CN111215379A - Quick cleaning device of vortex flush type part - Google Patents

Abstract

The invention discloses a vortex flushing type component quick cleaning device which comprises a cleaning shell. The invention utilizes a plurality of rotating parts arranged on the circumference surface to drive the internal cleaning liquid to form vortex, and then carries out all-round washing action on the parts in the form of the vortex, has the advantages of strong cleaning force and high cleaning efficiency, has stronger mechanical autonomous control capability, and, the device is provided with an annular array permanent magnet body adsorption type part space limiting mechanism which can be adsorbed at a working position to prevent collision between a part to be cleaned and a rotating plate, the device is provided with an annular array type main rotation driving force dispersion mechanism which can convert the driving rotation into a plurality of rotation states in the same direction to realize the driving action of a plurality of rotating parts, the device has the maximum rotation torque force control mechanism of annular array spiral spring compression, can realize the control of maximum rotation resistance under coil spring's effect.

Description

Quick cleaning device of vortex flush type part

Technical Field

The invention relates to the technical field of cleaning devices, in particular to a vortex flushing type rapid cleaning device for parts.

Background

At present, for the washing and cleaning of a centralized component, the existing mode chamber utilizes a high-pressure water gun to perform spraying treatment, but the spraying area is narrow, so the working efficiency is low, and dead angles are more, so the cleaning force is not strong.

Disclosure of Invention

The invention aims to provide a quick cleaning device for a vortex flushing type component, which solves the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a vortex flushing type rapid cleaning device for parts comprises a cleaning shell, wherein a cleaning space is arranged at the center of the cleaning shell, an annular groove structure is arranged at the bottom of the side surface of the cleaning space of the cleaning shell, a main liquid discharge pipeline which is of an integrated structure with the cleaning shell is arranged at the bottom of the outer side of the cleaning shell, a main liquid discharge hole communicated with the outside and the annular groove structure is arranged in the main liquid discharge pipeline, a plunger is arranged in the main liquid discharge hole, an iron sheet embedding space is arranged at the center of the bottom of the cleaning shell, an iron sheet is embedded in the iron sheet embedding space, an annular array permanent magnet body adsorption type part space limiting mechanism is adsorbed at the center of the bottom of the cleaning space, a plurality of auxiliary rotating shafts are installed in the bottom of the cleaning shell through main bearings, a rotating plate is installed on the shaft body of each auxiliary rotating shaft, and an annular array type main rotation driving force dispersing mechanism is installed at the bottom of the, the supporting rod is installed to annular array type main rotation driving force dispersion mechanism bottom, a bottom supporting base plate is installed to the bottom of supporting rod, a driving motor installation shell is installed through a bolt in the upper surface center of bottom supporting base plate, the inside of driving motor installation shell is provided with driving motor installation space, a driving motor of the internally mounted of driving motor installation space, the biggest rotation torque dynamics control mechanism of annular array type helical spring compression is installed at the motor spindle top among the driving motor, a main rotation axis is installed at the upper surface center of the biggest rotation torque dynamics control mechanism of annular array type helical spring compression, the top of main rotation axis and the center of annular array type main rotation driving force dispersion mechanism bottom are fixedly connected.

Furthermore, the annular array permanent magnet body adsorption type part space limiting mechanism comprises an annular body for the annular array permanent magnet body adsorption type part space limiting mechanism, a central hole for the annular array permanent magnet body adsorption type part space limiting mechanism, a limiting rod for the annular array permanent magnet body adsorption type part space limiting mechanism, an annular permanent magnet mounting groove structure for the annular array permanent magnet body adsorption type part space limiting mechanism and an annular permanent magnet for the annular array permanent magnet body adsorption type part space limiting mechanism; the center of the annular body for the annular array permanent magnet body adsorption type component space limiting mechanism is provided with a central hole for the annular array permanent magnet body adsorption type component space limiting mechanism, the central hole is communicated with the upper surface and the lower surface of the annular body for the annular array permanent magnet body adsorption type component space limiting mechanism, the edge part of the upper surface of the torus for the annular array permanent magnet body adsorption type component space limiting mechanism is provided with a plurality of limiting rods for the annular array permanent magnet body adsorption type component space limiting mechanism, the lower surface of the ring body for the annular array permanent magnet body adsorption type component space limiting mechanism is provided with an annular array permanent magnet body adsorption type component space limiting mechanism annular permanent magnet mounting groove structure, and the annular permanent magnet for the annular array permanent magnet body adsorption type part space limiting mechanism is arranged in the annular permanent magnet mounting groove structure for the annular array permanent magnet body adsorption type part space limiting mechanism.

Furthermore, the limiting rods for the adsorption type component space limiting mechanism of the annular array permanent magnet bodies are arranged in an annular array around the axis line of the ring bodies for the adsorption type component space limiting mechanism of the annular array permanent magnet bodies as the circle center.

Further, annular array permanent magnet body adsorption type part space is annular permanent magnet for stop gear makes for neodymium iron boron material, just annular array permanent magnet body adsorption type part space is annular permanent magnet for stop gear adsorbs directly over the iron sheet.

Further, the ring array type main rotational driving force dispersion mechanism includes a connecting plate for a ring array type main rotational driving force dispersion mechanism, a bolt hole for a ring array type main rotational driving force dispersion mechanism, a gear box for a ring array type main rotational driving force dispersion mechanism, a gear mounting space for a ring array type main rotational driving force dispersion mechanism, a first bearing for a ring array type main rotational driving force dispersion mechanism, a first rotating shaft for a ring array type main rotational driving force dispersion mechanism, a main gear for a ring array type main rotational driving force dispersion mechanism, a second bearing for a ring array type main rotational driving force dispersion mechanism, a second rotating shaft for a ring array type main rotational driving force dispersion mechanism, and a pinion for a ring array type main rotational driving force dispersion mechanism; a plurality of ring-shaped array-type main rotation driving force dispersing mechanism bolt holes are formed in the connecting plate for the ring-shaped array-type main rotation driving force dispersing mechanism, a ring-shaped array-type main rotation driving force dispersing mechanism gear box of an integrated structure with the connecting plate is arranged at the bottom of the connecting plate for the ring-shaped array-type main rotation driving force dispersing mechanism gear box, a ring-shaped array-type main rotation driving force dispersing mechanism gear mounting space is formed in the ring-shaped array-type main rotation driving force dispersing mechanism gear box, a ring-shaped array-type main rotation driving force dispersing mechanism first bearing is mounted at the center of the bottom of the ring-shaped array-type main rotation driving force dispersing mechanism gear box, a ring-shaped array-type main rotation driving force dispersing mechanism first rotating shaft is mounted in an inner ring of the ring-shaped array-type main rotation driving, the ring-array type main rotation driving force dispersion mechanism is characterized in that a ring-array type main rotation driving force dispersion mechanism main gear is arranged at one end of a ring-array type main rotation driving force dispersion mechanism gear mounting space for a first rotating shaft of the ring-array type main rotation driving force dispersion mechanism, a plurality of ring-array type main rotation driving force dispersion mechanism second bearings arranged in a ring array are arranged on the upper surface of a ring-array type main rotation driving force dispersion mechanism gear box, a ring-array type main rotation driving force dispersion mechanism second rotating shaft is arranged in each ring-array type main rotation driving force dispersion mechanism second bearing, a ring-array type main rotation driving force dispersion mechanism auxiliary gear is arranged at one end of the ring-array type main rotation driving force dispersion mechanism gear mounting space for the ring-array type main rotation driving force dispersion mechanism second rotating shaft, and a plurality of the auxiliary gears for the annular array type main rotation driving force dispersion mechanism are meshed with the main gear for the annular array type main rotation driving force dispersion mechanism through tooth structures.

Further, the connecting plate for the ring array type main rotational driving force dispersion mechanism is mounted at the bottom of the cleaning housing through bolts inserted into bolt holes for the ring array type main rotational driving force dispersion mechanism.

Furthermore, the bottom end of the first rotating shaft for the annular array type main rotation driving force dispersion mechanism is fixedly connected with the top end of the main rotating shaft, and the tops of the second rotating shafts for the annular array type main rotation driving force dispersion mechanism are respectively fixedly connected with the bottom ends of the auxiliary rotating shafts.

Further, the annular array type spiral spring compression type maximum rotation torque force control mechanism comprises a main hollow shell for the annular array type spiral spring compression type maximum rotation torque force control mechanism, a main hollow section for the annular array type spiral spring compression type maximum rotation torque force control mechanism, a rotating column for the annular array type spiral spring compression type maximum rotation torque force control mechanism, and a semicircular groove structure for the annular array type spiral spring compression type maximum rotation torque force control mechanism, the annular array type spiral spring compression type maximum rotation torque force control mechanism comprises an auxiliary hollow section, a movable plate, spiral springs and a push rod, wherein the auxiliary hollow section is used for the annular array type spiral spring compression type maximum rotation torque force control mechanism; the center of one end face of the main hollow shell for the annular array type spiral spring compression type maximum rotation torque force control mechanism is fixedly connected with the end part of the main rotating shaft, the center inside the main hollow shell for the annular array type spiral spring compression type maximum rotation torque force control mechanism is a main hollow area for the annular array type spiral spring compression type maximum rotation torque force control mechanism, the main hollow shell for the annular array type spiral spring compression type maximum rotation torque force control mechanism is sleeved with a rotary column for the annular array type spiral spring compression type maximum rotation torque force control mechanism inside the main hollow area for the annular array type spiral spring compression type maximum rotation torque force control mechanism, and the inside of the main hollow shell for the annular array type spiral spring compression type maximum rotation torque force control mechanism is an auxiliary hollow area for the annular array type spiral spring compression type maximum rotation torque force control mechanism A movable plate for the annular array type coil spring compression maximum rotation torque dynamics control mechanism is placed inside the auxiliary hollow section for the annular array type coil spring compression maximum rotation torque dynamics control mechanism at one end face of the main hollow section for the annular array type coil spring compression maximum rotation torque dynamics control mechanism, a coil spring for the annular array type coil spring compression maximum rotation torque dynamics control mechanism is fixed between one ends of the movable plates for the annular array type coil spring compression maximum rotation torque dynamics control mechanism in the auxiliary hollow section for the annular array type coil spring compression maximum rotation torque dynamics control mechanism, a push rod for the annular array type coil spring compression maximum rotation torque dynamics control mechanism of an integrated structure with the movable plate for the annular array type coil spring compression maximum rotation torque dynamics control mechanism is arranged at one end face of the movable plate for the annular array type coil spring compression maximum rotation torque dynamics control mechanism, and the push rod for the annular array type helical spring compression type maximum rotation torque force control mechanism penetrates through the main hollow shell for the annular array type helical spring compression type maximum rotation torque force control mechanism and is positioned in the main hollow section for the annular array type helical spring compression type maximum rotation torque force control mechanism, one end of the push rod for the annular array type helical spring compression type maximum rotation torque force control mechanism, which is positioned in the main hollow section for the annular array type helical spring compression type maximum rotation torque force control mechanism, is of a semicircular structure, a semicircular groove structure for the annular array type helical spring compression type maximum rotation torque force control mechanism, which is used for placing the end part of the push rod for the annular array type helical spring compression type maximum rotation torque force control mechanism, is arranged on the side surface of the rotary column for the annular array type helical spring compression type maximum rotation torque force control mechanism, and one end of the rotary column for the annular array type spiral spring compression type maximum rotary torque force control mechanism is fixed with the end part of the motor spindle.

Further, the initial length of the spiral spring for the annular array type spiral spring compression type maximum rotation torque force control mechanism is larger than the length of the auxiliary hollow section for the annular array type spiral spring compression type maximum rotation torque force control mechanism.

Further, the structural shape of the end part of the push rod for the annular array type spiral spring compression type maximum rotation torque force control mechanism is consistent with the structural shape of the semicircular groove knot for the annular array type spiral spring compression type maximum rotation torque force control mechanism.

Compared with the prior art, the invention has the beneficial effects that: the invention utilizes a plurality of rotating parts arranged on the circumferential surface to drive the internal cleaning liquid to form vortex, and then carries out omnibearing washing action on the parts in the form of vortex, has the advantages of strong cleaning force and high cleaning efficiency, and has stronger mechanical autonomous control capability, moreover, the device is provided with an annular array permanent magnet body adsorption type part space limiting mechanism which can be adsorbed at a working part to prevent the cleaned parts from colliding with a rotating plate, in addition, the device is provided with an annular array main rotating driving force dispersing mechanism which can convert the driving rotation into a plurality of equidirectional rotating states to realize the driving action of a plurality of rotating parts, in addition, the device is provided with an annular array spiral spring compression type maximum rotating torque force control mechanism which can realize the control of the maximum rotating resistance under the action of a spiral spring, the motor burnout phenomenon caused by overlarge driving force is prevented.

Drawings

FIG. 1 is a schematic view of a full-section of a vortex flush type rapid cleaning apparatus for parts according to the present invention;

FIG. 2 is a schematic structural view of an annular array permanent magnet body adsorption type part space limiting mechanism in the eddy current flushing type part quick cleaning device according to the present invention;

FIG. 3 is a schematic structural view of a circular array type main rotation driving force dispersing mechanism in a vortex flushing type component quick cleaning apparatus according to the present invention;

FIG. 4 is a schematic structural diagram of a compression type maximum rotation torque force control mechanism of a circular array type spiral spring in a vortex flushing type component quick cleaning device according to the present invention;

in the figure: 1, a cleaning housing, 2, a cleaning space, 3, an annular groove structure, 4, a main discharge hole, 5, a plunger, 6, an iron sheet embedding space, 7, an iron sheet, 8, an annular array permanent magnet body adsorption type part space limiting mechanism, 81, an annular body for an annular array permanent magnet body adsorption type part space limiting mechanism, 82, a central hole for an annular array permanent magnet body adsorption type part space limiting mechanism, 83, a limiting rod for an annular array permanent magnet body adsorption type part space limiting mechanism, 84, an annular array permanent magnet body adsorption type part space limiting mechanism annular permanent magnet mounting groove structure, 85, an annular array permanent magnet body adsorption type part space limiting mechanism annular permanent magnet, 9, an annular array main rotation driving force dispersing mechanism, 91, a connecting plate for an annular array main rotation driving force dispersing mechanism, 92, a bolt hole for an annular array main rotation driving force dispersing mechanism, 93, a gear case for a ring array type main rotational driving force dispersing mechanism, 94, a gear installation space for a ring array type main rotational driving force dispersing mechanism, 95, a first bearing for a ring array type main rotational driving force dispersing mechanism, 96, a first rotating shaft for a ring array type main rotational driving force dispersing mechanism, 97, a main gear for a ring array type main rotational driving force dispersing mechanism, 98, a second bearing for a ring array type main rotational driving force dispersing mechanism, 99, a second rotating shaft for a ring array type main rotational driving force dispersing mechanism, 910, a pinion, 10 for a ring array type main rotational driving force dispersing mechanism, a main rotating shaft, 11, a ring array type coil spring compression type maximum rotational torque force control mechanism, 111, a main hollow housing for a ring array type coil spring compression type maximum rotational torque force control mechanism, 112, a main hollow section for the annular array type coil spring compression maximum rotation torque dynamics control mechanism, 113, a rotary column for the annular array type coil spring compression maximum rotation torque dynamics control mechanism, 114, a semicircular groove structure for the annular array type coil spring compression maximum rotation torque dynamics control mechanism, 115, an auxiliary hollow section for the annular array type coil spring compression maximum rotation torque dynamics control mechanism, 116, a movable plate for the annular array type coil spring compression maximum rotation torque dynamics control mechanism, 117, a coil spring for the annular array type coil spring compression maximum rotation torque dynamics control mechanism, 118, a push rod for the annular array type coil spring compression maximum rotation torque dynamics control mechanism, 12, a motor main shaft, 13, a driving motor mounting case, 14, a driving motor mounting space, 15, a driving motor, a motor mounting portion, a driving, 16, bottom supporting base plates 17, supporting rods 18, main bearings 19 and main drainage pipelines.

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 cleaning device comprises a cleaning shell 1, a cleaning space 2 is arranged at the center of the cleaning shell 1, an annular groove structure 3 is arranged at the bottom of the cleaning shell 1, which is positioned at the side surface of the cleaning space 2, a main liquid discharge pipeline 19 which is of an integral structure with the cleaning shell 1 is arranged at the bottom of the outer side of the cleaning shell 1, a main liquid discharge hole 4 which is communicated with the outside and the annular groove structure 3 is arranged in the main liquid discharge pipeline 19, a plunger 5 is arranged in the main liquid discharge hole 4, an iron sheet embedding space 6 is arranged at the center of the bottom of the cleaning shell 1, an iron sheet 7 is embedded in the iron sheet embedding space 6, an annular array permanent magnet body adsorption type part space limiting mechanism 8 is adsorbed at the center of the bottom of the cleaning space 2, a plurality of auxiliary rotating shafts 17 are installed in the bottom of the cleaning shell 1 through main bearings 18, and a rotating plate 19 is installed, the bottom of cleaning shell 1 is through a bolt installation annular array owner rotation driving dynamics dispersion mechanism 9, bracing piece 17 is installed to annular array owner rotation driving dynamics dispersion mechanism 9 bottom, a bottom sprag base plate 16 is installed to the bottom of bracing piece 17, a driving motor installation shell 13 is installed through a bolt installation to the upper surface center of bottom sprag base plate 16, the inside of driving motor installation shell 13 is provided with driving motor installation space 14, a driving motor 15 of the internally mounted of driving motor installation space 14, the biggest rotation torque dynamics control mechanism 11 of annular array spiral spring compression of motor spindle 12 top installation in the driving motor 15, a main rotation axis 10 is installed at the upper surface center of the biggest rotation torque dynamics control mechanism 11 of annular array spiral spring compression, the top of main rotation axis 10 and the main rotation driving dynamics dispersion mechanism 9 bottom center fixed connection of annular array .

Referring to fig. 2, the annular array permanent magnet body adsorption type part space limiting mechanism 8 includes an annular body 81 for the annular array permanent magnet body adsorption type part space limiting mechanism, a central hole 82 for the annular array permanent magnet body adsorption type part space limiting mechanism, a limiting rod 83 for the annular array permanent magnet body adsorption type part space limiting mechanism, an annular permanent magnet mounting groove structure 84 for the annular array permanent magnet body adsorption type part space limiting mechanism, and an annular permanent magnet 85 for the annular array permanent magnet body adsorption type part space limiting mechanism; the center of the torus 81 for the annular array permanent magnet body adsorption type component space limiting mechanism is provided with a central hole 82 for the annular array permanent magnet body adsorption type component space limiting mechanism, which is communicated with the upper surface and the lower surface of the torus 81 for the annular array permanent magnet body adsorption type component space limiting mechanism, a plurality of limiting rods 83 for the adsorption type part space limiting mechanism of the annular array permanent magnet body are arranged at the edge part of the upper surface of the annular body 81 for the adsorption type part space limiting mechanism of the annular array permanent magnet body, the lower surface of the torus 81 for the annular array permanent magnet body adsorption type component space limiting mechanism is provided with an annular array permanent magnet body adsorption type component space limiting mechanism annular permanent magnet mounting groove structure 84, an annular permanent magnet 85 for the annular array permanent magnet body adsorption type part space limiting mechanism is arranged inside the annular permanent magnet mounting groove structure 84 for the annular array permanent magnet body adsorption type part space limiting mechanism; the limiting rods 83 for the annular array permanent magnet body adsorption type component space limiting mechanisms are arranged in an annular array around the axis line of the circular ring body 81 for the annular array permanent magnet body adsorption type component space limiting mechanisms as the circle center; annular array permanent magnet body adsorption type part space is annular permanent magnet 85 for stop gear makes for neodymium iron boron materials, just annular array permanent magnet body adsorption type part for space stop gear annular permanent magnet 85 adsorbs directly over iron sheet 7, and its main function is: the adsorption type limiting is realized, and then the parts can be put into the middle positions of the limiting rods 83 for the adsorption type part space limiting mechanisms of the annular array permanent magnet bodies, so that the phenomenon that the cleaning parts collide with rotating objects can be prevented.

Referring to fig. 3, the ring array type main rotation driving force dispersing mechanism 9 includes a ring array type main rotation driving force dispersing mechanism connecting plate 91, a ring array type main rotation driving force dispersing mechanism bolt hole 92, a ring array type main rotation driving force dispersing mechanism gear box 93, a ring array type main rotation driving force dispersing mechanism gear mounting space 94, a ring array type main rotation driving force dispersing mechanism first bearing 95, a first rotating shaft 96 for the ring-array type main rotational driving force dispersion mechanism, a main gear 97 for the ring-array type main rotational driving force dispersion mechanism, a second bearing 98 for the ring-array type main rotational driving force dispersion mechanism, a second rotating shaft 99 for the ring-array type main rotational driving force dispersion mechanism, and a pinion 910 for the ring-array type main rotational driving force dispersion mechanism; a plurality of ring-shaped array-type main rotation driving force dispersing mechanism bolt holes 92 are formed in the ring-shaped array-type main rotation driving force dispersing mechanism connecting plate 91, a ring-shaped array-type main rotation driving force dispersing mechanism gear case 93 having an integrated structure with the ring-shaped array-type main rotation driving force dispersing mechanism connecting plate 91 is formed at the bottom of the ring-shaped array-type main rotation driving force dispersing mechanism connecting plate 91, a ring-shaped array-type main rotation driving force dispersing mechanism gear mounting space 94 is formed in the ring-shaped array-type main rotation driving force dispersing mechanism gear case 93, a ring-shaped array-type main rotation driving force dispersing mechanism first bearing 95 is mounted at the center of the bottom of the ring-shaped array-type main rotation driving force dispersing mechanism gear case 93, a ring-shaped array-type main rotation driving force dispersing mechanism first rotating shaft 96 is mounted in the inner ring of the ring-shaped, the first rotation shaft 96 for the ring-array type main rotation driving force dispersion mechanism is provided with a main gear 97 for the ring-array type main rotation driving force dispersion mechanism at one end of the gear installation space 94 for the ring-array type main rotation driving force dispersion mechanism, the upper surface of the gear box 93 for the ring-array type main rotation driving force dispersion mechanism is provided with a plurality of second bearings 98 for the ring-array type main rotation driving force dispersion mechanism arranged in a ring array, a second rotation shaft 99 for the ring-array type main rotation driving force dispersion mechanism is provided inside each of the second bearings 98 for the ring-array type main rotation driving force dispersion mechanism, the second rotation shaft 99 for the ring-array type main rotation driving force dispersion mechanism is provided with a sub gear 910 for the ring-array type main rotation driving force dispersion mechanism at one end of the second rotation shaft 99 located inside the gear installation space 94 for the ring-array type main rotation driving force dispersion mechanism, a plurality of annular array type auxiliary gears 910 for the main rotation driving force dispersion mechanism are meshed with the main gear 97 for the annular array type main rotation driving force dispersion mechanism through a tooth structure; the connecting plate 91 for the ring array type main rotation driving force dispersion mechanism is installed at the bottom of the cleaning housing 1 through bolts inserted into the bolt holes 92 for the ring array type main rotation driving force dispersion mechanism; the bottom of the first rotating shaft 96 for the circular array type main rotation driving force dispersion mechanism is fixedly connected with the top end of the main rotating shaft 10, the tops of the second rotating shafts 99 for the circular array type main rotation driving force dispersion mechanism are respectively fixedly connected with the bottom ends of the auxiliary rotating shafts 17, and the circular array type main rotation driving force dispersion mechanism is mainly used for: the gear ring array type meshing principle is utilized, and the gear ring array type gear ring can rotate by one band.

Referring to fig. 4, the circular array type coil spring compression maximum rotation torque force control mechanism 11 includes a main hollow housing 111 for the circular array type coil spring compression maximum rotation torque force control mechanism, a main hollow section 112 for the circular array type coil spring compression maximum rotation torque force control mechanism, a rotary column 113 for the circular array type coil spring compression maximum rotation torque force control mechanism, a semicircular groove structure 114 for the circular array type coil spring compression maximum rotation torque force control mechanism, an auxiliary hollow section 115 for the annular array type spiral spring compression type maximum rotation torque force control mechanism, a movable plate 116 for the annular array type spiral spring compression type maximum rotation torque force control mechanism, a spiral spring 117 for the annular array type spiral spring compression type maximum rotation torque force control mechanism and a push rod 118 for the annular array type spiral spring compression type maximum rotation torque force control mechanism; the center of one end face of the main hollow housing 111 for the annular array type coil spring compression type maximum rotation torque dynamics control mechanism is fixedly connected with the end part of the main rotating shaft 10, the center of the inside of the main hollow housing 111 for the annular array type coil spring compression type maximum rotation torque dynamics control mechanism is a main hollow section 112 for the annular array type coil spring compression type maximum rotation torque dynamics control mechanism, the main hollow housing 111 for the annular array type coil spring compression type maximum rotation torque dynamics control mechanism is sleeved with a rotary column 113 for the annular array type coil spring compression type maximum rotation torque dynamics control mechanism inside the main hollow section 112 for the annular array type coil spring compression type maximum rotation torque dynamics control mechanism, and the inside of the main hollow housing 111 for the annular array type coil spring compression type maximum rotation torque dynamics control mechanism is an annular array type coil spring compression type maximum rotation torque dynamics control column 113 A secondary hollow section 115 for a brake mechanism, a movable plate 116 for a ring array type coil spring compression maximum rotation torque force control mechanism being placed inside the secondary hollow section 115 for a ring array type coil spring compression maximum rotation torque force control mechanism at one end face of the primary hollow section 112 for a ring array type coil spring compression maximum rotation torque force control mechanism, the secondary hollow section 115 for a ring array type coil spring compression maximum rotation torque force control mechanism fixing a coil spring 117 for a ring array type coil spring compression maximum rotation torque force control mechanism between one ends of the movable plates 116 for a ring array type coil spring compression maximum rotation torque force control mechanism, one end face of the movable plate 116 for a ring array type coil spring compression maximum rotation torque force control mechanism being provided with a ring array type coil spring compression maximum rotation torque force control mechanism of an integral structure therewith A push rod 118 for a torque control mechanism, the push rod 118 for the annular array type coil spring compression type maximum rotational torque force control mechanism penetrates the main hollow casing 111 for the annular array type coil spring compression type maximum rotational torque force control mechanism and is located inside the main hollow section 112 for the annular array type coil spring compression type maximum rotational torque force control mechanism, the push rod 118 for the annular array type coil spring compression type maximum rotational torque force control mechanism is of a semicircular structure at one end of the main hollow section 112 for the annular array type coil spring compression type maximum rotational torque force control mechanism, and an annular array type coil spring compression type maximum rotational torque force control mechanism rotary column 113 for placing an end portion of the push rod 118 for the annular array type coil spring compression type maximum rotational torque force control mechanism is provided on a side surface thereof The control mechanism is in a semicircular groove structure 114, and one end of a rotary column 113 for the annular array type spiral spring compression type maximum rotary torque force control mechanism is fixed with the end part of the motor spindle 12; the initial length of the spiral spring 117 for the annular array type spiral spring compression type maximum rotation torque force control mechanism is larger than the length of the auxiliary hollow section 115 for the annular array type spiral spring compression type maximum rotation torque force control mechanism; the structural appearance of the end part of the push rod 118 for the annular array type spiral spring compression type maximum rotation torque force control mechanism is consistent with that of the semicircular groove structure 114 for the annular array type spiral spring compression type maximum rotation torque force control mechanism, and the annular array type spiral spring compression type maximum rotation torque force control mechanism is mainly used for: when the driving resistance is too large, the resistance is greater than the elasticity of the spiral spring 117 for the annular array type spiral spring compression type maximum rotation torque force control mechanism, the spiral spring 117 for the annular array type spiral spring compression type maximum rotation torque force control mechanism is compressed, and under the causal action, the relative rotation between the two rotating shafts is realized, so that the main rotating shaft 10 cannot be driven to rotate too fast, and the protection effect is achieved, and therefore the elasticity of the spiral spring 117 for the annular array type spiral spring compression type maximum rotation torque force control mechanism is smaller than the rotation force of the driving motor 15 under the maximum power.

The specific use mode is as follows: in the work of the invention, liquid for cleaning is poured into the cleaning space 2, then the driving motor 15 is started, the annular array type main rotation driving force dispersing mechanism 9 is driven to work under the driving action of the driving motor 15, the plurality of auxiliary rotating shafts 17 drive the rotating plates 19 to rotate rapidly under the action of the annular array type main rotation driving force dispersing mechanism 9, the cleaning liquid in the annular array type main rotation driving force dispersing mechanism can gradually enter into a vortex form due to the fact that the plurality of rotating plates 19 rotate in the same direction, when a vortex is formed, a part needing to be cleaned is thrown into the annular array type permanent magnet body adsorption type part space limiting mechanism 8, the part can be cleaned, after the cleaning is finished, the driving motor 15 is closed, then the plunger 5 is opened, the cleaning liquid is discharged, and then the part is taken out.

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. A quick cleaning device of vortex flush formula part, includes washing shell (1), its characterized in that: the cleaning device is characterized in that a cleaning space (2) is arranged at the center of the cleaning shell (1), an annular groove structure (3) is arranged at the bottom of the side face of the cleaning space (2) of the cleaning shell (1), a main liquid drainage pipeline (19) of an integrated structure with the cleaning shell (1) is arranged at the bottom of the outer side of the cleaning shell (1), a main material drainage hole (4) communicated with the outside and the annular groove structure (3) is formed in the main liquid drainage pipeline (19), a plunger (5) is installed in the main material drainage hole (4), an iron sheet embedding space (6) is arranged at the center of the bottom of the cleaning shell (1), an iron sheet (7) is embedded in the iron sheet embedding space (6), an annular array permanent magnet body adsorption type part space limiting mechanism (8) is adsorbed at the center of the bottom of the cleaning space (2), a plurality of auxiliary rotating shafts (17) are installed in the bottom of the cleaning shell (1) through, a rotating plate (19) is mounted on the shaft body of each auxiliary rotating shaft (17), an annular array type main rotation driving force dispersing mechanism (9) is mounted at the bottom of the cleaning shell (1) through bolts, supporting rods (17) are mounted at the bottom of the annular array type main rotation driving force dispersing mechanism (9), a bottom supporting base plate (16) is mounted at the bottom of each supporting rod (17), a driving motor mounting shell (13) is mounted at the center of the upper surface of the bottom supporting base plate (16) through bolts, a driving motor mounting space (14) is arranged inside the driving motor mounting shell (13), a driving motor (15) is mounted inside the driving motor mounting space (14), an annular array type spiral spring compression type maximum rotation torque force control mechanism (11) is mounted at the top of a motor spindle (12) in each driving motor (15), the annular array type spiral spring compression type maximum rotation torque force control mechanism is characterized in that a main rotating shaft (10) is installed in the center of the upper surface of the annular array type spiral spring compression type maximum rotation torque force control mechanism (11), and the top end of the main rotating shaft (10) is fixedly connected with the center of the bottom of the annular array type main rotation driving force dispersing mechanism (9).

2. A vortex flush type component quick cleaning device according to claim 1, characterized in that: the annular array permanent magnet body adsorption type part space limiting mechanism (8) comprises an annular body (81) for the annular array permanent magnet body adsorption type part space limiting mechanism, a central hole (82) for the annular array permanent magnet body adsorption type part space limiting mechanism, a limiting rod (83) for the annular array permanent magnet body adsorption type part space limiting mechanism, an annular permanent magnet mounting groove structure (84) for the annular array permanent magnet body adsorption type part space limiting mechanism and an annular permanent magnet (85) for the annular array permanent magnet body adsorption type part space limiting mechanism; annular array permanent magnet body adsorption type part space is centre bore (82) for stop gear of annular array permanent magnet body adsorption type part space of surface about annular array permanent magnet body adsorption type part space stop gear of torus (81) is provided with at the center of annular array permanent magnet body adsorption type part space stop gear of intercommunication annular array permanent magnet body adsorption type part space stop gear uses torus (81), a plurality of annular array permanent magnet body adsorption type part space stop gear use gag lever post (83) are installed at the upper surface edge position of annular array permanent magnet body adsorption type part space stop gear for torus (81), the lower surface of annular array permanent magnet body adsorption type part space stop gear for torus (81) is provided with an annular array permanent magnet body adsorption type part space stop gear and uses annular permanent magnet installation groove structure (84), an internally mounted annular array permanent magnet body adsorption type part space for annular array permanent magnet body adsorption type part space stop gear of annular array permanent magnet installation groove structure (84) The spacing mechanism uses a ring-shaped permanent magnet (85).

3. A vortex flush type component quick cleaning device according to claim 2, characterized in that: and a plurality of limiting rods (83) for the adsorption type part space limiting mechanism of the annular array permanent magnet body are arranged in an annular array mode by taking the axial lead of the ring body (81) for the adsorption type part space limiting mechanism of the annular array permanent magnet body as the circle center.

4. A vortex flush type component quick cleaning device according to claim 2, characterized in that: annular array permanent magnet body adsorption type part space is annular permanent magnet (85) for stop gear makes for the neodymium iron boron material, just annular array permanent magnet body adsorption type part space is annular permanent magnet (85) for stop gear adsorbs directly over iron sheet (7).

5. A vortex flush type component quick cleaning device according to claim 1, characterized in that: the annular array type main rotation driving force dispersion mechanism (9) comprises an annular array type main rotation driving force dispersion mechanism connecting plate (91), an annular array type main rotation driving force dispersion mechanism bolt hole (92), an annular array type main rotation driving force dispersion mechanism gear box (93), an annular array type main rotation driving force dispersion mechanism gear mounting space (94) and an annular array type main rotation driving force dispersion mechanism first bearing (95), a first rotating shaft (96) for the annular array type main rotation driving force dispersion mechanism, a main gear (97) for the annular array type main rotation driving force dispersion mechanism, a second bearing (98) for the annular array type main rotation driving force dispersion mechanism, a second rotating shaft (99) for the annular array type main rotation driving force dispersion mechanism and a pinion (910) for the annular array type main rotation driving force dispersion mechanism; a plurality of annular array type bolt holes (92) for main rotation driving force dispersing mechanisms are formed in the connecting plate (91) for the annular array type main rotation driving force dispersing mechanisms, gear boxes (93) for the annular array type main rotation driving force dispersing mechanisms are arranged at the bottoms of the connecting plates (91) for the annular array type main rotation driving force dispersing mechanisms and are of an integrated structure with the connecting plates, gear installation spaces (94) for the annular array type main rotation driving force dispersing mechanisms are formed in the gear boxes (93) for the annular array type main rotation driving force dispersing mechanisms, first bearings (95) for the annular array type main rotation driving force dispersing mechanisms are installed at the centers of the bottoms of the gear boxes (93) for the annular array type main rotation driving force dispersing mechanisms, and first rotation driving force dispersing mechanisms for the annular array type main rotation driving force dispersing mechanisms are installed in the inner rings of the first bearings (95) for the annular array type main rotation driving force dispersing mechanisms A shaft (96), an annular array main rotation drive dynamics dispersion mechanism main gear (97) is installed at one end of an annular array main rotation drive dynamics dispersion mechanism gear installation space (94) at a first rotation shaft (96) for an annular array main rotation drive dynamics dispersion mechanism, a plurality of annular array main rotation drive dynamics dispersion mechanism second bearings (98) arranged in an annular array are installed on the upper surface of an annular array main rotation drive dynamics dispersion mechanism gear box (93), each annular array main rotation drive dynamics dispersion mechanism second rotation shaft (99) is installed inside the annular array main rotation drive dynamics dispersion mechanism second bearing (98), an annular array main rotation drive dynamics dispersion mechanism second rotation shaft (99) is installed at one end of the annular array main rotation drive dynamics dispersion mechanism gear installation space (94) inside the annular array main rotation drive dynamics dispersion mechanism second rotation shaft (99) The array type main rotation driving force dispersing mechanism is provided with a plurality of pinion gears (910), and the plurality of the ring array type main rotation driving force dispersing mechanism pinion gears (910) are meshed with the ring array type main rotation driving force dispersing mechanism main gear (97) through a tooth structure.

6. A vortex flush type component quick cleaning device according to claim 5, characterized in that: the annular array type main rotation driving force dispersing mechanism connecting plate (91) is installed at the bottom of the cleaning shell (1) through bolts inserted into bolt holes (92) for the annular array type main rotation driving force dispersing mechanism.

7. A vortex flush type component quick cleaning device according to claim 5, characterized in that: the bottom end of a first rotating shaft (96) for the annular array type main rotation driving force dispersion mechanism is fixedly connected with the top end of a main rotating shaft (10), and the tops of a plurality of second rotating shafts (99) for the annular array type main rotation driving force dispersion mechanism are respectively fixedly connected with the bottom ends of a plurality of auxiliary rotating shafts (17).

8. A vortex flush type component quick cleaning device according to claim 1, characterized in that: the annular array type spiral spring compression type maximum rotation torque force control mechanism (11) comprises a main hollow shell (111) for the annular array type spiral spring compression type maximum rotation torque force control mechanism, a main hollow area (112) for the annular array type spiral spring compression type maximum rotation torque force control mechanism, a rotary column (113) for the annular array type spiral spring compression type maximum rotation torque force control mechanism, a semicircular groove structure (114) for the annular array type spiral spring compression type maximum rotation torque force control mechanism, an auxiliary hollow area (115) for the annular array type spiral spring compression type maximum rotation torque force control mechanism, a movable plate (116) for the annular array type spiral spring compression type maximum rotation torque force control mechanism, a spiral spring (117) for the annular array type spiral spring compression type maximum rotation torque force control mechanism and an annular array type spiral spring compression type maximum rotation torque force controller A mechanism push rod (118); the center of one end face of a main hollow shell (111) for the annular array type spiral spring compression type maximum rotation torque force control mechanism is fixedly connected with the end part of a main rotation shaft (10), the center inside the main hollow shell (111) for the annular array type spiral spring compression type maximum rotation torque force control mechanism is a main hollow area (112) for the annular array type spiral spring compression type maximum rotation torque force control mechanism, the main hollow shell (111) for the annular array type spiral spring compression type maximum rotation torque force control mechanism is positioned in the main hollow area (112) for the annular array type spiral spring compression type maximum rotation torque force control mechanism, a rotation column (113) for the annular array type spiral spring compression type maximum rotation torque force control mechanism is sleeved in the main hollow area (111) for the annular array type spiral spring compression type maximum rotation torque force control mechanism, and the inside of the main hollow shell (111) for the annular array type spiral spring compression type maximum rotation torque force An auxiliary hollow section (115) for the coil spring compression-type maximum rotational torque moment control mechanism, a movable plate (116) for the annular array-type coil spring compression-type maximum rotational torque moment control mechanism being disposed inside the auxiliary hollow section (115) for the annular array-type coil spring compression-type maximum rotational torque moment control mechanism at one end face of the main hollow section (112) for the annular array-type coil spring compression-type maximum rotational torque moment control mechanism, the auxiliary hollow section (115) for the annular array-type coil spring compression-type maximum rotational torque moment control mechanism fixing a coil spring (117) for the annular array-type coil spring compression-type maximum rotational torque moment control mechanism between one ends of the movable plates (116) for the annular array-type coil spring compression-type maximum rotational torque moment control mechanism, the movable plate (116) for the annular array-type coil spring compression-type maximum rotational torque moment control mechanism One end face of the annular array type spiral spring compression type push rod (118) for the maximum rotation torque force control mechanism is provided with an integral structure, the annular array type spiral spring compression type push rod (118) for the maximum rotation torque force control mechanism penetrates through the main hollow shell (111) for the annular array type spiral spring compression type maximum rotation torque force control mechanism and is positioned in the main hollow area (112) for the annular array type spiral spring compression type maximum rotation torque force control mechanism, one end of the annular array type spiral spring compression type push rod (118) positioned in the main hollow area (112) for the annular array type spiral spring compression type maximum rotation torque force control mechanism is of a semicircular structure, and the side face of the rotating column (113) for the annular array type spiral spring compression type maximum rotation torque force control mechanism is provided with a rotating column (113) for placing the annular array type spiral spring compression type maximum rotation torque force control mechanism The annular array type spiral spring compression type maximum rotation torque force control mechanism at the end part of a push rod (118) for the spiral spring compression type maximum rotation torque force control mechanism is of a semicircular groove structure (114), and one end of a rotary column (113) for the annular array type spiral spring compression type maximum rotation torque force control mechanism is fixed with the end part of a motor spindle (12).

9. A vortex flush component quick cleaning device according to claim 8, wherein: the initial length of the spiral spring (117) for the annular array type spiral spring compression type maximum rotation torque force control mechanism is larger than the length of the auxiliary hollow section (115) for the annular array type spiral spring compression type maximum rotation torque force control mechanism.

10. A vortex flush component quick cleaning device according to claim 8, wherein: the structural appearance of the end part of the push rod (118) for the annular array type spiral spring compression type maximum rotation torque force control mechanism is consistent with that of the semicircular groove structure (114) for the annular array type spiral spring compression type maximum rotation torque force control mechanism.

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