CN111715616B - Hardware component cleaning device - Google Patents

Abstract

The invention discloses a hardware component cleaning device, which structurally comprises: the invention realizes the matching of the aluminum shell square groove and the eddy current vibrating screen inner groove, forms the integral floor drain type suction operation by wrapping and pressing the liner groove and the ultrasonic pad seat to form the integral floor drain type suction operation by the aluminum shell square groove, leads viscous impurities in the hardware thread clamp groove to be pulled, rotated and scraped, leads the fluid pressure to be matched with the ultrasonic wave ripple vibrating screen to form a net-frame type base suction and pressing fluidized bed composite cleaning effect, ensures the soaking amount and the water washing rotary brush of stacking and pressing hardware components in the groove plate, effectively promotes the negative pressure vortex operation of cleaning of an external structure and the internal thread rotation washing, leads the integral hardware to be matched with the ultrasonic wave vibrating screen and rotate around water flow to form the amplitude feedback sound shock effect, and improves the ultrasonic receiving and sending effect.

Description

Hardware component cleaning device

Technical Field

The invention discloses a hardware component cleaning device, and belongs to the field of hardware.

Background

The clearance of hardware needs to carry out ultrasonic wave and washing combination to the rust thing of surface dust and inner chamfer, and the guarantee shakes the fluid parcel and the water level medium acoustic wave transmission feedback operation of sieve in-process hardware component, obtains the quality effect of wasing the renewal, washes the labour with mechanical cleaning replacement manual work, makes the more high-efficient function of equipment, and the public shortcoming of treating the optimization of prior art has:

the ultrasonic vibration of hardware washs and needs the rigidity collision to form that the roller falls to make an uproar and shakes sieve scrubbing effect, but the clearance pollutant in the interior chamfer groove of hardware screw thread is viscidity dust piece, influence the pad that adds of screw pitch when the later stage clearance is incomplete easily and prop, lead to the hardware framework to stay seam and tooth's socket uneven, cause the ultrasonic wave vibration cleaning operation repeatedly, the screw thread interval that makes the hardware receives the high strength collision easily and produces the internal pressure deformation volume, it is single to cause to wash structure frame groove ultrasonic treatment, and the anti-seismic efficiency of sound wave weakens, the interference cleaning quality.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a hardware component cleaning device, which is used for solving the problems that rigid collision is needed for ultrasonic vibration cleaning of hardware to form a noise reduction, vibration screening and dirt removal effect of a roller, but gap pollutants of a chamfer groove in a hardware thread are sticky dust blocks, and a plugging and supporting of a thread pitch is easily influenced when cleaning in the later period is incomplete, so that a hardware framework is provided with a seam, a tooth groove is uneven, repeated ultrasonic vibration cleaning operation is caused, the thread pitch of the hardware is easily subjected to high-intensity collision to generate an internal pressure deformation variable, the ultrasonic treatment of a cleaning structure frame groove is single, the sound wave anti-vibration efficiency is weakened, and the cleaning quality is interfered.

In order to achieve the purpose, the invention is realized by the following technical scheme: a hardware component belt cleaning device, its structure includes: the vortex vibration sieve comprises an aluminum shell square groove, a top cover plate, a vortex vibration sieve inner groove, an electric control panel, a vertical surface baffle, a switch valve handle and a drainage pipe, wherein the vortex vibration sieve inner groove is arranged inside the aluminum shell square groove, the electric control panel is arranged at the right upper corner of the aluminum shell square groove, the top cover plate is nested on the top of the vortex vibration sieve inner groove, the vertical surface baffle is tightly attached to the aluminum shell square groove and is positioned on the same vertical surface, the drainage pipe is inserted in the left lower corner of the aluminum shell square groove and is communicated with the aluminum shell square groove, the switch valve handle is mechanically connected with the vortex vibration sieve inner groove through a bearing, the vortex vibration sieve inner groove is provided with a support cushion wheel frame, a trapezoid groove frame plate, a cross bar plate, a vortex brush wheel, an inner container liner groove and an ultrasonic cushion seat, the trapezoid groove frame plate and the cross bar plate are welded into a whole and are perpendicular to each other, the trapezoid groove frame plate and the cross bar plate are respectively provided with four support, the ultrasonic cleaning machine is characterized in that the transverse bar plates and the eddy current sweeping wheels are in interference fit, the ultrasonic pad bases are provided with two and are respectively inserted into the left side and the right side of the inner container lining groove, the eddy current sweeping wheels are provided with four and are all installed in the inner container lining groove, and the inner container lining groove is installed in the aluminum shell square groove.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the frame supporting cushion wheel frame consists of a pair supporting shaft wheel, a dish seat and a damping clamping and buckling block, wherein the pair supporting shaft wheel is nested at the front side of the dish seat, the axes of the pair supporting shaft wheel are collinear, and the damping clamping and buckling block and the pair supporting shaft wheel are in interference fit and are positioned on the same vertical surface.

As a further improvement of the invention, the opposite support shaft wheel consists of a spring wire ejector rod, a side brush plate, a thick wheel ring and rubber plate blocks, wherein the spring wire ejector rod and the side brush plate are nested into a whole and are positioned on the same vertical surface, the spring wire ejector rod and the rubber plate blocks are nested together, and the rubber plate blocks are provided with two and are respectively nested on the left side and the right side of the thick wheel ring.

As a further improvement of the invention, the vortex sweeping wheel consists of a runner paddle board, a thin wheel groove and a funnel hole groove, wherein the funnel hole groove is arranged inside the thin wheel groove, the axes of the funnel hole groove are collinear, and the runner paddle board is mechanically connected with the thin wheel groove.

As a further improvement of the invention, the flow channel paddle blade plate consists of a film dialysis hole, a lining plate paddle blade, a long flow channel groove and a trapezoidal wing plate, wherein the film dialysis hole and the long flow channel groove are arranged inside the lining plate paddle blade, and the trapezoidal wing plate is inserted and embedded at the left side of the lining plate paddle blade and is positioned on the same vertical plane.

As a further improvement of the invention, the liner groove consists of a vibrating screen eccentric wheel, an outer frame liner groove and a liner square groove, the vibrating screen eccentric wheel is arranged in the outer frame liner groove, and the outer frame liner groove and the liner square groove are nested into a whole.

As a further improvement of the invention, the vibrating screen eccentric wheel consists of a deflection wheel disc, a reinforcing rib supporting rod, an eccentric ball and a side rod arc cushion block, wherein the deflection wheel disc and the reinforcing rib supporting rod are welded into a whole and are positioned on the same vertical surface, the eccentric ball is mechanically connected with the deflection wheel disc, and the eccentric ball and the side rod arc cushion block are in clearance fit.

As a further improvement of the invention, the ultrasonic pad seat consists of a sound generator, a flat strip elliptical ball bag and a foam sound insulation board, wherein the flat strip elliptical ball bag is nested on the left side of the foam sound insulation board and is positioned on the same vertical surface, and the sound generator is inserted into the flat strip elliptical ball bag.

As a further improvement of the invention, the sound wave generator consists of a beam-collecting cylinder groove, a shell sleeve block, a cyclone inner cavity and a photoelectric resonance tube, wherein the beam-collecting cylinder groove is inserted and embedded at the left side of the shell sleeve block, and the beam-collecting cylinder groove is buckled with the photoelectric resonance tube through the cyclone inner cavity and is communicated with the photoelectric resonance tube.

As a further improvement of the invention, the spring wire ejector rod is a combined spring frame rod piece structure of a long shaft rod, a belt wheel sleeve and an inclined frame spring wire seat, so that the torque regulation and control operation effect of high-low partial pushing balance formed by adapting to axial center dislocation during transverse opposite pressing is facilitated.

As a further improvement of the invention, the liner plate paddle blade is of a combined slat structure with a bottom slender narrow plate inserted with a top fan blade plate, so that the effect of forming a winding water rotation converging and brushing hardware thread pitch gap chamfer angle by a propeller type arc support vortex is facilitated.

As a further improvement of the invention, the side rod arc cushion blocks are of a combined frame cushion structure with left and right thick and short rod bottom pressing arc cushion blocks, so that internal cleaning liquid can be conveniently obtained around the pressing wheel of the eccentric roller, and the hardware can fully achieve the operation effect of fluidized bed type sound wave adaptive cleaning.

As a further improvement of the invention, the beam-collecting barrel groove is a combined funnel type sonar barrel groove structure with a left wide narrow-band sleeve and a right wide narrow-band sleeve, so that an electronic wave band can be conveniently filled from right to left to form a resonance ultrasonic wave triggering alignment impact effect, and the maximum overall wrapping coverage area of the acoustic wave cleaning operation is ensured.

Advantageous effects

The invention relates to a hardware component cleaning device, which is characterized in that a worker puts hardware into liner grooves of an aluminum shell square groove and an eddy current vibrating screen inner groove, then covers a top cover plate, presses an electric control panel to adjust output current after power connection, ensures that equipment starts to work in a vertical baffle, screws a switch valve handle to prevent cleaning solution from leaking laterally through a drain pipe, brushes a damping buckle block in a disc seat through a counter-supporting shaft wheel of a frame supporting cushion wheel frame, enables a spring wire ejector rod plugging side brush plate to form a thin wheel groove of a pull-buckle eddy current brush wheel through a rubber plate wrapping and pressing thick wheel ring centering roller supporting trapezoid-shaped groove frame plate and a cross bar plate to adapt to fluid rotation operation, enables a thin film dialysis hole of a funnel hole groove plugging rotational flow driving runner paddle blade plate and a long flow groove to form a long flow bunch and through hole water flow dialysis hardware vortex cleaning effect in a liner plate blade along a trapezoidal wing plate rotating brush, the outer frame lining groove of the liner lining groove is spliced through the ultrasonic pad seat, sound wave feedback is formed on the left side and the right side conveniently, the deflection wheel disc jacking reinforcing rib supporting rod supporting the eccentric roller pad side rod arc cushion block to push the liner square groove to form a surge fluctuation type scouring effect of cleaning liquid, the hardware component is guaranteed to be cleaned to form a vortex drainage operation effect of ultrasonic adaptive flow bed cleaning, a worker pulls the switch valve handle to enable the cleaned liquid slag to be output through the drainage pipe, and the cleanness degree of the internal thread and the external surface of the internal hardware component is guaranteed.

The invention has the following advantages after operation:

application aluminum hull square chest and vortex shake sieve inside groove and cooperate, sweep the brush wheel through pressing inner bag lining groove and ultrasonic wave base pad joint vortex with aluminum hull square chest package and form holistic floor drain formula suction operation, let the viscidity impurity of fluid pulling hardware screw clamp inslot form to pull to circle round to scrape and wash, make fluid pressure fit ultrasonic wave ripple shake the sieve and form the compound cleaning effect of a network frame formula base suction pressure fluidized bed, guarantee tank plate internal pile presses the immersion volume and the washing brush soon of hardware component, effectively promote the negative pressure vortex operation that the exterior structure cleaned and the internal thread circles round to wash, let holistic hardware cooperation ultrasonic wave shake the sieve and form amplitude-increasing feedback sound and shake the effect around rivers, improve ultrasonic wave receiving and dispatching effect.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a hardware component cleaning device according to the present invention.

FIG. 2 is a detailed top view cross-sectional structure diagram of the vortex vibrating screen inner groove, the frame supporting cushion wheel frame, the vortex sweeping wheel, the liner groove and the ultrasonic pad seat.

FIG. 3 is a schematic top sectional view of the supporting axle wheel according to the present invention.

Fig. 4 is a schematic top sectional view of the flow channel blade plate according to the present invention in an operating state.

FIG. 5 is a schematic view of the aerial view cross section structure of the vibrating screen eccentric wheel in the working state.

FIG. 6 is a schematic view of an aerial view cross-section of the acoustic wave generator according to the present invention in an operating state.

Description of reference numerals: aluminum shell square groove-1, top cover plate-2, eddy current vibrating screen inner groove-3, electric control panel-4, vertical baffle-5, switch valve handle-6, drainage pipe-7, support pad wheel frame-3A, trapezoidal groove frame plate-3B, cross bar plate-3C, eddy current brush wheel-3D, inner container lining groove-3E, ultrasonic pad seat-3F, counter support shaft wheel-3A 1, disc seat-3A 2, damping buckle block-3A 3, spring wire ejector rod-3A 11, side brush plate-3A 12, thick wheel ring-3A 13, rubber plate-3A 14, flow channel paddle plate-3D 1, thin wheel groove-3D 2, funnel hole groove-3D 3, thin film dialysis hole-3D 11, lining plate paddle-3D 12, long flow channel groove-3D 13, The device comprises a trapezoidal wing plate-3D 14, a vibrating screen eccentric wheel-3E 1, an outer frame lining groove-3E 2, an inner container square groove-3E 3, a deflection wheel disc-3E 11, a reinforcing rib supporting rod-3E 12, an eccentric ball-3E 13, a side rod arc cushion block-3E 14, a sound wave generator-3F 1, a flat strip elliptical balloon-3F 2, a foam sound insulation plate-3F 3, a beam collecting barrel groove-3F 11, a shell block-3F 12, a cyclone inner cavity-3F 13 and a photoelectric resonance tube-3F 14.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1 to 6, the present invention provides a hardware component cleaning apparatus, which includes: the vortex vibration sieve comprises an aluminum shell square groove 1, a top cover plate 2, a vortex vibration sieve inner groove 3, an electric control panel 4, a vertical baffle plate 5, a switch valve handle 6 and a drainage pipe 7, wherein the vortex vibration sieve inner groove 3 is installed inside the aluminum shell square groove 1, the electric control panel 4 is installed at the right upper corner of the aluminum shell square groove 1, the top cover plate 2 is nested on the top of the vortex vibration sieve inner groove 3, the vertical baffle plate 5 is tightly attached to the aluminum shell square groove 1 and is positioned on the same vertical plane, the drainage pipe 7 is inserted and embedded at the left lower corner of the aluminum shell square groove 1 and is communicated with the aluminum shell square groove 1, the switch valve handle 6 is mechanically connected with the vortex vibration sieve inner groove 3 through a bearing, the vortex vibration sieve inner groove 3 is provided with a support cushion wheel frame 3A, a trapezoid groove frame plate 3B, a cross bar plate 3C, a vortex sweeping wheel 3D, a liner groove 3E and an ultrasonic cushion base 3F, the trapezoid groove frame plate 3B and the cross bar 3C are welded into a whole, trapezoidal groove frame board 3B and horizontal bar board 3C all are equipped with four and install respectively in the upper and lower both sides of frame prop pad wheel carrier 3A, horizontal bar board 3C sweeps brush wheel 3D with the vortex and adopts interference fit, ultrasonic wave pad seat 3F is equipped with two and inserts respectively and inlays the left and right sides in inner bag lining groove 3E, the vortex is swept brush wheel 3D and is equipped with four and all install in the inside in inner bag lining groove 3E, inner bag lining groove 3E installs in the inside of aluminium hull square groove 1.

Referring to fig. 2, the frame supporting cushion wheel frame 3A is composed of a pair supporting shaft wheel 3A1, a disc seat 3A2 and a damping clamping block 3A3, the pair supporting shaft wheel 3A1 is nested at the front side of the disc seat 3A2 and the axes thereof are collinear, the damping clamping block 3A3 and the pair supporting shaft wheel 3A1 are in interference fit and are located on the same vertical plane, the eddy current sweeping wheel 3D is composed of a runner paddle plate 3D1, a thin wheel groove 3D2 and a funnel hole groove 3D3, the funnel hole groove 3D3 is mounted inside the thin wheel groove 3D2 and the axes thereof are collinear, the runner paddle plate 3D1 is mechanically connected with the thin wheel groove 3D2, the liner groove 3E is composed of a vibrating screen 3E1, a lining groove 3E2, a liner groove 3E 39 3 is mounted inside the outer frame of the vibrating screen lining groove 3E2, the eccentric wheel 3E is nested with the liner groove 583E 3E and the inner frame outer frame supporting eccentric wheel 583E 24 and the eccentric wheel 583E supporting shaft groove is integrated with the eccentric wheel 2 through the eccentric wheel center thereof, the runner blade plate 3D1 is matched with the vibrating screen eccentric wheel 3E1 to form the internal groove cleaning liquid vibration fluctuation and vortex suction bidirectional cleaning integrated operation.

Referring to fig. 3, the opposite support shaft wheel 3a1 is composed of a spring wire ejector rod 3a11, a side brush plate 3a12, a thick wheel ring 3a13 and a rubber plate 3a14, the spring wire ejector rod 3a11 and the side brush plate 3a12 are nested into a whole and are located on the same vertical plane, the spring wire ejector rod 3a11 and the rubber plate 3a14 are inserted and embedded together, the rubber plate 3a14 is provided with two spring plates and are respectively nested on the left side and the right side of the thick wheel ring 3a13, the spring wire ejector rod 3a11 is a combined spring frame rod structure of a long shaft wheel sleeve inserted and inclined frame spring seat, so that the torque regulation operation effect of high-low position partial push balance is formed by adapting to axial center dislocation during transverse opposite pressure, the plate lifting and pressing operation is formed by opposite top insertion and insertion of the side brush plate 3a12 through dislocation of the spring wire ejector rod 3a11, the centering anti-shock positioning frame wheel guide is ensured, and the auxiliary amplitude-increasing effect of washing plate frame is formed by matching with the frame.

Referring to fig. 4, the flow channel paddle blade 3D1 is composed of a film dialysis hole 3D11, a lining paddle blade 3D12, a long flow channel groove 3D13, and a trapezoidal wing plate 3D14, the film dialysis hole 3D11 and the long flow channel groove 3D13 are installed inside the lining paddle blade 3D12, the trapezoidal wing plate 3D14 is inserted and embedded on the left side of the lining paddle blade 3D12 and is located on the same vertical plane, the lining paddle blade 3D12 is a combined slat structure in which a bottom thin and long narrow plate is inserted and connected with a top fan blade, so that a propeller-type arc support vortex forms an effect of sweeping water rotation and collecting and washing hardware thread pitch clearance chamfering, and the long flow channel groove 3D13 is driven by the lining paddle blade 3D12 to form a band fluid rotating brush to pull a water rotating motion operation, so that the whole thread cleaning is flexible and flushing operation is achieved.

Referring to fig. 5, the vibrating screen eccentric wheel 3E1 is composed of a deflecting wheel disc 3E11, a reinforcing rib brace 3E12, an eccentric ball 3E13, a side bar arc spacer 3E14, the deflector disc 3E11 is welded to the stiffener strut 3E12 in one piece and on the same vertical plane, the eccentric ball 3E13 is mechanically connected with the deflection rotary table 3E11, the eccentric ball 3E13 is in clearance fit with the side bar arc cushion block 3E14, the side rod arc cushion blocks 3E14 are combined frame cushion structures with left and right thick and short rod bottom pressing arc cushion blocks, so that inner cleaning liquid can be conveniently obtained around the pressing wheel of the eccentric roller, the hardware can fully achieve the fluid bed type sound wave adaptive cleaning operation effect, through eccentric ball 3E13 roof pressure deflection rim plate 3E11 side push roll, guarantee that whole square groove obtains the smooth substrate seat cleaning performance of rivers in hardware displacement clearance, reduce the pervious separation dynamics of sound wave, promote sound wave feedback efficiency.

The working process is as follows: a worker puts hardware into an inner liner lining groove 3E of an aluminum shell square groove 1 and a vortex vibrating screen inner groove 3, then covers a top cover plate 2, presses an electric control panel 4 to adjust the output current after power connection, ensures that equipment starts to work in a vertical baffle 5, screws a switch valve handle 6 to prevent cleaning liquid from leaking laterally through a drain pipe 7, then brushes a damping clamping block 3A3 in a disc seat 3A2 through a support shaft wheel 3A1 of a support cushion wheel frame 3A, enables a spring wire push rod 3A11 plug-in side brush plate 3A12 to form a pull-buckle vortex sweeping brush wheel 3D thin wheel 3D2 adaptive fluid rotary operation through a rubber plate 3A14 wrapping a thick wheel ring 3A13 in the middle and a roller supporting trapezoid groove frame plate 3B and a cross strip plate 3C, enables a funnel hole 3D3 plug-in vortex flow driving flow channel paddle 3D1 thin film dialysis hole 3D11 and a long flow channel 3D 637 to form a hardware vortex flow cleaning water flow through hole 14 through hole and a cleaning blade 14 through hole of a vortex sweeping brush 3D, and then the ultrasonic pad seat 3F is inserted into an outer frame lining groove 3E2 of the inner container lining groove 3E, sound wave feedback is formed on the left and right sides conveniently, the deflection wheel disc 3E11 of the upper and lower vibrating screen eccentric wheel 3E1 is matched with the deflection wheel disc 3E11 jacking reinforcing rib supporting rod 3E12 rolling eccentric ball 3E13 pad side lever arc cushion block 3E14 to push the inner container square groove 3E3 to form a surge fluctuation type scouring effect of cleaning liquid, the vortex drainage operation effect of ultrasonic adaptive fluid bed cleaning is formed by hardware component cleaning, a worker pulls the switch valve handle 6 to enable the cleaned liquid slag to be discharged and output through the drainage pipe 7, and the cleanness degree of the inner thread and the outer surface of the internal hardware component is ensured.

Example two:

referring to fig. 1 to 6, the present invention provides a hardware component cleaning apparatus, which is otherwise the same as embodiment 1 except that:

referring to fig. 2, the ultrasonic wave pad 3F is composed of a sound generator 3F1, a flat strip elliptical balloon 3F2 and a foam sound insulation board 3F3, the flat strip elliptical balloon 3F2 is nested on the left side of the foam sound insulation board 3F3 and is located on the same vertical plane, the sound generator 3F1 is inserted and embedded inside the flat strip elliptical balloon 3F2, the flat strip elliptical balloon 3F2 is inserted and connected through the sound generator 3F1 to form a transverse output burst effect of longitudinal air pressure, and the quality of ultrasonic waves is ensured to be matched with the frequency conversion operation of electric control.

Referring to fig. 6, the acoustic wave generator 3F1 is composed of a beam-collecting barrel tank 3F11, a housing block 3F12, a cyclone inner chamber 3F13, and a photoelectric resonance tube 3F14, the beam-collecting barrel tank 3F11 is inserted and embedded in the left side of the housing block 3F12, the beam-collecting barrel tank 3F11 is fastened with the photoelectric resonance tube 3F14 through the cyclone inner chamber 3F13 and is communicated with each other, the beam-collecting barrel tank 3F11 is a combined funnel type sonar barrel tank structure with a wide left narrow-band sleeve and a wide right narrow-band sleeve, so that an electronic band is conveniently filled from the right side to the left side to form resonance ultrasonic waves to trigger an alignment impact effect, the overall package coverage area of the acoustic wave cleaning operation is ensured to be the maximum, the photoelectric resonance tube 3F14 is packaged in the cyclone inner chamber 3F13 to form a centralized integrated and compiled acoustic wave processing output operation at the upper and lower ends, and the dual-channel shelf.

Through the previous cleaning liquid vortex treatment and the fluid bed boosting surge operation, the washing of the whole hardware component and the internal thread scraping and brushing pumping force form different interactive pulling force cleaning operations, finally, the sound wave generator 3F1 matched with the ultrasonic pad base 3F is inserted into the flat strip elliptical balloon 3F2 to press against the foam sound insulation plate 3F3 to form the operation of collecting airflow and exhausting air, the operation of ensuring that the photoelectric resonance tube 3F14 is electrified to the cyclone inner cavity 3F13 to form sound wave amplification ultrasonic impact diffusion feedback operation effect through the collection cylinder groove 3F11 inserted into the shell sleeve block 3F12 is ensured, and the operation effect of centrally covering and cleaning the whole hardware component sonar wave band is improved.

The invention achieves the aim of matching an aluminum shell square groove 1 with an inner groove 3 of the eddy current vibrating screen by combining the components, ensures the soaking amount and the water washing rotary brush of the piled and pressed hardware components in the groove plate by using the aluminum shell square groove 1 to wrap and press an inner container lining groove 3E and an ultrasonic wave base 3F to be jointed with an eddy current brush wheel 3D to form integral floor drain type suction operation, ensures that fluid pulls viscous impurities in a hardware thread clamp groove to form pulling rotary scraping and washing, ensures the fluid pressure to be matched with the ultrasonic wave corrugated vibrating screen to form a net frame type base suction and pressing fluidized bed composite cleaning effect, effectively promotes the negative pressure vortex operation of external structure cleaning and internal thread rotary washing, ensures the integral hardware to be matched with the ultrasonic vibrating screen and to wind water flow to form an amplitude-increasing feedback sound vibration effect, improves the ultrasonic receiving and sending effect, and accordingly solves the problem that the ultrasonic vibration cleaning of the hardware needs rigid collision to form a noise-reducing vibration screen decontamination effect, but the clearance pollutant in chamfer groove in the hardware screw thread is viscidity dust piece, and the pad that adds of screw pitch props when the clearance of later stage is incomplete easily influenced, leads to the hardware framework to stay seam and tooth's socket uneven, causes the ultrasonic oscillation cleaning operation repeatedly, makes the screw thread interval of hardware receive high strength collision easily and produces the deformation volume of pressing in, causes to wash structure frame groove ultrasonic treatment singleness, and the anti-seismic efficiency of sound wave weakens, disturbs the problem of washing quality.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (9)

1. A hardware component belt cleaning device, its structure includes: aluminium shell square groove (1), lamina tecti (2), vortex sieve inside groove (3), automatically controlled panel (4), facade baffle (5), ooff valve handle (6), drainage pipe (7), its characterized in that:

the eddy current vibrating screen inner groove (3) is arranged inside the aluminum shell square groove (1), the electric control panel (4) is arranged at the right upper corner of the aluminum shell square groove (1), the top cover plate (2) is nested on the top of the eddy current vibrating screen inner groove (3), the vertical baffle (5) is tightly attached to the aluminum shell square groove (1), the drainage pipe (7) is inserted and embedded at the left lower corner of the aluminum shell square groove (1), and the switch valve handle (6) is mechanically connected with the eddy current vibrating screen inner groove (3) through a bearing;

the inner groove (3) of the vortex vibrating screen is provided with a frame supporting cushion wheel frame (3A), a trapezoid groove frame plate (3B), a cross bar plate (3C), a vortex sweeping wheel (3D), an inner container lining groove (3E) and an ultrasonic cushion seat (3F);

trapezoidal groove framed lamella (3B) and horizontal bar board (3C) weld as an organic whole, trapezoidal groove framed lamella (3B) all is equipped with four and installs respectively in the upper and lower both sides that the frame propped pad wheel carrier (3A) with horizontal bar board (3C), horizontal bar board (3C) and vortex are swept brush wheel (3D) and are cooperateed, ultrasonic wave pad seat (3F) are equipped with two and insert respectively and inlay the left and right sides in inner bag lining groove (3E), the vortex is swept brush wheel (3D) and is equipped with four and all install in the inside in inner bag lining groove (3E), the inside in aluminum hull square groove (1) is installed in inner bag lining groove (3E).

2. The hardware component cleaning device according to claim 1, characterized in that: the frame props pad wheel carrier (3A) and comprises propping arbor wheel (3A1), dish seat (3A2), damping clip knot piece (3A3) to propping arbor wheel (3A1) nested in the front side of dish seat (3A2), damping clip knot piece (3A3) cooperatees with propping arbor wheel (3A 1).

3. The hardware component cleaning device according to claim 2, characterized in that: the counter-bracing shaft wheel (3A1) comprises a spring wire ejector rod (3A11), a side brush plate (3A12), a thick wheel ring (3A13) and a rubber plate block (3A14), wherein the spring wire ejector rod (3A11) and the side brush plate (3A12) are nested into a whole, the spring wire ejector rod (3A11) and the rubber plate block (3A14) are inserted and embedded together, and the two rubber plate blocks (3A14) are respectively nested on the left side and the right side of the thick wheel ring (3A 13).

4. The hardware component cleaning device according to claim 1, characterized in that: brush wheel (3D) is swept to vortex comprises runner paddle board (3D1), thin race (3D2), funnel hole groove (3D3), the inside in thin race (3D2) is installed in funnel hole groove (3D3), runner paddle board (3D1) and thin race (3D2) mechanical connection.

5. The hardware component cleaning device according to claim 4, wherein: runner paddle board (3D1) comprise film dialysis hole (3D11), welt paddle blade (3D12), long runner groove (3D13), trapezoidal pterygoid lamina (3D14), film dialysis hole (3D11) and long runner groove (3D13) are installed in the inside of welt paddle blade (3D12), trapezoidal pterygoid lamina (3D14) are inserted and are inlayed in the left side of welt paddle blade (3D 12).

6. The hardware component cleaning device according to claim 1, characterized in that: the inner container lining groove (3E) is composed of a vibrating screen eccentric wheel (3E1), an outer frame lining groove (3E2) and an inner container square groove (3E3), the vibrating screen eccentric wheel (3E1) is installed inside the outer frame lining groove (3E2), and the outer frame lining groove (3E2) and the inner container square groove (3E3) are nested into a whole.

7. The hardware component cleaning device according to claim 6, wherein: the vibrating screen eccentric wheel (3E1) is composed of a deflecting wheel disc (3E11), a reinforcing rib supporting rod (3E12), an eccentric ball (3E13) and a side rod arc cushion block (3E14), the deflecting wheel disc (3E11) and the reinforcing rib supporting rod (3E12) are welded into a whole, the eccentric ball (3E13) is mechanically connected with the deflecting wheel disc (3E11), and the eccentric ball (3E13) is matched with the side rod arc cushion block (3E 14).

8. The hardware component cleaning device according to claim 1, characterized in that: ultrasonic wave base (3F) comprises acoustic generator (3F1), flat strip oval sacculus (3F2), foam acoustic celotex board (3F3), flat strip oval sacculus (3F2) nestification is in the left side of foam acoustic celotex board (3F3), acoustic generator (3F1) are inserted and are inlayed in the inside of flat strip oval sacculus (3F 2).

9. The hardware component cleaning device according to claim 8, wherein: the acoustic wave generator (3F1) comprises a beam-collecting cylinder groove (3F11), a shell sleeve block (3F12), a cyclone inner cavity (3F13) and a photoelectric resonance tube (3F14), wherein the beam-collecting cylinder groove (3F11) is inserted and embedded in the left side of the shell sleeve block (3F12), and the beam-collecting cylinder groove (3F11) is buckled with the photoelectric resonance tube (3F14) through the cyclone inner cavity (3F 13).

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