CN210156485U - Battery automatic test coating production line - Google Patents

Abstract

The utility model provides a battery automatic test diolame production line, including the frame, be provided with in the frame: the feeding device is used for conveying the batteries into a material; the voltage measuring device is used for measuring the voltage of the battery; a weighing device for weighing the battery; the coating device is used for coating the battery; the discharging device is used for conveying the coated batteries out; the feeding device, the voltage measuring device, the weighing device, the film coating device and the discharging device are sequentially connected. The utility model discloses the main technical problem who solves is that the battery is carrying out automated inspection and the heavy needs of diolame process and is operating with the help of the manpower repeatedly, has reduced the problem of production efficiency and product yield.

Description

Battery automatic test coating production line

Technical Field

The utility model relates to a battery automatic production technical field, in particular to battery automatic test diolame production line.

Background

The testing process of the battery generally includes voltage measurement, weighing and enveloping, the operation is completed in the prior art by means of manual assistance, and in the process of continuously transferring the battery by manpower, sweat generally exists in the palm of the human body, so that the quality of the battery is influenced if the human body frequently and directly contacts the battery, and the efficiency is low due to the repeated manual mode.

SUMMERY OF THE UTILITY MODEL

The utility model provides a battery automatic test diolame production line, its purpose reduces the use of manpower in order to realize the survey voltage of battery, weigh and the automation of the whole process of diolame, improves product yield and production efficiency.

In order to achieve the above object, the embodiment of the utility model provides a battery automatic test diolame production line, including the frame, be provided with in the frame: the feeding device is used for conveying the batteries into a material; the voltage measuring device is used for measuring the voltage of the battery; a weighing device for weighing the battery; the coating device is used for coating the battery; the discharging device is used for conveying the coated batteries out; the feeding device, the voltage measuring device, the weighing device, the film coating device and the discharging device are sequentially connected.

Wherein, the frame includes: the feeding device is arranged on the first rack; the voltage measuring device and the weighing device are arranged on the second rack; and the film wrapping device is arranged on the third machine frame.

And a touch display screen is further arranged on the second rack, and the touch display screen can display the measured voltage and weight value of the battery.

Wherein, the pan feeding device includes horizontal transfer passageway and driver part, the one end of horizontal transfer passageway extends to second frame top, it is located to survey electric pressure equipment the horizontal transfer passageway is directly over, just one side of horizontal transfer passageway is provided with blocks the cylinder, it is located to block the cylinder survey electric pressure equipment directly under, the discharge end of horizontal transfer passageway is provided with the baffle, the discharge end with the weighing device parallel and level.

The second rack is also provided with a horizontal conveying manipulator, and the horizontal conveying manipulator is used for horizontally conveying the battery from the horizontal conveying channel to a weighing device and horizontally conveying the battery from the weighing device to the coating device.

The horizontal carrying manipulator comprises a first support and a second support, the first support is arranged at the first end of the second rack, the second support is arranged at the second end of the second rack, a horizontal guide rod is connected between the first support and the second support, and the horizontal carrying manipulator horizontally slides along the guide rod.

The two horizontal conveying mechanical arms are connected through a connecting plate, the distance between the two horizontal conveying mechanical arms is equal to the distance between the discharge end of the horizontal conveying channel and the weighing station of the weighing device, and the two horizontal conveying mechanical arms horizontally slide along the guide rod.

And a fourth rack is further arranged between the second rack and the third rack, a horizontal conveying device is mounted on the fourth rack, and the horizontal conveying device is used for conveying the weighed batteries to a coating device for coating.

Wherein, diolame device includes:

the overturning device is used for overturning the battery;

the translation mechanism is used for translating the turned battery to a material waiting station and translating the battery from the material waiting station to a film coating station for coating;

the film is wound on the winding drum;

a die assembly for molding the decal to the surface of the battery;

and the cutting device is used for cutting the sticking die.

The feeding device, the voltage measuring device, the weighing device, the film coating device and the discharging device are electrically connected with the PLC.

The above technical scheme of the utility model has following beneficial effect: the provided automatic testing and coating production line for the batteries comprises a feeding device, a coating device and a coating device, wherein the feeding device is used for conveying the batteries into a feeding device; the voltage measuring device is used for measuring the voltage of the battery; a weighing device for weighing the battery; the coating device is used for coating the battery; the discharging device is used for conveying the coated batteries out; the feeding device, the voltage measuring device, the weighing device, the film coating device and the discharging device are sequentially connected. The battery passes through the pan feeding device convey to voltage measuring device, voltage measuring device carries out the voltage measurement to the battery, after voltage measurement again with the battery conveys the weighing device and weighs, after weighing, convey the battery to the diolame device is to the battery is diolame, will again after the diolame the battery conveys away through output device. The feeding, voltage measurement, weighing and coating processes are automated, the use of manpower is reduced, the production efficiency of the battery is improved, and the yield of the product is improved.

Drawings

FIG. 1 is a schematic structural view of an automatic testing and coating production line for batteries according to the present invention;

FIG. 2 is a schematic structural view of the feeding device of the present invention;

FIG. 3 is a schematic structural view of the feeding voltage measuring device and the weighing device of the present invention;

FIG. 4 is a schematic structural view of the voltage measuring device of the present invention;

fig. 5 is a schematic structural view of the horizontal handling robot of the present invention;

fig. 6 is a schematic structural view of the film coating device of the present invention;

fig. 7 is another schematic structural diagram of the novel capsule device.

[ description of reference ]

1-feeding device, 2-voltage measuring device, 3-horizontal carrying manipulator, 4-weighing device, 5-electronic display screen, 6-enveloping device, 7-first frame, 8-second frame, 9-fourth frame, 10-third frame, 101-horizontal conveying channel, 102-motor, 103-conveyor belt, 104-handle, 105-second horizontal guide rod, 106-screw rod, 107-blocking cylinder, 108-first support, 109-second support, 110-conveyor belt, 111-slide block, 201-lifting cylinder, 202-mounting plate, 401-code scanning gun, 402-electronic scale, 403-storage box, 301-first support, 302-second support, 303-horizontal carrying manipulator, 304-first horizontal guide rod, 305-a horizontal driving component, 601-a horizontal overturning device, 602-a translation mechanism, 603-a material waiting station, 604-a film wrapping station, 605-a winding drum, 606-a die pressing device, 607-a lifting cylinder, 608-a horizontal pushing cylinder, 609-a mounting bracket, 610-a connecting rod and 611-a steel roller.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved by the present invention clearer, the following detailed description will be given with reference to the accompanying drawings and specific embodiments.

The utility model discloses to current problem, a battery automatic test diolame production line is provided, its purpose reduces the use of manpower in order to realize surveying the automation of voltage, weighing and the whole process of diolame of battery, improves product yield and production efficiency.

As shown in fig. 1, an embodiment of the present invention provides an automatic testing and coating production line for batteries, which includes a frame, wherein a feeding device 1 is arranged on the frame and used for conveying the batteries to a feeding device; the voltage measuring device 2 is used for measuring the voltage of the battery; a weighing device 4 for weighing the battery; the coating device 6 is used for coating the battery; the discharging device is used for conveying the coated batteries out; the feeding device 1, the voltage measuring device 2, the weighing device 4, the film coating device 6 and the discharging device are sequentially connected.

The working process of the automatic testing and coating production line for the batteries comprises the following steps that the batteries are transmitted to the voltage measuring device 2 through the feeding device 1, the voltage measuring device 2 measures the voltage of the batteries and sends the measured voltage value to a server; after the voltage is measured, the battery is transmitted to a weighing device 4 for weighing, and the measured weight value is sent to the server; after weighing, the battery is conveyed to the film wrapping device 6 to wrap the battery, and then the battery is conveyed out through the output device after film wrapping. The feeding, voltage measuring, weighing and coating processes are automated, manpower is reduced for operation, the production efficiency of the battery is improved, and the yield of the product is improved.

The automatic battery testing and coating production line further comprises a PLC, and the feeding device, the voltage measuring device, the weighing device, the coating device and the discharging device are electrically connected with the PLC.

Preferably, the rack includes: the feeding device 1 is arranged on the first rack 7; the second machine frame 8 is provided with the voltage measuring device 2 and the weighing device 4; and the film wrapping device 6 is arranged on the third frame 10. The different devices are respectively arranged on different racks, the devices can be assembled simultaneously, the layout of the devices on the racks can reduce the occupied space of equipment more reasonably, one device can be replaced after the other device has a problem, and workers can conveniently maintain the devices.

Still be provided with touch-sensitive screen 5 on the second frame 8, touch-sensitive screen 5 can show and measure the voltage and the weight value of battery.

As shown in fig. 5, a horizontal conveying manipulator 3 is further disposed on the second frame 8, and the horizontal conveying manipulator 3 is configured to transport the battery after voltage measurement to a weighing device 4 for weighing, and convey the weighed battery from the weighing device 4 to a coating device 6 for coating.

As shown in fig. 5, the horizontal transfer robot 3 further includes a first bracket 301 and a second bracket 302, the first bracket 301 is disposed at a first end of the second frame 302, the second bracket 302 is disposed at a second end of the second frame 8, a first horizontal guide rod 304 is connected between the first bracket 301 and the second bracket 302, and the horizontal transfer robot 303 can slide horizontally along the first horizontal guide rod 304. A horizontal driving member 305 is disposed on the first bracket 301 or the second bracket 302, the driving member 305 is configured to drive the horizontal transfer robot 303 to slide along the first horizontal guide bar 304, and the driving member may be an air cylinder. When the horizontal carrying manipulator 303 slides to the output end of the feeding device 1, the battery is picked up and carried to a weighing station of a weighing device 4 for weighing measurement, and after weighing is finished, the battery is carried from the weighing station to a film wrapping device 6 for film wrapping.

Preferably, in order to improve the production efficiency, the two horizontal transfer robots 303 are provided, the two horizontal transfer robots 303 are connected by a link, and the distance between the two horizontal transfer robots 303 is exactly equal to the distance between the second end of the horizontal transfer passage 101 and the weighing device. When one of the horizontal conveying machines picks up the battery with the measured voltage, the other horizontal conveying mechanical hand picks up the battery with the measured weight and carries the battery horizontally, the horizontal conveying device with the measured weight is conveyed to the next procedure, and the battery with the measured weight is released and weighed on the weighing station.

As shown in fig. 2, the feeding device 1 includes a horizontal conveying channel 101 and a driving part 102, one end of the horizontal conveying channel 101 extends to above the second rack 8, the voltage measuring device 2 is located directly above the horizontal conveying channel 101, a blocking cylinder 107 is arranged on one side of the horizontal conveying channel 101, the blocking cylinder 107 is located directly below the voltage measuring device 2, a baffle is arranged at a discharge end of the horizontal conveying channel 101, and the discharge end is aligned with the weighing device 4. And a proximity sensor is arranged on the baffle.

The horizontal conveying channel comprises a conveying belt 103 and limiting baffles arranged on two sides of the conveying belt 103, the driving part 102 is a motor, and the motor 102 drives the conveying belt to convey, so that the batteries are driven to advance along the horizontal conveying channel 101.

The driving component 102 drives the battery to advance along the horizontal conveying channel 101, when the sensor detects that the battery is conveyed to the position of the blocking cylinder 107, a signal is sent to the PLC controller, the PLC controller controls the blocking cylinder 107 to extend out to prevent the battery from further advancing, and at the moment, the voltage measuring device 2 measures the voltage of the battery positioned right below. After the battery is measured, the blocking cylinder 107 is controlled to be retracted by the PLC, the battery further advances to the output end of the horizontal conveying channel 101, and when the proximity sensor arranged on the baffle detects a signal and sends the signal to the PLC, the PLC controls the horizontal conveying manipulator 3 to convey the battery to the weighing device 4 for weight detection. The process enables automatic detection of the voltage and weight of the battery.

As shown in fig. 2, further, the feeding device 1 further includes a horizontal position adjusting device, the horizontal position adjusting device includes a first support 108 and a second support 109 disposed on the first support, and a second horizontal guide rod 105 connected between the first support 108 and the second support 109, two horizontal guide rods 105 are disposed on the second horizontal guide rod 105, the two horizontal guide rods 105 are disposed at two ends of the first support 108 and the second support 109 in parallel and at an interval, a screw 106 is disposed below the second horizontal guide rod 105 in parallel, the horizontal conveying channel 101 is connected with the second horizontal guide rod 105 and the screw 106 through a slider 111, a handle 104 is further disposed at a first end of the first support 108 or the second support 109, an output shaft of the handle 104 is fixedly connected with a driving wheel, and the driving wheel is fixedly connected with one end of the screw at the first end, one end of the screw 106 at the second end of the first support 108 or the second support 109 is connected to a driven wheel, the driving wheel and the driven wheel are driven by the belt 110, the handle 104 is rotated to drive the screw 106 to rotate, so as to drive the sliding block 111 to horizontally slide along the second horizontal guide rod 105, and the position of the horizontal conveying channel 101 relative to the voltage detection device 2 can be adjusted in the above manner, so that the universality of the conveying channel is improved.

The weighing device 4 comprises an electronic scale 402 arranged on a weighing station, a storage box 403 is arranged on the electronic scale 402, a code scanning gun 401 is arranged on one side of the electronic scale 402, and when the horizontal conveying manipulator 3 conveys the battery to the weighing station, clamping jaws on the manipulator are loosened to enable the battery to fall on the storage box 403 on the weighing station, so that the battery can be weighed. Meanwhile, a code scanning gun 401 installed on the weighing station starts to scan the two-dimensional code on the battery, and code scanning information and detected quantity are transmitted to a server. The server is preferably a touch screen display 5.

As shown in fig. 1, fig. 3 and fig. 4, the voltage measuring device includes a lifting cylinder 201, a piston of the lifting cylinder 201 is connected with a mounting plate 202, a detection contact is arranged on a bottom surface of the mounting plate 202, the detection contact is arranged at intervals and is connected with the mounting plate 202 through a spring, when the battery is conveyed to a position under the voltage measuring device 2, the battery is blocked from further advancing by a blocking cylinder 107, the lifting cylinder 201 drives the contact to descend, and the contact is respectively contacted with the positive and negative electrodes of the battery to detect the voltage of the battery, and the detected voltage value is sent to an electronic display screen 5 to be displayed. After the voltage value is measured, the blocking cylinder 107 is retracted, and the battery is transported forwards continuously.

As shown in fig. 1, a fourth frame 9 is further disposed between the second frame 8 and the third frame 10, and a horizontal transfer device is mounted on the fourth frame 9 and used for transferring the weighed battery to the coating device 6. The structure of the horizontal conveying device can be the same as that of the feeding device 1, the feeding end of the horizontal conveying device is over against the horizontal carrying manipulator 3, and the discharging end of the horizontal conveying device is connected with the film coating device 6. The structure is designed to facilitate the layout design of the whole mechanism, so that the whole structure is more reasonable and compact.

As shown in fig. 6, the coating device 6 is provided on the third frame, and includes: the horizontal overturning device 601 is used for overturning the battery; a translation mechanism 602, configured to translate the turned battery to a waiting station 603, and translate the battery from the waiting station 603 to an enveloping station 604 for enveloping; a winding drum 605, wherein a film is arranged on the winding drum 605; a die assembly 606 for molding the decal to the surface of the cell; and a cutting device (not shown) for cutting the sticking die.

When the battery is conveyed to the coating device 6 by the conveying device on the fourth frame 9, the horizontal turnover device 601 first turns over the battery, so that the wide surface of the battery faces horizontally upwards or downwards, and the narrow surface turns over to the side surface, after turning, the battery is horizontally translated to the waiting station 603 for waiting by the translation mechanism 602, and after the previous battery is coated, the battery is translated from the waiting station 603 to the coating station 604 for coating by the translation mechanism 602. The battery is turned over so that the wide surface of the battery is coated firstly and then the narrow surface of the battery is coated, and the coating mode is to improve the coating efficiency and the coating quality and avoid wrinkles as much as possible. During coating, firstly, a film is pulled from the winding drum 605 and is adhered to the wide surface of the battery, then the film is pressed downwards through the die assembly 606, so that the film is uniformly and flatly adhered to the surface of the battery shell, after the wide surface film is adhered, the battery is turned over, so that the narrow surface faces upwards, and then the narrow surface is adhered;

after all surfaces of the battery are pasted with the adhesive film, the adhesive film is cut off from the winding drum 605 through a cutting device.

Horizontal turning device 601 is including setting up third support, fourth support and the upset manipulator in the third frame, but be connected with third horizontal guide arm between the fourth support of third support, upset manipulator 601 can be along third horizontal guide arm horizontal slip, upset manipulator slides extremely during the one end of second horizontal guide arm just right horizontal transfer passage's output, the upset manipulator is cliied the battery overturns, makes the wide face of battery is up or is made down.

The translation mechanism 602 includes a fifth support, a sixth support and a translation manipulator, which are disposed on the third rack, a fourth horizontal guide rod is connected between the fifth support and the sixth support, and the translation manipulator can horizontally slide along the fourth horizontal guide rod. The fourth horizontal guide rod is parallel to the third horizontal guide rod, the translation manipulator is located above the turnover manipulator, the translation manipulator is opposite to the turned battery when sliding to one end, and a material waiting station is further arranged right below the third horizontal guide rod. The battery after turning is picked up to the waiting station 603 by the translation manipulator for waiting, a film wrapping station 604 is further arranged on one side of the waiting station 603, and the battery is translated to the film wrapping station 604 from the waiting station by the translation manipulator for wrapping.

A groove is formed in the coating station 604, and the width of the groove is equal to that of the narrow edge of the battery. And after the wide surface of the battery is coated with the film, turning the battery over to enable the narrow surface of the battery to face upwards, and pasting the film on the narrow surface of the battery.

As shown in fig. 6 and 7, the winding drum 605 is disposed at a position of a gap formed between the fourth support and the third support, the adhesive film on the winding drum can be drawn out from the winding drum and covers the surface of the battery on the film-coating station 604 for film coating, a cutting device is further disposed at the front side of the film-coating station, the cutting device is disposed between the winding drum and the film-coating station and is used for cutting the adhesive film, a pressing die device is further disposed at the rear side of the film-coating station, the pressing die device includes a first mounting bracket, a lifting cylinder 607 is disposed on the first mounting bracket, a connecting plate is connected to the lower end of a piston of the lifting cylinder 607 and is fixedly connected to the mounting plate, a horizontal pushing cylinder 608 is further disposed on the mounting plate, and a piston of the horizontal pushing cylinder 608 is fixedly connected to a mounting bracket 609, the both ends of installing support 609 are connected with the journal stirrup, the journal stirrup at both ends rotates with the one end of a connecting rod 610 respectively to be connected, rotate with the steel roller between the other end of two connecting rods 610 and be connected, the lower extreme of steel roller is provided with the hose, the hose with the parallel just rolling contact of steel roller. After the battery is placed at the coating station 604, the lifting cylinder 607 pushes the horizontal pushing cylinder 608 to descend, and after the battery descends, the horizontal pushing cylinder 608 pushes the steel roller out horizontally, and pushes the hose back and forth, so that the hose is pressed down on the battery film, and the film is uniformly and flatly attached on the surface of the battery. And after the wide surface of the battery is pasted, the battery is turned over to enable the narrow surface to face upwards, the narrow surface of the battery is pasted with a film, each surface of the battery film is pasted with the film, the film is cut off through a cutting device, and the whole film pasting action is completed.

The utility model provides a battery automatic test diolame production line, battery pass through the pan feeding device conveys to survey electric pressure equipment, survey electric pressure equipment and right the battery carries out voltage measurement, will again after voltage measurement is accomplished battery conveying to weighing device weighs, and the back of weighing, convey the battery to the diolame device is right the battery carries out the diolame, will again after the diolame the battery conveys away through output device. The feeding, voltage measurement, weighing and coating processes are automated, the use of manpower is reduced, the production efficiency of the battery is improved, and the yield of the product is improved.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The utility model provides a battery automatic test diolame production line which characterized in that, includes the frame, is provided with in the frame:

the feeding device is used for conveying the batteries into a material;

the voltage measuring device is used for measuring the voltage of the battery;

a weighing device for weighing the battery;

the coating device is used for coating the battery;

the discharging device is used for conveying the coated batteries out;

the feeding device, the voltage measuring device, the weighing device, the film coating device and the discharging device are sequentially connected; the feeding device comprises a horizontal conveying channel and a driving part, the driving part is used for driving the battery to run along the horizontal conveying channel, one end of the horizontal conveying channel extends to the upper part of the second rack, the electric pressure measuring device is positioned right above the horizontal conveying channel, a blocking cylinder is arranged on one side of the horizontal conveying channel and is positioned right below the electric pressure measuring device, a baffle is arranged at the discharge end of the horizontal conveying channel, and the discharge end is flush with the weighing device;

the machine frame comprises a first machine frame, a second machine frame and a third machine frame, the feeding device is arranged on the first machine frame, the voltage measuring device and the weighing device are arranged on the second machine frame, and the film coating device is arranged on the third machine frame;

the second rack is also provided with a horizontal conveying manipulator, and the horizontal conveying manipulator is used for horizontally conveying the battery from the horizontal conveying channel to a weighing device and horizontally conveying the battery from the weighing device to a film wrapping device;

the coating device comprises: the overturning device is used for overturning the battery;

the translation mechanism is used for translating the turned battery to a material waiting station and translating the battery from the material waiting station to a film coating station for coating;

the film is wound on the winding drum;

a die assembly for molding the decal to the surface of the battery;

the cutting device is used for cutting the sticking die;

the feeding device, the voltage measuring device, the weighing device, the film coating device and the discharging device are electrically connected with the PLC.

2. The automatic battery testing and enveloping production line of claim 1, wherein a touch display screen is further disposed on the second rack, and the touch display screen is configured to display the measured voltage and weight values of the battery.

3. The automatic battery testing and enveloping production line of claim 2, wherein the horizontal handling robot comprises a first bracket and a second bracket, the first bracket is disposed at a first end of the second rack, the second bracket is disposed at a second end of the second rack, a horizontal guide rod is connected between the first bracket and the second bracket, and the horizontal handling robot slides horizontally along the horizontal guide rod.

4. The automatic battery testing and enveloping production line of claim 3, wherein the number of the horizontal conveying manipulators is two, the two horizontal conveying manipulators are connected by a connecting plate, the distance between the two horizontal conveying manipulators is equal to the distance between the discharge end of the horizontal conveying channel and the weighing station of the weighing device, and the two horizontal conveying manipulators slide horizontally along the horizontal guide rod.

5. The automatic battery testing and enveloping production line of claim 4, wherein a fourth frame is arranged between the second frame and the third frame, and a horizontal conveying device is mounted on the fourth frame and used for conveying the weighed batteries to an enveloping device for enveloping.

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