CN110771518A - Ground cleaning device for animal husbandry - Google Patents

Abstract

The invention discloses a ground cleaning device for animal husbandry, which comprises a main body shell. The invention can realize the generating and discharging function of high-pressure air and the generating and discharging function of high-pressure liquid by using the power provided by a driving motor, thereby leading the device to carry out timely air impact after high-pressure water flow impacts the ground, leading the water flow impact to clean waste on the ground, leading the high-pressure air to clean water flow attached to the ground, further accelerating the cleaning efficiency and the cleaning effect, and the device is provided with a circular array spiral spring contact type maximum rotation intensity control mechanism which can generate stable pressure output and simultaneously protect the driving motor, in addition, the device is provided with a thread structure type medium flow speed control mechanism which can control the speed when the internal air is discharged outwards, thereby fully utilizing the power of the motor, in addition, the device is provided with a bolt mounting type rolling mechanism which can be arranged on the side surface of a part, movement of the device is achieved.

Description

Ground cleaning device for animal husbandry

Technical Field

The invention relates to the technical field of animal husbandry, in particular to a ground cleaning device for the animal husbandry.

Background

At present, in animal husbandry places, due to the fact that cleaning areas are large, a high-pressure water gun is used for impacting in a general mode, but the cleaning efficiency is low.

Disclosure of Invention

The present invention is directed to a ground cleaning device for animal husbandry to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: a ground cleaning device for animal husbandry comprises a main body shell, wherein bolt installation type rolling mechanisms are installed at the bottoms of the two sides of the main body shell, a driving motor installation shell is installed at the top of the main body shell, a driving motor is installed inside the driving motor installation shell, a main part installation space is arranged at the center of the top of the main body shell, a turbine installation space is arranged below the main part installation space of the main body shell, a main air inlet hole communicated with the external space and the turbine installation space is formed inside the main body shell, a liquid storage space is arranged below the turbine installation space of the main body shell, a main first exhaust hole communicated with the exhaust part of the turbine installation space and the top of the liquid storage space is formed inside the main body shell, a main liquid inlet hole communicated with the top of the side face of the liquid storage space and the external space is formed inside the main body shell, a main feed liquor hole internally mounted liquid valve, main body cover's inside is being located liquid storage space side top is provided with main second exhaust hole, main second exhaust hole is provided with auxiliary components installation space at longitudinal position, an internally mounted screw thread structural formula medium flow velocity control mechanism of auxiliary components installation space, main second exhaust hole bottom is provided with horizontal air preformed hole, main body cover's inside is provided with a plurality of side exhaust holes that communicate external space and horizontal air preformed hole, main body cover's inside is provided with the curved liquid discharge hole of intercommunication liquid storage space side bottom, the bottom of curved liquid discharge hole is provided with liquid preformed hole, the bottom of liquid preformed hole is provided with a plurality of inclined plane liquid discharge holes that communicate external space, the inside of main part installation space supports contact maximum rotation intensity control mechanism top center and driving motor through a main bearing installation annular array coil spring The bottom end of the motor spindle is fixedly connected, a main rotating shaft is arranged at the center of the bottom end of the annular array spiral spring abutting type maximum rotating strength control mechanism, and a turbine is arranged on a shaft body located in the turbine mounting space of the main rotating shaft.

Further, the annular array coil spring contact type maximum rotation strength control mechanism comprises a main hollow shell for the annular array coil spring contact type maximum rotation strength control mechanism, a main hollow section for the annular array coil spring contact type maximum rotation strength control mechanism, a rotary column for the annular array coil spring contact type maximum rotation strength control mechanism, a semicircular groove structure for the annular array coil spring contact type maximum rotation strength control mechanism, an auxiliary hollow section for the annular array coil spring contact type maximum rotation strength control mechanism, a movable plate for the annular array coil spring contact type maximum rotation strength control mechanism, a coil spring for the annular array coil spring contact type maximum rotation strength control mechanism and a push rod for the annular array coil spring contact type maximum rotation strength control mechanism; the center of one end face of the main hollow shell for the annular array spiral spring contact type maximum rotation strength control mechanism is fixedly connected with the end part of a motor spindle, the center of the inner part of the main hollow shell for the annular array spiral spring contact type maximum rotation strength control mechanism is a main hollow section for the annular array spiral spring contact type maximum rotation strength control mechanism, a rotary column for the annular array spiral spring contact type maximum rotation strength control mechanism is sleeved in the main hollow section for the annular array spiral spring contact type maximum rotation strength control mechanism, the inner part of the main hollow shell for the annular array spiral spring contact type maximum rotation strength control mechanism is an auxiliary hollow section for the annular array spiral spring contact type maximum rotation strength control mechanism, a movable plate for the annular array helical spring contact type maximum rotation strength control mechanism is arranged in an end face of the auxiliary hollow section for the annular array helical spring contact type maximum rotation strength control mechanism, the movable plate is positioned at one end face of the main hollow section for the annular array helical spring contact type maximum rotation strength control mechanism, a helical spring for the annular array helical spring contact type maximum rotation strength control mechanism is fixed between the ends of the movable plates for the annular array helical spring contact type maximum rotation strength control mechanism in the auxiliary hollow section for the annular array helical spring contact type maximum rotation strength control mechanism, a push rod for the annular array helical spring contact type maximum rotation strength control mechanism is arranged on one end face of the movable plate for the annular array helical spring contact type maximum rotation strength control mechanism, and the push rod is of an integral structure with the movable plate, and the annular array helical spring contact type maximum rotation strength control mechanism push rod penetrates through the main hollow shell body for the annular array helical spring contact type maximum rotation strength control mechanism and is positioned in the main hollow section for the annular array helical spring contact type maximum rotation strength control mechanism, one end of the annular array helical spring contact type maximum rotation strength control mechanism push rod in the main hollow section for the annular array helical spring contact type maximum rotation strength control mechanism is in a semicircular structure, a semicircular groove structure for the annular array helical spring contact type maximum rotation strength control mechanism is arranged on the side surface of the rotary column for the annular array helical spring contact type maximum rotation strength control mechanism, and the semicircular groove structure is used for placing the end part of the annular array helical spring contact type maximum rotation strength control mechanism push rod, the annular array spiral spring abutting type maximum rotation strength control mechanism is fixed with one end of the main rotating shaft through one end of the rotating column.

Further, the initial length of the coil spring for the annular array coil spring contact type maximum rotation strength control mechanism is larger than the length of the auxiliary hollow section for the annular array coil spring contact type maximum rotation strength control mechanism.

Furthermore, the structural shape of the end part of the push rod for the annular array spiral spring contact type maximum rotation strength control mechanism is consistent with the structural shape of the semicircular groove structure for the annular array spiral spring contact type maximum rotation strength control mechanism.

Further, the thread structure type medium flow rate control mechanism includes a housing for the thread structure type medium flow rate control mechanism, a center hole for the thread structure type medium flow rate control mechanism, a valve rod insertion hole for the thread structure type medium flow rate control mechanism, a movement space for the thread structure type medium flow rate control mechanism, a moving plate for the thread structure type medium flow rate control mechanism, a valve rod for the thread structure type medium flow rate control mechanism, a bearing for the thread structure type medium flow rate control mechanism, a threaded rod for the thread structure type medium flow rate control mechanism, a thread structure for the thread structure type medium flow rate control mechanism, and a rotating plate for the thread structure type medium flow rate control mechanism; the thread structure type medium flow speed control mechanism is characterized in that a central hole for the thread structure type medium flow speed control mechanism is arranged at the center of the central hole for the thread structure type medium flow speed control mechanism, a valve rod inserting hole for the thread structure type medium flow speed control mechanism is arranged in the shell for the thread structure type medium flow speed control mechanism, a moving space for the thread structure type medium flow speed control mechanism is arranged at the top of the valve rod inserting hole for the thread structure type medium flow speed control mechanism, a moving plate for the thread structure type medium flow speed control mechanism is arranged in the moving space for the thread structure type medium flow speed control mechanism, and a valve rod for the thread structure type medium flow speed control mechanism is arranged in the valve rod inserting hole for the thread structure type medium flow speed control mechanism, the top of the valve rod for the thread structural medium flow speed control mechanism is arranged at the center of the bottom of a movable plate for the thread structural medium flow speed control mechanism, the center of the upper surface of the movable plate for the thread structural medium flow speed control mechanism is provided with a threaded rod for the thread structural medium flow speed control mechanism through a bearing for the thread structural medium flow speed control mechanism, the rod body of the threaded rod for the thread structural medium flow speed control mechanism is arranged at the center of the top of a shell for the thread structural medium flow speed control mechanism through a thread structure for the thread structural medium flow speed control mechanism, and the top end of the threaded rod for the thread structural medium flow speed control mechanism is provided with a rotating plate for the thread structural medium flow speed control mechanism.

Furthermore, the thread structure for the thread structure type medium flow speed control mechanism comprises an external thread structure arranged on a threaded rod body for the thread structure type medium flow speed control mechanism and an internal thread structure arranged on the inner wall of a shell for the structure moving screwing type liquid flow control mechanism.

Furthermore, the shell for the thread structure type medium flow speed control mechanism is arranged in the auxiliary component mounting space, and the central hole for the thread structure type medium flow speed control mechanism is communicated with the main second exhaust hole.

Further, the bolt-mounted rolling mechanism comprises a connecting plate for the bolt-mounted rolling mechanism, a bolt hole for the bolt-mounted rolling mechanism, a transverse supporting rod for the bolt-mounted rolling mechanism, a bearing for the bolt-mounted rolling mechanism, a shaft sleeve for the bolt-mounted rolling mechanism, a longitudinal connecting shaft for the bolt-mounted rolling mechanism and an annular roller for the bolt-mounted rolling mechanism; the bolt installation type rolling mechanism is characterized in that a plurality of bolt holes for bolt installation type rolling mechanisms are formed in the connecting plate for the bolt installation type rolling mechanism, a transverse supporting rod for the bolt installation type rolling mechanism is installed at the center of one end face of the connecting plate for the bolt installation type rolling mechanism, one end of the transverse supporting rod for the bolt installation type rolling mechanism is installed in an inner ring of a bearing for the bolt installation type rolling mechanism, the bearing for the bolt installation type rolling mechanism is sleeved in an inner hole of a shaft sleeve for the bolt installation type rolling mechanism, a plurality of longitudinal connecting shafts for the bolt installation type rolling mechanism are installed on the side face of the shaft sleeve for the bolt installation type rolling mechanism, and a plurality of annular rollers for the bolt installation type rolling mechanism are installed at outward connecting ends of the longitudinal connecting shafts for the bolt installation type rolling mechanism.

Further, the bolt-mounted rolling mechanism is mounted at the bottom of the side face of the main body housing by a connecting plate through a bolt.

Further, a plurality of the bolt-mounted rolling mechanism connecting plates are symmetrically arranged about a transverse center line of the main body housing.

Compared with the prior art, the invention has the beneficial effects that: the invention can realize the generating and discharging function of high-pressure air and the generating and discharging function of high-pressure liquid by using the power provided by a driving motor, thereby leading the device to carry out timely air impact after high-pressure water flow impacts the ground, leading the water flow impact to clean waste on the ground, leading the high-pressure air to clean water flow attached to the ground, further accelerating the cleaning efficiency and the cleaning effect, and the device is provided with a circular array spiral spring contact type maximum rotation intensity control mechanism which can generate stable pressure output and simultaneously protect the driving motor, in addition, the device is provided with a thread structure type medium flow speed control mechanism which can control the speed when the internal air is discharged outwards, thereby fully utilizing the power of the motor, in addition, the device is provided with a bolt mounting type rolling mechanism which can be arranged on the side surface of a part, movement of the device is achieved.

Drawings

FIG. 1 is a schematic view of a full-section structure of a surface cleaning apparatus for animal husbandry according to the present invention;

FIG. 2 is a schematic structural view of a contact type maximum rotation strength control mechanism of a circular array coil spring in a ground cleaning device for animal husbandry according to the present invention;

FIG. 3 is a schematic structural view of a medium flow rate control mechanism of a screw structure type in the ground cleaning device for animal husbandry according to the present invention;

FIG. 4 is a schematic view showing a structure of a bolt-mounted rolling mechanism in the ground cleaning apparatus for animal husbandry according to the present invention;

in the figure: 1, a main body housing, 2, a drive motor mounting housing, 3, a drive motor, 4, a motor spindle, 5, a main part mounting space, 6, a ring array coil spring contact type maximum rotation strength control mechanism, 61, a main hollow shell for the ring array coil spring contact type maximum rotation strength control mechanism, 62, a main hollow section for the ring array coil spring contact type maximum rotation strength control mechanism, 63, a rotary column for the ring array coil spring contact type maximum rotation strength control mechanism, 64, a semicircular groove structure for the ring array coil spring contact type maximum rotation strength control mechanism, 65, a sub hollow section for the ring array coil spring contact type maximum rotation strength control mechanism, 66, a movable plate for the ring array coil spring contact type maximum rotation strength control mechanism, 67, a coil spring for the ring array coil spring contact type maximum rotation strength control mechanism, 68, push rods for a ring-shaped array coil spring contact type maximum rotation strength control mechanism, 7, a thread structure medium flow rate control mechanism, 71, a housing for a thread structure medium flow rate control mechanism, 72, a center hole for a thread structure medium flow rate control mechanism, 73, a stem insertion hole for a thread structure medium flow rate control mechanism, 74, a movement space for a thread structure medium flow rate control mechanism, 75, a moving plate for a thread structure medium flow rate control mechanism, 76, a stem for a thread structure medium flow rate control mechanism, 77, a bearing for a thread structure medium flow rate control mechanism, 78, a threaded stem for a thread structure medium flow rate control mechanism, 79, a thread structure for a thread structure medium flow rate control mechanism, 710, a rotating plate for a thread structure medium flow rate control mechanism, a rotating plate for a thread structure medium flow, 8, a main rotation axis, 9, a turbine installation space, 10, a main air intake hole, 11, a turbine, 12, a main first exhaust hole, 13, a liquid storage space, 14, a main liquid inlet hole, 15, a liquid valve, 16, a main second exhaust hole, 17, an auxiliary component installation space, 18, a transverse air preformed hole, 19, a side exhaust hole, 20, a curved liquid discharge hole, 21, a liquid preformed hole, 22, a slope liquid discharge hole, 23, a bolt-mounted rolling mechanism, 231, a connecting plate for a bolt-mounted rolling mechanism, 232, a bolt hole for a bolt-mounted rolling mechanism, 233, a transverse support rod for a bolt-mounted rolling mechanism, 234, a bearing for a bolt-mounted rolling mechanism, 235, a shaft sleeve for a bolt-mounted rolling mechanism, 236, a longitudinal connecting shaft for a bolt-mounted rolling mechanism, 237, and a ring roller for a bolt-mounted rolling mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the device comprises a main body shell 1, bolt installation type rolling mechanisms 23 are installed at the bottoms of two sides of the main body shell 1, a driving motor installation shell 2 is installed at the top of the main body shell 1, a driving motor 3 is installed inside the driving motor installation shell 2, a main part installation space 5 is arranged at the center of the top of the main body shell 1, a turbine installation space 9 is arranged below the main part installation space 5 of the main body shell 1, a main air inlet hole 10 communicated with the external space and the turbine installation space 9 is arranged inside the main body shell 1, a liquid storage space 13 is arranged below the turbine installation space 9 of the main body shell 1, a main first exhaust hole 12 communicated with the exhaust part of the turbine installation space 10 and the top of the liquid storage space 13 is arranged inside the main body shell 1, a main liquid inlet hole 14 communicated with the top of the side of the liquid storage space 13 and the external space is arranged inside the main body shell 1, a liquid valve 15 is arranged in the main liquid inlet hole 14, a main second exhaust hole 16 is arranged at the top of the side surface of the liquid storage space 13 in the main body shell 1, an auxiliary component mounting space 17 is arranged at the longitudinal position of the main second exhaust hole 16, a thread structural medium flow speed control mechanism 7 is arranged in the auxiliary component mounting space 17, a transverse air reserved hole 18 is arranged at the bottom of the main second exhaust hole 16, a plurality of side exhaust holes 19 communicated with the external space and the transverse air reserved hole 18 are arranged in the main body shell 1, a curved liquid discharge hole 20 communicated with the bottom of the side surface of the liquid storage space 13 is arranged in the main body shell 1, a liquid reserved hole 21 is arranged at the bottom of the curved liquid discharge hole 20, a plurality of inclined liquid discharge holes 22 communicated with the external space are arranged at the bottom of the liquid reserved hole 21, the inside of the main component installation space 5 is provided with an annular array spiral spring contact type maximum rotation strength control mechanism 6 through a main bearing, the top center of the control mechanism is fixedly connected with the bottom end of a motor main shaft 4 in the driving motor 3, a main rotating shaft 8 is arranged at the bottom center of the control mechanism 6, and a turbine 11 is arranged on a shaft body of the main rotating shaft 8, wherein the shaft body is positioned in the turbine installation space 9.

Referring to fig. 2, the annular array coil spring contact type maximum rotation strength control mechanism 6 includes a main hollow housing 61 for the annular array coil spring contact type maximum rotation strength control mechanism, a main hollow section 62 for the annular array coil spring contact type maximum rotation strength control mechanism, a rotary column 63 for the annular array coil spring contact type maximum rotation strength control mechanism, and a semicircular groove structure 64 for the annular array coil spring contact type maximum rotation strength control mechanism, an auxiliary hollow section 65 for the annular array coil spring contact type maximum rotation strength control mechanism, a movable plate 66 for the annular array coil spring contact type maximum rotation strength control mechanism, a coil spring 67 for the annular array coil spring contact type maximum rotation strength control mechanism, and a push rod 68 for the annular array coil spring contact type maximum rotation strength control mechanism; the center of one end face of the main hollow shell 61 for the annular array spiral spring contact type maximum rotation strength control mechanism is fixedly connected with the end part of a motor spindle 4, the center of the inner part of the main hollow shell 61 for the annular array spiral spring contact type maximum rotation strength control mechanism is a main hollow section 62 for the annular array spiral spring contact type maximum rotation strength control mechanism, a rotary column 63 for the annular array spiral spring contact type maximum rotation strength control mechanism is sleeved in the main hollow shell 61 for the annular array spiral spring contact type maximum rotation strength control mechanism, a secondary hollow section 65 for the annular array spiral spring contact type maximum rotation strength control mechanism is arranged in the main hollow shell 61 for the annular array spiral spring contact type maximum rotation strength control mechanism, a movable plate 66 for the annular array coil spring contact type maximum rotation strength control mechanism is placed inside the auxiliary hollow section 65 for the annular array coil spring contact type maximum rotation strength control mechanism on one end face of the main hollow section 62 for the annular array coil spring contact type maximum rotation strength control mechanism, an annular array coil spring contact type maximum rotation strength control mechanism coil spring 67 is fixed between the auxiliary hollow sections 65 for the annular array coil spring contact type maximum rotation strength control mechanism and one end of the movable plate 66 for the annular array coil spring contact type maximum rotation strength control mechanism, one end face of the movable plate 66 for the annular array coil spring contact type maximum rotation strength control mechanism is provided with a push rod 68 for the annular array coil spring contact type maximum rotation strength control mechanism which is integrated with the movable plate 66, and the annular array helical spring contact type maximum rotation strength control mechanism push rod 68 penetrates the annular array helical spring contact type maximum rotation strength control mechanism main hollow shell 61 and is positioned in the annular array helical spring contact type maximum rotation strength control mechanism main hollow section 62, the annular array helical spring contact type maximum rotation strength control mechanism push rod 68 is in a semicircular structure at one end of the annular array helical spring contact type maximum rotation strength control mechanism main hollow section 62, the side surface of the annular array helical spring contact type maximum rotation strength control mechanism rotary column 63 is provided with an annular array helical spring contact type maximum rotation strength control mechanism push rod 68 end part semicircular groove structure 64 for placing the annular array helical spring contact type maximum rotation strength control mechanism push rod 68 end part, one end of the rotary column 63 for the annular array spiral spring contact type maximum rotary strength control mechanism is fixed with the end part of the main rotary shaft 8; the initial length of the coil spring 67 for the annular array coil spring contact type maximum rotation strength control mechanism is longer than the length of the auxiliary hollow section 65 for the annular array coil spring contact type maximum rotation strength control mechanism; the structural shape of the end part of the push rod 68 for the annular array spiral spring contact type maximum rotation strength control mechanism is consistent with the structural shape of the semicircular groove structure 64 for the annular array spiral spring contact type maximum rotation strength control mechanism, and the structure mainly has the following functions: when the driving resistance is too large, the resistance is larger than the elasticity of the coil spring 67 for the annular array coil spring contact type maximum rotation strength control mechanism, the coil spring 67 for the annular array coil spring contact type maximum rotation strength control mechanism is compressed, and under the causal action, the two rotating shafts are relatively rotated to play a protection role, so that the elasticity of the coil spring 67 for the annular array coil spring contact type maximum rotation strength control mechanism is smaller than the rotation force of the driving motor 3 at the maximum power.

Referring to fig. 3, the thread structure type medium flow rate control mechanism 7 includes a housing 71 for a thread structure type medium flow rate control mechanism, a center hole 72 for a thread structure type medium flow rate control mechanism, a valve rod insertion hole 73 for a thread structure type medium flow rate control mechanism, a movement space 74 for a thread structure type medium flow rate control mechanism, a moving plate 75 for a thread structure type medium flow rate control mechanism, a valve rod 76 for a thread structure type medium flow rate control mechanism, a bearing 77 for a thread structure type medium flow rate control mechanism, a threaded rod 78 for a thread structure type medium flow rate control mechanism, a thread structure 79 for a thread structure type medium flow rate control mechanism, and a rotating plate 710 for a thread structure type medium flow rate control mechanism; a central hole 72 for the thread structural medium flow rate control mechanism is arranged at the center of the central hole 72 at the bottom of the shell 71 for the thread structural medium flow rate control mechanism, a valve rod inserting hole 73 for the thread structural medium flow rate control mechanism is arranged at the center of the central hole 72 for the thread structural medium flow rate control mechanism, a moving space 74 for the thread structural medium flow rate control mechanism is arranged at the top of the valve rod inserting hole 73 for the thread structural medium flow rate control mechanism, a moving plate 75 for the thread structural medium flow rate control mechanism is arranged inside the moving space 74 for the thread structural medium flow rate control mechanism, a valve rod 76 for the thread structural medium flow rate control mechanism is arranged inside the valve rod inserting hole 73 for the thread structural medium flow rate control mechanism, the top of the valve rod 76 for the thread structural medium flow rate control mechanism is installed at the center of the bottom of the moving plate 75 for the thread structural medium flow rate control mechanism, the center of the upper surface of the moving plate 75 for the thread structural medium flow rate control mechanism is provided with a threaded rod 78 for the thread structural medium flow rate control mechanism through a bearing 77 for the thread structural medium flow rate control mechanism, the rod body of the threaded rod 78 for the thread structural medium flow rate control mechanism is installed at the center of the top of the shell 71 for the thread structural medium flow rate control mechanism through a thread structure 79 for the thread structural medium flow rate control mechanism, and the top end of the threaded rod 78 for the thread structural medium flow rate control mechanism is provided with a rotating plate 710 for the thread structural medium flow rate control mechanism; the thread structure 79 for the thread structure type medium flow rate control mechanism comprises an external thread structure arranged on the rod body of the threaded rod 78 for the thread structure type medium flow rate control mechanism and an internal thread structure arranged on the inner wall of the shell 71 for the structure moving screwing type liquid flow control mechanism; the housing 71 for the thread structure type medium flow rate control mechanism is installed inside the sub-component installation space 17, and the center hole 72 for the thread structure type medium flow rate control mechanism is communicated with the main second exhaust hole 16, and the main functions of the housing are as follows: the speed of the air flow can be controlled by means of a threaded structural connection.

Referring to fig. 4, the bolt-mounted rolling mechanism 23 includes a connecting plate 231 for a bolt-mounted rolling mechanism, a bolt hole 232 for a bolt-mounted rolling mechanism, a transverse support rod 233 for a bolt-mounted rolling mechanism, a bearing 234 for a bolt-mounted rolling mechanism, a shaft sleeve 235 for a bolt-mounted rolling mechanism, a longitudinal connecting shaft 236 for a bolt-mounted rolling mechanism, and a ring roller 237 for a bolt-mounted rolling mechanism; a plurality of bolt-mounting type rolling mechanism bolt holes 232 are formed in the bolt-mounting type rolling mechanism connecting plate 231, a bolt-mounting type rolling mechanism transverse supporting rod 233 is mounted at the center of one end face of the bolt-mounting type rolling mechanism connecting plate 231, one end of the bolt-mounting type rolling mechanism transverse supporting rod 233 is mounted in the inner ring of a bolt-mounting type rolling mechanism bearing 234, the bolt-mounting type rolling mechanism bearing 234 is sleeved in the inner hole of a bolt-mounting type rolling mechanism shaft sleeve 235, a plurality of bolt-mounting type rolling mechanism longitudinal connecting shafts 236 are mounted on the side face of the bolt-mounting type rolling mechanism shaft sleeve 235, and a bolt-mounting type rolling mechanism annular roller 237 is mounted at the outward connecting end of the plurality of bolt-mounting type rolling mechanism longitudinal connecting shafts 236; the bolt-mounted rolling mechanism connecting plate 231 is mounted on the bottom of the side surface of the main body housing 1 by bolts; the plurality of bolt-mounted rolling mechanism connection plates 231 are symmetrically arranged about the transverse center line of the main body housing 1, and mainly function as: a rolling action can be achieved.

The specific use mode is as follows: during the operation of the invention, the cleaning liquid is injected into the liquid valve 15 by water flow, then the driving motor 3 is opened, under the action of the driving motor 3, the turbine 11 rotates rapidly to generate strong high-pressure air to enter the liquid storage space 13, at this time, the screw thread structural medium flow speed control mechanism 7 is controlled, so that the high-pressure air for cleaning is blown to the ground through the inclined plane exhaust hole 19, while the other part of air pressure in the liquid storage space 13 can generate pressure on the liquid, the pressure forces the liquid to be sprayed to the ground through the inclined plane exhaust hole 22, therefore, the air pressure discharged outside the screw thread structural medium flow speed control mechanism 7 is controlled to be certainly smaller than the total air pressure generated by the turbine 11, and the main body shell 1 is pushed to clean.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a ground cleaning device for animal husbandry, includes main body cover (1), its characterized in that: the bolt-mounted rolling mechanism (23) is installed at the bottoms of two sides of the main body shell (1), the driving motor installation shell (2) is installed at the top of the main body shell (1), the driving motor (3) is installed inside the driving motor installation shell (2), a main part installation space (5) is arranged at the center of the top of the main body shell (1), a turbine installation space (9) is arranged below the main part installation space (5) of the main body shell (1), a main air inlet hole (10) communicated with the external space and the turbine installation space (9) is arranged inside the main body shell (1), a liquid storage space (13) is arranged below the turbine installation space (9) of the main body shell (1), a main first air outlet hole (12) communicated with the exhaust part of the turbine installation space (10) and the top of the liquid storage space (13) is arranged inside the main body shell (1), the main body shell (1) is internally provided with a main liquid inlet hole (14) communicated with the top of the side surface of the liquid storage space (13) and the external space, a liquid valve (15) is arranged in the main liquid inlet hole (14), a main second exhaust hole (16) is arranged in the main body shell (1) and positioned at the top of the side surface of the liquid storage space (13), an auxiliary component mounting space (17) is arranged at the longitudinal position of the main second exhaust hole (16), a thread structural medium flow speed control mechanism (7) is arranged in the auxiliary component mounting space (17), a transverse air reserved hole (18) is arranged at the bottom of the main second exhaust hole (16), a plurality of side exhaust holes (19) communicated with the external space and the transverse air reserved hole (18) are arranged in the main body shell (1), and a curved liquid discharge hole (20) communicated with the bottom of the side surface of the liquid storage space (13) is arranged in the main body shell (1), the bottom of curved liquid discharge hole (20) is provided with liquid preformed hole (21), the bottom of liquid preformed hole (21) is provided with a plurality of inclined plane liquid discharge holes (22) that communicate external space, the inside of main part installation space (5) is through main bearing installation annular array coil spring support formula maximum rotation intensity control mechanism (6) top center and the motor spindle (4) bottom fixed connection among driving motor (3), annular array coil spring support formula maximum rotation intensity control mechanism (6) bottom center installation main rotation axle (8), main rotation axle (8) are lieing in install a turbine (11) on the axis body of turbine installation space (9) inside.

2. A cleaning device for floors in animal husbandry according to claim 1, characterized in that: the annular array spiral spring contact type maximum rotation intensity control mechanism (6) comprises a main hollow shell (61) for the annular array spiral spring contact type maximum rotation intensity control mechanism, a main hollow section (62) for the annular array spiral spring contact type maximum rotation intensity control mechanism, a rotary column (63) for the annular array spiral spring contact type maximum rotation intensity control mechanism and a semicircular groove structure (64) for the annular array spiral spring contact type maximum rotation intensity control mechanism, an auxiliary hollow section (65) for the annular array spiral spring contact type maximum rotation strength control mechanism, a movable plate (66) for the annular array spiral spring contact type maximum rotation strength control mechanism, a spiral spring (67) for the annular array spiral spring contact type maximum rotation strength control mechanism and a push rod (68) for the annular array spiral spring contact type maximum rotation strength control mechanism; the center of one end face of a main hollow shell (61) for the annular array spiral spring contact type maximum rotation strength control mechanism is fixedly connected with the end part of a motor spindle (4), the center of the inside of the main hollow shell (61) for the annular array spiral spring contact type maximum rotation strength control mechanism is a main hollow section (62) for the annular array spiral spring contact type maximum rotation strength control mechanism, a rotary column (63) for the annular array spiral spring contact type maximum rotation strength control mechanism is sleeved in the main hollow shell (61) for the annular array spiral spring contact type maximum rotation strength control mechanism, and a secondary hollow column (63) for the annular array spiral spring contact type maximum rotation strength control mechanism is arranged in the main hollow shell (61) for the annular array spiral spring contact type maximum rotation strength control mechanism A section (65), wherein a movable plate (66) for the annular array spiral spring contact type maximum rotation strength control mechanism is arranged in one end surface of the auxiliary hollow section (65) for the annular array spiral spring contact type maximum rotation strength control mechanism, which is positioned in the main hollow section (62) for the annular array spiral spring contact type maximum rotation strength control mechanism, the annular array spiral spring contact type maximum rotation strength control mechanism auxiliary hollow section (65) is provided with a spiral spring (67) for the annular array spiral spring contact type maximum rotation strength control mechanism, which is fixed between one ends of the movable plates (66) for the annular array spiral spring contact type maximum rotation strength control mechanism, one end surface of the movable plate (66) for the annular array spiral spring contact type maximum rotation strength control mechanism is provided with a push rod (68) for the annular array spiral spring contact type maximum rotation strength control mechanism, which is of an integrated structure with the movable plate (66), and the annular array helical spring contact type maximum rotation strength control mechanism push rod (68) penetrates the main hollow shell (61) for the annular array helical spring contact type maximum rotation strength control mechanism and is positioned in the main hollow section (62) for the annular array helical spring contact type maximum rotation strength control mechanism, the annular array helical spring contact type maximum rotation strength control mechanism push rod (68) is in a semicircular structure at one end of the main hollow section (62) for the annular array helical spring contact type maximum rotation strength control mechanism, a semicircular groove structure (64) for placing the annular array helical spring contact type maximum rotation strength control mechanism push rod (68) end part for the annular array helical spring contact type maximum rotation strength control mechanism is arranged on the side surface of the rotary column (63) for the annular array helical spring contact type maximum rotation strength control mechanism, one end of the rotary column (63) for the annular array spiral spring contact type maximum rotary strength control mechanism is fixed with the end part of the main rotary shaft (8).

3. A cleaning device for floors in animal husbandry according to claim 2, characterized in that: the initial length of the coil spring (67) for the annular array coil spring contact type maximum rotation strength control mechanism is larger than the length of the auxiliary hollow section (65) for the annular array coil spring contact type maximum rotation strength control mechanism.

4. A cleaning device for floors in animal husbandry according to claim 2, characterized in that: the structural shape of the end part of the push rod (68) for the annular array spiral spring contact type maximum rotation strength control mechanism is consistent with the structural shape of the semicircular groove structure (64) for the annular array spiral spring contact type maximum rotation strength control mechanism.

5. A cleaning device for floors in animal husbandry according to claim 1, characterized in that: the thread structure type medium flow speed control mechanism (7) comprises a shell (71) for a thread structure type medium flow speed control mechanism, a central hole (72) for the thread structure type medium flow speed control mechanism, a valve rod inserting hole (73) for the thread structure type medium flow speed control mechanism, a moving space (74) for the thread structure type medium flow speed control mechanism, a moving plate (75) for the thread structure type medium flow speed control mechanism, a valve rod (76) for the thread structure type medium flow speed control mechanism, a bearing (77) for the thread structure type medium flow speed control mechanism, a threaded rod (78) for the thread structure type medium flow speed control mechanism, a thread structure (79) for the thread structure type medium flow speed control mechanism and a rotating plate (710) for the thread structure type medium flow speed control mechanism; the thread structure type medium flow speed control mechanism is characterized in that a central hole (72) for the thread structure type medium flow speed control mechanism is arranged at the center of the bottom of a shell (71) for the thread structure type medium flow speed control mechanism, a valve rod inserting hole (73) for the thread structure type medium flow speed control mechanism is formed in the center of the central hole (72) for the thread structure type medium flow speed control mechanism in the shell (71) for the thread structure type medium flow speed control mechanism, a moving space (74) for the thread structure type medium flow speed control mechanism is formed in the top of the valve rod inserting hole (73) for the thread structure type medium flow speed control mechanism, a moving plate (75) for the thread structure type medium flow speed control mechanism is installed in the moving space (74) for the thread structure type medium flow speed control mechanism, and a valve plate (75) for the thread structure type medium flow speed control mechanism is installed in A rod (76), the top of the valve rod (76) for the thread structural medium flow speed control mechanism is arranged at the center of the bottom of the moving plate (75) for the thread structural medium flow speed control mechanism, a threaded rod (78) for the thread structural medium flow speed control mechanism is arranged at the center of the upper surface of the moving plate (75) for the thread structural medium flow speed control mechanism through a bearing (77) for the thread structural medium flow speed control mechanism, the rod body of the threaded rod (78) for the thread structural medium flow speed control mechanism is arranged at the center of the top of the shell (71) for the thread structural medium flow speed control mechanism through a thread structure (79) for the thread structural medium flow speed control mechanism, and a rotating plate (710) for the thread structural medium flow speed control mechanism is arranged at the top end of the threaded rod (78) for the thread structural medium flow speed control mechanism.

6. A cleaning device for floors in animal husbandry according to claim 5, characterized in that: the thread structure (79) for the thread structure type medium flow speed control mechanism comprises an external thread structure arranged on a threaded rod (78) body for the thread structure type medium flow speed control mechanism and an internal thread structure arranged on the inner wall of a shell (71) for the structure moving screwing type liquid flow control mechanism.

7. A cleaning device for floors in animal husbandry according to claim 5, characterized in that: the housing (71) for the screw-structured medium flow rate control mechanism is mounted inside the sub-component mounting space (17), and the center hole (72) for the screw-structured medium flow rate control mechanism communicates with the main second exhaust hole (16).

8. A cleaning device for floors in animal husbandry according to claim 1, characterized in that: the bolt-mounted rolling mechanism (23) comprises a connecting plate (231) for the bolt-mounted rolling mechanism, a bolt hole (232) for the bolt-mounted rolling mechanism, a transverse supporting rod (233) for the bolt-mounted rolling mechanism, a bearing (234) for the bolt-mounted rolling mechanism, a shaft sleeve (235) for the bolt-mounted rolling mechanism, a longitudinal connecting shaft (236) for the bolt-mounted rolling mechanism and an annular roller (237) for the bolt-mounted rolling mechanism; a plurality of bolt holes (232) for the bolt-mounted rolling mechanism are arranged in the connecting plate (231) for the bolt-mounted rolling mechanism, a transverse supporting rod (233) for the bolt-mounted rolling mechanism is arranged at the center of one end face of the connecting plate (231) for the bolt-mounted rolling mechanism, one end of the bolt-mounted rolling mechanism lateral support bar (233) is mounted in an inner ring of a bolt-mounted rolling mechanism bearing (234), the bearing (234) for the bolt-mounted rolling mechanism is sleeved in an inner hole of a shaft sleeve (235) for the bolt-mounted rolling mechanism, a plurality of longitudinal connecting shafts (236) for the bolt-mounted rolling mechanism are mounted on the side surface of the shaft sleeve (235) for the bolt-mounted rolling mechanism, and an annular roller (237) for the bolt-mounted rolling mechanism is mounted at the outward connecting end of the longitudinal connecting shafts (236) for the bolt-mounted rolling mechanism.

9. A cleaning device for floors in animal husbandry according to claim 8, characterized in that: the bolt-mounted rolling mechanism connecting plate (231) is mounted on the bottom of the side surface of the main body housing (1) through bolts.

10. A cleaning device for floors in animal husbandry according to claim 9, characterized in that: the plurality of bolt-mounted rolling mechanism connection plates (231) are provided symmetrically with respect to the transverse center line of the main body housing (1).

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