CN110890822B

CN110890822B - Mute motor copper leaching device

Info

Publication number: CN110890822B
Application number: CN201911218342.XA
Authority: CN
Inventors: 李峰
Original assignee: Zhejiang Planetary Motor Co ltd
Current assignee: Zhejiang planetary motor Co.,Ltd.
Priority date: 2019-12-03
Filing date: 2019-12-03
Publication date: 2021-09-21
Anticipated expiration: 2039-12-03
Also published as: CN110890822A

Abstract

The invention relates to a mute motor, in particular to a mute motor copper leaching device. The invention aims to provide a mute motor copper leaching device. A mute motor copper leaching device comprises an operation drying mechanism, a control screen, a motor shell, a feeding cleaning mechanism and a copper leaching mechanism; a control screen is arranged in the middle of the left side of the operation drying mechanism; a motor shell is arranged on the left side in the operation drying mechanism; the middle part in the operation drying mechanism is provided with a feeding cleaning mechanism. The invention realizes high-pressure dust removal on the inner wall of the motor shell, simultaneously carries out copper dipping and drying synchronously by matching two groups of motor shells, evenly coats copper on the inner wall during copper dipping, carries out secondary processing and matching assembly after drying, and can realize heat dissipation by matching with the aluminum alloy motor shell after efficiently and instantly absorbing heat with a copper layer during use.

Description

Mute motor copper leaching device

Technical Field

The invention relates to a mute motor, in particular to a mute motor copper leaching device.

Background

The motor is represented by a letter M (old standard is represented by D) in a circuit, the motor is mainly used for generating driving torque and serving as a power source of electrical appliances or various machines, the generator is represented by a letter G in the circuit, and the generator is mainly used for converting mechanical energy into electric energy;

the motor has a plurality of purposes, can be applied to a plurality of industries, has higher working efficiency, no smoke dust and smell, no environmental pollution, less noise and very convenient use and control, can meet various operation requirements, and is widely applied to the aspects of industrial and agricultural production, transportation, national defense, commercial and household appliances, medical electrical equipment and the like. The motors are various in variety and have various functions so as to meet various different use requirements, and with the technical progress, the requirements on the motors are higher and higher, for example, the motors are applied to small products, and in order to ensure user experience and increase use comfort, the motors all strive to minimize noise, namely mute the motors;

however, the existing silent motor is generally small in size, the outer protective shell of the silent motor is made of integrally formed aluminum alloy as a protective main body, but the heat dissipation effect of the aluminum alloy is poor, the internal heat is slowly dissipated after the silent motor is used for a long time, and the shell of a small-sized product is generally a plastic product, if a large amount of heat is accumulated in the shell and gathered together, high temperature is easily generated locally, so that the plastic shell generates pungent smell, the user experience is influenced, and the health of children is influenced by a large amount of suction; the mute motor is high in cost and complicated in forming steps due to the fact that the copper shell is adopted, although the instantaneous heat absorption capacity of copper is better than that of aluminum, the heat dissipation speed is slower than that of aluminum, the heat capacity is lower than that of aluminum, and the temperature rises to be higher than that of aluminum on the premise of absorbing the same heat; so directly adopt the aluminum alloy and directly adopt copper to make as silence motor housing all not suitable, can combine both to cover copper to aluminum alloy silence motor housing and promote in the twinkling of an eye heat absorption and high-efficient radiating effect.

In summary, there is a need to develop a mute copper immersion device for an electric motor to overcome the above problems.

Disclosure of Invention

In order to overcome the defects that the existing silent motor is generally small in size, an outer protective shell of the silent motor adopts integrally formed aluminum alloy as a protective main body, but the heat dissipation effect of the aluminum alloy is poor, the internal heat is slowly dissipated after the silent motor is used for a long time, and the shell of a small-sized product is generally a plastic product, if a large amount of heat is accumulated in the shell and gathered together, high temperature is easily generated locally, so that the plastic shell generates pungent smell, the user experience is influenced, and the body health of a child is influenced by a large amount of suction; the mute motor is high in cost and complicated in forming steps due to the fact that the copper shell is adopted, although the instantaneous heat absorption capacity of copper is better than that of aluminum, the heat dissipation speed is slower than that of aluminum, the heat capacity is lower than that of aluminum, and the temperature rises to be higher than that of aluminum on the premise of absorbing the same heat; therefore, it is not suitable to directly adopt aluminum alloy and directly adopt copper as the mute motor shell, and the aluminum alloy mute motor shell and the copper can be combined to cover copper to improve the effects of instant heat absorption and efficient heat dissipation.

The invention is achieved by the following specific technical means:

a mute motor copper leaching device comprises an operation drying mechanism, a control screen, a motor shell, a feeding cleaning mechanism and a copper leaching mechanism; a control screen is arranged in the middle of the left side of the operation drying mechanism; a motor shell is arranged on the left side in the operation drying mechanism; a feeding cleaning mechanism is arranged in the middle of the operation drying mechanism; a copper leaching mechanism is arranged on the right side in the operation drying mechanism, and the left side of the bottom of the copper leaching mechanism is connected with the feeding cleaning mechanism;

the operation drying mechanism comprises an operation table, a water collecting tank, a first driving wheel, a first bevel gear, a second bevel gear, a first conveying mechanism, a first limit baffle, a drying cabin, an inclined baffle, a drying lamp, a second limit baffle, a second conveying mechanism, a first motor, a first electric push rod, a clamping frame and a first material taking mechanism; a water collecting tank is arranged on the left side of the bottom of the operating platform; a first driving wheel is arranged on the middle left side of the bottom end of the operating platform; a first conveying mechanism is arranged in the middle of the left part in the operating platform; a first limit baffle is arranged in the left middle part in the operating platform and is positioned in front of the first conveying mechanism; a drying cabin is arranged at the upper left part in the operating platform; the middle upper part in the operating platform is in sliding connection with the first electric push rod through a linear guide rail; the front end axis of the first driving wheel is rotationally connected with the first bevel gear; the front right side of the first bevel gear is meshed with the second bevel gear; an inclined baffle is arranged at the middle right side in the drying cabin; a drying lamp is arranged in the middle of the drying cabin; a second limit baffle is arranged at the lower part in the front part in the drying cabin; a second conveying mechanism is arranged at the bottom in the drying cabin; a first motor is arranged on the front left side of the second conveying mechanism; the bottom of the first electric push rod is provided with a clamping frame; a first material taking mechanism is arranged at the bottom in the clamping frame; the middle part in the operating platform is connected with the feeding cleaning mechanism; the right side in the operating platform is connected with a copper leaching mechanism; the right side of the second bevel gear is connected with a feeding cleaning mechanism; the top of the first conveying mechanism is connected with the motor shell; the left lower part of the drying cabin is connected with a control screen; the right middle part of the drying cabin is connected with the feeding cleaning mechanism;

the feeding and cleaning mechanism comprises a first mounting frame, a linear guide rail, a second electric push rod, a second material taking mechanism, a dust hood, an air inlet pipe, a jet head, a fan blade, a second driving wheel, a third bevel gear, a fourth bevel gear, a third driving wheel, a third electric push rod, a fourth driving wheel, a first gear, a clamping piece, a second gear, a third gear, a first driving rod, a third material taking mechanism, a slide rail and a micro motor; a linear guide rail is arranged on the middle rear side of the top end of the first mounting frame; a dust collection cover is arranged at the right bottom in the first mounting frame; an air inlet pipe is arranged above the right middle part in the first mounting frame; the right middle part in the first mounting frame is rotationally connected with the fan blade through a rotating shaft; the right side of the bottom of the first mounting frame is rotationally connected with a second driving wheel through a rotating shaft; the middle bottom in the first mounting frame is rotationally connected with a fourth driving wheel; a slide rail is arranged in the left middle of the first mounting frame; a second electric push rod is arranged on the front left side of the linear guide rail; the bottom of the second electric push rod is connected with a second material taking mechanism through a fixing head through a bolt; a micro motor is arranged at the front top of the second electric push rod; the top of the air inlet pipe is provided with an air nozzle; a third bevel gear is arranged at the bottom of the second transmission wheel; the left bottom of the third bevel gear is meshed with the fourth bevel gear; the left side of the fourth bevel gear is connected with a third driving wheel in an inserting mode through a rotating shaft; a third electric push rod is arranged on the left axle center of the third transmission wheel; a first gear is arranged on the left axle center of the fourth transmission wheel; a clamping piece is arranged on the left side of the first gear; the front side of the top of the first gear is meshed with the second gear, and the left axis of the second gear is connected with the clamping piece; the rear side of the top of the first gear is meshed with the third gear, and the left axis of the third gear is connected with the clamping piece; the upper left side of the clamping piece is in transmission connection with the first transmission rod; the left side of the first transmission rod is fixedly connected with the third material taking mechanism, and the upper left side of the first transmission rod is connected with the sliding rail; the bottom and the left top of the first mounting frame are both connected with the operation drying mechanism; the left side of the linear guide rail is connected with the operation drying mechanism; the right side of the second transmission wheel is connected with a copper leaching mechanism; the left side of the third electric push rod is connected with the running drying mechanism; the bottom end of the slide rail is connected with the running drying mechanism;

the copper leaching mechanism comprises a mounting seat, a fourth electric push rod, a fifth electric push rod, a liquid outlet head, a hand wheel, a second motor, a fifth driving wheel, a fixed frame, a sixth driving wheel, a shaft rod, a base, a seventh driving wheel, a bevel gear disc, a wide-face driving wheel disc, a fourth gear and a placing seat; the left top end of the mounting seat is welded with the fourth electric push rod; a hand wheel is arranged above the middle of the front end of the mounting seat; a second motor is arranged on the lower left of the mounting seat; a fifth electric push rod is arranged on the left side of the bottom end of the fourth electric push rod; a liquid outlet head is arranged at the bottom of the fifth electric push rod; a fifth driving wheel is arranged at the top of the second motor; the upper part of the outer surface of the second motor is connected with the fixing frame through a bolt; the left side of the fifth driving wheel is in transmission connection with the sixth driving wheel; the top of the sixth driving wheel is provided with a shaft lever; a base is arranged at the middle lower part of the shaft lever; a seventh driving wheel is arranged in the middle of the shaft lever; a bevel gear disc is arranged above the middle part of the shaft lever; the top of the shaft lever is provided with a wide-face transmission wheel disc; the left upper part of the bevel gear disc is meshed with a fourth gear, and the upper part of the fourth gear is connected with a wide-face transmission wheel disc; a placing seat is arranged on the left side of the top of the wide-face transmission wheel disc and is connected with a fourth gear; the bottom end of the mounting seat is connected with the operation drying mechanism; the top of the fixed frame is connected with the operation drying mechanism; the bottom end of the base is connected with the operation drying mechanism;

the third material taking mechanism comprises an annular sleeve frame, an air bag and an air inlet head; the inner ring of the annular sleeve frame is provided with an air bag; the middle part of the top end of the annular sleeve frame is provided with an air inlet head; the right side of the annular sleeve frame is connected with the first transmission rod.

Furthermore, first electric putter, clamp frame and first feeding agencies all are provided with two to every electric putter, clamp frame and the combination of first feeding agencies, total two sets of, and all be the below slope form of turning to the right and install top in the operation panel.

Further, intake pipe and jet-propelled head all are the installation of declining to the right when installing in first installing frame to first installing frame top middle part is provided with a rectangle opening.

Further, the mount pad, fourth electric putter, fifth electric putter, go out the liquid head, the hand wheel, the sixth drive wheel, the axostylus axostyle, the base, the seventh drive wheel, the bevel gear dish, wide face drive rim plate, the fourth gear all is provided with two with placing the seat to the intercombination is total two sets ofly, and seventh drive wheel and wide face drive wheel dish interconnect between two sets of, and a set of sixth drive wheel in left side is connected with material loading clearance mechanism simultaneously.

Furthermore, the placing seat is installed on the outer ring of the top end of the wide-face transmission wheel disc in an inclined manner.

Furthermore, a cabin door is arranged in the middle left of the drying cabin.

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

1. in order to solve the problems that the existing silent motor is generally small in size, an outer protective shell of the existing silent motor adopts integrally formed aluminum alloy as a protective main body, but the heat dissipation effect of the aluminum alloy is poor, the internal heat is slowly dissipated after the silent motor is used for a long time, and the shell of a small-sized product is generally a plastic product, if a large amount of heat is accumulated in the shell and gathered together, high temperature is easily generated locally, so that the plastic shell generates pungent smell, the user experience is influenced, and the health of children is influenced due to the fact that a large amount of suction is carried out; the mute motor is high in cost and complicated in forming steps due to the fact that the copper shell is adopted, although the instantaneous heat absorption capacity of copper is better than that of aluminum, the heat dissipation speed is slower than that of aluminum, the heat capacity is lower than that of aluminum, and the temperature rises to be higher than that of aluminum on the premise of absorbing the same heat; therefore, it is not suitable to directly adopt aluminum alloy and directly adopt copper as the mute motor shell, the two can be combined to cover copper on the aluminum alloy mute motor shell to improve the effect of instantaneous heat absorption and high-efficiency heat dissipation, but the prior art has no special device to solve the problem of the defects, an operation drying mechanism, a feeding cleaning mechanism and a copper soaking mechanism are designed, when in use, the mute motor copper soaking device is placed at the position to be used, then an external power supply is connected, then the motor shell is placed on the operation drying mechanism with the arrangement opening downward, a control screen is controlled, the feeding cleaning mechanism is linked with the operation drying mechanism through the copper soaking mechanism to drive the operation drying mechanism, the motor shell is transmitted, the feeding cleaning mechanism is matched with a clamp to clamp the motor shell and overturns after cleaning dust, the operation drying mechanism is matched to clamp the copper soaking mechanism to soak copper, and the operation drying mechanism is used for drying after copper soaking, realized carrying out high pressure dust cleaning to the motor housing inner wall, the cooperation carries out two sets of motor housing simultaneously and soaks copper and stoving, and the inner wall covers copper evenly when soaking copper, carries out secondary operation cooperation equipment after drying again, can realize when using with the copper layer high-efficient cooperation aluminum alloy motor housing after the heat absorption in the twinkling of an eye dispels the heat.

Drawings

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

FIG. 2 is a schematic structural view of the operation drying mechanism of the present invention;

FIG. 3 is a schematic structural view of a loading cleaning mechanism according to the present invention;

FIG. 4 is a schematic structural diagram of a copper leaching mechanism of the invention;

FIG. 5 is a top view of a first mounting frame of the present invention;

FIG. 6 is a schematic view of the combination of the clip, the second gear and the third gear of the present invention;

fig. 7 is a schematic structural view of a third material taking mechanism of the present invention.

The labels in the figures are: 1-operation drying mechanism, 2-control screen, 3-motor shell, 4-feeding cleaning mechanism, 5-copper leaching mechanism, 101-operation table, 102-water collecting tank, 103-first driving wheel, 104-first bevel gear, 105-second bevel gear, 106-first transmission mechanism, 107-first limit baffle, 108-drying cabin, 109-inclined baffle, 1010-drying lamp, 1011-second limit baffle, 1012-second transmission mechanism, 1013-first motor, 1014-first electric push rod, 1015-clamping frame, 1016-first material taking mechanism, 401-first installation frame, 402-linear guide rail, 403-second electric push rod, 404-second material taking mechanism, 405-dust collecting hood, 406-air inlet pipe, 407-a gas spray head, 408-a fan blade, 409-a second driving wheel, 4010-a third bevel gear, 4011-a fourth bevel gear, 4012-a third driving wheel, 4013-a third electric push rod, 4014-a fourth driving wheel, 4015-a first gear, 4016-a clamping piece, 4017-a second gear, 4018-a third gear, 4019-a first driving rod, 4020-a third material taking mechanism, 4021-a sliding rail, 4022-a micro motor, 501-a mounting seat, 502-a fourth electric push rod, 503-a fifth electric push rod, 504-a liquid outlet head, 505-a hand wheel, 506-a second motor, 507-a fifth driving wheel, 508-a fixed frame, 509-a sixth driving wheel, 5010-a shaft rod, 5011-a base, 5012-a seventh driving wheel and 5013-a bevel gear disc, 5014 wide drive wheel disc, 5015 fourth gear, 5016 holder, 402001 annular frame, 402002 air bag, 402003 air inlet head.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

A mute motor copper leaching device comprises an operation drying mechanism 1, a control screen 2, a motor shell 3, a feeding cleaning mechanism 4 and a copper leaching mechanism 5; a control screen 2 is arranged in the middle of the left side of the operation drying mechanism 1; a motor shell 3 is arranged on the left side in the operation drying mechanism 1; a feeding cleaning mechanism 4 is arranged in the middle of the operation drying mechanism 1; the right side in the operation drying mechanism 1 is provided with a copper leaching mechanism 5, and the left side of the bottom of the copper leaching mechanism 5 is connected with a feeding cleaning mechanism 4.

The working principle is as follows: when in use, the mute motor copper-leaching device is placed at a position to be used, then is externally connected with a power supply, and then the motor shell 3 is arranged with an opening facing downwards and is placed on the running drying mechanism 1 for transmission, then the control panel 2 is controlled, the copper leaching mechanism 5 is linked with the feeding cleaning mechanism 4 to drive the operation drying mechanism 1 to convey the motor shell 3, the feeding cleaning mechanism 4 is matched with the clamping motor shell 3 and overturns after dust removal, the operation drying mechanism 1 is matched to clamp the copper leaching mechanism 5 for copper leaching, the inner wall of the motor shell 3 is cleaned at high pressure after copper leaching is finished and is matched with the operation drying mechanism 1 for copper leaching and drying simultaneously by two groups of motor shells 3, copper is evenly coated on the inner wall when copper is soaked, secondary processing matching assembly is carried out after drying, and heat dissipation can be realized by matching the aluminum alloy motor shell 3 with the copper layer after high-efficiency instant heat absorption.

The operation drying mechanism 1 comprises an operation table 101, a water collecting tank 102, a first driving wheel 103, a first bevel gear 104, a second bevel gear 105, a first conveying mechanism 106, a first limit baffle 107, a drying cabin 108, an inclined baffle 109, a drying lamp 1010, a second limit baffle 1011, a second conveying mechanism 1012, a first motor 1013, a first electric push rod 1014, a clamping frame 1015 and a first material taking mechanism 1016; a water collecting tank 102 is arranged on the left side of the bottom of the operating platform 101; a first driving wheel 103 is arranged on the left side of the bottom end of the operating platform 101; a first conveying mechanism 106 is arranged in the middle of the left side in the operating platform 101; a first limit baffle 107 is arranged in the middle of the left inside of the operating platform 101, and the first limit baffle 107 is positioned in front of the first conveying mechanism 106; a drying cabin 108 is arranged at the upper left part in the operating platform 101; the middle upper part in the operating platform 101 is connected with a first electric push rod 1014 in a sliding way through a linear guide rail; the front end axis of the first driving wheel 103 is rotationally connected with a first bevel gear 104; the front right side of the first bevel gear 104 is meshed with the second bevel gear 105; an inclined baffle plate 109 is arranged at the middle right side in the drying cabin 108; a drying lamp 1010 is arranged in the middle of the drying cabin 108; a second limit baffle 1011 is arranged at the middle lower part of the front part in the drying cabin 108; the bottom in the drying chamber 108 is provided with a second conveying mechanism 1012; the front left side of the second transmission mechanism 1012 is provided with a first motor 1013; the bottom of the first electric push rod 1014 is provided with a clamping frame 1015; a first material taking mechanism 1016 is arranged at the inner bottom of the clamping frame 1015; the middle part in the operating platform 101 is connected with the feeding cleaning mechanism 4; the right side in the operating platform 101 is connected with a copper leaching mechanism 5; the right side of the second bevel gear 105 is connected with the feeding cleaning mechanism 4; the top of the first conveying mechanism 106 is connected with the motor shell 3; the lower left of the drying cabin 108 is connected with the control screen 2; the right middle part of the drying cabin 108 is connected with the feeding cleaning mechanism 4.

When in use, the water collecting tank 102 at the bottom of the operating platform 101 is filled with half of water in the inner cabin, and then the connecting pipe at the upper right of the water collecting tank 102 is connected with the dust collecting cover 405; then the feeding cleaning mechanism 4 is linked with the second bevel gear 105 to be meshed with the first bevel gear 104 to drive the first transmission wheel 103, the first transmission wheel 103 transmits the first transmission mechanism 106 to drive the motor shell 3 to the right side, and intermittent transmission is realized through linkage of the feeding cleaning mechanism 4, and then the first limit baffle 107 is arranged at the front and the rear of the first transmission mechanism 106, so that the motor shell 3 can be limited, and the motor shell 3 is prevented from being in staggered transmission; then the two sets of first electric push rods 1014, the clamping frame 1015 and the first material taking mechanism 1016 can cooperate to clamp the motor housing 3 processed by the feeding cleaning mechanism 4, and the motor housing 3 is taken into and taken out of the copper dipping mechanism 5 to be dipped into copper in the motor housing 3, and the motor housing 3 is cooperatively moved into the drying cabin 108 to be dried, when the motor housing is dried, the two sets of first electric push rods 1014, the clamping frame 1015 and the first material taking mechanism 1016 are respectively moved into the drying cabin 108 to be positioned at the inclined baffle 109, the left set of first electric push rods 1014, the clamping frame 1015 and the first material taking mechanism 1016 are firstly put down, the clamped motor housing 3 is put down, the motor housing 3 is limited by the inclined baffle 109 cooperating with the right cabin wall in the drying cabin 108, then the right set of first electric push rods 1014, the clamping frame 1015 and the first material taking mechanism 1016 are put down, the two sets of motor housings 3 are simultaneously put down, and the motor housing 3 is driven by the first motor 1013 to move to the left side, simultaneously second limit baffle 1011 is spacing, when removing stoving lamp 1010 bottom, and multiunit stoving lamp 1010 is dried motor housing 3 simultaneously, has realized that the upset material loading after the dust removal of material loading clearance mechanism 4 is joined in marriage to the removal motor housing 3, and the dust during the dust removal is collected and is removed and mix in header tank 102 with water, cooperates again and soaks copper mechanism 5 and soaks the copper, dries the motor housing 3 that soaks the copper well simultaneously.

The feeding cleaning mechanism 4 comprises a first mounting frame 401, a linear guide rail 402, a second electric push rod 403, a second material taking mechanism 404, a dust collection cover 405, an air inlet pipe 406, an air nozzle 407, a fan blade 408, a second driving wheel 409, a third bevel gear 4010, a fourth bevel gear 4011, a third driving wheel 4012, a third electric push rod 4013, a fourth driving wheel 4014, a first gear 4015, a clamping piece 4016, a second gear 4017, a third gear 4018, a first driving rod 4019, a third material taking mechanism 4020, a sliding rail 4021 and a micro motor 4022; a linear guide rail 402 is arranged at the middle rear side of the top end of the first mounting frame 401; a dust collection cover 405 is arranged at the right bottom part in the first mounting frame 401; an air inlet pipe 406 is arranged above the right middle part in the first mounting frame 401; the right middle part in the first mounting frame 401 is rotationally connected with the fan blade 408 through a rotating shaft; the right side of the bottom of the first mounting frame 401 is rotatably connected with a second driving wheel 409 through a rotating shaft; the middle bottom part in the first mounting frame 401 is rotationally connected with a fourth driving wheel 4014; a sliding rail 4021 is arranged in the middle left of the first mounting frame 401; a second electric push rod 403 is arranged on the front left side of the linear guide rail 402; the bottom of the second electric push rod 403 is connected with a second material taking mechanism 404 through a fixing head by a bolt; the front top of the second electric push rod 403 is provided with a micro motor 4022; the top of the air inlet pipe 406 is provided with an air nozzle 407; the bottom of the second driving wheel 409 is provided with a third bevel gear 4010; the left bottom of the third bevel gear 4010 is meshed with a fourth bevel gear 4011; the left side of a fourth bevel gear 4011 is spliced with a third driving wheel 4012 through a rotating shaft; a third electric push rod 4013 is arranged at the left axle center of the third driving wheel 4012; a first gear 4015 is arranged on the left axle center of the fourth driving wheel 4014; a clamping piece 4016 is arranged on the left side of the first gear 4015; the front side of the top of the first gear 4015 is meshed with the second gear 4017, and the left axle center of the second gear 4017 is connected with a clamping piece 4016; the top rear side of the first gear 4015 is meshed with a third gear 4018, and the left axle center of the third gear 4018 is connected with a clamping piece 4016; the upper left part of the clamping piece 4016 is in transmission connection with a first transmission rod 4019; the left side of the first transmission rod 4019 is fixedly connected with the third material taking mechanism 4020, and the upper left side of the first transmission rod 4019 is connected with the sliding rail 4021; the bottom and the left top of the first mounting frame 401 are both connected with the operation drying mechanism 1; the left side of the linear guide rail 402 is connected with the operation drying mechanism 1; the right side of the second transmission wheel 409 is connected with a copper leaching mechanism 5; the left side of a third electric push rod 4013 is connected with the operation drying mechanism 1; the bottom end of the sliding rail 4021 is connected with the operation drying mechanism 1.

Under the linkage of the copper leaching mechanism 5, the second driving wheel 409 drives the third bevel gear 4010 to rotate, the third bevel gear 4010 is meshed with the fourth bevel gear 4011 to rotate, the fourth bevel gear 4011 rotates to drive the third driving wheel 4012 to synchronously rotate the third electric push rod 4013, the third electric push rod 4013 can be selectively stretched and retracted, then the third driving wheel 4012 drives the fourth driving wheel 4014, the fourth driving wheel 4014 drives the clamping piece 4016 to drive, the clamping piece 4016 drives the second gear 4017 and the third gear 4018 to be meshed with the first gear 4015 to drive, the first gear 4015 is fixed, the clamping piece 4016 overturns to synchronously drive the first driving rod 4019 to slide up and down in the sliding rail 4021, the third material taking mechanism 4020 is synchronously driven by the third material taking mechanism 4020 to take the motor shell 3 driven by the operation drying mechanism 1, namely when the third electric push rod 4013 is meshed with the operation drying mechanism 1, the first transmission mechanism 106 of the operation drying mechanism 1 operates, when the third material taking mechanism 4020 clamps the motor housing 3, the third electric push rod 4013 is not engaged, so that the first conveying mechanism 106 of the operation drying mechanism 1 stops operating, the first transmission rod 4019 drives the motor housing 3 clamped by the third material taking mechanism 4020 to slide upwards, the second electric push rod 403 is matched to stretch and contract to enable the second material taking mechanism 404 and the motor housing 3 to be sleeved and clamped with the motor housing 3, the clamped third material taking mechanism 4020 is released, the second electric push rod 403 contracts, the micro motor 4022 is matched to drive the second material taking mechanism 404 and the motor housing 3 to simultaneously turn over, the turning is inclined, the second material taking mechanism slides on the linear guide rail 402 to slide to keep a horizontal orientation with the air inlet pipe 406 and the air jet head 407, then air is introduced through the air inlet pipe 406 to enable the air jet head 407 to spray air to dry and blow dust inside the motor housing 3, and the dust can be adsorbed by the second transmission wheel 409 which drives the fan blade 408, collect the header tank 102 of operation stoving mechanism 1 through dust cage 405 in, after blowing dirt well, micro motor 4022 cooperation drives second feeding agencies 404 and motor housing 3 upset simultaneously, make motor housing 3 opening towards the upper left side, cooperate two sets of electric putter 1014 afterwards, press from both sides frame 1015 and first feeding agencies 1016 and get, a set of clamp that leans on the right side is first got, linkage operation stoving mechanism 1 operation has been realized, simultaneously with soaking copper mechanism 5 linkage, carry out inside dust cleaning and upset cooperation transfer to motor housing 3 simultaneously and soak copper.

The copper leaching mechanism 5 comprises a mounting seat 501, a fourth electric push rod 502, a fifth electric push rod 503, a liquid outlet head 504, a hand wheel 505, a second motor 506, a fifth driving wheel 507, a fixing frame 508, a sixth driving wheel 509, a shaft lever 5010, a base 5011, a seventh driving wheel 5012, a bevel gear disc 5013, a wide-face driving wheel disc 5014, a fourth gear 5015 and a placing seat 5016; the left top end of the mounting seat 501 is welded with the fourth electric push rod 502; a hand wheel 505 is arranged above the middle of the front end of the mounting seat 501; a second motor 506 is arranged at the lower left of the mounting seat 501; a fifth electric push rod 503 is arranged on the left side of the bottom end of the fourth electric push rod 502; the bottom of the fifth electric push rod 503 is provided with a liquid outlet head 504; a fifth driving wheel 507 is arranged at the top of the second motor 506; the upper part of the outer surface of the second motor 506 is connected with a fixed frame 508 through a bolt; the left side of the fifth driving wheel 507 is in transmission connection with a sixth driving wheel 509; the top of the sixth transmission wheel 509 is provided with a shaft lever 5010; a base 5011 is arranged at the middle lower part of the shaft lever 5010; a seventh transmission wheel 5012 is arranged in the middle of the shaft lever 5010; a bevel gear disc 5013 is arranged above the shaft lever 5010; the top of the shaft lever 5010 is provided with a wide-face transmission wheel disc 5014; the upper left side of the bevel gear disc 5013 is meshed with a fourth gear 5015, and the upper side of the fourth gear 5015 is connected with a wide-face transmission wheel disc 5014; a placing seat 5016 is arranged on the left side of the top of the wide-face transmission wheel disc 5014, and the placing seat 5016 is connected with a fourth gear 5015; the bottom end of the mounting seat 501 is connected with the drying mechanism 1; the top of the fixed frame 508 is connected with the operation drying mechanism 1; the bottom end of the base 5011 is connected with the operation drying mechanism 1.

The second motor 506 is fixed on the operation drying mechanism 1 by matching a fixed frame 508 in advance, then the height of the mounting seat 501 is adjusted by a hand wheel 505, then the second motor 506 drives a fifth driving wheel 507, the fifth driving wheel 507 rotates a shaft 5010, the shaft 5010 drives a seventh driving wheel 5012 to drive a left group to synchronously dip copper, simultaneously the shaft 5010 drives a bevel gear disc 5013 to engage with a fourth gear 5015, the fourth gear 5015 synchronously drives a wide driving wheel disc 5014 to rotate, the wide driving wheel disc 5014 rotates to drive a placing seat 5016 to rotate, when the placing seat 5016 rotates to the right side, the opening of the placing seat 5016 faces to the upper left, just matching two groups of first electric push rods 1014, a clamping frame 1015 and a first material taking mechanism 1016 move to corresponding side positions, namely, the clamping frame 1015 and the first material taking mechanism 1016 are driven by the first electric push rods 1014 in a telescopic manner, a motor shell 3 on the first material taking mechanism 1016 is sleeved on the placing seat 5016, the first electric push rod 1014 stretches and drives the clamping frame 1015 and the first material taking mechanism 1016 to loosen and contract, then the fourth electric push rod 502 drives the fifth electric push rod 503 to cooperate with the liquid outlet head 504 to slowly discharge the copper liquid above the inner wall of the motor shell 3, the motor shell 3 and the placing seat 5016 rotate slowly, the opening side faces to the center side of the wide-face transmission wheel disc 5014 when rotating, namely the fourth electric push rod 502 cooperates with the telescopic fifth electric push rod 503 and the liquid outlet head 504 to ensure that the liquid outlet head 504 is always aligned with the opening inner wall of the motor shell 3, then in slow rotation, the copper liquid on the inner wall of the motor shell 3 continuously slides downwards and simultaneously cooperates with the motor shell 3 to turn over, the liquid outlet head 504 can keep the position still, after the copper liquid is discharged from the fixed position, the copper liquid on the inner wall of the motor shell 3 is firstly uniformly contacted with the inner wall and then discharged, after the copper is soaked, the rotation is stopped, so that the motor shell 3 is reset to the initial position, then the fourth electric push rod 502, the fifth electric push rod 503 and the liquid outlet head 504 contract, and then the first electric push rod 1014 stretches and retracts to drive the clamping frame 1015 and the first material taking mechanism 1016 to clamp the motor housing 3 for transferring and matching to dry, and the inner wall of the motor housing 3 can be immersed by two groups of synchronous immersion liquids, and the operation of the feeding cleaning mechanism 4 and the operation drying mechanism 1 is linked.

The third material taking mechanism 4020 comprises an annular sleeve frame 402001, an air bag 402002 and an air inlet head 402003; an air bag 402002 is arranged at the inner ring of the annular sleeve frame 402001; the middle of the top end of the annular sleeve frame 402001 is provided with an air inlet 402003; the right side of the annular sleeve frame 402001 is connected to a first transfer lever 4019.

Be connected air inlet 402003 and external trachea during the use, when annular cover frame 402001 drove gasbag 402002 and motor housing 3 cup jointed, external trachea admits air and aerifys gasbag 402002 through air inlet 402003, makes gasbag 402002 carry out the fixed clamp to motor housing 3 and presss from both sides tightly, has realized no wearing and tearing formula centre gripping motor housing 3, and the centre gripping is nimble, getting of cooperation motor housing 3 that can be fine is put, can not hinder getting when motor housing 3 inclines and put.

The first electric push rod 1014, the clamping frame 1015 and the first material taking mechanism 1016 are respectively provided with two, and each first electric push rod 1014, the clamping frame 1015 and the first material taking mechanism 1016 are combined into two groups, and are respectively arranged at the top in the operating platform 101 in a right-downward inclined manner, so that the motor housing 3 can be taken and placed by matching with the copper dipping mechanism 5.

Wherein, intake pipe 406 and jet-propelled head 407 all are the installation of declining to the right when installing in first installing frame 401 to first installing frame 401 top middle part is provided with a rectangle opening, can cooperate clearance motor housing 3 to carry out inside dust cleaning, and the first electric putter 1014 of slope cooperation simultaneously presss from both sides frame 1015 and the material of getting of first feeding agencies 1016.

The mounting seat 501, the fourth electric push rod 502, the fifth electric push rod 503, the liquid outlet head 504, the hand wheel 505, the sixth transmission wheel 509, the shaft lever 5010, the base 5011, the seventh transmission wheel 5012, the bevel gear disc 5013, the wide-face transmission wheel disc 5014, the fourth gear 5015 and the placing seat 5016 are respectively provided with two groups, the two groups are combined with each other, the seventh transmission wheel 5012 and the wide-face transmission wheel disc 5014 between the two groups are connected with each other, meanwhile, the sixth transmission wheel 509 in one group on the left side is connected with the feeding cleaning mechanism 4, the two groups of rotary copper-leaching motor shells 3 can be simultaneously realized, and the feeding cleaning mechanism 4 is linked to operate.

The placing seat 5016 is obliquely arranged on the outer ring of the top end of the wide-face transmission wheel disc 5014 and can be conveniently matched with the motor shell 3 to take and place.

Wherein, the left middle part of the drying cabin 108 is provided with a cabin door which is convenient for taking out the motor shell 3 after copper leaching.

The above description is provided only to illustrate the technical concept of the present invention, and those skilled in the art will appreciate that various changes and modifications can be made without changing the essential features of the present invention. Accordingly, the exemplary embodiments of the present invention are provided for illustrative purposes only, and are not intended to limit the technical concept of the present invention. The scope of the technical idea of the present disclosure is not limited thereto. Therefore, it should be understood that the above-described exemplary embodiments are illustrative in all respects, not restrictive of the disclosure. The scope of the present disclosure should be construed based on the claims, and all technical ideas within the equivalent scope thereof should be construed to fall within the scope of the present disclosure.

Claims

1. A mute motor copper leaching device comprises a control screen (2) and a motor shell (3), and is characterized by further comprising a running drying mechanism (1), a feeding cleaning mechanism (4) and a copper leaching mechanism (5); a control screen (2) is arranged in the middle of the left side of the operation drying mechanism (1); a motor shell (3) is arranged on the left side in the operation drying mechanism (1); a feeding cleaning mechanism (4) is arranged in the middle of the operation drying mechanism (1); a copper leaching mechanism (5) is arranged on the right side in the operation drying mechanism (1), and the left side of the bottom of the copper leaching mechanism (5) is connected with a feeding cleaning mechanism (4);

the operation drying mechanism (1) comprises an operation table (101), a water collecting tank (102), a first driving wheel (103), a first bevel gear (104), a second bevel gear (105), a first conveying mechanism (106), a first limit baffle (107), a drying cabin (108), an inclined baffle (109), a drying lamp (1010), a second limit baffle (1011), a second conveying mechanism (1012), a first motor (1013), a first electric push rod (1014), a clamping frame (1015) and a first material taking mechanism (1016); a water collecting tank (102) is arranged on the left side of the bottom of the operating platform (101); a first driving wheel (103) is arranged on the left side of the bottom end of the operating platform (101); a first conveying mechanism (106) is arranged in the left middle part in the operating platform (101); a first limit baffle (107) is arranged in the middle of the left inside the operating platform (101), and the first limit baffle (107) is positioned in front of the first conveying mechanism (106); a drying cabin (108) is arranged at the upper left part in the operating platform (101); the middle upper part in the operating platform (101) is in sliding connection with a first electric push rod (1014) through a linear guide rail; the front end axis of the first driving wheel (103) is rotationally connected with the first bevel gear (104); the front right side of the first bevel gear (104) is meshed with the second bevel gear (105); an inclined baffle plate (109) is arranged at the middle right side in the drying cabin (108); a drying lamp (1010) is arranged in the middle of the drying cabin (108); a second limit baffle (1011) is arranged at the middle lower part of the inner front part of the drying cabin (108); a second conveying mechanism (1012) is arranged at the bottom in the drying cabin (108); a first motor (1013) is arranged on the front left side of the second transmission mechanism (1012); the bottom of the first electric push rod (1014) is provided with a clamping frame (1015); a first material taking mechanism (1016) is arranged at the bottom in the clamping frame (1015); the middle part in the operating platform (101) is connected with the feeding cleaning mechanism (4); the right side in the operating platform (101) is connected with a copper leaching mechanism (5); the right side of the second bevel gear (105) is connected with the feeding cleaning mechanism (4); the top of the first conveying mechanism (106) is connected with the motor shell (3); the lower left of the drying cabin (108) is connected with the control screen (2); the right middle part of the drying cabin (108) is connected with the feeding cleaning mechanism (4);

the feeding cleaning mechanism (4) comprises a first mounting frame (401), a linear guide rail (402), a second electric push rod (403), a second material taking mechanism (404), a dust hood (405), an air inlet pipe (406), a jet head (407), fan blades (408), a second driving wheel (409), a third bevel gear (4010), a fourth bevel gear (4011), a third driving wheel (4012), a third electric push rod (4013), a fourth driving wheel (4014), a first gear (4015), a clamping piece (4016), a second gear (4017), a third gear (4018), a first driving rod (4019), a third material taking mechanism (4020), a slide rail (4021) and a micro motor (4022); a linear guide rail (402) is arranged on the middle rear side of the top end of the first mounting frame (401); a dust collection cover (405) is arranged at the right bottom in the first mounting frame (401); an air inlet pipe (406) is arranged above the right middle part in the first mounting frame (401); the right middle part in the first mounting frame (401) is rotatably connected with the fan blade (408) through a rotating shaft; the right side of the bottom of the first mounting frame (401) is rotationally connected with a second transmission wheel (409) through a rotating shaft; the middle bottom part in the first mounting frame (401) is rotationally connected with a fourth driving wheel (4014); a sliding rail (4021) is arranged in the middle of the left side of the first mounting frame (401); a second electric push rod (403) is arranged on the front left side of the linear guide rail (402); the bottom of the second electric push rod (403) is connected with a second material taking mechanism (404) through a fixing head by a bolt; the front top of the second electric push rod (403) is provided with a micro motor (4022); the top of the air inlet pipe (406) is provided with an air nozzle (407); a third bevel gear (4010) is arranged at the bottom of the second transmission wheel (409); the left bottom of the third bevel gear (4010) is meshed with the fourth bevel gear (4011); the left side of a fourth bevel gear (4011) is spliced with a third driving wheel (4012) through a rotating shaft; a third electric push rod (4013) is arranged at the left axle center of the third driving wheel (4012); a first gear (4015) is arranged on the left axle center of the fourth transmission wheel (4014); a clamping piece (4016) is arranged on the left side of the first gear (4015); the front side of the top of the first gear (4015) is meshed with the second gear (4017), and the left axle center of the second gear (4017) is connected with the clamping piece (4016); the rear side of the top of the first gear (4015) is meshed with a third gear (4018), and the left axial center of the third gear (4018) is connected with a clamping piece (4016); the upper left part of the clamping piece (4016) is in transmission connection with a first transmission rod (4019); the left side of the first transmission rod (4019) is fixedly connected with the third material taking mechanism (4020), and the upper left side of the first transmission rod (4019) is connected with the sliding rail (4021); the bottom and the left top of the first mounting frame (401) are connected with the operation drying mechanism (1); the left side of the linear guide rail (402) is connected with the operation drying mechanism (1); the right side of the second transmission wheel (409) is connected with a copper leaching mechanism (5); the left side of a third electric push rod (4013) is connected with the operation drying mechanism (1); the bottom end of the sliding rail (4021) is connected with the operation drying mechanism (1);

the copper leaching mechanism (5) comprises a mounting base (501), a fourth electric push rod (502), a fifth electric push rod (503), a liquid outlet head (504), a hand wheel (505), a second motor (506), a fifth driving wheel (507), a fixing frame (508), a sixth driving wheel (509), a shaft lever (5010), a base (5011), a seventh driving wheel (5012), a bevel gear disc (5013), a wide-face transmission wheel disc (5014), a fourth gear (5015) and a placing base (5016); the left top end of the mounting seat (501) is welded with a fourth electric push rod (502); a hand wheel (505) is arranged above the middle of the front end of the mounting seat (501); a second motor (506) is arranged on the lower left of the mounting seat (501); a fifth electric push rod (503) is arranged on the left side of the bottom end of the fourth electric push rod (502); a liquid outlet head (504) is arranged at the bottom of the fifth electric push rod (503); a fifth driving wheel (507) is arranged at the top of the second motor (506); the upper part of the outer surface of the second motor (506) is connected with a fixed frame (508) through a bolt; the left side of the fifth driving wheel (507) is in transmission connection with a sixth driving wheel (509); the top of the sixth transmission wheel (509) is provided with a shaft lever (5010); a base (5011) is arranged at the middle lower part of the shaft lever (5010); a seventh transmission wheel (5012) is arranged in the middle of the shaft lever (5010); a bevel gear disc (5013) is arranged above the middle of the shaft lever (5010); the top of the shaft lever (5010) is provided with a wide-face transmission wheel disc (5014); the upper left side of the bevel gear disc (5013) is meshed with a fourth gear (5015), and the upper side of the fourth gear (5015) is connected with a wide-face transmission wheel disc (5014); a placing seat (5016) is arranged on the left side of the top of the wide-face transmission wheel disc (5014), and the placing seat (5016) is connected with a fourth gear (5015); the bottom end of the mounting seat (501) is connected with the operation drying mechanism (1); the top of the fixed frame (508) is connected with the operation drying mechanism (1); the bottom end of the base (5011) is connected with the running drying mechanism (1);

the third material taking mechanism (4020) comprises an annular sleeve frame (402001), an air bag (402002) and an air inlet head (402003); an air bag (402002) is arranged in the inner ring of the annular sleeve frame (402001); the middle part of the top end of the annular sleeve frame (402001) is provided with an air inlet head (402003); the right side of the annular sleeve frame (402001) is connected with a first transmission rod (4019).

2. The silent electric motor copper leaching device according to claim 1, wherein two first electric push rods (1014), two clamping frames (1015) and two first material taking mechanisms (1016) are arranged, and each first electric push rod (1014), two clamping frames (1015) and two first material taking mechanisms (1016) are combined, and are arranged on the top of the operating platform (101) in a manner of inclining towards the lower right.

3. The copper leaching device for the mute motor as claimed in claim 2, wherein the air inlet pipe (406) and the air nozzle (407) are both obliquely installed right and down when being installed on the first installation frame (401), and a rectangular opening is arranged in the middle of the top of the first installation frame (401).

4. The copper leaching device for the silent motor according to claim 3, wherein the mounting base (501), the fourth electric push rod (502), the fifth electric push rod (503), the liquid outlet head (504), the hand wheel (505), the sixth transmission wheel (509), the shaft lever (5010), the base (5011), the seventh transmission wheel (5012), the bevel gear disc (5013), the wide transmission wheel disc (5014), the fourth gear (5015) and the placing base (5016) are provided in two groups, the seven transmission wheels (5012) and the wide transmission wheel disc (5014) are connected with each other, and the sixth transmission wheel (509) in the left group is connected with the feeding cleaning mechanism (4).

5. The copper leaching device for the mute motor as claimed in claim 4, wherein the placing seat (5016) is obliquely arranged on the outer ring of the top end of the wide-face transmission wheel disc (5014).

6. The copper leaching device for the mute motor as claimed in claim 5, wherein a cabin door is arranged at the left middle part of the drying cabin (108).