CN106229526B - A kind of button cell cleaning detection sabot all-in-one machine - Google Patents
A kind of button cell cleaning detection sabot all-in-one machine Download PDFInfo
- Publication number
- CN106229526B CN106229526B CN201610700731.6A CN201610700731A CN106229526B CN 106229526 B CN106229526 B CN 106229526B CN 201610700731 A CN201610700731 A CN 201610700731A CN 106229526 B CN106229526 B CN 106229526B
- Authority
- CN
- China
- Prior art keywords
- button cell
- plate
- belt line
- mounting plate
- line apparatus
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M6/00—Primary cells; Manufacture thereof
- H01M6/005—Devices for making primary cells
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M10/00—Secondary cells; Manufacture thereof
- H01M10/04—Construction or manufacture in general
- H01M10/0436—Small-sized flat cells or batteries for portable equipment
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
Landscapes
- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Electrochemistry (AREA)
- General Chemical & Material Sciences (AREA)
- Cleaning In General (AREA)
Abstract
Disclosed herein a kind of button cells to clean detection sabot all-in-one machine, it includes the cleaning device cleaned for button type battery, button cell for sending cleaning device sends the spiral lever material feeder of a feeding belt line apparatus to, button cell for sending feeding belt line apparatus is arranged in the screw rod discharge device on a tread belt line apparatus, the test device being located on tread belt line apparatus, transplanting machine hand for being sorted to the button cell after test device test, for accepting the transplanting belt line apparatus of the defective products, for accepting the outfeed belt line apparatus of the non-defective unit, for receiving the first automatic loading and unloading device of the button cell that outfeed belt line apparatus described in simultaneously sabot is sent, for providing empty Revolving disc to first automatic loading and unloading device Second automatic loading and unloading device, so that the present invention can be automatically performed button cell pan feeding, cleaning, drying, full inspection survey, sorting sabot.
Description
Technical field
The present invention relates to a kind of button cell production device more particularly to a kind of button cell cleaning detection sabot one
Machine.
Background technique
More and more extensive with button cell application range, demand is increasing, and the production cost of button cell is wanted
Ask lower and lower, quality requirements are higher and higher.But will appear button cell surface in process of production has greasy dirt, granulated slag etc. miscellaneous
Matter, button cell consistency of performance difference etc. are many bad (bad button cell is very likely to cause security risk), this is just needed
Button cell is cleaned up, and checks the performance of button cell, reject defective products and carries out the sabot rewinding of finished product.It is original
Production method is mostly complete artificial or semi-artificial semi-mechanization operation, and manually clean, test, sabot, the efficiency of carrying it is all very low,
To which production capacity is low, and manual operation is also easy to make a fault, it cannot be guaranteed that product quality and performance, in addition, high labor cost,
So that entire high production cost.
Summary of the invention
It is an object of the invention to overcome disadvantages mentioned above, a kind of button cell cleaning detection sabot all-in-one machine is provided.
To achieve the above object, the technical scheme adopted by the invention is that:
A kind of button cell cleaning detection sabot all-in-one machine, including cleaned for button type battery cleaning device,
Button cell for sending the cleaning device sends the spiral lever material feeder of a feeding belt line apparatus to, uses
The screw rod discharge on a tread belt line apparatus is arranged in the button cell for sending the feeding belt line apparatus
Device, the test device being located on the tread belt line apparatus, for through the test device test after button electricity
Pond carries out the first transplanting machine hand of defective products and non-defective unit sorting, the transplanting belt line apparatus for accepting the defective products, uses
In the non-defective unit accepting the outfeed belt line apparatus of the non-defective unit, being sent for receiving outfeed belt line apparatus described in simultaneously sabot
First automatic loading and unloading device of button cell, for first automatic loading and unloading device provide the second of empty Revolving disc from
Dynamic handling equipment.
The cleaning device include a bearing plate, be from left to right fixedly connected sequentially in the bearing plate feeding device,
The high-pressure flushing device of high pressure washing is carried out, to the button by high pressure washing to the button cell that the feeding device is brought
Battery carries out the cleaning solution that second is cleaned and brush cleaning device, carries out clear water punching to the button cell by second of cleaning
The clear water flusher washed, the high pressure blow-dry device that drying movement is carried out to the button cell rinsed by clear water, by drying
Discharging device derived from button cell, the cleaning device further include the button electricity sent for receiving the feeding device
Button cell is simultaneously transmitted to always the spiral conveying line of discharging device from high-pressure flushing device from left to right, is set to high pressure by pond
The first water tank below flusher, the second water tank being set to below cleaning solution and brush cleaning device are set to clear water punching
Third water tank below cleaning device;The high-pressure flushing device, cleaning solution and brush cleaning device, clear water flusher, high pressure
Blow-dry device is successively from low toward high angularly disposed.
The feeding device, discharging device respectively include the first feed belt and the second feed belt, the high pressure washing
Device, cleaning solution and brush cleaning device, clear water flusher, high pressure blow-dry device include the upper guide plate that links together with
Bottom guide, the upper guide plate and bottom guide are opposite to be fixedly connected on bearing plate, and is provided between the upper and lower guide plate for buckleing
The first sliding groove that formula battery passes through, first feed belt, first sliding groove, the second feed belt are from left to right interconnected,
The spiral conveying line includes two first screw rods, which passes through the upper and lower guide plate and be located at first
The front and rear sides of sliding slot are provided with perforative through-hole up and down on the bottom guide.
The high-pressure flushing device further includes being connected to the upper guide plate and the first coupler on bottom guide, and described first
Coupler both ends are respectively communicated with second water tank and first sliding groove;The cleaning solution and brush cleaning device further include being connected to
The remover liquid nozzle and the second coupler of upper and lower guide plate further include a brush cleaning device, second coupler both ends difference
It is connected to first sliding groove and third water tank, the brush cleaning device is set on the right side of remover liquid nozzle;The clear water flusher
It further include clear water coupler that is being connect with the upper and lower guide plate and being communicated with first sliding groove;The high pressure blow-dry device also wraps
Include pressure-air coupler that is being connected to upper and lower guide plate and communicating with first sliding groove.
The brush cleaning device include be set to above the upper guide plate and fixed connection opposite with bearing plate it is upper solid
Fixed board, is connected to upper mounted plate at the bottom plate for being set to the bottom guide lower section and fixed connection opposite with the bearing plate
The driving motor of top, multiple upper hairbrush, multiple lower hairbrush, a drive rod, the multiple upper hairbrush upper end by bearing with it is upper
Fixed plate connection, multiple lower hairbrush lower ends are connect by bearing with bottom plate, and the upper and lower side of the drive rod also passes through respectively
Bearing is connect with upper and lower fixing plate, and the motor axis connection of the upper end of drive rod and driving motor, the drive rod upper end and more
A upper hairbrush is provided with intermeshing transmission gear, and drive rod lower end and multiple lower hairbrush are also equipped with intermeshing transmission
Gear.
The feeding belt line apparatus includes a third feed belt from right transmission of turning left, the spiral lever material feeder
The second screw rod of the fixing seat is connected to by bearing including a fixing seat, one end, one end is fixedly connected on the fixation
The the first guidance frid passed through for button cell of seat, driving second screw rod rotation the second driving device, described the
Two screw rods and the first guidance frid are arranged in parallel, and the first guidance frid is located at below the second screw rod, described
The rear end of first guidance frid and the third belt line of the feeding belt line apparatus are connected, and the of front end and the discharging device
It is connected on the right side of two feed belts.
The tread belt line apparatus is set to rear on the left of the feeding belt line apparatus comprising front and back two is mutual
Every the first mounting plate, be set between two first mounting plate the porous feed belt transmitted from left to right, be set to
On first mounting plate it is used to that the driving device of the porous feed belt, two to be driven to be set to the porous feed belt
Guide rod above left side, left and right is arranged at intervals with multiple rows of accommodating hole for button cell accommodating on the porous feed belt,
The rear and front end of two guide rod is connected on first mounting plate of front and back, and two guide rod is parallel to each other and phase
Mutually interval, to be formed with a gap arranged for button cell between two guide rods.
The screw rod discharge device includes that a mounting base, one end are connected to the third spiral of the mounting base by bearing
Rearwardly extending second guidance frid, the third driving device for driving the third screw rod rotation before bar, one, described the
It is connected on the left of the third belt line of two guiding groove front edge of board and the feeding belt line apparatus, rear end and the tread belt are traditional thread binding
The gap between two guide rods set communicates, to being extended and be located at the second guidance frid before and after the third screw rod
Above gap between two guide rod;The screw rod discharge device further includes a mounting plate, the third screw rod
The other end mounting plate is connected to by bearing, the mounting base is set on rear side of the tread belt line apparatus, described
Mounting plate is set on front side of the feeding belt line.
The test device include two be fixedly installed on tread belt line apparatus front and rear sides respectively side plate, from upper
Upper support plate, upside proae mounting plate, downside proae mounting plate, the lower side support plate set gradually under and, it is described collateral
The rear and front end of fagging and lower side support plate is fixedly connected on the front and rear sides plate respectively, the upside proae mounting plate,
The rear and front end of downside proae mounting plate can slide up and down to respectively is connected to front and back side plate, the connection of upside proae mounting plate lower end
There is upside probe, the upper end of the downside proae mounting plate is connected with downside probe, and the upside probe, downside probe are distinguished
The two sides up and down of the tread belt line apparatus are set to, the test device further includes being fixedly connected on the upper support plate
The first cylinder, be fixedly connected on the second cylinder of the lower side support plate, the piston rod and upside probe of first cylinder
Mounting plate is fixedly connected, and the piston rod of the second cylinder is fixedly connected on downside proae mounting plate.
The outfeed belt line apparatus includes the 5th mounting plate of front and back two, be set between described two the 5th mounting plates
Five feed belts are connected on the 5th mounting plate for driving the 5th driving device, the bridging of the operating of the 5th feed belt
The non-defective unit button cell for bringing to the first transplanting machine hand in two the 5th mounting plate upper end arranges
The guiding device of guiding, front and back two are respectively and fixedly connected with the extension board for being connected to the 5th mounting plate right end of front and back two, rear and front end
It is respectively fixedly connected in two extension board of front and back and is used to block consolidating for button cell on the right side of the guiding device
Determine baffle, the bottom plate being fixedly connected between two extension board of front and back, the cylinder being fixedly connected on the bottom plate, it is described go out
Expect that belt line apparatus further includes multiple flappers, the baffle mounting plate being fixedly connected with the multiple flapper, the gear
Plate mounting plate can movably be set on the right side of the fixed baffle and be fixedly connected with the piston rod of the cylinder, described solid
Determine to be provided with multiple through-holes passed through for the back-and-forth motion of the multiple flapper on baffle;The guiding device includes before more
Gib block arranged in parallel, two gib block mounting plates of left and right, the rear and front end of the gib block mounting plate are solid respectively in rear direction
Surely it is connected to the 5th mounting plate of left and right two, and is fixedly connected on the left and right two at left and right sides of the more gib blocks and leads
To the lower end of item;Be formed as left wide right narrow tubaeform gap, and adjacent two guiding between the left end of adjacent two gib block
The opposite side of item is provided with guide groove, and the guide groove of the 5th feed belt and adjacent two gib block is formed together as a button
Formula battery passage path is formed with the accommodating gap for button cell accommodating between the right end of adjacent two gib block, in gas
Under the non-working condition of cylinder, the flapper is blocked above the accommodating gap.
The invention has the benefit that button cell cleaning sabot all-in-one machine of the present invention can be automatically performed button cell and enter
Material, cleaning, drying, full inspection is surveyed, defective products sorts, non-defective unit sabot rewinding, does not need to pass through manual operation as prior art
Each process actions, Fully-mechanized operation is so that high reliablity, cleaning efficiency are high, moreover it is possible to guarantee the consistent of button cell performance
Property, improve button cell quality, prevent security risk, reduce cost of labor, improving working efficiency and avoid manual work
Unstability;Brush cleaning device can scrub button cell very clean, avoid wasting water and cleaning solution.
Detailed description of the invention
Fig. 1 is the stereoscopic schematic diagram of all-in-one machine of the present invention;
Fig. 2 is the stereoscopic schematic diagram of another angle of all-in-one machine of the present invention;
Fig. 3 is the vertical view enlarged diagram of all-in-one machine of the present invention;
Fig. 4 is all-in-one machine cleaning device solid enlarged diagram of the present invention;
Fig. 5 is all-in-one machine cleaning device main view enlarged diagram of the present invention;
Fig. 6 is the upper and lower guide plate of all-in-one machine of the present invention and spiral bar assembly enlarged diagram;
Fig. 7 is the enlarged diagram of all-in-one machine feeding device of the present invention;
Fig. 8 is the enlarged diagram of all-in-one machine discharging device of the present invention;
Fig. 9 is all-in-one machine hairbrush of the present invention cleaning dress enlarged diagram;
Figure 10 is the enlarged diagram according to part A in Fig. 2;
Figure 11 is the enlarged diagram according to part B in 3;
Figure 12 is the enlarged diagram of the tread belt line apparatus of all-in-one machine of the present invention;
Figure 13 is the screw rod discharge device enlarged diagram of all-in-one machine of the present invention;
Figure 14 is the test device enlarged diagram of all-in-one machine of the present invention;
Figure 15 is the amplification stereoscopic schematic diagram of the outfeed belt line apparatus of all-in-one machine of the present invention;
Figure 16 is the amplification schematic top plan view of the outfeed belt line apparatus of all-in-one machine of the present invention;
Figure 17 is the enlarged diagram according to C portion in Fig. 2;
Figure 18 is the enlarged diagram according to the part D in Figure 15;
Figure 19 is the amplification stereoscopic schematic diagram of the first, second automatic loading and unloading device of all-in-one machine of the present invention;
Figure 20 is the amplification schematic top plan view of the first, second automatic loading and unloading device of all-in-one machine of the present invention.
Specific embodiment
As shown in Figure 1, 2, 3, button cell cleaning detection sabot all-in-one machine of the present invention includes carrying out for button type battery E
The cleaning device 1 of cleaning, the button cell E for sending the cleaning device 1 send a feeding belt line apparatus 2 to
Spiral lever material feeder 3, the button cell E for sending the feeding belt line apparatus 2 be arranged in a test skin
With on line apparatus 4 screw rod discharge device 5, be located on the tread belt line apparatus 4 test device 6, for warp
Button cell E after the test device 6 is tested carries out the first transplanting machine hand 7 that defective products sorts with non-defective unit, for accepting
The transplanting belt line apparatus 71 of the defective products, is used to receive simultaneously sabot the outfeed belt line apparatus 8 for accepting the non-defective unit
The first automatic loading and unloading device 9 for the non-defective unit button cell E that the outfeed belt line apparatus 8 is sent, for described the
One automatic loading and unloading device 9 provides the second automatic loading and unloading device 10 of empty Revolving disc F.
As shown in Fig. 4,5,6,7,8, the cleaning device 1 include a bearing plate 11, be from left to right fixedly connected sequentially in
The feeding device 12 of the bearing plate 11, the high pressure that high pressure washing is carried out to the button cell E that the feeding device 12 is brought
It is flusher 13, the cleaning solution that second cleaning is carried out to the button cell E by high pressure washing and brush cleaning device 14, right
Button cell E by second of cleaning carries out the clear water flusher 15 of clear water flushing, to the button electricity rinsed by clear water
Pond E carries out discharging device 17 derived from the high pressure blow-dry device 16 of drying movement, the button cell E by drying, the cleaning dress
Setting 1 further includes for receiving button cell E that the feeding device 12 is sent and by button cell E from left to right from high pressure
The first water that flusher 13 is transmitted to always the spiral conveying line 18 of discharging device 17, is set to 13 lower section of high-pressure flushing device
Case, the second water tank for being set to 14 lower section of cleaning solution and brush cleaning device, the third for being set to 15 lower section of clear water flusher
Water tank.
The high-pressure flushing device 13, cleaning solution and brush cleaning device 14, clear water flusher 15, high pressure blow-dry device
16 is successively angularly disposed from low toward height, goes in this way, can prevent the water of previous station from taking next station to.
In the present embodiment, first water tank includes the first waste water water tank for being set to 13 lower section of high-pressure flushing device
1301 and it is connected to the first circulation water tank 1302 of 1301 lower section of the first waste water water tank, second water tank includes setting
In the cleaning solution and the lower section of brush cleaning device 14 the second waste water water tank 1401 and be connected to the second waste water water tank
1401 second circulation water tank 1402, the third water tank include the third waste water water tank for being set to 15 lower section of clear water flusher
1501 and it is connected to the third cyclic water tank 1502 of the third waste water water tank 1501.In other embodiments, described each
Waste water water tank and the cyclic water tank of water tank are combined into one.
In the present embodiment, the feeding device 12, discharging device 17 are all made of belt line transmission device, respectively include
One feed belt 121 and the second feed belt 171, the high-pressure flushing device 13, cleaning solution and brush cleaning device 14, clear water
Flusher 15, high pressure blow-dry device 16 include the upper guide plate 191 and bottom guide 192 to link together, the upper guide plate 191
It is fixedly connected on bearing plate 11 relatively with bottom guide 192, and is provided between the upper and lower guide plate 191,192 for button electricity
The first sliding groove 193 that pond E passes through, first feed belt 121, first sliding groove 193, the second feed belt 171 are from left to right
It is interconnected, the spiral conveying line 18 includes two first screw rods 181, which leads above and below across described
Plate 191,192 and the front and rear sides for being located at first sliding groove 193 are provided with perforative through-hole up and down on the bottom guide 192
(not shown), so that the water on button cell E flows to following water tank.Using the transmission mode of spiral conveying line 18, so that button
Formula battery E in the process of cleaning will not card machine.
Preferably, for corresponding to other, from low toward high angularly disposed other parts, first feed belt 121 is in left height
Right low angularly disposed, the second feed belt 171 is angularly disposed in left low and right high.
The feeding device 12 further includes being buckled in the inverted U-shaped guide plate 122 on first feed belt 121, the U
Be formed as the second sliding slot (not shown) just passed through for button cell E between shape guide plate 122 and the first feed belt 121, if
Setting the inverted U-shaped guide plate 122 is advantageous in that button cell E can be enabled, which to be ordered in the second sliding slot, to be entered back into
Spiral conveying line 18.
The spiral conveying line 18 further includes two being respectively fixedly connected in the positioning plate of 11 left and right ends of bearing plate
182, one for driving the first driving device 183 of two first screw rods 181 rotation, two first screw rod 181
Left and right ends pass through bearing respectively and are connected to both ends positioning plate 182.The first driving device 183 includes being connected to right end positioning
First motor 1830, two on plate 182 is respectively fixedly connected in the intermeshing transmission of two first screw rods, 181 right end
Gear, the motor shaft of the first motor are connected with a driving wheel, wherein to be connected with one driven for one first screw rod, 181 right end
Wheel, the driving wheel connect (not shown) by a belt with driven wheel.Thus under the driving of first motor 1830, two first
Screw rod 181 rotates, and button cell E is driven to be moved to the second feed belt of discharging device 17 always from high-pressure flushing device 13
On 171.
The discharging device 17 further includes the oblique guide plate 172 for being set to the 171 right side top of the second feed belt,
Under the guidance of the oblique guide plate 172, the button cell E on second feed belt 17 is admitted to the spiral conveying line
18。
Because the feeding device 12, discharging device 17 are disposed as belt line transmission device, and belt line transmission device
Using well known technology, therefore it is not described in detail herein.
The high-pressure flushing device 13 further includes being connected to the upper guide plate 191 and the first coupler on bottom guide 192
131,131 both ends of the first coupler are respectively communicated with second water tank 140 and first sliding groove 193.
The cleaning solution and brush cleaning device 14 further include the remover liquid nozzle 141 for being connected to upper and lower guide plate 191,192
It further include a brush cleaning device 143 with the second coupler 142,142 both ends of the second coupler are respectively communicated with first sliding groove
193 are set to 141 right side of remover liquid nozzle with third water tank 150, the brush cleaning device 1.
As shown in Fig. 4,9, the brush cleaning device 143 includes being set to 191 top of upper guide plate and and bearing plate
The upper mounted plates 1430 of 11 relatively fixed connections are set to 192 lower section of bottom guide and relatively fixed with the bearing plate 11
The bottom plate 1431 of connection, the driving motor 1432 for being connected to the top of upper mounted plate 1430, multiple upper hairbrush 1433, it is multiple under
Hairbrush 1434, a drive rod 1435, the multiple upper 1433 upper end of hairbrush is connect by bearing with upper mounted plate 1430, under multiple
1434 lower end of hairbrush connect by bearing with bottom plate 1431, the upper and lower side of the drive rod 1435 also pass through respectively bearing and
Upper and lower fixing plate 1430,1431 connects, and the motor axis connection of the upper end of drive rod 1435 and driving motor 1432, the biography
1435 upper end of lever and multiple upper hairbrush 1433 are provided with intermeshing transmission gear (not shown), 1435 lower end of drive rod with
Multiple lower hairbrush 1434 are also equipped with intermeshing transmission gear.Thus under the driving of driving motor 1432, the transmission
Bar 1435 rotates, under the drive of transmission gear, the upper and lower surface of upper hairbrush 1433 and lower hairbrush 1434 rotation button type battery E
It is scrubbed.
The shape of the upper guide plate 191 and bottom guide 192 is unlimited, as long as being able to achieve its function.
Hairbrush be not easy in long-term work it is dirty, from without because hairbrush is not clean and make button cell E brush
Sordid situation, and multiple upper and lower hairbrush 1433,1434 are provided with, so that a button cell E is from left to right
Transmit process in can repeatedly be scrubbed, so that button cell E can be cleaned very clean, avoid wasting water and cleaning solution.
The clear water flusher 15 further include it is connecting with the upper and lower guide plate 191,192 and with 193 phase of first sliding groove
Logical clear water coupler 151.
The high pressure blow-dry device 16 further include be connected to upper and lower guide plate 191,192 and with 193 phase of first sliding groove
Logical pressure-air coupler 161.
As shown in Figure 1, in the present embodiment, preferably, the cleaning device 1 further includes being fixedly connected on the left and right to determine
The shutter 19 of position plate 182 and upper and lower guide plate 191,192 front ends, the shutter 19 can avoid staff and reach into clearly
It causes to accidentally injure in cleaning device 1.
As shown in Figure 1,3, the feeding belt line apparatus 2 is set to 1 rear side of cleaning device, the feeding belt line
Device 2 uses well known belt line transfer structure comprising one turns left the third feed belt 21 of transmission from the right side.
As shown in Fig. 2,3,9,10, the spiral lever material feeder 3 passes through bearing including a fixing seat 30, one end and connects
The passed through for button cell E of the fixing seat 30 is fixedly connected in the second screw rod 31 of the fixing seat 30, one end
The second driving device 33 that one guidance frid 32, driving second screw rod 31 rotate, second screw rod 31 and first
Guide frid 32 arranged in parallel, and the first guidance frid 32 is located at 31 lower section of the second screw rod, first guidance
The third feed belt 21 of the rear end of frid 32 and the feeding belt line apparatus 2 is connected, front end and the discharging device 17
It is connected on the right side of second feed belt 171.
Second driving device 33 includes a motor mounting plate 331, is fixedly connected on the motor mounting plate 331
Second motor (not shown), is fixed on second spiral at the driving wheel 332 being fixedly connected with the motor shaft of second motor
The belt 334 of the driven wheel 333 of 31 rear end of bar, the connection driving wheel 332 and driven wheel 333.
In the present embodiment, preferably, the fixing seat 30 is set to 2 rear side of feeding belt line apparatus, and it is described
Second screw rod 31 and 21 Relative vertical of third feed belt of the feeding belt line are arranged.
As shown in Fig. 1,2,3,12, after the tread belt line apparatus 4 is set to 2 left side of feeding belt line apparatus
Side comprising the first mounting plate 41 that front and back two is spaced apart from each other is set between two first mounting plate 41 from left to right
The porous feed belt 42 of transmission, the drive for being used to drive the porous feed belt 42 being set on first mounting plate 41
Dynamic device 43, two is set to the guide rod 44 of the 42 left side top of porous feed belt, a left side on the porous feed belt 42
Right septum is provided with multiple rows of accommodating hole 421 for button cell E accommodating, and the rear and front end of two guide rod 44 is connected to
On first mounting plate of front and back 41, two guide rod 44 is parallel to each other and is spaced apart from each other, thus shape between two guide rods 44
The gap 441 that Cheng Youyi is arranged for button cell E.
The structure of the driving device 43 and its well-known technique is used with the drive connection of porous feed belt 42, therefore not existed
This is described in detail.
As shown in Fig. 1,2,3,13, the screw rod discharge device 5 is connected to including a mounting base 51, one end by bearing
Rearwardly extending second guidance frid 53 before the third screw rod 52, one of the mounting base 51, for driving the third spiral
The third of the third driving device 54 that bar 52 rotates, second guidance 53 front end of frid and the feeding belt line apparatus 2 passes
It send and is connected on the left of belt 21, the gap 441 between rear end and two guide rods 44 of the tread belt line apparatus 4 communicates, described
To the gap for being extended and being located between the second guidance frid 53 and two guide rod 44 before and after third screw rod 52
440 tops;The screw rod discharge device 5 further includes a mounting plate 55, and the other end of the third screw rod 52 passes through bearing
It is connected to the mounting plate 55, the mounting base 51 is set to 4 rear side of tread belt line apparatus, and the mounting plate 55 is arranged
In 2 front side of feeding belt line apparatus.
The third driving device 54 for driving the third screw rod 52 to rotate can be any known feasible
Mechanism, therefore be not described in detail herein.
As shown in Fig. 1,2,3,14, the test device 6 is fixedly installed on the tread belt line apparatus 4 including two respectively
The side plate 61 of front and rear sides, the upper support plate 62 set gradually from top to bottom, upside proae mounting plate 63, the installation of downside probe
The rear and front end of plate 64, lower side support plate 65, the upper support plate 62 and lower side support plate 65 is fixedly connected on institute respectively
State front and rear sides plate 61, the upside proae mounting plate 63, downside proae mounting plate 64 rear and front end can slide up and down respectively
Ground is connected to front and back side and is connected to front and back side plate 61, and proae mounting plate 63 lower end in upside is connected with upside probe 66, the downside
The upper end of proae mounting plate 64 is connected with downside probe 67, and the upside probe 66, downside probe 67 be respectively arranged at it is described
The two sides up and down of tread belt line apparatus 4, the test device 6 further include be fixedly connected on the upper support plate 62 first
Cylinder 68, the second cylinder 69 for being fixedly connected on the lower side support plate 65, the piston rod of first cylinder 68 and upside are visited
Needle mounting plate 63 is fixedly connected, and the piston rod of the second cylinder 69 is fixedly connected on downside proae mounting plate 64.
In the present embodiment, preferably, the upper and lower side proae mounting plate 63,64 is disposed as Dual-layer structure, i.e.,
Upper and lower side proae mounting plate 63,64 includes relatively-stationary upper and lower two-ply, wherein a laminate is for being fixedly connected on gas
The piston rod of cylinder, in addition a laminate are used for linking probe.
First for button cell E progress defective products and non-defective unit sorting after the test device 6 test
Transplanting machine hand 7 is well-known technique, and therefore, not repeat them here.
The transplanting belt line apparatus 71 is set to the right side of the tread belt line apparatus 4 comprising one from after going to
4th feed belt 711 of transmission, in the present embodiment, the transplanting belt line apparatus 71 is using known belt line transmission knot
Structure, therefore be not described in detail herein.Preferably, the rear side of the 4th feed belt 711 is provided with NG magazine (not shown).
As shown in Fig. 1,2,3,15,16,17,18, the outfeed belt line apparatus 8 include the 5th mounting plate 81 of front and back two,
It is set to the 5th feed belt 82 between two the 5th mounting plate 81, is connected on the 5th mounting plate 81 for driving
5th driving device 83 of the 5th feed belt 82 operating, be connected across 81 upper end of described two the 5th mounting plates for described the
The non-defective unit button cell E that one transplanting machine hand 7 is brought carries out the guiding device 84 of arrangement guiding, front and back two is respectively and fixedly connected with connection
It is respectively fixedly connected in the extension board 85 of 81 right end of the 5th mounting plate of front and back two, rear and front end in two extension board of front and back
85 and the fixed baffle 86 for blocking button cell E that be located at 84 right side of the guiding device, be fixedly connected on it is described before
Bottom plate 87 between two extension boards 85, the cylinder 88 being fixedly connected on the bottom plate 87 afterwards, the outfeed belt line apparatus 8 is also
Including multiple flappers 89, the baffle mounting plate 80 being fixedly connected with the multiple flapper 89, the baffle mounting plate
80 can movably be set to 86 right side of fixed baffle and be fixedly connected with the piston rod of the cylinder 88, the fixation
Multiple through-hole (not shown) passed through for the back-and-forth motion of the multiple flapper 89 are provided on baffle 86;The guiding device
84 include gib block 841 arranged in parallel on more front-rear directions, two gib block mounting plates 842 of left and right, the gib block installation
The rear and front end of plate 842 is respectively fixedly connected in the 5th mounting plate 81 of left and right two, and the left and right of the more gib blocks 841
Two sides are fixedly connected on the lower end of two gib block 841 of left and right;Be formed as left between the left end of adjacent two gib block 841
The narrow tubaeform gap 8410 in the wide right side, and the opposite side of adjacent two gib block 841 is provided with guide groove 843, the 5th transmission
The guide groove 843 of belt 82 and adjacent two gib block 841 is formed together as a button cell E passage path, and described adjacent two
The accommodating gap 844 for button cell E accommodating is formed between the right end of gib block 841, it is described under the non-working condition of cylinder
Flapper 89 blocks above the accommodating gap 844.
The main function of the guiding device 84 is that unordered button cell E is enabled to be arranged in a row ground orderly movement.
Preferably, in order to enable moving left and right for the baffle mounting plate 80 is more smooth, the bottom plate 87 and the baffle
Also axis bearing group 801 is also set up between mounting plate 80.The linear bearing group 801 is well-known technique, therefore not herein in detail
It repeats.
As shown in Figure 19,20, first, second automatic loading and unloading device 9,10 is fixedly installed on a bottom support plate 90
On, and first, second automatic loading and unloading device 9,10 includes a feed bin 91, the second transplanting for being connected to 91 upper end of feed bin
Manipulator 92, the lifting device 93 for being connected to 91 left side of feed bin, the interior front and back side of the feed bin 91 are provided with conveyor belt
Line 94.The feed bin 91 include two be fixedly connected in the bottom support plate 90 in parallel perpendicular side plate 911, to be fixedly connected on two perpendicular
Top plate 912 on the left of 911 upper end of side plate, the conveyor belt line 94 are set to described two perpendicular 911 insides of side plate.The lifting dress
Setting 93 includes that a upper and lower ends pass through bearing respectively and are rotatably connected the screw rod 931 in the bottom support plate 90 and top plate 912, solid
Surely the motor 932 for driving the screw rod 931 to rotate, left end and the screw rod 931 being connected in the bottom support plate 90
The pallet 933 for being used to hold in the palm Revolving disc F of connection.Under the driving of motor 932, screw rod 931 rotates, and drives on the pallet 933
Lower movement.
In the present embodiment, side mounting base 901 is fixedly connected on the left of the bottom support plate 90, the motor 932 is fixed
It is connected in the side mounting base 901, and the lower end of motor 932 is fixedly connected with a driving wheel, the lower end of the screw rod 931 is solid
Surely it is connected with driven wheel, the driving wheel is connect with driven wheel by belt (not shown).In other embodiments, the electricity
Machine 932 can also be drivingly connected with screw rod 931 by mode well known to other.
Preferably, the feed bin 91 that first, second automatic loading/unloading fills 9,10 can share three blocks of perpendicular side plates 911, i.e., three
Block erects side plate 911 and defines two feed bins 91, and the left and right sides of intermediate side plate 911 is respectively provided with the conveyor belt line 94.In this way,
Material is saved, and structure is integrally more compact, reduces occupied space.
The working principle of first, second automatic loading and unloading device 9,10 are as follows: in the original state, second is automatic upper and lower
Expecting to bridge on two conveyor belt lines 94 of device 10 has a folded empty Revolving disc F, and the pallet 933 of lifting device 93 is located at two conveying skins
Between band line 94, to hold up a folded empty Revolving disc F when rising under driving of the pallet 933 in motor 932;In original shape
Under state, the pallet 933 of the lifting device 93 of first automatic loading and unloading device 9 is located at the upper end of screw rod 931;Second it is automatic on
Expect that the sky Revolving disc F of the top one of a folded empty Revolving disc F is transplanted to first automatically by the second transplanting machine hand 92 of device 12
On the pallet 933 of handling equipment 9, the first transplanting machine hand 7 of the first automatic loading and unloading device 9 grabs outfeed belt line apparatus
Button cell E in 8 right ends accommodating gap 844 is put on sky Revolving disc F, until empty Revolving disc F is filled;In motor 932
Under driving, the pallet 933 of the first automatic loading and unloading device 9 moves down the height of a Revolving disc F, and the second automatic loading and unloading device
10 933 overhead Revolving disc F of pallet is every to walk one by transplanting, and pallet 933 will rise the height of a Revolving disc F;Then
Before one sky Revolving disc F is transplanted on the first automatic loading and unloading device pallet 933 by two automatic loading and unloading devices 10 again
It has installed on the Revolving disc F of disk;First transplanting machine hand 7 of the first automatic loading and unloading device 9 is again from outfeed belt line
Crawl button cell E is put on sky Revolving disc F, and until filling, the pallet 933 of the first automatic loading and unloading device 9 moves down again
The height of one Revolving disc F.So circulation, until the pallet 933 of first automatic loading and unloading device 10 moves down into two conveyings
It is all transplanted on two conveyor belt lines 94 between belt line 94 and by the Revolving disc F for installing button cell E thereon, two conveyings
Belt line 94 sends out the Revolving disc F for installing button cell E.
It is primary crawl one when second transplanting machine hand 92 of the first automatic loading and unloading device 9 grabs button cell E sabot
Button cell E is arranged, the corresponding ranking of Revolving disc F is then placed in and sets, to improve sabot efficiency.
Button cell E cleaning detection sabot all-in-one machine of the present invention further includes a rack 100, and the bearing plate 11 is fixedly connected
In 100 front end of rack, the feeding belt line apparatus 2, spiral lever material feeder 3, tread belt line apparatus 4, screw rod
Discharge device 5, test device 6, the first transplanting machine hand 7, transplanting belt line apparatus 71, outfeed belt line apparatus 8, first are automatic
Handling equipment 9, the second automatic loading and unloading device 10 are respectively provided in the rack 100.
The working principle of the invention: button cell E to be cleaned is conveyed into spiral conveying line 18 through feeding device 12, i.e.,
It is sent between upper and lower guide plate 191,192 in first sliding groove 193, then two first screw rods 181 rotation of spiral conveying line 18
Turn, the button cell E for entering first sliding groove 193 is driven to 13 sections of high-pressure flushing device, the first coupler 131 from second is passed through
The button type battery E that draws water of water tank 140 carries out high pressure washing, and water after rinsing flows into the first water tank through the through-hole of bottom guide 192
130;Button cell E after flushed is driven by two first screw rods 181 enters cleaning solution and 14 sections of brush cleaning device, clearly
Button cell E jet cleaning liquid of the washing lotion nozzle 141 to process, driving of the upper and lower hairbrush 1433,1434 in driving motor 1432
Lower high speed rotation scrubs the upper and lower surface for the button cell E that the first screw rod 181 is brought, then passes through the second injection
Mouth 142 from third water tank 150 draw water to by hairbrush scrub button cell E be rinsed, the cleaned liquid of flushed water and
The through-hole of hairbrush flusher bottom guide 192 enters the second water tank 140;Button cell E is rotated through two first screw rods 181 to be driven
Into 15 sections of clear water flusher, it is rinsed, is rinsed by the clear water button type battery E of the access of clear water coupler 151 outside
The water crossed flows into third water tank 150 through the through-hole of 15 bottom guide 192 of clear water flusher;Button cell after clear water rinses
E drives through the rotation of the first screw rod 181 enters 16 sections of high pressure blow-dry device, introduces pressure-air through pressure-air coupler 161
Button type battery E is dried up;Button cell E after drying drives through the rotation of two first screw rods 181 enters discharging device 17
The second feed belt 171;With the transmission of the second feed belt 171 and the guiding of oblique guide plate 172, button cell E into
Enter onto spiral lever material feeder 3, specifically, button cell E enters the first guidance frid 32 of spiral lever material feeder 3
On, under the driving of the second driving device 33, the rotation of the second screw rod 31 drives button cell E from the first guidance frid 32
Front end is moved to rear end and enters on the third feed belt 21 of feeding belt line apparatus 2;Third feed belt 21 is with button
Formula battery E is from right toward moving left, and when being moved to left end, under the driving of third driving device 54, the screw rod discharge is filled
The rotation of third screw rod 52 for setting 5 drives button cell E onto the second guidance frid 53, and from the second guidance frid 53
The gap for being moved on the porous feed belt 42 of tread belt line apparatus 4, and being arranged between two guide rods 44 from front to back
In 441;When being booked a row button cell E in the gap 441 between two guide rods 44, just tread belt line apparatus 4 is more
Wherein row's accommodating hole 421 on hole feed belt 42 operates in place, thus the row button in the gap between two guide rods 44
Formula battery E, which is just corresponded, to be fallen into row's accommodating hole 421;With the transmission of porous feed belt 42, button electricity has been accommodated
Row's accommodating hole 421 of pond E is conveyed between the upside probe 66 of test device 6, downside probe 67, upside probe 66, under
Side probe 77 detects the button cell E in accommodating hole 421;After detection, defective products is sent to shifting by the first transplanting machine hand 7
On the 4th feed belt 711 for planting belt line apparatus 71, so that defective products is sent in NG magazine, non-defective unit is by the first transplanter
Tool hand 7 is sent on the 5th feed belt 82 of the outfeed belt line apparatus 8;With the transmission of the 5th feed belt 82, button
Battery E enters in 8410 gap of tubaeform gap of adjacent 841 right end of gib block, then passes through road through the button cell E
Diameter is moved to always in the accommodating gap 844 between the right end of adjacent two gib block 841, and is blocked not by the fixed baffle 86
It can move again;At this point, cylinder 88, which is turned right, pulls baffle mounting plate 90, for linkage flapper 89 toward moving right, it is movable to expose
The button cell E that baffle 89 covers;At this point, the second transplanting machine hand 92 of the first automatic loading and unloading device 9 grabs the exposing
The button cell E come carries out sabot.
In conclusion button cell E of the present invention cleaning sabot all-in-one machine can be automatically performed button cell E pan feeding, cleaning,
Drying, full inspection are surveyed, defective products sorts, non-defective unit sabot rewinding, do not need to pass through each process of manual operation as prior art
Movement, so button cell E of the present invention cleaning detection sabot all-in-one machine high reliablity, cleaning efficiency are high, moreover it is possible to guarantee button electricity
The consistency of pond E performance, improve button cell E mass, prevent security risk, reduce cost of labor, improve working efficiency and
Avoid the unstability of manual work.
In upper orientation description, using the orientation of Fig. 1 as reference, before being where cleaning device 1, where tread belt line
It is right where discharging device 17 to be left where the feeding device 12 of cleaning device 1 to be rear.
Claims (10)
1. a kind of button cell cleaning detection sabot all-in-one machine, it is characterised in that: including what is cleaned for button type battery
The screw rod that cleaning device, the button cell for sending the cleaning device send a feeding belt line apparatus to is sent
Material device, the button cell for sending the feeding belt line apparatus are arranged in the spiral shell on a tread belt line apparatus
Spinner handle discharge device, the test device being located on the tread belt line apparatus are used for after test device test
Button cell carry out defective products and non-defective unit sorting the first transplanting machine hand, the transplanting belt line for accepting the defective products
Device, the outfeed belt line apparatus for accepting the non-defective unit were transmitted for outfeed belt line apparatus described in reception and sabot
First automatic loading and unloading device of the non-defective unit button cell come is used to provide empty Revolving disc to first automatic loading and unloading device
The second automatic loading and unloading device.
2. button cell cleaning detection sabot all-in-one machine according to claim 1, it is characterised in that: the cleaning device packet
A bearing plate is included, is from left to right fixedly connected sequentially in the feeding device of the bearing plate, the feeding device is brought
Button cell carries out the high-pressure flushing device of high pressure washing, carries out the clear of second of cleaning to the button cell by high pressure washing
Washing lotion and brush cleaning device carry out the clear water flusher of clear water flushing to the button cell by second of cleaning, to warp
The button cell for crossing clear water flushing carries out the dress that discharges derived from the high pressure blow-dry device of drying movement, the button cell by drying
Set, the cleaning device further include for receive button cell that the feeding device is sent and by button cell from a left side to
The right side is transmitted to always the spiral conveying line of discharging device, the first water being set to below high-pressure flushing device from high-pressure flushing device
Case, the second water tank being set to below cleaning solution and brush cleaning device, the third water tank being set to below clear water flusher;
The high-pressure flushing device, cleaning solution and brush cleaning device, clear water flusher, high pressure blow-dry device are successively from low toward high oblique
To setting.
3. button cell cleaning detection sabot all-in-one machine according to claim 2, it is characterised in that: the feeding device,
Discharging device respectively includes the first feed belt and the second feed belt, the high-pressure flushing device, cleaning solution and hairbrush cleaning
Device, clear water flusher, high pressure blow-dry device include the upper guide plate and bottom guide to link together, and the upper guide plate is under
Guide plate is opposite to be fixedly connected on bearing plate, and is provided with the first sliding groove passed through for button cell between the upper and lower guide plate,
First feed belt, first sliding groove, the second feed belt are from left to right interconnected, and the spiral conveying line includes two the
One screw rod, two first screw rod pass through the upper and lower guide plate and are located at the front and rear sides of first sliding groove, lead under described
Perforative through-hole up and down is provided on plate.
4. button cell cleaning detection sabot all-in-one machine according to claim 3, it is characterised in that: the high pressure washing dress
Setting further includes the first coupler being connected on the upper guide plate and bottom guide, and first coupler both ends are respectively communicated with described
Second water tank and first sliding groove;The cleaning solution and brush cleaning device further include the remover liquid nozzle for being connected to upper and lower guide plate
It further include a brush cleaning device with the second coupler, second coupler both ends are respectively communicated with first sliding groove and third water
Case, the brush cleaning device are set on the right side of remover liquid nozzle;The clear water flusher further includes and the upper and lower guide plate
Clear water coupler that is connecting and being communicated with first sliding groove;The high pressure blow-dry device further includes being connected to upper and lower guide plate
And the pressure-air coupler that is communicated with first sliding groove.
5. button cell cleaning detection sabot all-in-one machine according to claim 4, it is characterised in that: the hairbrush cleaning dress
It sets including being set to above the upper guide plate and the upper mounted plate of fixed connection opposite with bearing plate, being set under the bottom guide
The bottom plate of the relatively fixed connection of bearing plate described in Fang Bingyu, driving motor, the multiple upper hairs being connected to above upper mounted plate
Brush, multiple lower hairbrush, a drive rod, the multiple upper hairbrush upper end is connect by bearing with upper mounted plate, under multiple lower hairbrush
End is connect by bearing with bottom plate, and the upper and lower side of the drive rod is also connect by bearing with upper and lower fixing plate respectively, and
The upper end of drive rod and the motor axis connection of driving motor, the drive rod upper end are provided with intermeshing with multiple upper hairbrush
Transmission gear, drive rod lower end and multiple lower hairbrush are also equipped with intermeshing transmission gear.
6. the cleaning detection sabot all-in-one machine of button cell described according to claim 1 or 2 or 3 or 4 or 5, it is characterised in that: institute
Stating feeding belt line apparatus includes a third feed belt from right transmission of turning left, and the spiral lever material feeder includes one fixed
Seat, one end by bearing are connected to the second screw rod of the fixing seat, one end be fixedly connected on the fixing seat for button
Second driving device of the first guidance frid, driving second screw rod rotation that battery passes through, second screw rod with
First guidance frid is arranged in parallel, and the first guidance frid is located at below the second screw rod, first guiding groove
The third belt line of the rear end of plate and the feeding belt line apparatus is connected, the second feed belt of front end and the discharging device
Right side is connected.
7. button cell cleaning detection sabot all-in-one machine according to claim 6, it is characterised in that: the tread belt line
Device is set to rear on the left of the feeding belt line apparatus comprising the first mounting plate that front and back two is spaced apart from each other is set to
The porous feed belt transmitted from left to right between two first mounting plate is set on first mounting plate and is used for
The driving device of the porous feed belt, two are driven to be set to the guide rod of top on the left of the porous feed belt, it is described
Left and right is arranged at intervals with multiple rows of accommodating hole for button cell accommodating, the rear and front end of two guide rod on porous feed belt
Be connected on first mounting plate of front and back, two guide rod is parallel to each other and is spaced apart from each other, thus two guide rods it
Between be formed with one for button cell arrangement gap.
8. button cell cleaning detection sabot all-in-one machine according to claim 7, it is characterised in that: the screw rod discharge
Device includes that a mounting base, one end by bearing are connected to the third screw rod of the mounting base, rearwardly extending second before one
Guidance frid, the third driving device for driving third screw rod rotation, the second guiding groove front edge of board with it is described
Connected on the left of the third belt line of feeding belt line apparatus, between rear end and two guide rods of the tread belt line apparatus between
Gap communicates, to being extended and be located between the second guidance frid and two guide rod before and after the third screw rod
Above gap;The screw rod discharge device further includes a mounting plate, and the other end of the third screw rod is connected by bearing
In the mounting plate, the mounting base is set on rear side of the tread belt line apparatus, and the mounting plate is set to the feeding
On front side of belt line.
9. button cell cleaning detection sabot all-in-one machine according to claim 8, it is characterised in that: the test device packet
It includes two and is fixedly installed on the side plate of tread belt line apparatus front and rear sides, the upside set gradually from top to bottom support respectively
Plate, upside proae mounting plate, downside proae mounting plate, lower side support plate, the front and back of the upper support plate and lower side support plate
Both ends are fixedly connected on the front and rear sides plate, the front and back two of the upside proae mounting plate, downside proae mounting plate respectively
End can slide up and down to respectively is connected to front and back side plate, and upside proae mounting plate lower end is connected with upside probe, and the downside is visited
The upper end of needle mounting plate is connected with downside probe, and the upside probe, downside probe are respectively arranged at the tread belt line
The two sides up and down of device, the test device further include the first cylinder for being fixedly connected on the upper support plate, are fixedly connected
It is fixedly connected in the piston rod of the second cylinder of the lower side support plate, first cylinder with upside proae mounting plate, second
The piston rod of cylinder is fixedly connected on downside proae mounting plate.
10. the cleaning detection sabot all-in-one machine of button cell described according to claim 1 or 2 or 3 or 5 or 7 or 8 or 9, feature
Be: the outfeed belt line apparatus includes the 5th mounting plate of front and back two, be set between two the 5th mounting plate the 5th
Feed belt is connected on the 5th mounting plate for driving the 5th driving device of the 5th feed belt operating, being connected across
It is led for carrying out arrangement to the non-defective unit button cell that the first transplanting machine hand is brought two the 5th mounting plate upper end
To guiding device, front and back two be respectively and fixedly connected with the extension board for being connected to the 5th mounting plate right end of front and back two, rear and front end point
It is not fixedly connected on the fixation two extension board of front and back and on the right side of the guiding device for being used to block button cell
Baffle, the bottom plate being fixedly connected between two extension board of front and back, the cylinder being fixedly connected on the bottom plate, the discharging
Belt line apparatus further includes multiple flappers, the baffle mounting plate being fixedly connected with the multiple flapper, the baffle
Mounting plate can movably be set on the right side of the fixed baffle and be fixedly connected with the piston rod of the cylinder, the fixation
Multiple through-holes passed through for the back-and-forth motion of the multiple flapper are provided on baffle;The guiding device includes more front and backs
Gib block arranged in parallel, two gib block mounting plates of left and right on direction, the rear and front end of the gib block mounting plate is fixed respectively
It is connected to the 5th mounting plate of left and right two, and is fixedly connected on the left and right two at left and right sides of the more gib blocks and is oriented to
The lower end of item;Be formed as left wide right narrow tubaeform gap, and adjacent two gib block between the left end of adjacent two gib block
Opposite side be provided with guide groove, the guide groove of the 5th feed belt and adjacent two gib block is formed together as a button
Battery passage path is formed with the accommodating gap for button cell accommodating between the right end of adjacent two gib block, in cylinder
Under non-working condition, the flapper is blocked above the accommodating gap.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610700731.6A CN106229526B (en) | 2016-08-22 | 2016-08-22 | A kind of button cell cleaning detection sabot all-in-one machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610700731.6A CN106229526B (en) | 2016-08-22 | 2016-08-22 | A kind of button cell cleaning detection sabot all-in-one machine |
Publications (2)
Publication Number | Publication Date |
---|---|
CN106229526A CN106229526A (en) | 2016-12-14 |
CN106229526B true CN106229526B (en) | 2018-12-18 |
Family
ID=57552875
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610700731.6A Active CN106229526B (en) | 2016-08-22 | 2016-08-22 | A kind of button cell cleaning detection sabot all-in-one machine |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106229526B (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106623195B (en) * | 2016-12-28 | 2019-02-22 | 中国人民解放军海军工程大学 | A kind of novel zinc-silver oxide cell automatic cleaning equipment |
CN107248498A (en) * | 2017-05-19 | 2017-10-13 | 杭州开浦科技有限公司 | Solar silicon wafers cleaning sorting line manipulator |
CN109455345A (en) * | 2018-10-30 | 2019-03-12 | 卓越(苏州)自动化设备有限公司 | Button cell feeding device |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2418966Y (en) * | 2000-03-31 | 2001-02-14 | 武汉力兴电源股份有限公司 | Automatic cleaner for button batteries |
CN201667361U (en) * | 2010-03-05 | 2010-12-08 | 力佳电源科技(深圳)有限公司 | Automatic battery cleaning equipment |
CN202845383U (en) * | 2012-10-24 | 2013-04-03 | 常州市科翡焊接成套设备制造有限公司 | Button cell cleaning machine |
CN206040822U (en) * | 2016-08-22 | 2017-03-22 | 深圳市精实机电科技有限公司 | Button cell washs and detects sabot all -in -one |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2015103417A (en) * | 2013-11-26 | 2015-06-04 | 株式会社ノーリツ | Fuel cell power generation device |
-
2016
- 2016-08-22 CN CN201610700731.6A patent/CN106229526B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2418966Y (en) * | 2000-03-31 | 2001-02-14 | 武汉力兴电源股份有限公司 | Automatic cleaner for button batteries |
CN201667361U (en) * | 2010-03-05 | 2010-12-08 | 力佳电源科技(深圳)有限公司 | Automatic battery cleaning equipment |
CN202845383U (en) * | 2012-10-24 | 2013-04-03 | 常州市科翡焊接成套设备制造有限公司 | Button cell cleaning machine |
CN206040822U (en) * | 2016-08-22 | 2017-03-22 | 深圳市精实机电科技有限公司 | Button cell washs and detects sabot all -in -one |
Also Published As
Publication number | Publication date |
---|---|
CN106229526A (en) | 2016-12-14 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106229526B (en) | A kind of button cell cleaning detection sabot all-in-one machine | |
CN203252618U (en) | Washing machine for industrial tableware | |
CN106611860A (en) | Battery cleaning, gumming and testing packaging equipment | |
CN104438233B (en) | Battery cleaning machine | |
CN206040822U (en) | Button cell washs and detects sabot all -in -one | |
CN106129775B (en) | A kind of multifrnction connector assembly platform | |
CN105564974B (en) | A kind of feed mechanism based on vertical back-panel formula separator | |
CN209376031U (en) | A kind of pcb board cleaning equipment | |
JP2009185307A (en) | Surface treatment apparatus | |
CN209209828U (en) | A kind of temporary objective table of automatic sensing step-by-step movement | |
CN206225390U (en) | Silicon chip sorts loading and unloading robot system | |
CN109007906B (en) | Fruit cleaning equipment capable of continuously working | |
KR20080074569A (en) | A system for manufacturing semiconductor package and a method for manufacturing semiconductor package | |
CN114178234B (en) | Silica gel cleaning device | |
US3447176A (en) | Automatic machine for candling,cleaning,sanitizing,and grading of eggs | |
CN210907009U (en) | Transplanting test machine | |
CN113477562A (en) | Coin cleaning machine and implementation method thereof | |
CN108784592A (en) | Collection tableware residue removal, classification, combines and is packaged in integrated device at cleaning | |
CN108771519A (en) | Collection tableware residue removal, classification, combines and is packaged in integrated device at cleaning | |
CN209406914U (en) | A kind of robot device and inductance cleaning equipment | |
CN214603704U (en) | Automatic change glass alkaline liquid and throw processing line | |
CN108784591A (en) | Integrated integrated device is dried, classifies, combines and be packaged in collection | |
CN104677622B (en) | Trigger detection machine | |
CN109509823A (en) | LED intelligent plant | |
CN112754385A (en) | Robot intelligent dish washer |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |