CN114959724A - Immersion type photovoltaic module rust removing equipment with adjustable sinking depth - Google Patents

Abstract

A dipping type photovoltaic module rust removing device with adjustable sinking depth belongs to the technical field of chemical rust removing, and aims to solve the problems that stirring equipment needs to be taken out after stirring is completed, and the operation is complex; according to the invention, the stirring blade generates an upward reaction force under the action of the solution through the reverse rotation of the stirring motor, the stirring blade is finally in threaded connection with the nut seat under the action of the reverse rotation of the threaded rod, then the threaded rod and the stirring blade are retracted into the containing groove, under the action of the reverse rotation of the stirring motor, the sealing plate moves downwards to press one end of the rotating column downwards through the fixing piece, so that the sealing plug is finally moved, the containing groove is finally communicated with the liquid outlet groove, the solution trapped in the containing groove by the sealing plate enters the collecting groove along the liquid outlet groove, the stirring blade is retracted after the stirring is finished, the corrosion is reduced, and the next rust removal is not influenced.

Description

Immersion type photovoltaic module rust removing equipment with adjustable sinking depth

Technical Field

The invention relates to the technical field of chemical rust removal, in particular to immersion type photovoltaic module rust removal equipment with adjustable sinking depth.

Background

Chemical descaling is a method of dissolving general rust, scale and various corrosion products from the surface of a workpiece by using a chemical reaction without affecting the base metal. Inorganic acid and organic acid are commonly used as rust removal materials, so the materials are also commonly called as acid cleaning, the photovoltaic module is used outdoors for a long time, iron parts are easy to rust, and the rust removal is generally carried out by adopting an acid cleaning method.

Because the rust remover has acidity, empty comparatively dangerous, so generally directly rust cleaning in the inside of preparation groove, but the in-process that needs to add hydrochloric acid and corrosion inhibitor in aqueous and adding fully stirs, need take out agitated vessel after the stirring is accomplished, otherwise agitated vessel places easily and corrodes in the solution for a long time, and the operation is comparatively loaded down with trivial details, and the pickling solution has incidentally when taking out after photovoltaic module derusts from the pickling tank, easy emergence drippage when taking out, the security is not high.

To solve the above problems. Therefore, the dipping type photovoltaic module rust removing equipment with the adjustable sinking depth is provided.

Disclosure of Invention

The invention aims to provide immersion type photovoltaic module rust removing equipment with adjustable sinking depth, which solves the problems that in the background technology, the process of preparing pickling liquid needs to be fully stirred, the stirring equipment needs to be taken out after stirring is finished, otherwise the stirring equipment is easily corroded after being placed in a solution for a long time, the operation is complicated, and the pickling liquid is easily dripped when the photovoltaic module is taken out after rust removal from a pickling tank.

In order to achieve the purpose, the invention provides the following technical scheme: an immersion type photovoltaic module rust removing device with adjustable sinking depth comprises a stirring mechanism and a lifting mechanism arranged on the stirring mechanism, wherein the stirring mechanism comprises a pickling tank, and a stirring assembly and a sealing assembly which are arranged in the pickling tank, an upward opening pickling tank is arranged in the pickling tank, the stirring assembly and the sealing assembly are respectively provided with two groups, the stirring assembly comprises accommodating grooves which are arranged on two sides in the pickling tank, and the accommodating grooves are inclined at 45 degrees and communicated with the inside of the pickling tank;

the stirring assembly further comprises a stirring motor fixedly connected inside the pickling tank, the output end of the stirring motor is fixedly connected with a first bevel gear, the inside of the pickling tank is rotatably connected with a limiting rotating rod, the limiting rotating rod extends to the inside of the accommodating groove, one end of the limiting rotating rod is fixedly connected with a second bevel gear, the second bevel gear is meshed with the first bevel gear, and the middle inner wall of the accommodating groove is fixedly connected with a nut seat through a first fixing plate;

the nut seat is provided with a threaded rod, one end of the threaded rod is fixedly connected with a first connecting rod, a limiting disc is fixedly connected onto the first connecting rod, grooves corresponding to the limiting rotating rod are formed in the threaded rod, the first connecting rod and the limiting disc, the threaded rod, the first connecting rod and the limiting disc are connected with the limiting rotating rod in a sliding mode, and the other end of the threaded rod is fixedly connected with a stirring blade.

Further, the bottom of pickling tank is provided with the collecting vat, and the inside of collecting vat is provided with the water pump, and the output fixedly connected with water pipe of water pump, and the water pipe runs through the collecting vat and extends to the inside of pickling tank.

Furthermore, a transmission rod is fixedly connected to the first bevel gear, the other end of the transmission rod extends to the outside of the pickling tank and is fixedly connected with an end face gear, the sealing assembly comprises a worm which is rotatably connected to the inside of the pickling tank, one end of the worm extends to the outside of the pickling tank and is fixedly connected with a helical gear, and the helical gear is in meshed connection with the end face gear.

Further, seal assembly still includes the turbine of rotation connection in the pickling tank inside, and the bottom meshing of turbine and scroll bar is connected, and the position that the inside of pickling tank is close to the pickling tank both sides is provided with the seal groove, and the seal groove opening that makes progress, and the seal groove is linked together with accomodating inslot portion, and the inside sliding connection of seal groove has the closing plate, and the top fixedly connected with connecting plate of closing plate, one side of closing plate and connecting plate is provided with the tooth's socket.

Furthermore, the front end of the turbine is fixedly connected with a straight gear through a shaft, the straight gear is meshed with the tooth groove, one side of the sealing plate is located below the tooth groove and is provided with a groove, and the groove corresponds to the straight gear.

Further, seal assembly is still including setting up the piston groove in the pickling tank inside, and the piston groove with accomodate the inslot portion and be linked together, the inside of pickling tank still is provided with the play liquid groove that downwardly extends to in the collecting vat, and the top of going out the liquid groove is linked together with the position that the piston groove is close to the storage tank, the inside sliding connection of piston groove has the sealing plug, the one end fixedly connected with slide bar of sealing plug, the other end fixedly connected with fixed block of slide bar, the first movable groove that runs through around being provided with on the fixed block.

Furthermore, the bottom of the sealing plate is fixedly connected with a fixing plate, the inside of the pickling box is rotatably connected with a rotating shaft, a rotating column is fixedly connected to the rotating shaft, one end of the rotating column corresponds to the lower portion of the fixing plate, the other end of the rotating column is fixedly connected with a second connecting rod, and the second connecting rod is movably arranged inside the first movable groove.

Further, elevating system includes supporting component, guide post and drive assembly, and supporting component includes the backup pad at fixed connection pickling roof portion, and sliding connection has the lifter around the both sides of backup pad, and the bottom of lifter is located the below of backup pad and is connected with the net dish through first axis of rotation.

Further, guide post fixed connection is in the top left and right sides of supporting component, and one side below of guide post is provided with the straight flute, and one side top of guide post is provided with the arc wall, and the arc wall is linked together with the straight flute.

Further, drive assembly includes the second fixed plate of fixed connection at the guide post top, the top fixedly connected with gear motor of second fixed plate, gear motor's output downwardly extending to the below and the fixedly connected with lead screw of second fixed plate, threaded connection has the nut pair on the lead screw, the equal fixedly connected with guide block in both sides of the nut pair, the bottom fixedly connected with guide bar of second fixed plate, and guide block sliding connection is on the guide bar, drive assembly is still including rotating the second axis of rotation of connection in the vice one side of nut, second axis of rotation other end fixedly connected with fly leaf, the below fixedly connected with L shape axle of fly leaf, and L shape axle sliding connection is inside straight flute and arc wall, the both sides of fly leaf all are provided with the second movable groove, the activity of movable axle sets up the inside at the second movable groove.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides immersion type photovoltaic module rust removing equipment with adjustable sinking depth, wherein a threaded rod, a first connecting rod and a limiting disc are driven to rotate when a stirring motor rotates, the threaded rod is in threaded connection with a nut seat in an initial state, the threaded rod moves towards the inside of a pickling tank in the containing tank until the first connecting rod is in contact with the nut seat, a sealing plate moves upwards when the stirring motor rotates, so that the threaded rod and stirring blades can conveniently enter the inside of the pickling tank, after stirring is completed, the stirring motor rotates reversely, an oblique upward reaction force is generated under the action of a solution when the stirring blades rotate reversely, the threaded rod is finally in threaded connection with the nut seat under the reverse rotation action of the threaded rod, then the threaded rod and the stirring blades retract to the inside of the containing tank, and under the reverse rotation action of the stirring motor, the sealing plate moves downwards to press one end of a rotating column downwards through a fixing plate, finally, the sealing plug is moved, the final accommodating groove is communicated with the liquid outlet groove, the solution intercepted by the sealing plate in the accommodating groove enters the collecting groove along the liquid outlet groove, the solution is prepared, the stirring blade is retracted after the stirring is finished, the corrosion is reduced, and the next step of rust removal is not influenced.

2. According to the immersion type derusting equipment for the photovoltaic module with the adjustable sinking depth, provided by the invention, when derusting is carried out, the photovoltaic module is placed in the net disc, then the speed reducing motor is started, the net disc moves downwards to the inside of the pickling tank until the photovoltaic module is submerged by a solution, meanwhile, the submerged depth of the photovoltaic module can be controlled by the speed reducing motor, after derusting is finished, the speed reducing motor rotates reversely to drive the photovoltaic module in the net disc to ascend, and the L-shaped shaft deflects when passing through the arc-shaped groove in the second ascending section, so that the net disc vibrates back and forth, and in the vibrating process, the solution on the photovoltaic module finally falls back to the inside of the pickling tank, and the problem that the solution drips to cause burning when the photovoltaic module is taken down can be prevented.

Drawings

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

FIG. 2 is a schematic view of the stirring mechanism of the present invention;

FIG. 3 is a schematic view of the construction of the pickling tank, the agitation assembly and the sealing assembly of the present invention;

FIG. 4 is a cross-sectional view of the overall construction of the present invention;

FIG. 5 is a schematic view of the stirring assembly of the present invention;

FIG. 6 is a partially exploded view of the stirring assembly of the present invention;

FIG. 7 is a cross-sectional view of the seal assembly construction of the present invention;

FIG. 8 is a schematic view of the seal assembly of the present invention;

FIG. 9 is a partially exploded view of the seal assembly of the present invention;

FIG. 10 is a schematic view of the lifting mechanism of the present invention;

FIG. 11 is a structurally exploded view of the support assembly of the present invention;

FIG. 12 is a schematic view of the steering column and drive assembly of the present invention;

fig. 13 is a disassembled view of the guide post and drive assembly structure of the present invention.

In the figure: 1. a stirring mechanism; 11. a pickling tank; 111. a pickling tank; 112. collecting tank; 113. a water pump; 114. a water pipe; 12. a stirring assembly; 121. a receiving groove; 122. a stirring motor; 1221. a first bevel gear; 1222. a transmission rod; 1223. a face gear; 123. a limiting rotating rod; 1231. a second bevel gear; 124. a nut seat; 1241. a first fixing plate; 125. a threaded rod; 126. a first connecting rod; 127. a limiting disc; 128. stirring blades; 13. a seal assembly; 131. a scroll bar; 1311. a helical gear; 132. a turbine; 133. a spur gear; 134. a sealing groove; 1341. sealing plates; 1342. a connecting plate; 1343. a tooth socket; 1344. a groove; 1345. a fixing sheet; 135. a liquid outlet groove; 136. a piston groove; 1361. a sealing plug; 1362. a slide bar; 1363. a fixed block; 1364. a first movable slot; 137. a rotating shaft; 138. rotating the column; 1381. a second connecting rod; 2. a lifting mechanism; 21. a support assembly; 211. a support plate; 212. a lifting rod; 2121. a first rotating shaft; 2122. a movable shaft; 213. a net disk; 22. a guide post; 221. a straight groove; 222. an arc-shaped slot; 23. a drive assembly; 231. a second fixing plate; 232. a reduction motor; 233. a screw rod; 234. a nut pair; 235. a guide block; 236. a guide bar; 237. a second rotating shaft; 238. a movable plate; 2381. a second movable slot; 239. an L-shaped shaft.

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.

In order to solve the technical problem that the operation of taking out the stirring equipment after stirring is finished is complicated, the following preferred technical solutions are provided as shown in fig. 1-9:

a sinking depth adjustable dipping type photovoltaic module rust removing device comprises a stirring mechanism 1 and a lifting mechanism 2 arranged on the stirring mechanism 1, wherein the stirring mechanism 1 comprises a pickling tank 11, and a stirring assembly 12 and a sealing assembly 13 which are arranged inside the pickling tank 11, an upward opening pickling tank 111 is arranged inside the pickling tank 11, two groups of stirring assemblies 12 and two groups of sealing assemblies 13 are arranged, each stirring assembly 12 comprises accommodating grooves 121 which are arranged on two sides inside the pickling tank 11, and the accommodating grooves 121 are inclined at 45 degrees and communicated with the inside of the pickling tank 111;

the stirring assembly 12 further comprises a stirring motor 122 fixedly connected inside the pickling tank 11, an output end of the stirring motor 122 is fixedly connected with a first bevel gear 1221, the inside of the pickling tank 11 is rotatably connected with a limiting rotating rod 123, the limiting rotating rod 123 extends to the inside of the accommodating groove 121, one end of the limiting rotating rod 123 is fixedly connected with a second bevel gear 1231, the second bevel gear 1231 is meshed and connected with the first bevel gear 1221, and the middle inner wall of the accommodating groove 121 is fixedly connected with a nut seat 124 through a first fixing plate 1241;

the nut seat 124 is provided with a threaded rod 125, one end of the threaded rod 125 is fixedly connected with a first connecting rod 126, the first connecting rod 126 is fixedly connected with a limiting disc 127, the threaded rod 125, the first connecting rod 126 and the limiting disc 127 are all provided with grooves corresponding to the limiting rotating rod 123, the threaded rod 125, the first connecting rod 126 and the limiting disc 127 are in sliding connection with the limiting rotating rod 123, the other end of the threaded rod 125 is fixedly connected with a stirring blade 128, the stirring motor 122 drives the limiting rotating rod 123 to rotate through a first bevel gear 1221 and a second bevel gear 1231 when rotating, because the threaded rod 125, the first connecting rod 126 and the limiting disc 127 are in sliding connection with the limiting rotating rod 123, the threaded rod 125 can be driven to rotate when the limiting rotating rod 123 rotates, the threaded rod 125 is in threaded connection with the nut seat 124 when rotating and moves obliquely downwards, when the threaded rod 125 moves to the maximum distance, the first connecting rod 126 rotates inside the nut seat 124, and the rotation of the stirring blade 128 driven by the threaded rod 125 is not limited.

The bottom of pickling tank 11 is provided with collecting vat 112, and the inside of collecting vat 112 is provided with water pump 113, and water pump 113's output fixedly connected with water pipe 114, and water pipe 114 run through collecting vat 112 and extend to the inside of pickling tank 111.

The first bevel gear 1221 is fixedly connected with a transmission rod 1222, the other end of the transmission rod 1222 extends to the outside of the pickling tank 11 and is fixedly connected with a face gear 1223, the sealing assembly 13 comprises a scroll rod 131 rotatably connected in the pickling tank 11, one end of the scroll rod 131 extends to the outside of the pickling tank 11 and is fixedly connected with a bevel gear 1311, and the bevel gear 1311 is in meshed connection with the face gear 1223.

The sealing assembly 13 further comprises a turbine 132 rotatably connected inside the pickling tank 11, the turbine 132 is meshed with the bottom of the worm 131, a sealing groove 134 is arranged in the position, close to the two sides of the pickling tank 111, inside the pickling tank 11, the sealing groove 134 is opened upwards, the sealing groove 134 is communicated with the inside of the accommodating groove 121, a sealing plate 1341 is slidably connected inside the sealing groove 134, a connecting plate 1342 is fixedly connected to the top of the sealing plate 1341, and tooth grooves 1343 are formed in one sides of the sealing plate 1341 and the connecting plate 1342.

The front end of the turbine 132 is fixedly connected with a spur gear 133 through a shaft, the spur gear 133 is meshed with a tooth groove 1343, one side of the sealing plate 1341 is located below the tooth groove 1343 and is provided with a groove 1344, the groove 1344 corresponds to the spur gear 133, when the stirring motor 122 rotates, the transmission rod 1222 and the face gear 1223 are meshed with a helical gear 1311 to drive the worm 131 to rotate, the worm 131 rotates to drive the turbine 132 to rotate, the turbine 132 drives the spur gear 133 to rotate and is meshed with the tooth groove 1343, finally, the sealing plate 1341 and the connecting plate 1342 move upwards in the sealing groove 134, the threaded rod 125 and the stirring blade 128 extend from the inside of the accommodating groove 121 to the inside of the pickling tank 111, and finally, in the upward movement process of the sealing plate 1341, when the lowest tooth of the tooth groove 1343 is contacted with the spur gear 133, the spur gear 133 corresponds to the groove 1344 at this time, the sealing plate 1341 and the connecting plate 1342 do not move upwards, at this time, the stirring motor 122 can continue to drive the stirring blade 128 to stir.

Sealing assembly 13 still includes the piston groove 136 that sets up inside the descaling bin 11, and piston groove 136 with accomodate the inside intercommunication of groove 121, the inside of descaling bin 11 still is provided with down to the play liquid groove 135 in the collecting vat 112, and the top of going out liquid groove 135 is linked together with the position that piston groove 136 is close to accomodate groove 121, the inside sliding connection of piston groove 136 has sealing plug 1361, the one end fixedly connected with slide bar 1362 of sealing plug 1361, the other end fixedly connected with fixed block 1363 of slide bar 1362, be provided with the first activity groove 1364 that runs through from beginning to end on the fixed block 1363.

A fixing piece 1345 is fixedly connected to the bottom of the sealing plate 1341, a rotating shaft 137 is rotatably connected to the inside of the pickling tank 11, a rotating column 138 is fixedly connected to the rotating shaft 137, one end of the rotating column 138 corresponds to the lower side of the fixing piece 1345, a second connecting rod 1381 is fixedly connected to the other end of the rotating column 138, the second connecting rod 1381 is movably arranged inside the first movable tank 1364, when the stirring motor 122 rotates reversely, a reverse acting force is generated between the stirring blade 128 and the liquid inside the pickling tank 111, so that the threaded rod 125 is close to the nut seat 124, under the action of reverse rotation of the threaded rod 125, the nut seat 124 is in threaded connection with the threaded rod 125, finally, the threaded rod 125 drives the stirring blade 128 to retract from the pickling tank 111 into the accommodating tank 121, when the stirring motor 122 rotates reversely, the sealing plate 1341 moves downwards and separates the accommodating tank 121 from the pickling tank 111, at this time, partial solution inside the pickling tank 111 is trapped inside the storage tank 121, and when the sealing plate 1341 falls down, one end of the rotating column 138 is pressed downward by the fixing plate 1345, so that the sealing plug 1361 retracts inside the piston groove 136, and finally the liquid outlet tank 135 is communicated with the storage tank 121, and the solution inside the storage tank 121 finally enters the inside of the collecting tank 112 through the liquid outlet tank 135.

Specifically, water is added into the interior of the pickling tank 111, the stirring motor 122 is started, the first bevel gear 1221 and the second bevel gear 1231 drive the limit rotating rod 123 to rotate when the stirring motor 122 rotates, the limit rotating rod 123 drives the threaded rod 125, the first connecting rod 126 and the limit disc 127 to rotate when the limit rotating rod 123 rotates, the threaded rod 125 is in threaded connection with the nut seat 124 in an initial state, so that the threaded rod 125 moves towards the interior of the pickling tank 111 inside the accommodating groove 121 until the first connecting rod 126 contacts with the nut seat 124 when the limit rotating rod 123 rotates, the stirring blade 128 stirs the water in the interior of the pickling tank 111 during rotation, the transmission rod 1222 rotates along with the rotation when the stirring motor 122 rotates, the worm 131 is driven to rotate by the end face gear 1223 and the bevel gear 1311, and the worm gear 132 is engaged with the worm gear 133 when the worm 131 rotates, the spur gear 133 is engaged with the tooth groove 1343 when rotating and drives the sealing plate 1341 to move upwards, so that the threaded rod 125 and the stirring blade 128 enter the pickling tank 111 conveniently, then the sealing plate 1341 cannot move upwards when the stirring motor 122 rotates, hydrochloric acid and a corrosion inhibitor are slowly added into the pickling tank 111 until the stirring is uniform, after the stirring is completed, the stirring motor 122 rotates reversely, an upward reaction force is generated under the action of the solution when the stirring blade 128 rotates reversely, so that the threaded rod 125 is in contact with the nut seat 124, the threaded rod 125 is finally in threaded connection with the nut seat 124 under the action of the reverse rotation of the threaded rod 125, then the threaded rod 125 and the stirring blade 128 retract into the accommodating tank 121, the sealing plate 1341 moves downwards under the action of the reverse rotation of the stirring motor 122, and when the sealing plate 1341 is nearly bottomed, the fixing piece 1345 presses one end of the rotating column 138 downwards, so that the second connecting rod 1381 moves on the fixing block 1363, the sliding rod 1362 moves the sealing plug 1361, the accommodating groove 121 is communicated with the liquid outlet groove 135 finally, the solution trapped by the sealing plate 1341 in the accommodating groove 121 enters the collecting groove 112 along the liquid outlet groove 135, and finally returns to the pickling groove 111 under the action of the water pump 113 and the water pipe 114, and the preparation of the solution is completed.

In order to prevent the technical problem that the pickling solution attached to the photovoltaic module is easy to drip when the photovoltaic module is taken out of the pickling tank after rust removal, as shown in fig. 10-13, the following preferable technical scheme is provided:

the lifting mechanism 2 comprises a supporting component 21, a guide post 22 and a driving component 23, the supporting component 21 comprises a supporting plate 211 fixedly connected with the top of the pickling tank 11, two sides of the supporting plate 211 are connected with lifting rods 212 in a front-back sliding mode, and the bottoms of the lifting rods 212 are located below the supporting plate 211 and are connected with a net disc 213 in a rotating mode through a first rotating shaft 2121.

The guide post 22 is fixedly connected to the left and right sides of the top of the support component 21, a straight groove 221 is arranged below one side of the guide post 22, an arc-shaped groove 222 is arranged above one side of the guide post 22, and the arc-shaped groove 222 is communicated with the straight groove 221.

The driving assembly 23 includes a second fixing plate 231 fixedly connected to the top of the guide post 22, a speed reducing motor 232 is fixedly connected to the top of the second fixing plate 231, an output end of the speed reducing motor 232 extends downward to a lower portion of the second fixing plate 231 and is fixedly connected with a lead screw 233, a nut pair 234 is connected to the lead screw 233 in a threaded manner, guide blocks 235 are fixedly connected to both sides of the nut pair 234, a guide rod 236 is fixedly connected to the bottom of the second fixing plate 231, the guide block 235 is slidably connected to the guide rod 236, the driving assembly 23 further includes a second rotating shaft 237 rotatably connected to one side of the nut pair 234, a movable plate 238 is fixedly connected to the other end of the second rotating shaft 237, an L-shaped shaft 239 is fixedly connected to a lower portion of the movable plate 238, the L-shaped shaft 239 is slidably connected to the inside of the straight groove 221 and the arc-shaped groove 222, second movable grooves 2381 are respectively arranged on both sides of the movable plate 238, and the movable shaft 2122 is movably arranged inside the second movable grooves 2381, the nut pair 234 is driven to move up and down when the speed reduction motor 232 rotates, the movable plate 238 swings back and forth when the nut pair 234 drives the movable plate 238 and the L-shaped shaft 239 through the arc-shaped groove 222 via the second rotating shaft 237, and the movable shaft 2122 moves in the second movable groove 2381 during the swinging process, so that the net disc 213 finally swings back and forth.

Specifically, during the derusting process, the photovoltaic module is placed inside the mesh disc 213, then the decelerating motor 232 is started, the decelerating motor 232 drives the nut pair 234 to move downwards through the screw rod 233, the nut pair 234 drives the lifting rod 212 and the mesh disc 213 to move downwards through the second rotating shaft 237 and the movable plate 238 to the inside of the pickling tank 111 until the photovoltaic module is submerged by the solution, the submerged depth of the photovoltaic module can be controlled through the decelerating motor 232, after the derusting process is completed, the decelerating motor 232 rotates reversely to drive the photovoltaic module inside the mesh disc 213 to ascend, in the ascending second half section, the L-shaped shaft 239 deflects when passing through the arc-shaped groove 222, so that the movable plate 238 deflects back and forth around the second rotating shaft 237 and the nut pair 234 in the ascending process, and in the process of the forward and backward deflection of the movable plate 238, the mesh disc 213 vibrates back and forth through the conduction of the lifting rod 212, in the vibration process, the solution on the photovoltaic module finally falls back to the inside of the pickling tank 111, so that the solution can be prevented from dripping to cause burn when the photovoltaic module is taken down.

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.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The utility model provides a sunken degree of depth adjustable impregnated photovoltaic module rust cleaning equipment, includes rabbling mechanism (1) and elevating system (2) of setting on rabbling mechanism (1), its characterized in that: the stirring mechanism (1) comprises a pickling tank (11), and a stirring assembly (12) and a sealing assembly (13) which are arranged inside the pickling tank (11), wherein an upward-opening pickling tank (111) is arranged inside the pickling tank (11), the stirring assembly (12) and the sealing assembly (13) are respectively provided with two groups, the stirring assembly (12) comprises accommodating grooves (121) which are arranged on two sides of the inside of the pickling tank (11), and the accommodating grooves (121) are inclined at 45 degrees and communicated with the inside of the pickling tank (111);

the stirring assembly (12) further comprises a stirring motor (122) fixedly connected inside the pickling tank (11), the output end of the stirring motor (122) is fixedly connected with a first bevel gear (1221), the inside of the pickling tank (11) is rotatably connected with a limiting rotating rod (123), the limiting rotating rod (123) extends to the inside of the accommodating groove (121), one end of the limiting rotating rod (123) is fixedly connected with a second bevel gear (1231), the second bevel gear (1231) is meshed and connected with the first bevel gear (1221), and the middle inner wall of the accommodating groove (121) is fixedly connected with a nut seat (124) through a first fixing plate (1241);

the nut seat (124) is provided with a threaded rod (125), one end of the threaded rod (125) is fixedly connected with a first connecting rod (126), the first connecting rod (126) is fixedly connected with a limiting disc (127), grooves corresponding to the limiting rotating rod (123) are formed in the threaded rod (125), the first connecting rod (126) and the limiting disc (127), the threaded rod (125), the first connecting rod (126) and the limiting disc (127) are connected with the limiting rotating rod (123) in a sliding mode, and the other end of the threaded rod (125) is fixedly connected with a stirring blade (128).

2. The dipping type photovoltaic module rust removing equipment with adjustable sinking depth of claim 1, wherein: the bottom of pickling tank (11) is provided with collecting vat (112), and the inside of collecting vat (112) is provided with water pump (113), and the output fixedly connected with water pipe (114) of water pump (113), and water pipe (114) run through collecting vat (112) and extend to the inside of pickling bath (111).

3. The dipping type photovoltaic module rust removing equipment with adjustable sinking depth of claim 2, wherein: fixedly connected with transfer line (1222) on first bevel gear (1221), and the other end of transfer line (1222) extends to the outside of pickling tank (11) and fixedly connected with face gear (1223), and seal assembly (13) are including rotating scroll bar (131) of connection in pickling tank (11), and the one end of scroll bar (131) extends to the outside of pickling tank (11) and fixedly connected with helical gear (1311), and helical gear (1311) and face gear (1223) meshing are connected.

4. The dipping type photovoltaic module rust removing equipment with adjustable sinking depth of claim 3, wherein: seal assembly (13) still include turbine (132) of rotation connection in pickling tank (11) inside, and turbine (132) are connected with the bottom meshing of scroll bar (131), the position that the inside of pickling tank (11) is close to pickling tank (111) both sides is provided with seal groove (134), and seal groove (134) upwards opening, seal groove (134) with accomodate groove (121) inside and be linked together, the inside sliding connection of seal groove (134) has closing plate (1341), the top fixedly connected with connecting plate (1342) of closing plate (1341), one side of closing plate (1341) and connecting plate (1342) is provided with tooth's socket (1343).

5. The dipping type photovoltaic module rust removing equipment with adjustable sinking depth of claim 4, wherein: the front end of the turbine (132) is fixedly connected with a spur gear (133) through a shaft, the spur gear (133) is meshed with a tooth groove (1343), one side of a sealing plate (1341) is located below the tooth groove (1343) and is provided with a groove (1344), and the groove (1344) corresponds to the spur gear (133).

6. The dipping type photovoltaic module rust removing equipment with adjustable sinking depth of claim 5, wherein: sealing assembly (13) still including setting up piston groove (136) in pickling tank (11) inside, and piston groove (136) with accomodate groove (121) inside and be linked together, the inside of pickling tank (11) still is provided with drain tank (135) that downwardly extends to in collecting vat (112), and the top and piston groove (136) of drain tank (135) are close to the position of accomodating groove (121) and are linked together, the inside sliding connection of piston groove (136) has sealing plug (1361), the one end fixedly connected with slide bar (1362) of sealing plug (1361), the other end fixedly connected with fixed block (1363) of slide bar (1362), be provided with first movable groove (1364) that run through from beginning to end on fixed block (1363).

7. The dipping type photovoltaic module rust removing equipment with adjustable sinking depth of claim 1, wherein: the bottom fixedly connected with stationary blade (1345) of closing plate (1341), the inside of pickling case (11) is rotated and is connected with pivot (137), fixedly connected with rotates post (138) on pivot (137), and the one end of rotating post (138) is corresponding with the below of stationary blade (1345), the other end fixedly connected with second connecting rod (1381) of rotating post (138), second connecting rod (1381) activity sets up the inside in first activity groove (1364).

8. The dipping type photovoltaic module rust removing equipment with adjustable sinking depth of claim 1, wherein: the lifting mechanism (2) comprises a supporting component (21), a guide column (22) and a driving component (23), the supporting component (21) comprises a supporting plate (211) fixedly connected with the top of the pickling box (11), lifting rods (212) are connected to the two sides of the supporting plate (211) in a front-back sliding mode, and a net disc (213) is rotatably connected to the position, below the supporting plate (211), of the bottom of each lifting rod (212) through a first rotating shaft (2121).

9. The dipping type photovoltaic module rust removing equipment with adjustable sinking depth of claim 8, wherein: guide post (22) fixed connection is in the top left and right sides of support component (21), and one side below of guide post (22) is provided with straight flute (221), and one side top of guide post (22) is provided with arc wall (222), and arc wall (222) are linked together with straight flute (221).

10. The impregnated photovoltaic module rust removing apparatus with adjustable sinking depth of claim 9, wherein: the driving assembly (23) comprises a second fixing plate (231) fixedly connected to the top of the guide column (22), the top of the second fixing plate (231) is fixedly connected with a speed reducing motor (232), the output end of the speed reducing motor (232) extends downwards to the lower portion of the second fixing plate (231) and is fixedly connected with a lead screw (233), the lead screw (233) is in threaded connection with a nut pair (234), two sides of the nut pair (234) are fixedly connected with guide blocks (235), the bottom of the second fixing plate (231) is fixedly connected with a guide rod (236), the guide blocks (235) are in sliding connection with the guide rod (236), the driving assembly (23) further comprises a second rotating shaft (237) rotatably connected to one side of the nut pair (234), the other end of the second rotating shaft (237) is fixedly connected with a movable plate (238), the lower portion of the movable plate (238) is fixedly connected with an L-shaped shaft (239), and the L-shaped shaft (239) is in sliding connection with the straight groove (221) and the arc-shaped groove (222), two sides of the movable plate (238) are respectively provided with a second movable groove (2381), and the movable shaft (2122) is movably arranged inside the second movable grooves (2381).

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