CN113751226A

CN113751226A - Livestock farm disinfection method

Info

Publication number: CN113751226A
Application number: CN202111053386.9A
Authority: CN
Inventors: 张超; 胡彦龙; 方河山
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-09
Filing date: 2021-09-09
Publication date: 2021-12-07

Abstract

The invention discloses a livestock farm disinfection method which is characterized by comprising the following steps: step a, designing a disinfection device, wherein the disinfection device comprises a bearing plate, a first supporting plate is fixedly connected to the bearing plate, a sliding groove is formed in the first supporting plate, a sliding rail is connected to the first supporting plate in a limiting sliding mode through the sliding groove, and a stirring mechanism for stirring disinfectant is arranged on the bearing plate; the shell is provided with a spraying mechanism for spraying disinfectant; b, during disinfection, an operator starts the motor, the motor drives the first bevel gear to rotate through the rotating shaft, the first bevel gear drives the second bevel gear to rotate, and the second bevel gear drives the first rotating rod to rotate, so that the movable wheel is driven to rotate, the disinfection device is driven to move, and manual push-pull is reduced; c, in the disinfection process, stirring the disinfectant by a stirring mechanism; d, cleaning the ground through a cleaning mechanism; and e, spraying disinfectant through a spraying mechanism to realize disinfection.

Description

Livestock farm disinfection method

Technical Field

The invention relates to the field of livestock breeding, in particular to a method for disinfecting a livestock farm.

Background

Animal husbandry is a production department for obtaining animal products such as meat, eggs, milk, wool, cashmere, skin, silk and medicinal materials by utilizing the physiological functions of animals such as livestock and poultry which are domesticated by human beings or wild animals such as deer, musk, fox, mink, otter and quail and converting pasture, feed and other plant energy into animal energy through artificial feeding and breeding. Is different from self-sufficient livestock breeding, and is mainly characterized by centralization, scale production and profit-making production purposes. Animal husbandry is an extremely important link for the exchange of substances between humans and the natural world.

At present, in animal husbandry place, in order to make the plant ground clean, need regularly manage, need disinfect to ground after managing, and general disinfection measure is: carry out the disinfection between the list to each room through manual or electronic laxative machine, work efficiency is low intensity of labour big, and disinfection efficiency is also low moreover, and the limitation is great.

Disclosure of Invention

The invention aims to provide a livestock farm disinfection method which has the advantages of reducing labor intensity and automatically stirring disinfectant and solves the problem of manual disinfection.

In order to achieve the purpose, the invention provides the following technical scheme: a method for disinfecting a livestock farm is characterized by comprising the following steps:

step a, designing a disinfection device, wherein the disinfection device comprises a bearing plate (1), a first supporting plate (12) is fixedly connected to the bearing plate (1), a sliding groove is formed in the first supporting plate (12), a sliding rail (31) is connected to the first supporting plate (12) in a limiting sliding mode through the sliding groove, and a shell (3) used for placing disinfection liquid is fixedly connected to the upper surface of the sliding rail (31); a motor frame (21) is fixedly connected to the bearing plate (1), a motor (2) is fixedly connected to the motor frame (21), an output end of the motor (2) is fixedly connected with a rotating shaft (22) penetrating through the bearing plate (1), a first bevel gear (221) is fixedly connected to an arc-shaped outline of the rotating shaft (22), and a connecting frame (11) is fixedly connected to the lower surface of the bearing plate (1); the lower surface of the connecting frame (11) is fixedly connected with a supporting block (111), the supporting block (111) close to one side of the motor (2) is rotatably connected with a first rotating rod (113), an arc-shaped outline of the first rotating rod (113) is fixedly connected with a moving wheel (112) and a second bevel gear (141) meshed with the first bevel gear (221), and a stirring mechanism for stirring disinfectant is arranged on the bearing plate (1); a spraying mechanism for spraying disinfectant is arranged on the shell (3);

step b, during disinfection, an operator starts the motor (2), the motor (2) drives the first bevel gear (221) to rotate through the rotating shaft (22), the first bevel gear drives the second bevel gear (141) to rotate, the second bevel gear (141) drives the first rotating rod (113) to rotate, and therefore the moving wheel (112) is driven to rotate, the disinfection device is moved, and manual pushing and pulling are reduced;

c, in the disinfection process, the stirring mechanism stirs the disinfectant;

d, cleaning the ground through a cleaning mechanism;

and e, spraying disinfectant through the spraying mechanism to realize disinfection.

In the scheme, the stirring mechanism comprises a crank (114) fixedly connected to a first rotating rod (113) far away from one side of the motor (2), and one end, far away from the first rotating rod (113), of the crank (114) is rotatably connected with a connecting rod (115) through a pin shaft.

In the step c, the screw rod (117) is limited by the through hole (131) on the first connecting plate (13) and can only move up and down, one end of the connecting rod (115) is hinged with the screw rod (117) through the hinge ball (116), the other end of the connecting rod is rotatably connected to the crank (114), and further when the first rotating rod (113) rotates, the crank (114) can drive the connecting rod (115) to be in circular motion with the joint of the crank, the circular motion is decomposed into vertical and horizontal motions, the vertical motion enables the connecting rod (115) to drive the screw rod (117) to move down, the horizontal sliding block (132) on the through hole (131) relatively slides in the spiral groove of the screw rod (117), and further the screw rod (117) can rotate, so that the second rotating rod (32) rotates to enable the stirrer (321) to rotate to achieve the effect of stirring the disinfectant.

In the scheme, a first connecting plate (13) is fixedly connected to the bearing plate (1), a through hole (131) is formed in the first connecting plate (13), a flat sliding block (132) is fixedly connected to the inner wall of the through hole (131), the through hole (131) is connected with a spiral rod (117) in a sliding mode through the flat sliding block (132), and a hinge ball (116) is fixedly connected to the lower surface of the spiral rod (117) and hinged to a connecting rod (115) through the hinge ball (116); the stirring mechanism further comprises a shaft sleeve (118) and a second rotating rod (32), wherein the shaft sleeve (118) and the second rotating rod (32) are fixedly connected to one end, far away from the hinged ball (116), of the spiral rod (117), a sliding groove is formed in the shaft sleeve (118) and is in limited sliding connection with the central sliding block (119) through the sliding groove, and a sliding groove is formed in the lower surface of the second rotating rod (32) and is in limited sliding connection with the central sliding block (119) through the sliding groove; the second rotating rod (32) penetrates through the bottom surface of the shell (3), extends into the shell (3) and is not on the same axis with the shell (3), the stirrer (321) positioned in the shell (3) is fixedly connected to the upper part of the second rotating rod (32), and a clamping block (324) is fixedly connected to the arc-shaped profile of the second rotating rod (32) and is clamped with the cam (322) through the clamping block (324); a circular ring (323) is fixedly connected to the cam (322), a rotary groove matched with the circular ring (323) is formed in the lower surface of the shell (3), and the cam (322) is provided with the cleaning mechanism for cleaning;

the cleaning mechanism comprises a first sliding rod (325), an oval sliding groove (329) is formed in the cam (322), the cam (322) is connected with the first sliding rod (325) in a sliding mode through the oval sliding groove (329), a sliding groove is formed in the first connecting plate (13), the sliding groove is connected with one end, far away from the cam (322), of the first sliding rod (325) in a limiting sliding mode through the sliding groove, a telescopic rod sleeve (326) is fixedly connected to the first sliding rod (325), a telescopic rod (327) is connected to the telescopic rod sleeve (326) in a sliding mode, a garbage shovel (328) is fixedly connected to the telescopic rod (327), and a second connecting plate (37) is fixedly connected to the upper surface of the first connecting plate (13); the utility model discloses a garbage shovel, including first connecting plate (37), second connecting plate (37) are last to have seted up oblique spout (371) and through oblique spout (371) and telescopic link (327) spacing sliding connection, one side fixedly connected with rubbish box (14) that bearing plate (1) are close to rubbish shovel (328).

In the step d, the cam (322) can rotate along with the second rotating rod (32) due to the fact that the clamping block (324) is connected to the second rotating rod (32), and when the cam (322) rotates due to the fact that the second rotating rod (32) and the shell (3) are not on the same axis, the shell (3) can slide along the chute direction of the first supporting plate (12); when the shell (3) slides, the second rotating rod (32) can slide along with the shell, and at the moment, the position compensation is achieved through the limiting sliding fit of the shaft sleeve (118), the central sliding block (119) and the second rotating rod (32), so that the second rotating rod (32) and the spiral rod (117) can still rotate in a matched mode when being eccentric; the cam (322) can rotate along with the second rotating rod (32) through the clamping block (324), cannot slide along with the second rotating rod (32), the supporting cam (322) is achieved through the circular ring (323), and the cam (322) cannot be interfered to rotate through the rotating groove when rotating; because the cooperation of first slide bar (325), oval spout (329) and spout reaches and makes when cam (322) rotate, first slide bar (325) slide along the spout direction for flexible rod cover (326) follow the slip, because oblique spout (371) and the spacing sliding connection of telescopic link (327) reach when first slide bar (325) slides to rubbish box (14) direction, telescopic link (327) make rubbish shovel (328) rise along oblique spout (371), thereby reach and pour rubbish into rubbish box (14) because inertia, when first slide bar (325) are located the spout and are close to motor (2) direction, rubbish shovel (328) and ground laminating this moment, make ground clean.

In the scheme, the spraying mechanism comprises a rack (38) fixedly connected with the upper surface of a shell (3), a second supporting plate (15) is fixedly connected onto the bearing plate (1), a third rotating rod (151) is fixedly connected onto the second supporting plate (15) in a fixed-shaft rotating manner, and a flat gear (152) meshed with the rack (38) is fixedly connected onto the arc-shaped profile of the third rotating rod (151);

the sealing device is characterized by further comprising a supporting column (33) fixedly connected to the upper surface of the shell (3), a piston cylinder (34) is fixedly connected to the supporting column (33), a sealing plug (341) is slidably connected to the inner wall of the piston cylinder (34), a spring (344) is fixedly connected to the lower bottom surface of the sealing plug (341), one end, far away from the sealing plug (341), of the spring (344) is fixedly connected to the inner wall of the piston cylinder (34), one end, far away from the spring (344), of the sealing plug (341) is fixedly connected with a second sliding rod (342), and one end, far away from the sealing plug (341), of the second sliding rod (342) is fixedly connected with a stop block (343);

the disinfectant spraying device is characterized by further comprising a connecting block (153) fixedly connected to one end, far away from the third rotating rod (151), of the flat gear (152), a spraying head (36) is fixedly connected to the connecting block (153), one side, close to the connecting block (153), of the spraying head (36) is rotatably connected with a first conveying pipe (35), a first one-way valve (351) is fixedly connected to the first conveying pipe (35), one end, far away from the spraying head (36), of the first conveying pipe (35) is fixedly communicated with a piston cylinder (34), one end, far away from the first conveying pipe (35), of the piston cylinder (34) is fixedly communicated with a second conveying pipe (352), a second one-way valve (353) is fixedly connected to the second conveying pipe (352), and one end, far away from the piston cylinder (34), of the second conveying pipe (352) penetrates through the upper surface of the shell (3) and is located below the surface of disinfectant;

the disinfection device is characterized by further comprising a supporting rod (391) fixedly connected to the upper surface of the shell (3), a water pump (39) is fixedly connected to the upper surface of the supporting rod (391), a second conveying pipe (352) is fixedly connected to the lower surface of the water pump (39), one end, far away from the water pump (39), of the second conveying pipe (352) penetrates through the upper surface of the shell (3) and is located below the surface of disinfectant liquid, and a spraying head (36) is fixedly connected to the water pump (39).

In the step e, when the shell (3) slides in a reciprocating manner, the rack (38) slides in a reciprocating manner, the flat gear (152) is meshed with the rack to enable the flat gear to rotate in a reciprocating manner, namely the connecting block (153) rotates in a reciprocating manner, so that the sprinkler head (36) rotates in a reciprocating manner, and when the sprinkler head rotates in a forward direction, the sprinkler head abuts against the stop block (343), so that the second sliding rod (342) and the sealing plug (341) slide along the piston cylinder (34); when the sprinkler head (36) rotates reversely, the spring (344) generates upward elastic force along the piston cylinder (34) to reset the sealing plug (341) and the second sliding rod (342), so that negative pressure is generated, the second delivery pipe (352) delivers the disinfectant from the shell (3) to the piston cylinder (34), and the disinfectant in the piston cylinder (34) is delivered to the sprinkler head (36) by the first delivery pipe (35), so that the sprinkler head sprays the disinfectant.

The beneficial effects are as follows:

1. the disinfection device provided by the invention achieves the effect of uniformly spraying the disinfectant by matching the whole mechanism when the disinfection device is moved.

2. The invention achieves the effect that the disinfectant can not be precipitated when in the shell by arranging the stirring mechanism, thereby achieving the best effect when in use.

3. By arranging the cleaning mechanism, the invention achieves the effect of cleaning ground garbage when the disinfection device moves.

4. According to the invention, by arranging the spraying mechanism, the spraying head swings when spraying the disinfectant, so that the disinfectant is sprayed more uniformly.

Drawings

FIG. 1 is a schematic view of the overall appearance of a disinfecting device used in the present invention;

FIG. 2 is a schematic view of a first bevel gear and a second bevel gear of a sterilization device used in the present invention;

FIG. 3 is a first schematic structural view of a stirring mechanism of the disinfection apparatus of the present invention;

FIG. 4 is a second schematic structural view of a stirring mechanism of the disinfecting device of the present invention;

FIG. 5 is an exploded view of the stirring mechanism of the disinfection apparatus used in the present invention;

FIG. 6 is a schematic cross-sectional view of a stirring mechanism of a disinfecting device according to the present invention;

FIG. 7 is a schematic view of a cleaning mechanism of a disinfecting device used in the present invention;

FIG. 8 is a first schematic view of the spraying mechanism of the disinfection apparatus according to the present invention;

FIG. 9 is a first schematic sectional view of a spraying mechanism of a disinfecting device according to the present invention;

FIG. 10 is a schematic structural appearance view II of a spraying mechanism of the disinfecting device adopted by the present invention;

FIG. 11 is a schematic sectional view of a spraying mechanism of a disinfecting device according to the present invention.

In the figure: 1. a bearing plate; 11. a connecting frame; 111. a support block; 112. a moving wheel; 113. a first rotating lever; 114. a crank; 115. a connecting rod; 116. hinging the ball; 117. a screw rod; 118. a shaft sleeve; 119. a central slider; 12. a first support plate; 13. a first connecting plate; 131. a through hole; 132. a flat sliding block; 14. a trash box; 141. a second bevel gear; 15. a second support plate; 151. a third rotating rod; 152. a flat gear; 153. connecting blocks; 2. a motor; 21. a motor frame; 22. a rotating shaft; 221. a first bevel gear; 3. a housing; 31. a slide rail; 32. a second rotating lever; 321. a stirrer; 322. a cam; 323. a circular ring; 324. a clamping block; 325. a first slide bar; 326. a telescopic rod sleeve; 327. a telescopic rod; 328. a garbage shovel; 329. an elliptical chute; 33. a support pillar; 34. a piston cylinder; 341. a sealing plug; 342. a second slide bar; 343. a stopper; 344. a spring; 35. a first delivery pipe; 351. a first check valve; 352. a second delivery pipe; 353. a second one-way valve; 36. a sprinkler head; 37. a second connecting plate; 371. an inclined chute; 38. a rack; 39. a water pump; 391. a support rod.

Detailed Description

A method for disinfecting a livestock farm is characterized by comprising the following steps:

step a, designing a disinfection device.

Example one

The invention provides a technical scheme that: a method for disinfecting a livestock farm comprises a bearing plate 1, wherein a first supporting plate 12 is fixedly connected to the bearing plate 1, a sliding groove is formed in the first supporting plate 12, a sliding rail 31 is connected with the first supporting plate in a limiting sliding mode through the sliding groove, a shell 3 used for placing disinfectant is fixedly connected to the upper surface of the sliding rail 31, a motor frame 21 is fixedly connected to the bearing plate 1, a motor 2 is fixedly connected to the motor frame 21, an output end of the motor 2 is fixedly connected with a rotating shaft 22 penetrating through the bearing plate 1, a first conical gear 221 is fixedly connected to the arc contour of the rotating shaft 22, a connecting frame 11 is fixedly connected to the lower surface of the bearing plate 1, a supporting block 111 is fixedly connected to the lower surface of the connecting frame 11, a first rotating rod 113 is rotatably connected to the supporting block 111 close to one side of the motor 2, a moving wheel 112 and a second conical gear 141 meshed with the first conical gear 221 are fixedly connected to the arc contour of the first rotating rod 113, the bearing plate 1 is provided with a stirring mechanism for stirring the disinfectant.

Referring to fig. 1 and 2, the effect of supporting the whole equipment is achieved by arranging the bearing plate 1, the sliding groove is formed by arranging the first supporting plate 12 to achieve the effect that the sliding rail 31 can slide in a limiting manner, namely, the sliding movement of the shell 3 in a limiting manner, the motor frame 21 is arranged, the motor 2 achieves the effect that the rotating shaft 22 rotates, namely, the first bevel gear 221 rotates, and the second bevel gear 141 rotates, namely, the first rotating rod 113 rotates by arranging the second bevel gear 141 and the first bevel gear 221 to mesh with each other, so that the sterilizing device can move due to the rotation of the moving wheel 112.

Further, rabbling mechanism is including fixed connection at the first crank 114 of keeping away from on the first rotation pole 113 of motor 2 one side, the one end that first rotation pole 113 was kept away from to crank 114 is connected with connecting rod 115 through the round pin hub rotation, the first connecting plate 13 of fixedly connected with on the bearing plate 1, through-hole 131 has been seted up on the first connecting plate 13, fixedly connected with smooth block 132 on the inner wall of through-hole 131, through-hole 131 has hob 117 through smooth block 132 sliding connection, the lower fixed surface of hob 117 is connected with hinge ball 116 and is articulated through hinge ball 116 and connecting rod 115.

Referring to fig. 3, 4, 5 and 6, the crank 114 is arranged to achieve the effect of rotating the connecting rod 115, the first connecting plate 13 is arranged to form the through hole 131 to achieve the effect of connecting the horizontal sliding block 132 and the screw rod 117 to slide through the horizontal sliding block 132 in the through hole 131, and the hinge ball 116 is arranged to achieve the effect of sliding and rotating the screw rod 117 when the connecting rod 115 rotates.

Further, rabbling mechanism is still including fixed connection at the axle sleeve 118 and the second dwang 32 that the hob 117 kept away from hinge ball 116 one end, seted up the spout on the axle sleeve 118 and had central slider 119 through the spacing sliding connection of spout, the spout has been seted up to the lower surface of second dwang 32 and has been passed through spout and the spacing sliding connection of central slider 119, second dwang 32 runs through the bottom surface of casing 3 and extends to in casing 3 and not on same axis with casing 3, the last fixedly connected with of second dwang 32 is located the agitator 321 of casing 3, fixedly connected with fixture block 324 on the arc profile of second dwang 32 and through fixture block 324 and cam 322 joint, fixedly connected with ring 323 on the cam 322, the lower surface of casing 3 is seted up with ring 323 complex rotary groove.

Referring to fig. 3, 4, 5 and 6, when the housing 3 slides by disposing the shaft sleeve 118, the central slider 119 and the second rotating rod 32, the second rotating rod 32 can slide along with the housing, at this time, the screw 117 is rotated by the limit sliding fit of the shaft sleeve 118, the central slider 119 and the second rotating rod 32, the second rotating rod 32 can still rotate, the rotation of the stirrer 321 can be achieved by disposing the second rotating rod 32, the disinfectant can be stirred by disposing the stirrer 321, the cam 322 can rotate along with the second rotating rod 32 by disposing the fixture block 324, the cam 322 can not slide along with the second rotating rod 32, the cam 322 can be supported by disposing the ring 323, the cam 322 can not be interfered by the rotating groove when rotating, when the cam 322 rotates by disposing the second rotating rod 32 and the housing 3 not on the same axis, the housing 3 will slide.

Further, be equipped with on the cam 322 and be used for cleaning sanitary clearance mechanism, clearance mechanism is including first slide bar 325, oval spout 329 has been seted up on the cam 322 and first slide bar 325 has through oval spout 329 sliding connection, the spacing sliding connection of one end that the cam 322 was kept away from through spout and first slide bar 325 to the spout has been seted up on first connecting plate 13, fixedly connected with telescopic link cover 326 on the first slide bar 325, sliding connection has telescopic link 327 on the telescopic link cover 326, fixedly connected with rubbish shovel 328 on the telescopic link 327, the last fixed surface of first connecting plate 13 is connected with second connecting plate 37, set up oblique spout 371 on the second connecting plate 37 and through oblique spout 371 and the spacing sliding connection of telescopic link 327, one side fixedly connected with rubbish box 14 that bearing plate 1 is close to rubbish shovel 328.

Referring to fig. 5 and 7, reach first slide bar 325 along the gliding effect of spout direction through setting up first slide bar 325, oval spout 329 and spout, slide through setting up first slide bar 325 and reach telescopic link cover 326 and follow gliding effect, reach when first slide bar 325 slides to rubbish box 14 direction through setting up oblique spout 371 and the spacing sliding connection of telescopic link 327, telescopic link 327 makes rubbish shovel 328 rise along oblique spout 371, thereby reach and pour rubbish into rubbish box 14 in, when first slide bar 325 is located the spout and is close to motor 2 direction, rubbish shovel 328 laminates with ground this moment, make the effect on clean ground.

Further, be equipped with the sprinkling mechanism that is used for the antiseptic solution to spray on casing 3, sprinkling mechanism is including the rack 38 of fixedly connected with casing 3 upper surface, fixedly connected with second backup pad 15 on the bearing plate 1, and the dead axle rotates on the second backup pad 15 and is connected with third dwang 151, fixedly connected with and rack 38 meshed's spur gear 152 on the arc profile of third dwang 151.

Referring to fig. 8 and 9, when the housing 3 is reciprocally slid by providing the rack gear 38, the rack gear 38 follows the reciprocal sliding effect, the flat gear 152 reciprocally rotates by providing the flat gear 152 to be engaged with the rack gear 38, and the flat gear 152 is supported by providing the second support plate 15 and the third rotation lever 151.

Further, the spraying mechanism further comprises a supporting column 33 fixedly connected to the upper surface of the housing 3, a piston cylinder 34 is fixedly connected to the supporting column 33, a sealing plug 341 is slidably connected to the inner wall of the piston cylinder 34, a spring 344 is fixedly connected to the lower bottom surface of the sealing plug 341, one end, far away from the sealing plug 341, of the spring 344 is fixedly connected to the inner wall of the piston cylinder 34, one end, far away from the spring 344, of the sealing plug 341 is fixedly connected to a second sliding rod 342, and one end, far away from the sealing plug 341, of the second sliding rod 342 is fixedly connected to a stop 343.

Referring to fig. 8 and 9, the supporting effect of the piston cylinder 34 is achieved by the supporting column 33, the sealing plug 341 and the second sliding rod 342 are arranged so that when the flat gear 152 rotates in a reciprocating manner, the sprinkler head 36 rotates in a reciprocating manner, and when the sprinkler head 36 rotates in a reverse direction, the sealing plug 341 and the second sliding rod 342 abut against the stop 343, so that the second sliding rod 342 and the sealing plug 341 slide along the piston cylinder 34, and when the sprinkler head 36 rotates in a reverse direction, the spring 344 generates an upward elastic force along the piston cylinder 34, so that the sealing plug 341 and the second sliding rod 342 are reset, thereby generating a negative pressure, and spraying the disinfectant from the sprinkler head 36, thereby achieving disinfection.

Further, the spraying mechanism further comprises a connecting block 153 fixedly connected to one end, far away from the third rotating rod 151, of the flat gear 152, a spraying head 36 is fixedly connected to the connecting block 153, one side, close to the connecting block 153, of the spraying head 36 is rotatably connected with a first delivery pipe 35, a first one-way valve 351 is fixedly connected to the first delivery pipe 35, one end, far away from the spraying head 36, of the first delivery pipe 35 is fixedly communicated with the piston cylinder 34, one end, far away from the first delivery pipe 35, of the piston cylinder 34 is fixedly communicated with a second delivery pipe 352, a second one-way valve 353 is fixedly connected to the second delivery pipe 352, and one end, far away from the piston cylinder 34, of the second delivery pipe 352 penetrates through the upper surface of the casing 3 and is located below the surface of the disinfectant.

Referring to fig. 8 and 9, when the flat gear 152 rotates by the connection block 153, the sprinkler 36 rotates, the disinfectant generated by the negative pressure through the first delivery pipe 35 is delivered to the sprinkler 36 through the first delivery pipe 35 to spray the disinfectant, the disinfectant does not flow back through the first check valve 351, the disinfectant in the housing 3 is delivered to the piston cylinder 34 through the second delivery pipe 352, and the disinfectant does not flow back through the second check valve 353.

Example two

The difference from the first embodiment is that a spraying mechanism for spraying disinfectant is disposed on the housing 3, the spraying mechanism includes a support rod 391 fixedly connected to the upper surface of the housing 3, a water pump 39 is fixedly connected to the upper surface of the support rod 391, a second delivery pipe 352 is fixedly connected to the lower surface of the water pump 39, one end of the second delivery pipe 352, which is far away from the water pump 39, penetrates through the upper surface of the housing 3 and is located below the surface of the disinfectant, and a spraying head 36 is fixedly connected to the water pump 39.

Referring to fig. 10 and 11, the supporting rod 391 is used to support the water pump 39, the second delivery pipe 352 and the water pump 39 are used to pump the disinfectant out of the casing 3, and the spraying head 36 is used to spray the pumped disinfectant out.

Step b, during disinfection, an operator starts the motor 2, the motor 2 drives the first bevel gear 221 to rotate through the rotating shaft 22, the first bevel gear drives the second bevel gear 141 to rotate, the second bevel gear 141 drives the first rotating rod 113 to rotate, and therefore the moving wheel 112 is driven to rotate, so that the disinfection device is moved, and manual pushing and pulling are reduced;

c, in the disinfection process, stirring the disinfectant by a stirring mechanism; in step c, the screw 117 is limited by the through hole 131 of the first connecting plate 13, and only moves up and down, one end of the connecting rod 115 is hinged to the screw 117 through the hinge ball 116, the other end of the connecting rod is rotatably connected to the crank 114, and further when the first rotating rod 113 rotates, the crank 114 can drive the connecting rod 115 to be connected with the crank to move circumferentially, the circumferential movement is decomposed into vertical and horizontal movements, the vertical movement enables the connecting rod 115 to drive the screw 117 to move downwards, the flat sliding block 132 on the through hole 131 slides relatively in the spiral groove of the screw 117, and the screw 117 can rotate, so that the second rotating rod 32 rotates to enable the stirrer 321 to rotate to achieve the effect of stirring the disinfectant.

D, cleaning the ground through a cleaning mechanism; in step d, since the latch 324 is connected to the second rotating rod 32, the cam 322 can rotate along with the second rotating rod 32, and when the second rotating rod 32 and the housing 3 are not on the same axis, the housing 3 can slide along the sliding slot of the first support plate 12; when the housing 3 slides, the second rotating rod 32 can simultaneously slide, and at this time, the position compensation is achieved through the limit sliding fit of the shaft sleeve 118, the central slider 119 and the second rotating rod 32, so that the second rotating rod 32 can still rotate in a matched manner when being eccentric to the spiral rod 117; the cam 322 rotates along with the second rotating lever 32 without sliding along with the second rotating lever 32 by the latch 324, and the cam 322 is supported by the ring 323 without interfering with the rotation of the cam 322 by the rotating groove when the cam 322 rotates; because the cooperation of first slide bar 325, oval spout 329 and spout reaches and makes when cam 322 rotates, first slide bar 325 slides along the spout direction for telescopic link cover 326 follows the slip, because the spacing sliding connection of oblique spout 371 and telescopic link 327 reaches when first slide bar 325 slides to rubbish box 14 direction, telescopic link 327 makes rubbish shovel 328 rise along oblique spout 371, thereby reach and pour rubbish into rubbish box 14 because inertia into, when first slide bar 325 is located the spout and is close to motor 2 direction, rubbish shovel 328 and ground laminating this moment, it is clean to make ground.

And e, spraying disinfectant through a spraying mechanism to realize disinfection. In step e, when the housing 3 slides back and forth, the rack 38 slides back and forth, the flat gear 152 is meshed with the rack to make the flat gear rotate back and forth, that is, the connecting block 153 rotates back and forth, so that the sprinkler head 36 rotates back and forth, and when the sprinkler head rotates forward, the second sliding rod 342 and the sealing plug 341 slide along the piston cylinder 34; when sprinkler head 36 is rotated in the reverse direction, spring 344 generates an upward elastic force along piston cylinder 34, so that sealing plug 341 and second sliding rod 342 are reset, thereby generating a negative pressure, second delivery pipe 352 delivers sterilizing fluid from inside housing 3 to piston cylinder 34, and sterilizing fluid inside piston cylinder 34 is delivered to sprinkler head 36 by first delivery pipe 35, so that the sprinkler head sprays sterilizing fluid.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A method for disinfecting a livestock farm is characterized by comprising the following steps:

c, in the disinfection process, the stirring mechanism stirs the disinfectant;

d, cleaning the ground through a cleaning mechanism;

2. A method of disinfecting a livestock farm according to claim 1, characterized in that: the stirring mechanism comprises a crank (114) fixedly connected to a first rotating rod (113) far away from one side of the motor (2), and one end, far away from the first rotating rod (113), of the crank (114) is rotatably connected with a connecting rod (115) through a pin shaft.

3. A method of sterilizing a livestock farm according to claim 2, characterized in that: in the step c, the screw rod (117) is limited by the through hole (131) on the first connecting plate (13) and can only move up and down, one end of the connecting rod (115) is hinged with the screw rod (117) through the hinge ball (116), the other end of the connecting rod is rotatably connected to the crank (114), and further when the first rotating rod (113) rotates, the crank (114) can drive the connecting rod (115) to be in circular motion with the joint of the crank, the circular motion is decomposed into vertical and horizontal motions, the vertical motion enables the connecting rod (115) to drive the screw rod (117) to move down, the horizontal sliding block (132) on the through hole (131) relatively slides in the spiral groove of the screw rod (117), and further the screw rod (117) can rotate, so that the second rotating rod (32) rotates to enable the stirrer (321) to rotate to achieve the effect of stirring the disinfectant.

4. A method of disinfecting a livestock farm according to claim 1, characterized in that: the bearing plate (1) is fixedly connected with a first connecting plate (13), a through hole (131) is formed in the first connecting plate (13), a flat sliding block (132) is fixedly connected to the inner wall of the through hole (131), the through hole (131) is connected with a spiral rod (117) in a sliding mode through the flat sliding block (132), and the lower surface of the spiral rod (117) is fixedly connected with a hinge ball (116) and hinged with a connecting rod (115) through the hinge ball (116); the stirring mechanism further comprises a shaft sleeve (118) and a second rotating rod (32), wherein the shaft sleeve (118) and the second rotating rod (32) are fixedly connected to one end, far away from the hinged ball (116), of the spiral rod (117), a sliding groove is formed in the shaft sleeve (118) and is in limited sliding connection with the central sliding block (119) through the sliding groove, and a sliding groove is formed in the lower surface of the second rotating rod (32) and is in limited sliding connection with the central sliding block (119) through the sliding groove; the second rotating rod (32) penetrates through the bottom surface of the shell (3), extends into the shell (3) and is not on the same axis with the shell (3), the stirrer (321) positioned in the shell (3) is fixedly connected to the upper part of the second rotating rod (32), and a clamping block (324) is fixedly connected to the arc-shaped profile of the second rotating rod (32) and is clamped with the cam (322) through the clamping block (324); a circular ring (323) is fixedly connected to the cam (322), a rotary groove matched with the circular ring (323) is formed in the lower surface of the shell (3), and the cam (322) is provided with the cleaning mechanism for cleaning;

5. A method of disinfecting a livestock farm according to claim 4, characterized in that: in the step d, the cam (322) can rotate along with the second rotating rod (32) due to the fact that the clamping block (324) is connected to the second rotating rod (32), and when the cam (322) rotates due to the fact that the second rotating rod (32) and the shell (3) are not on the same axis, the shell (3) can slide along the chute direction of the first supporting plate (12); when the shell (3) slides, the second rotating rod (32) can slide along with the shell, and at the moment, the position compensation is achieved through the limiting sliding fit of the shaft sleeve (118), the central sliding block (119) and the second rotating rod (32), so that the second rotating rod (32) and the spiral rod (117) can still rotate in a matched mode when being eccentric; the cam (322) can rotate along with the second rotating rod (32) through the clamping block (324), cannot slide along with the second rotating rod (32), the supporting cam (322) is achieved through the circular ring (323), and the cam (322) cannot be interfered to rotate through the rotating groove when rotating; because the cooperation of first slide bar (325), oval spout (329) and spout reaches and makes when cam (322) rotate, first slide bar (325) slide along the spout direction for flexible rod cover (326) follow the slip, because oblique spout (371) and the spacing sliding connection of telescopic link (327) reach when first slide bar (325) slides to rubbish box (14) direction, telescopic link (327) make rubbish shovel (328) rise along oblique spout (371), thereby reach and pour rubbish into rubbish box (14) because inertia, when first slide bar (325) are located the spout and are close to motor (2) direction, rubbish shovel (328) and ground laminating this moment, make ground clean.

6. A method of disinfecting a livestock farm according to claim 1, characterized in that: the spraying mechanism comprises a rack (38) fixedly connected with the upper surface of the shell (3), a second supporting plate (15) is fixedly connected onto the bearing plate (1), a third rotating rod (151) is connected onto the second supporting plate (15) in a fixed-shaft rotating manner, and a flat gear (152) meshed with the rack (38) is fixedly connected onto the arc-shaped outline of the third rotating rod (151);

7. A method of sterilizing a livestock farm according to claim 6, characterized in that: in the step e, when the shell (3) slides in a reciprocating manner, the rack (38) slides in a reciprocating manner, the flat gear (152) is meshed with the rack to enable the flat gear to rotate in a reciprocating manner, namely the connecting block (153) rotates in a reciprocating manner, so that the sprinkler head (36) rotates in a reciprocating manner, and when the sprinkler head rotates in a forward direction, the sprinkler head abuts against the stop block (343), so that the second sliding rod (342) and the sealing plug (341) slide along the piston cylinder (34); when the sprinkler head (36) rotates reversely, the spring (344) generates upward elastic force along the piston cylinder (34) to reset the sealing plug (341) and the second sliding rod (342), so that negative pressure is generated, the second delivery pipe (352) delivers the disinfectant from the shell (3) to the piston cylinder (34), and the disinfectant in the piston cylinder (34) is delivered to the sprinkler head (36) by the first delivery pipe (35), so that the sprinkler head sprays the disinfectant.