CN111493126A - Razor clam cleaning device and cleaning method for promoting scouring of reciprocating shaking and sand-spitting water flow - Google Patents

Abstract

The invention provides a razor clam cleaning device and a razor clam cleaning method for promoting scouring of sand-spitting water flow by reciprocating shaking, and relates to the field of aquatic product cleaning equipment. Solves the problems that the interior of the razor clam is not easy to clean and the surface of the razor clam is not easy to clean. This reciprocal razor clam cleaning device who sways and spit sand rivers and erode promotion, including erectting the wash tank, the bottom welding of electric telescopic handle and top frame plate is passed through at the top of erectting the wash tank, and the top welding of top frame plate has the motor case, and the inside of erectting the wash tank is provided with the filter tank that sways, and the bottom of top frame plate just is located the inside of swaying the wash tank and is provided with and bears wiper mechanism. This reciprocal sand spouting rivers erode the razor clam cleaning device who promotes, the underwater motor drives and rocks the filter box up-and-down motion thereupon, makes to place and rocks about shaking the razor clam of filter box inside, helps spouting its sand with inside with higher speed, inserts reciprocating rod and does the up-and-down motion in fixed sleeve's inside, and rivers push away rivers that the bucket drives around and dash the stirring towards the razor clam with the razor clam, help washing the sand clean.

Description

Razor clam cleaning device and cleaning method for promoting scouring of reciprocating shaking and sand-spitting water flow

The application is a divisional application of a razor clam cleaning device with application date of 2018, 06 and 28 and application number of CN201810687126.9, and is named as reciprocating sloshing, sand jetting and water flow flushing promotion.

Technical Field

The invention relates to the technical field of aquatic product cleaning equipment, in particular to a razor clam cleaning device and a razor clam cleaning method for promoting scouring of sand-spitting water flow by reciprocating shaking.

Background

The razor clam is used as an edible aquatic product food, but the razor clam contains angular silt inside the razor clam and is not easy to clean, the taste of the razor clam is influenced, the razor clam shell cleaning robot for aquaculture with the application number of CN201610940359.6 only cleans silt and dirt outside the razor clam shell, main silt inside the razor clam is not cleaned, the taste of cooked food is influenced, and the comparison file only can scrub the upper surface of the razor clam, the lower surface of the razor clam is not cleaned completely, so that the outer wall of the razor clam is not cleaned completely.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a razor clam cleaning device for promoting scouring of sand-jetting water flow by reciprocating sloshing, and solves the problems that the interior of a razor clam is not easy to clean and the surface of the razor clam is not easy to clean.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a reciprocal razor clam cleaning device who rocks and spit sand rivers and erode promotion, is including erectting the wash tank, the bottom welding of electric telescopic handle and top frame plate is passed through at the top of erectting the wash tank, the top welding of top frame plate has the motor case, electric telescopic handle passes through wire and peripheral hardware's control panel electric connection, the inside of erectting the wash tank is provided with rocks the filter tank, the bottom of top frame plate and the inside that is located to rock the wash tank are provided with and bear the weight of wiper mechanism.

The internally mounted of motor case has positive and negative motor, and positive and negative motor passes through wire and the peripheral hardware control panel electric connection, the output shaft of positive and negative motor runs through the top of top frame plate and extends to the bottom of top frame plate and the top welding of bearing wiper mechanism, bear wiper mechanism include with positive and negative motor output shaft bottom welded be the pole even, the bottom welding of being the pole even has the top sleeve pipe, the top inserted bar has been inserted to top sheathed tube bottom, the top of top inserted bar and be located the sheathed tube inside welding of top has the limiting plate, the top inserted bar all with the top welding of top side closing cap, the welding of bottom center department of top side closing cap has the meso position bull stick, the bottom of meso position bull stick is through fixing bearing and the top centre of a circle department swing joint that the filter plate bore.

Erect the inner wall bottom of washing case and be located the welding of shaking the filter box under, the internally mounted of isolated case has motor under water, and motor and the peripheral hardware control panel electric connection under water, and the output shaft of motor runs through the inner wall top of isolated case and extends to the top of isolated case and reciprocal sand spitting mechanism is connected under water.

Preferably, the number of the top sleeves is two, and the two top sleeves are distributed on two sides of the bottom of the connecting rod.

Preferably, a drain pipe is communicated with the bottom side of the side wall of the erected washing box, and a control valve is arranged in the drain pipe.

Preferably, the side wall of the middle rotating rod is bonded with a contact soft rod, and the outer wall of the contact soft rod is bonded with a cleaning brush.

Preferably, the number of the soft contact rods is two, and the distance between the two soft contact rods and the distance between the soft bottom-side contact rod and the bearing filter plate are both two to three centimeters.

Preferably, the bottom of the bearing filter plate is bonded with a limiting insertion plate, and the bottom of the inner wall of the shaking filter box is bonded with a limiting clamping plate matched with the limiting insertion plate.

Preferably, the bottom of the inner wall is connected with the sliding plate in a sliding manner, a smooth contact block is welded at the edge of the top of the circumferential rotating plate, the top of the smooth contact block is in contact with the bottom of the concave-convex contact plate, the concave-convex contact plate is welded at the bottom of the shaking filter box, the side wall of the shaking filter box is welded with one end of the curved arc frame rod, the other end of the curved arc frame rod is welded with the top of the inserted reciprocating rod, the bottom of the inserted reciprocating rod is inserted into the top of the fixed sleeve and extends to the inside of the fixed sleeve to be bonded with the top of the internal reciprocating block, a reset spring matched with the outer wall of the inserted reciprocating rod is sleeved in the fixed sleeve, the bottom of the internal reciprocating block is bonded with another reset spring, the bottom of the fixed sleeve is welded with the top of the side wall connecting block, and the side wall connecting block is welded on the side wall of the.

Preferably, the flowing sand flushing mechanism comprises two curved arc support rods welded on two sides of the circumferential rotating plate, a supporting arc rod is welded at the bottom of each curved arc support rod, the bottom of each supporting arc rod is inserted into the bottom of the inner wall of the erected washing box, the top of each curved arc support rod and one side far away from the isolated box are movably connected with the bottom of the driving rotating rod through a connecting bearing, the top of the driving rotating rod penetrates through the driving bull wheel and extends to the top of the driving rotating rod to be welded with the bottom of the transmission gear, the side wall of the transmission gear is provided with an inner toothed ring meshed with the transmission gear, the inner toothed ring is welded on the inner wall of the erected washing box, the top of each curved arc support rod is positioned below the shaking filtering box and is movably connected with the bottom of the driving rotating rod through the connecting bearing, the top of the driving rotating rod penetrates through the driving wheel and extends to the top of the driving wheel to be welded with the bottom of the rotating block, the side wall of the rotating rotary block is clamped with a water flow pushing blade.

Preferably, the bottom of the inner wall of the erected washing box is provided with a circular groove matched with the supporting arc rod, and the bottom of the supporting arc rod extends to the inside of the circular groove to be contacted with the inner wall of the circular groove.

(III) advantageous effects

The invention provides a razor clam cleaning device for promoting scouring of sand-jetting water flow by reciprocating sloshing. The method has the following beneficial effects:

1. according to the razor clam cleaning device for promoting erosion of sand-jetting water flow by reciprocating oscillation, the top inserted rod can stretch out and draw back in the top sleeve, so that the situation that the stability of the razor clam is influenced by the fact that the top frame plate is driven to move up and down by the top meter-cleaning mechanism when the oscillation filter box moves up and down is avoided, the two mechanisms of the razor clam cleaning device are matched with each other due to the arrangement of the top inserted rod and the top sleeve, the razor clam cleaning device is more stable when the razor clam is shaken by the razor clam cleaning device, the top inserted rod is always connected with the top sleeve due to the arrangement of the limiting plate, and the top meter-cleaning mechanism is prevented from being.

2. According to the razor clam cleaning device for promoting scouring of sand-flowing water by reciprocating shaking, the contact soft rods are arranged into two layers, so that more razor clams can be cleaned conveniently, the two vertically arranged contact soft rods are inserted between razor clams, resistance of razor clams accumulated on the contact soft rods becomes friction force for increasing the cleaning brush and the razor clam surface, cleaning efficiency of the razor clam surface is promoted, meanwhile, the distance between the two contact soft rods and the distance between the bottom side contact soft rod and the bearing filter plate are two to three centimeters, and for the thickness of most razor clams, the cleaning brush can clean single-layer razor clams conveniently, the efficiency is better, the razor clams are easy to turn over one side in the up-down vibration process of the shaking filter box, and both sides of the razor clams can be cleaned.

3. According to the razor clam cleaning device capable of promoting erosion of sand-jetting water flow in a reciprocating swinging manner, the top frame plate can be lifted and descended under the control of the stretching and retracting of the electric telescopic rod, the bearing and surface-cleaning mechanism is driven to lift and descend in the erected washing box, razor clams can be conveniently stored and taken out on the bearing filter plate, the razor clam cleaning device is convenient to put in and take out, the razor clam cleaning efficiency is accelerated, after the razor clams are placed on the bearing filter plate and descend in the erected washing box, the middle rotating rod is movably connected with the bearing filter plate through the fixed bearing, the middle rotating rod rotates independently after the bearing filter plate is arranged, the limiting insertion plate carries the filter plate to move relative to the middle rotating rod under the shielding of the limiting clamping plate, the positive and negative motor drives the contact soft rod to rotate through the middle rotating rod, and the cleaning brushes adhered to the surface of the razor.

4. According to the razor clam cleaning device for promoting erosion of reciprocating shaking sand-spitting water flow, an underwater motor drives a circumferential rotating plate to rotate, a smooth contact block makes circular motion at the bottom of an uneven and concave contact plate at the bottom, so that a shaking filter box is driven to move up and down, razor clams placed in the shaking filter box are made to shake up and down, sand in the razor clam cleaning device is facilitated to be spitted out in an accelerated mode, the effect is quite remarkable, a reciprocating rod is inserted into the shaking filter box to make up and down motion in a fixed sleeve, meanwhile, a reset spring arranged on the outer wall of the razor clam cleaning device enables an inserted reciprocating rod to have elasticity when moving in the fixed sleeve, certain elasticity is achieved when the shaking filter box moves up and down, bumping feeling when the razor clams shake up and down is facilitated to be increased, and sand-spitting of.

5. According to the razor clam cleaning device for promoting erosion of sand-flowing water flow through reciprocating oscillation, the radius of the driving large wheel is larger than that of the driving wheel, the linear velocity of the driving large wheel is the same as that of the driving wheel, the angular velocity of the driving large wheel is smaller than that of the driving wheel, the driving wheel can drive the water flow pushing blade to rotate at a speed higher than that of the driving large wheel, the higher the rotating speed is, the larger the generated water flow driving force is, and the better the razor clam flushing effect is.

6. According to the razor clam cleaning device capable of promoting erosion of sand-discharging water flow in a reciprocating oscillation manner, when the circumferential rotating plate rotates, the transmission gear is driven to do circular motion around the circumferential rotating plate through the curved arc supporting rod, the transmission gear is in contact with the meshed inner toothed ring to enable the transmission gear to rotate, the water flow pushing blade is driven to rotate through the driving large wheel, the belt and the transmission wheel, the water flow pushing blade is promoted to drive the surrounding water to flow to the bottom of the oscillation filtering box, the water flow rushes to the razor clams to stir the razor clams, sand in the razor clams in a pile can be conveniently separated from the razor clams, meanwhile, silt on the surfaces of the razor clams can be rushed away by means of potential energy of the water flow, and the razor clam cleaning efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a load-bearing and watch-cleaning mechanism of the present invention;

FIG. 3 is an enlarged view of the structure A of FIG. 1 according to the present invention;

fig. 4 is a schematic view of the internal structure of the fixing sleeve of the present invention.

In the figure: 1 erecting a washing box, 2 top frame plates, 3 electric telescopic rods, 4 shaking filter boxes, 5 reciprocating sand-spitting mechanisms, 501 circumferential rotating plates, 502 circumferential supporting rods, 503 smooth contact blocks, 504 concave-convex contact plates, 505 curved arc frame rods, 506 insertion reciprocating rods, 507 fixed sleeves, 508 internal reciprocating blocks, 509 return springs, 510 side wall connecting blocks, 6 flowing sand-washing mechanisms, 601 curved arc supporting rods, 602 driving rotating rods, 603 driving large wheels, 604 transmission gears, 605 internal toothed rings, 606 transmission rotating rods, 607 transmission wheels, 608 rotating blocks, 609 water flow pushing blades, 610 supporting arc rods, 7 bearing and clearing mechanisms, 701 top side covers, 702 middle rotating rods, 704 fixed bearings, 704 bearing filter plates, 705 contact soft rods, 706 top inserting rods, 707 top sleeves, 708 connecting rods, 8 limiting inserting plates, 9 limiting clamping plates, 10 motor boxes and 11 isolating boxes.

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.

The embodiment of the invention provides a razor clam cleaning device for promoting erosion of reciprocating shaking and sand jetting water flow, which comprises an erected washing box 1, wherein a sewage discharge pipe is communicated and arranged at the bottom side of the side wall of the erected washing box 1, a control valve is arranged inside the sewage discharge pipe, the top of the erected washing box 1 is welded with the bottom of a top frame plate 2 through an electric telescopic rod 3, a motor box 10 is welded at the top of the top frame plate 2, the electric telescopic rod 3 is electrically connected with an external control panel through a conducting wire, a shaking filter box 4 is arranged inside the erected washing box 1, and a bearing cleaning mechanism 7 is arranged at the bottom of the top frame plate 2 and inside the shaking washing box 4.

The inside of the motor box 10 is provided with a positive and negative motor which is electrically connected with an external control panel through a lead, the output shaft of the positive and negative motor penetrates through the top of the top frame plate 2 and extends to the bottom of the top frame plate 2 to be welded with the top of the bearing cleaning mechanism 7, the bearing cleaning mechanism 7 comprises a connecting rod 708 welded with the bottom of the output shaft of the positive and negative motor, the bottom of the connecting rod 708 is welded with a top sleeve 707, the number of the top sleeves 707 is two, the two top sleeves 707 are distributed on two sides of the bottom of the connecting rod 708, a top inserted rod 706 is inserted into the bottom of the top sleeve 707, a limiting plate is welded at the top of the top inserted rod 706 and inside the top sleeve 707, the top inserted rods 706 are all welded with the top of the top side sealing cover 701, the top inserted rod 706 can stretch out and draw back inside the top sleeve 707, and avoid that the shaking filter box 4 drives the top frame plate 2 to move up and down through the, the arrangement of the top inserted rod 706 and the top sleeve 707 enables the two mechanisms of the device to be matched with each other, so that the device is more stable when the razor clams shake, the arrangement of the limiting plate enables the top inserted rod 706 to be connected with the top sleeve 707 all the time, the top frame plate 2 is prevented from being separated from the bearing surface cleaning mechanism 7 and the top frame plate 2 when rising, a middle rotating rod 702 is welded at the bottom center of the top side sealing cover 701, a contact soft rod is bonded on the side wall of the middle rotating rod 702, cleaning brushes are bonded on the outer wall of the contact soft rod 705, the number of the contact soft rods 705 is two, the distance between the two contact soft rods 705 and the distance between the bottom contact soft rod 705 and the bearing filter plate 704 are two to three centimeters, the contact soft rods 705 are arranged in two layers, so that more razor clams can be cleaned conveniently, the two vertically arranged contact soft rods are inserted between the razor clams 705, the resistance of the razor clams to the contact soft rods 705 is increased as the friction force of the surfaces of, the razor clam surface cleaning efficiency is facilitated to be promoted, the distance between the two contact soft rods 705 and the distance between the bottom contact soft rod 705 and the bearing filter plate 704 are two to three centimeters, the cleaning brush is convenient to clean single-layer razor clams according to the thickness of most razor clams, the efficiency is better, the bottom of the middle rotating rod 702 is movably connected with the circle center of the top of the bearing filter plate 704 through the fixed bearing 703, the limiting insertion plate 8 is adhered to the bottom of the bearing filter plate 704, the bearing filter plate 704 is disc-shaped and is convenient to contain razor clams, the limiting clamping plate 9 matched with the limiting insertion plate 8 is adhered to the bottom of the inner wall of the shaking filter box 4, the telescopic action of the electric telescopic rod 3 can control the lifting of the top frame plate 2, the bearing and cleaning mechanism 7 is driven to lift in the interior of the erecting washing box 704, the razor clams are convenient to be stored and taken out on the bearing filter plate, and the razor clams are very convenient, the razor clam cleaning efficiency is accelerated, after razor clams are placed on the bearing filter plate 704 and descend to the inside of the erected washing box 1, the middle rotating rod 702 is movably connected with the bearing filter plate 704 through the fixed bearing 703, the middle rotating rod 702 which bears the filter plate 704 rotates independently, the limiting inserting plate 8 bears the filter plate 704 under the shielding of the limiting clamping plate 9 and moves relative to the middle rotating rod 702, the positive and negative motor drives the contact soft rod 705 to rotate through the middle rotating rod 702, and the cleaning brushes adhered to the surfaces of the razor clams clean stains on the surfaces of the razor clams.

An isolation box 11 is welded at the bottom of the inner wall of the erected washing box 1 and is positioned right below the shaking filter box 4, an underwater motor is installed inside the isolation box 11 and is electrically connected with an external control panel, an output shaft of the underwater motor penetrates through the top of the inner wall of the isolation box 11 and extends to the top of the isolation box 11 to be connected with a reciprocating sand spitting mechanism 5, the reciprocating sand spitting mechanism 5 comprises a circumferential rotating plate 501 welded with the top of the output shaft of the underwater motor, the side wall of the circumferential rotating plate 501 is connected with a flowing sand flushing mechanism 6, a circumferential support rod 502 is welded at the bottom of the circumferential rotating plate 501, the bottom of the circumferential support rod 502 is inserted into the bottom of the inner wall of the erected washing box 1 to be connected with the inner wall in a sliding manner, a sliding groove matched with the circumferential support rod 502 is formed at the bottom of the inner wall of the erected washing box 1, the ground of the circumferential support rod 502 extends to the inside of the, the top of the smooth contact block 503 contacts the bottom of the concave-convex contact plate 504, the concave-convex contact plate 504 is welded at the bottom of the shaking filter box 4, the side wall of the shaking filter box 4 is welded with one end of the curved arc frame rod 505, the other end of the curved arc frame rod 505 is welded with the top of the inserted reciprocating rod 506, the bottom of the inserted reciprocating rod 506 is inserted into the top of the fixed sleeve 507 and extends to the inside of the fixed sleeve 507 to be bonded with the top of the internal reciprocating block 508, the reset spring 509 which is inserted into the outer wall of the reciprocating rod 506 and is positioned inside the fixed sleeve 507 is sleeved with the reset spring 509 matched with the fixed sleeve, the bottom of the internal reciprocating block 508 is bonded with the other reset spring 509, the bottom of the fixed sleeve 507 is welded with the top of the side wall connecting block 510, the side wall connecting block 510 is welded at the side wall of the erection washing box 1, the underwater motor drives the circumferential rotating plate 501 to rotate, the smooth contact block 503, thereby drive and shake filter box 4 up-and-down motion along with it, the messenger places and rocks about shaking in shaking the razor clam inside filter box 4, help its sand with inside to spit out with higher speed, and the effect is showing very, insert reciprocating lever 506 and do the up-and-down motion in the inside of fixed sleeve 507, reset spring 509 that its outer wall set up simultaneously makes and inserts reciprocating lever 506 and have elasticity when the internal motion of fixed sleeve 507, thereby promote to shake filter box 4 certain elasticity when moving from top to bottom, help increasing the jolting sense when razor clam rocks from top to bottom, promote its sand spitting.

The flowing sand washing mechanism 6 comprises two curved arc supporting rods 601 welded on two sides of a circumferential rotating plate 501, a supporting arc rod 610 is welded at the bottom of each curved arc supporting rod 601, the bottom of each supporting arc rod 610 is inserted into the bottom of the inner wall of the erected washing tank 1, a circular groove matched with the supporting arc rod 610 is formed in the bottom of the inner wall of the erected washing tank 1, the bottom of each supporting arc rod 610 extends into the circular groove to be in contact with the inner wall of the circular groove, the top of each curved arc supporting rod 601, far away from an isolation tank 11, is movably connected with the bottom of a driving rotating rod 602 through a connecting bearing, the top of the driving rotating rod 602 penetrates through a driving large wheel 603 and extends to the top of the driving large wheel to be welded with the bottom of a transmission gear 604, an inner toothed ring 605 meshed with the transmission gear is arranged on the side wall of the transmission gear 604 and is welded on the inner wall of the erected washing tank 1, the top of each curved arc supporting rod 601, positioned below a shaking filter tank 4, the top of the transmission rotary rod 606 penetrates through the transmission wheel 607 and extends to the top to be welded with the bottom of the rotating rotary block 608, the transmission wheel 607 is in transmission connection with the driving bull wheel 603 through a belt, the radius of the driving bull wheel 603 is larger than that of the transmission wheel 607, the linear velocity of the driving bull wheel 603 is the same as that of the transmission wheel 607, the angular velocity of the driving bull wheel 603 is smaller than that of the transmission wheel 607, the transmission wheel 607 can drive the water flow propelling blade 609 to rotate at a speed higher than that of the driving bull wheel 603, the generated water flow propelling force is larger, the razor clam flushing effect is better, the belt is sleeved on the outer walls of the driving bull wheel 603 and the transmission wheel 607, the driving bull wheel 603 and the transmission wheel 607 synchronously rotate according to friction force, the circumferential rotary plate 501 drives the transmission gear 604 to do circumferential motion around the circumferential rotary plate 501 through the curved arc supporting rod 601 when rotating, the transmission gear contacts with the meshed inner toothed ring 605 to, The belt and the driving wheel 607 drive the rotation of the water flow pushing blade 609, the water flow pushing blade 609 is promoted to drive the surrounding water flow to the bottom of the shaking filtering box 4, the water flow rushes to the turning of the razor clam, sand and razor clam in a pile of razor clams are convenient to separate, the sand on the surface of the razor clam can be washed away by the potential energy of the water flow, the cleaning efficiency of the razor clam is improved, and the water flow pushing blade 609 is connected to the side wall of the rotating block 608 in a clamped mode.

The embodiment is characterized in that the telescopic electric telescopic rod 3 can control the lifting of the top frame plate 2 to drive the bearing and surface cleaning mechanism 7 to lift in the erected washing box 1, so that razor clams can be conveniently stored and taken out on the bearing filter plate 704, the razor clam cleaning is very convenient to put in and take out, the razor clam cleaning efficiency is favorably accelerated, after razor clams are placed on the bearing filter plate 704 and are lifted in the erected washing box 1, because the middle rotating rod 702 is movably connected with the bearing filter plate 704 through the fixed bearing 703, the middle rotating rod 702 in the rest of the bearing filter plate 704 rotates independently, the limiting inserting plate 8 carries the filter plate 704 under the shielding of the limiting clamping plate 9 and is positioned in the middle rotating rod 702 to move relatively, the positive and negative motor drives the contact soft rod to rotate through the middle rotating rod 702, the cleaning brushes bonded on the surface of the razor clams clean 705, the underwater motor drives the circumferential rotating plate 501 to rotate, and the smooth contact block 503 does circular motion at the bottom of the bottom concave-convex contact plate 504, thereby driving the shaking filter box 4 to move up and down along with the shaking filter box 4, so that the razor clams placed in the shaking filter box 4 can shake up and down, which is helpful for accelerating the ejection of sand in the shaking filter box, and the effect is very remarkable, the inserted reciprocating rod 506 can move up and down in the fixed sleeve 507, and meanwhile, the reset spring 509 arranged on the outer wall of the inserted reciprocating rod 506 can make the inserted reciprocating rod 506 have elasticity when moving in the fixed sleeve 507, so that the shaking filter box 4 has certain elasticity when moving up and down, which is helpful for increasing the bumping feeling when the razor clams shake up and down, and promoting the sand ejection, the transmission gear 604 is driven by the curved arc supporting rod 601 to move circularly around the circumferential rotating plate 501 when the circumferential rotating plate 501 rotates, the transmission gear 604 contacts with the meshed internal toothed ring 605 to rotate, the water flow propelling blades 609 are driven to rotate by the driving bull wheel 603, the belt and the driving wheel 607, so that the water flow propelling blades 609 can drive the surrounding water flow to the bottom of, the water flow rushes to the razor clams to turn the razor clams, so that sand in the stack of razor clams is conveniently separated from the razor clams, and the sand on the surfaces of the razor clams can be washed away by the potential energy of the water flow, so that the cleaning efficiency of the razor clams is improved.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

In the embodiment, the razor clam is placed on the bearing filter plate 704, the telescopic electric telescopic rod 3 can control the lifting of the top frame plate 2 to drive the bearing and surface cleaning mechanism 7 to lift in the erected washing box 1, so that the razor clam can be conveniently stored and taken out on the bearing filter plate 704, the razor clam can be conveniently cleaned and put in and taken out, the cleaning efficiency of the razor clam is favorably accelerated, after the razor clam is placed on the bearing filter plate 704 and falls into the erected washing box 1, because the middle rotating rod 702 is movably connected with the bearing filter plate 704 through the fixed bearing 703, the middle rotating rod 702 rotates independently after the bearing filter plate 704 rotates, the bearing filter plate 704 moves relative to the middle rotating rod 702 under the shielding of the limiting clamp plate 9, the positive and negative motor drives the contact soft rod 705 to rotate through the middle rotating rod 702, the cleaning brushes adhered to the surface of the razor clam clean the surface, the underwater motor drives the circumferential rotating plate 501 to rotate, the smooth contact block 503 makes a circular motion at the bottom of the rugged contact plate 504 to drive the shaking filter box 4 to move up and down along with the shaking filter box, so that the razor clams placed in the shaking filter box 4 shake up and down to help accelerate the ejection of sand in the razor clams, and the effect is very remarkable, the inserted reciprocating rod 506 makes an up and down motion in the fixed sleeve 507, meanwhile, the reset spring 509 arranged on the outer wall of the inserted reciprocating rod makes the inserted reciprocating rod 506 have elasticity when moving in the fixed sleeve 507, so that the shaking filter box 4 has certain elasticity when moving up and down to help increase the bumpy feeling when the razor clams shake up and down to promote the ejection of sand, the circular rotating plate 501 drives the transmission gear 604 to make a circular motion around the circular rotating plate 501 through the curved arc support rod 601 when rotating, the transmission gear 604 contacts with the meshed inner toothed ring 605 to make the rotation, and drives the rotation of the water flow pushing blade 609 through the driving bull wheel 603, the belt and the transmission wheel 607, the water flow pushing blades 609 are promoted to drive the surrounding water flow to the bottom of the shaking filter box 4, the water flow rushes to the razor clams to flush and turn the razor clams, sand in a pile of razor clams is conveniently separated from the razor clams, and meanwhile, the sand on the surfaces of the razor clams can be flushed away by the potential energy of the water flow.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (8)

1. The utility model provides a reciprocal razor clam cleaning device that rocks and spit sand rivers and erode promotion, including erectting wash tank (1), its characterized in that: the top of the erected washing box (1) is welded with the bottom of a top frame plate (2) through an electric telescopic rod (3), the top of the top frame plate (2) is welded with a motor box (10), the electric telescopic rod (3) is electrically connected with an external control panel through a wire, a shaking filter box (4) is arranged inside the erected washing box (1), and a bearing cleaning mechanism (7) is arranged at the bottom of the top frame plate (2) and inside the shaking filter box (4);

the internally mounted of motor case (10) has positive and negative motor, and positive and negative motor passes through the wire and the control panel electric connection of peripheral hardware, the output shaft of positive and negative motor runs through the top of top frame plate (2) and extends to the bottom of top frame plate (2) and the top welding of bearing wiper mechanism (7), bear wiper mechanism (7) include with positive and negative motor output shaft bottom welded even one-tenth pole (708), the bottom welding of even one-tenth pole (708) has top sleeve pipe (707), top inserted bar (706) has been inserted to the bottom of top sleeve pipe (707), the top of top inserted bar (706) and the inside welding that is located top sleeve pipe (707) have the limiting plate, top inserted bar (706) all welds with the top of top side closing cap (701), the welding of bottom center department of top side closing cap (701) has meso position bull stick (702), the bottom of meso position bull stick (702) is located the life through fixing bearing (703) and the top of bearing the filter plate (704) and is located Moving connection;

an isolation box (11) is welded at the bottom of the inner wall of the erected washing box (1) and right below the shaking filter box (4), an underwater motor is installed inside the isolation box (11) and is electrically connected with an external control panel, and an output shaft of the underwater motor penetrates through the top of the inner wall of the isolation box (11) and extends to the top of the isolation box (11) to be connected with the reciprocating sand-spitting mechanism (5);

the reciprocating sand spitting mechanism (5) comprises a circumferential rotating plate (501) welded to the top of an output shaft of an underwater motor, the side wall of the circumferential rotating plate (501) is connected with a flowing sand flushing mechanism (6), a circumferential support rod (502) is welded to the bottom of the circumferential rotating plate (501), the bottom of the circumferential support rod (502) is inserted into the bottom of the inner wall of the washing tank (1) and is in sliding connection with the bottom of the inner wall, a smooth contact block (503) is welded to the top edge of the circumferential rotating plate (501), the top of the smooth contact block (503) is in contact with the bottom of a concave-convex contact plate (504), the concave-convex contact plate (504) is welded to the bottom of the shaking filtering tank (4), the side wall of the shaking filtering tank (4) is welded to one end of a bent arc support rod (505), the other end of the bent arc support rod (505) is welded to the top of an inserted reciprocating rod (506), the bottom of the inserted reciprocating rod (506) is inserted into the top of a fixing sleeve (507) and extends to the The top of the reciprocating block (508) is bonded, a return spring (509) matched with the reciprocating rod (506) is sleeved in the fixing sleeve (507) which is inserted into the outer wall of the reciprocating rod (506), the bottom of the inner reciprocating block (508) is bonded with another return spring (509), the bottom of the fixing sleeve (507) is welded with the top of the side wall connecting block (510), and the side wall connecting block (510) is welded on the side wall of the erected washing box (1);

the flowing sand flushing mechanism (6) comprises two curved arc supporting rods (601) welded on two sides of a circumferential rotating plate (501), a supporting arc rod (610) is welded at the bottom of each curved arc supporting rod (601), the bottom of each supporting arc rod (610) is inserted into the bottom of the inner wall of an erected washing box (1), the top of each curved arc supporting rod (601) and one side far away from an isolation box (11) are movably connected with the bottom of a driving rotating rod (602) through a connecting bearing, the top of each driving rotating rod (602) penetrates through a driving large wheel (603) and extends to the top of the driving large wheel to be welded with the bottom of a transmission gear (604), an inner toothed ring (605) meshed with the transmission gear is arranged on the side wall of the transmission gear (604), the inner toothed ring (605) is welded on the inner wall of the erected washing box (1), the top of each curved arc supporting rod (601) and the lower part of a shaking filtering box (4) are movably connected with the bottom of the transmission rotating rod (606) through a connecting bearing, the top of the transmission rotary rod (606) penetrates through the transmission wheel (607) and extends to the top of the transmission rotary rod to be welded with the bottom of the rotary block (608), the transmission wheel (607) is in transmission connection with the driving large wheel (603) through a belt, and the side wall of the rotary block (608) is clamped with a water flow pushing blade (609).

2. The reciprocating sloshing, sandblasting, flood-facilitated razor clam cleaning apparatus as claimed in claim 1, wherein: the number of the top sleeves (707) is two, and the two top sleeves (707) are distributed on two sides of the bottom of the connecting rod (708).

3. The reciprocating sloshing, sandblasting, flood-facilitated razor clam cleaning apparatus as claimed in claim 1, wherein: and a drain pipe is communicated with the bottom side of the side wall of the erected washing box (1), and a control valve is arranged in the drain pipe.

4. The reciprocating sloshing, sandblasting, flood-facilitated razor clam cleaning apparatus as claimed in claim 1, wherein: the side wall of the middle rotating rod (702) is adhered with a contact soft rod (705), and the outer wall of the contact soft rod (705) is adhered with a cleaning brush.

5. The reciprocating sloshing, sanding, waterflow scour-facilitated razor clam cleaning apparatus as claimed in claim 4, wherein: the number of the soft contact rods (705) is two, and the distance between the two soft contact rods (705) and the distance between the bottom soft contact rod (705) and the bearing filter plate (704) are two to three centimeters.

6. The reciprocating sloshing, sandblasting, flood-facilitated razor clam cleaning apparatus as claimed in claim 1, wherein: and a limiting inserting plate (8) is bonded at the bottom of the bearing filter plate (704), and a limiting clamping plate (9) matched with the limiting inserting plate (8) is bonded at the bottom of the inner wall of the shaking filter box (4).

7. The reciprocating sloshing, sandblasting, flood-facilitated razor clam cleaning apparatus as claimed in claim 1, wherein: the inner wall bottom of erecting washing case (1) is seted up with the circular slot that supports arc pole (610) looks adaptation, and supports the inside rather than the inner wall contact that the bottom of arc pole (610) extended to the circular slot.

8. The reciprocating sloshing, sand-shooting, waterflow-flushing promoted razor clam cleaning apparatus and cleaning method according to any one of claims 1 to 7, wherein: when the razor clam cleaning machine is used, razor clams are placed on the bearing filter plate (704), the telescopic electric telescopic rod (3) can control the lifting of the top frame plate (2) to drive the bearing and surface cleaning mechanism (7) to lift in the erected washing box (1) so as to be convenient for the razor clams to be stored and taken out on the bearing filter plate (704), the razor clam cleaning is very convenient to put in and take out, the razor clam cleaning efficiency is accelerated, after the razor clams are placed on the bearing filter plate (704) and fall into the erected washing box (1), because the middle rotary rod (702) is movably connected with the bearing filter plate (704) through the fixed bearing (703), the middle rotary rod (702) left in the bearing filter plate (704) rotates independently, the limiting inserting plate (8) bears the filter plate (704) to move relative to the middle rotary rod (702) under the shielding of the limiting clamping plate (9), the positive and negative motor drives the contact soft rod (705) to rotate through the middle rotary rod (702), the cleaning hairbrush adhered to the surface of the razor clam cleans stains on the surface of the razor clam, an underwater motor drives the circumferential rotating plate (501) to rotate, the smooth contact block (503) makes circular motion at the bottom of the rugged and rugged contact plate (504) at the bottom, so that the shaking filter box (4) is driven to move up and down, the razor clam placed in the shaking filter box (4) is made to shake up and down, sand in the razor clam is accelerated to be spitted out, the effect is very remarkable, the reciprocating rod (506) is inserted in the fixed sleeve (507) to move up and down, meanwhile, the reset spring (509) arranged on the outer wall enables the reciprocating rod (506) to be inserted in the fixed sleeve (507) to have elasticity during internal motion, so that the shaking filter box (4) is promoted to move up and down with certain elasticity, the jolting sense during up and down shaking of the razor clam is promoted to be spitted out, the circumferential rotating plate (501) drives the transmission gear (604) to circumferentially rotate around the circumferential rotating plate (501) through the curved supporting rod (601) when the circumferential rotating plate (501) And when the razor clam moves, the transmission gear (604) is in contact with the meshed inner gear ring (605) to enable the razor clam to rotate, the water flow pushing blade (609) is driven to rotate by the driving bull wheel (603), the belt and the transmission wheel (607), the water flow pushing blade (609) is promoted to drive surrounding water to flow towards the bottom of the shaking filter box (4), the water flow rushes towards the razor clam to stir the razor clam, sand in a pile of razor clam is conveniently separated from the razor clam, and silt on the surface of the razor clam can be washed away by means of potential energy of the water flow.

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