B (7), water tank B (7) the place ahead embedding is provided with water pump B (701), and water pump B (701) and a plurality of atomizer (702) are connected through the water guide hose.

5. The livestock-raising room with blowdown washing structure of claim 2, wherein the limit clamping grooves A (1051) are arranged in a plurality of equidistant surrounding mode, and the high-pressure spray heads (202) are arranged in a plurality of equidistant parallel mode.

6. A livestock-raising room with blowdown washing structure as set forth in claim 3, wherein the surface of the collecting basket (5) is in a grid net shape, the limiting clamping groove B (501) is in an L shape, the limiting clamping frame (403) is in an L shape, the groove (502) is in a semicircle shape, and the limiting clamping block (405) is in a semicircle shape.

7. A livestock-raising room with blowdown washing structure as set forth in claim 4, wherein said slide rail (6) is arranged in a ring shape, said rotary disk (602) is provided in a plurality of equidistant surrounding arrangement, and said teeth (604) are provided in a plurality of equidistant surrounding arrangement in a trapezoid shape.