CN214454862U - A upset anchor clamps and battery upset conveyer for unloading on battery - Google Patents

Abstract

The utility model provides a turnover fixture and a battery turnover transportation device for loading and unloading batteries, which comprises a rotating assembly, wherein the rotating assembly comprises a rotating fixture and a rotating module; the rotary clamp comprises a carrying platform and a positioning clamp; a bearing position for placing a battery is arranged on the carrying platform, and one surface of the battery is attached to the bearing position; the positioning clamp is arranged on the carrying platform; the clamping part of the positioning clamp moves towards the bearing position, so that the battery placed in the bearing position is fixed; the microscope carrier is installed on the rotatable end of rotating the module, drives the microscope carrier to rotate through rotating the module to make the battery of fixing on the microscope carrier overturn around the rotation center of rotating the module, realize the conversion of battery position, this upset anchor clamps mechanism convenient to use, simple structure, the maintenance of being convenient for.

Description

A upset anchor clamps and battery upset conveyer for unloading on battery

Technical Field

The utility model belongs to the non-standard automation field, concretely relates to an upset anchor clamps for unloading on battery, still concretely relates to battery upset conveyer.

Background

In the automatic battery detection assembly line, because the detection equipment needs the battery to be placed at a fixed angle to accurately detect the interior of the battery, in the process of detecting the interior of the button-shaped battery, the conventional detection equipment generally detects the battery after vertically arranging the battery in order to facilitate the overall detection of the battery, and meanwhile, because of the internal structure of the battery, the angle of the battery needs to be adjusted before the battery moves to the detection equipment for detection in order to ensure that the internal structure of the battery is at the same position in the detection process;

mode adjustment mode commonly used at present detects the back for vision sensing equipment, rotate the battery through the manipulator so that the battery rotates certain angle, it is unanimous to guarantee that the battery puts the angle, and operate for the convenience of manipulator, need place the battery level at work platform, detect the angle by vision sensing equipment earlier, it rotates after the battery is snatched to the control manipulator again, and this has caused the battery before removing to check out test set, need the upset battery, it is vertical with the battery, problem with the detection needs of adaptation check out test set, for the convenience realize automatic upset battery, an upset anchor clamps that is used for unloading on the battery is urgently needed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model provides a upset anchor clamps for unloading on battery overturns the battery automatically through rotating the module to make and snatch the subassembly and be convenient for get and put, thereby make things convenient for outside check out test set to detect, the utility model discloses convenient to use, simple structure.

The utility model provides a turnover fixture for charging and discharging of batteries, which comprises a rotating assembly, wherein the rotating assembly comprises a rotating fixture and a rotating module; the rotary clamp comprises a carrying platform and a positioning clamp;

a bearing position for placing a battery is arranged on the carrying platform, and one surface of the battery is attached to the bearing position; the positioning clamp is arranged on the carrying platform; moving the clamping part of the positioning clamp towards the bearing position so as to fix the battery placed in the bearing position;

the carrying platform is arranged at the rotatable end of the rotating module, and the rotating module drives the carrying platform to rotate, so that the battery fixed on the carrying platform is turned over around the rotating center of the rotating module, and the conversion of the position of the battery is realized.

Preferably, the rotating assembly further comprises a support frame for forming a support structure of the rotating assembly;

the support frame comprises a support side plate and a driver fixing frame; the driver fixing frame is installed on one side face of the supporting side plate, the driving portion of the rotating module is installed on the driver fixing frame, and the rotating clamp is arranged on the other side face of the supporting side plate.

Preferably, the support frame is further provided with at least two sensors, and the two sensors are arranged on a horizontal plane and a vertical plane where the rotation axis of the rotation module is located.

Preferably, a stop block is arranged on one side surface of the supporting side plate close to the rotating clamp, and the carrier comprises a first limiting surface and a second limiting surface; the first limiting surface is a back surface corresponding to one surface for placing the battery; the second limiting surface is connected with the rotating module;

the number of the stop blocks is two, the first limiting surface is in contact with one stop block on the supporting side plate, and after the carrying platform is turned over, the second limiting surface is in contact with the other stop block on the supporting side plate.

Preferably, the rotating module comprises a rotating motor and a rotating shaft, and one end of the rotating shaft is mounted on the rotating motor; one side surface of the rotating clamp is arranged on the rotating shaft;

the number of the supporting side plates is two, the rotating shaft penetrates through the two supporting side plates, and the rotating clamp is arranged between the two supporting side plates; and the other end of the rotating shaft is provided with a front cover.

Preferably, the sensor is a photoelectric switch, an induction sheet is installed on the front cover, and the induction sheet rotates to the photoelectric switch; thereby controlling the steering of the rotating electrical machine.

Preferably, a positioning groove for forming the bearing position is formed on the upper surface of the carrying platform;

the positioning groove is arranged at one side close to the carrying platform, so that part of the battery protrudes out of the carrying platform.

Preferably, a side through groove is formed in the adjacent side surface of the carrying platform, on which the positioning groove is formed; the side through groove is located corresponding to the positioning groove, and the positioning groove is communicated with the side through groove.

Preferably, a through hole is formed in the bottom of the positioning groove, a detection module is installed in the through hole and used for detecting the battery placement in the positioning groove.

Preferably, the battery overturning and transporting device comprises the rotating assembly and the grabbing assembly; the grabbing assembly is used for grabbing the battery, so that the driving battery moves between the rotating assembly and the clamp body;

the grabbing assembly comprises a clamping jaw unit and an unlocking unit, and the unlocking unit comprises a drawing module and an unlocking block;

the unlocking unit is close to the material bearing block of the clamp body, so that the unlocking block is connected with the material bearing block upper pushing block, and the pulling module drives the unlocking block, so that the pushing block is far away from the material bearing position of the clamp body for placing the battery; the clamping part of the clamping jaw unit is close to the bearing position to take and place the battery.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model provides a pair of a upset anchor clamps for unloading on battery, including rotating anchor clamps, rotating the module, rotate anchor clamps through rotating the module upset for battery upset on the fixed anchor clamps that rotate again, thereby the automatic battery that overturns makes conveniently snatch, thereby the battery of being convenient for removes to check out test set and detects battery inside comprehensively, the utility model discloses convenient to use, simple structure.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings. The detailed description of the present invention is given by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a schematic perspective view of an embodiment of the present invention;

fig. 2 is an exploded view of the present invention in one embodiment;

fig. 3 is a schematic perspective view of a rotating fixture according to an embodiment of the present invention;

fig. 4 is an exploded view of the rotating clamp of the present invention in one embodiment;

fig. 5 is a schematic view of the feeding operation in an embodiment of the present invention;

FIG. 6 is a schematic view of the blanking operation in another embodiment of the present invention;

fig. 7 is a schematic perspective view of a grasping assembly according to an embodiment of the present invention;

fig. 8 is an exploded view of the grasping assembly according to an embodiment of the present invention;

fig. 9 is a schematic view of a portion of a transportation device according to an embodiment of the present invention;

fig. 10 is an exploded view of the clamp body according to an embodiment of the present invention.

Shown in the figure:

3. a grasping assembly; 31. fixing a bracket; 311. connecting blocks; 312. a support plate; 32. a jaw unit; 321. A driving module; 322. a buffer member; 323. a connecting rod; 324. a guide plate; 325. a clamping module; 33. An unlocking unit; 331. mounting blocks; 332. a drawing module; 333. unlocking the block; 3331. a hooking part; 42. A clamp body; 421. a material bearing block; 422. a pushing assembly; 4221. a push block; 42213. unlocking the opening; 4222. A spring; 423. a stopper; 4231. a connecting surface; 424. a limiting block; 5. a battery; 6. a rotating assembly; 61. a support frame; 611. supporting the side plates; 612. a stopper; 613. a motor fixing frame; 62. a front cover; 63. a sensor; 64. rotating the clamp; 641. a stage; 6411. positioning a groove; 6412. a side through groove; 6413. a first limiting surface; 6414. a second limiting surface; 642. positioning a clamp; 643. a detection module; 65. a rotating electric machine; 651. a rotating shaft.

Detailed Description

The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent to those skilled in the art from the following detailed description, which, taken in conjunction with the annexed drawings, discloses a more detailed description of the present invention, which will enable those skilled in the art to make and use the present invention. In the drawings, the shape and size may be exaggerated for clarity, and the same reference numerals will be used throughout the drawings to designate the same or similar components. In the following description, terms such as center, thickness, height, length, front, back, rear, left, right, top, bottom, upper, lower, and the like are used based on the orientation or positional relationship shown in the drawings. In particular, "height" corresponds to the dimension from top to bottom, "width" corresponds to the dimension from left to right, and "depth" corresponds to the dimension from front to back. These relative terms are for convenience of description and are not generally intended to require a particular orientation. Terms concerning attachments, coupling and the like (e.g., "connected" and "attached") refer to a relationship wherein structures are secured or attached, either directly or indirectly, to one another through intervening structures, as well as both movable or rigid attachments or relationships, unless expressly described otherwise.

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

The prior art clamp body 42 comprises a material bearing block 421, a pushing assembly 422 and a stop 423; the material bearing blocks 421 are used for connecting the clamp bodies 42 to form a whole, and the parts on the clamp bodies 42 take the material bearing blocks 421 as carriers thereof, so that the clamp bodies 42 are connected with each other to form a clamp of the battery 5 convenient to clamp; the bearing block 421 includes a bearing plate, the bearing plate is used as a bearing structure of the bearing clamp body 42, a first groove is formed on the bearing plate, and the battery 5 is placed in the first groove; the position of the battery 5 in the horizontal direction is restricted by the first groove, the push member 422, and the stopper 423.

The stopper 423 is mounted on one side of the first groove, the side surface of the stopper 423 close to the battery 5 is a connection surface 4231, a pushing assembly 422 is arranged on one side corresponding to the first groove, the pushing assembly 422 pushes the battery 5 to the stopper 423 under the driving of an acting force, so that the battery 5 is in contact with the connection surface 4231, the acting force continuously applies force to the pushing assembly 422 after the battery 5 is in contact with the connection surface 4231, at the moment, the battery 5 is clamped, and the battery 5 is fixed in the first groove; the battery 5 is placed in the first groove, the first groove limits the position of the battery 5, the battery 5 is placed in a fixed position, the pushing assembly 422 is in contact with one side face of the battery 5, the battery 5 is pushed to move towards the direction of the stop 423, and finally the battery 5 is clamped between the stop 423 and the pushing assembly 422, so that the positioning of the battery 5 is realized.

The bearing plate is provided with a second groove which is communicated with the first groove, the pushing assembly 422 comprises a pushing block 4221, and the pushing block 4221 is arranged in the second groove; install the pressure head on the push block 4221 is close to battery 5's one end, slide in the second recess when push block 4221, the pressure head passes first recess and battery 5 contact, promote battery 5 through the pressure head, the realization is to compressing tightly of battery 5, through the second recess, make pushing assembly 422 promote the effort of battery 5 to act on dog 423, make dog 423 to battery 5's holding power and pushing assembly 422 promote the thrust of battery 5 on same horizontal straight line, thereby make pushing assembly 422, dog 423 presss from both sides battery 5 tightly steadily.

Spacing boss is installed to ejector pad 4221 both sides for the spacing boss of first recess restriction removes, and on the spacing boss of ejector pad 4221 both sides was acted on to the effort, the second recess was the T type, and ejector pad 4221 moved in the second recess, and the cross-section of first recess 4212 is less than the second recess, and the spacing boss of restriction ejector pad 4221 both sides removed to first recess in, through the displacement distance of first recess restriction ejector pad promptly.

The bottom surface and the side wall of the first groove are in contact with the battery 5; the battery 5 is positioned by placing the battery 5 in a first recess, the bottom surface of which, in a preferred embodiment, matches the shape of the battery 5, the bottom surface of which is curved and interacts with the sides of the battery 5, the two sides of which are tangent to the battery 5, thereby retaining the battery 5 in the first recess.

The shape of the pressure head is trapezoidal, and the sectional shape of the pressure head is smaller than that of the first groove, so that the pressure head can conveniently pass through the first groove 4212 to be in contact with the part of the battery 5, and the battery 5 is clamped.

The battery 5 is vertically placed in the first groove, so that one side of the battery 5 is placed in the first groove, the pushing assembly 422 is in contact with the battery 5 placed on one side of the first groove, the other side of the battery 5 protrudes out of the material bearing block 421, as shown in fig. 3, a protrusion is arranged on the side face of the battery 5, the protruding portion of the battery 5 is higher than the material bearing block 421, so that the pressure head portion stably compresses the battery 5, and the outside grabbing equipment is convenient to take and place the battery 5 due to the fact that the portion of the battery 5 is higher than the material bearing block 421.

In a preferred embodiment, the pushing assembly 422 further comprises a spring 4222, and the spring 4222 is arranged between the limiting boss and the inner wall of the second groove; wherein, spring 4222 is used for forming the effort that promotes subassembly 422 and compress tightly battery 5, through spacing boss and second recess inner wall compression spring 4222 for the reaction of the resilience force of spring 4222 is on promoting subassembly 422, thereby makes to promote subassembly 422 and compress tightly battery 5, and spring 4222 is used as the bolster that promotes subassembly 422 simultaneously, thereby avoids promoting subassembly 422 and battery 5 rigid connection to damage battery 5.

The bearing plate is provided with a limiting block 424, the limiting block 424 is arranged above the spring 4222, the spring 4222 is limited by the limiting block 424 to move in the vertical direction, the spring 4222 is arranged between the limiting boss and the second groove, the spring 4222 is prevented from rebounding in the vertical direction due to compression of the spring 4222, and therefore the spring 4222 is separated from a gap between the limiting boss and the second groove.

The limiting block 424 is arranged above part of the push block 4221, the projection of the limiting block 424 in the vertical direction falls on the push block 4221, the limiting block 424 limits the push block 4221 to move in the vertical direction at the same time, the push block 4221 moves in the direction towards the battery 5, the limiting block 424 is detachably connected to the bearing plate 4211 through screws, and parts in the push assembly 422 are replaced conveniently.

A turnover fixture for feeding and discharging batteries comprises a rotating assembly 6, wherein the rotating assembly 6 comprises a rotating fixture 64 and a rotating module; the rotating clamp 64 comprises a carrying platform 641 and a positioning clamp 642; the carrying platform 641 is used for bearing the battery 7, the battery 7 is fixed on the carrying platform 641 by matching with the positioning clamp 642, the battery 7 is fixed by the positioning clamp 642, the battery 7 is positioned, an external grabbing device can conveniently and accurately grab a battery workpiece on the carrying platform 641, and meanwhile, the positioning clamp 642 clamps the battery 7, so that the battery 7 is prevented from being separated from the carrying platform 641 in the overturning process of the carrying platform 641;

further, a bearing position for placing the battery 5 is arranged on the carrying platform 641, and one surface of the battery 5 is attached to the bearing position; the positioning clamp 642 is mounted on the carrier 641; the battery 5 placed in the placing position is fixed by moving the clamping portion of the positioning jig 642 toward the placing position;

the carrier 641 is mounted on the rotatable end of the rotating module, and the carrier 641 is driven to rotate by the rotating module, so that the battery 5 fixed on the carrier 641 rotates around the rotation center of the rotating module;

battery 5 is overturned through rotating assembly 6, and the conversion of the position of battery 5 is realized, so that battery 5 is guaranteed to simultaneously meet the requirement of the position required in the detection process of external detection equipment, the requirement of facilitating the detection of the visual sensing equipment for the angle is also met, and battery 5 is conveniently adjusted to a fixed position by an external manipulator.

In a preferred embodiment, the rotating assembly 6 further comprises a support frame 61, the support frame 61 being used to form a support structure for the rotating assembly 6;

the supporting frame 61 comprises a supporting side plate 611 and a driver fixing frame 623; the driver fixing frame 623 is mounted on one side surface of the supporting side plate 611, the driving part of the rotating module is mounted on the driver fixing frame 623, and the rotating clamp 64 is arranged on the other side surface of the supporting side plate 611, so that the rotating assembly 6 forms a connected integral structure, and the rotating assembly 6 is conveniently mounted on a fixed base surface, thereby normally implementing the step of switching the position of the battery 5, and facilitating the realization of automation.

The supporting frame 61 is further provided with at least two sensors 63, and the two sensors 63 are arranged on a horizontal plane and a vertical plane where the rotation axis of the rotating module is located.

In a preferred embodiment, the rotating module comprises a rotating motor 65 and a rotating shaft 651, wherein one end of the rotating shaft 651 is mounted on the rotating motor 65; one side surface of the rotating clamp 64 is arranged on the rotating shaft 651;

the number of the supporting side plates 611 is two, the rotating shaft 651 penetrates through the two supporting side plates 611, and the rotating clamp 64 is arranged between the two supporting side plates 611; a front cover 62 is mounted on the other end of the rotating shaft 651, and the position of the rotating shaft 651 is limited by the front cover 62; the rotating jig 64 is supported by the two support side plates 611 so that the rotating jig 64 is stably turned over.

In a preferred embodiment, the sensor 63 is a photoelectric switch, and the front cover 62 is provided with a sensing piece which rotates to the photoelectric switch; thereby controlling the rotation direction of the rotating motor 65, and turning the rotating clamp 64 within the range of 90 degrees, thereby ensuring that the battery 5 on the rotating clamp 64 is in a vertical or horizontal placing state, and being convenient for taking and placing.

A stop block 612 is arranged on one side surface of the supporting side plate 611 close to the rotating clamp 64, the carrier 641 is in contact with the stop block 612 after being turned over, the stop block 612 is used for limiting the turning angle of the carrier 641, the battery 5 is turned over within a range of 90 degrees through cooperation with the photoelectric switch, and meanwhile the stop block 612 is used for supporting the carrier 641.

Further, the carrier 641 includes a first limiting surface 6413 and a second limiting surface 6414; the first limit surface 6413 is a back surface corresponding to one surface on which the battery 5 is placed; the second limit surface 6414 is a surface connected with the rotating shaft 651;

the number of the stoppers 612 is two, the first position-limiting surface 6413 contacts with one stopper 612 on the supporting side plate 611, and after the carrier 641 is turned over, the second position-limiting surface 6414 contacts with the other stopper 612 on the supporting side plate 611, so that the turning angle of the carrier 641 is ensured.

Further, a positioning groove 6411 for forming a holding position is formed on the upper surface of the carrier 641; the positioning groove 6411 is disposed at a side close to the carrier 641, so that a portion of the battery 5 protrudes from the carrier 641, the grasping device can grasp the portion of the battery 5 protruding from the carrier 641 conveniently, and interference between the grasping device and the carrier 641 is avoided; meanwhile, the position of the positioning groove 6411 is disposed at a side away from the rotation shaft 651, so that it moves a longer distance when turned and a distance from the grasping apparatus after turned is short.

Further, a side through groove 6412 is formed on the adjacent side of the carrier 641 on which the positioning groove 6411 is formed; the position of the side through groove 6412 corresponds to the positioning groove 6411, and the positioning groove 6411 is communicated with the side through groove 6412; the grabbing device comprises a grabbing assembly 3, the grabbing assembly 3 comprises a clamping jaw unit 32 used for grabbing the battery 5, two side faces of the battery 5 are clamped through a clamping jaw part on the clamping jaw unit 32, so that the battery 5 is grabbed, the width of a side face through groove 6412 is larger than that of the clamping jaw part of the clamping jaw unit 32, and through the arrangement of the side face through groove 6412, when the clamping jaw unit 32 grabs the battery 5, a clearance allowance exists on a carrying platform 641, and the clamping jaw part is prevented from colliding with the carrying platform 641 in the grabbing process.

The through hole has been seted up to constant head tank 6411 bottom, installs detection module 643 in the through hole, and detection module 643 is used for detecting the battery 5 in the constant head tank 6411 and puts, detects whether to place battery 5 in the constant head tank 6411 through detection module 643 to control positioning anchor clamps 642 clamp fixedly with battery 5.

The battery overturning and transporting device comprises a grabbing component 3 and the rotating component 6; wherein the grasping assembly 3 is used for grasping the battery 5 so that the battery 5 moves between the external transmission device and the clamp body 42; the grabbing component 3 comprises a clamping jaw unit 32 and an unlocking unit 33, wherein the unlocking unit 33 comprises a drawing module 332 and an unlocking block 333; the unlocking unit 33 is close to the material receiving block 421, so that the unlocking block 333 is connected with the pushing block 4221, and the pulling module 332 drives the unlocking block 333, so that the pushing block 4221 is far away from the material receiving position of the battery 5; the clamping jaw unit 32 is close to the material bearing block 421 to take and place the battery 5;

the grabbing component 3 further comprises a fixing bracket 31, and the fixing bracket 31 is used for connecting the grabbing component 3 to form a whole; the fixed bracket 31 comprises a connecting block 311 and a support plate 312, wherein the connecting block 311 is connected with the support plate 312; the connecting block 311 is used for connecting an external moving device, and the grabbing component 3 is moved between the external transmission device and the clamp body 42 through the external moving device; the stay 312 receives the jaw unit 32 and the unlocking unit 33;

further, the connecting block 311 comprises a fixing portion and a pressing portion, and the movable end of the moving device is installed between the fixing portion and the pressing portion; the fixed part and the pressing part are connected through screws, and the movable end of the moving device is clamped by the fixed part and the pressing part through the screws, so that the moving device is fixedly connected with the grabbing component 3, the unlocking unit 33 further comprises a mounting plate 331, and the drawing module 332 is mounted on the mounting plate 331; the jaw unit 32 is mounted on one side of the support plate 312, and the mounting plate 331 is fixed to the other side of the support plate 312.

The driving module 321 drives the moving direction of the clamping module 325 to be perpendicular to the moving direction of the pulling module 332 pushing the unlocking block 333, the unlocking unit 33 is connected with the pushing block 4221 first, the pushing block 4221 is pulled away from the bearing position, and after the pushing block 4221 is far away from the bearing position, the clamping jaw unit 32 takes and places the battery 7 to avoid interference when the clamping jaw unit 32 and the unlocking unit 33 move.

The push block 4221 is provided with an unlocking port 42213; the end part of the unlocking block 333 is provided with a hooking part 3331; when the unlocking unit 33 is close to the clamp body 42, the hooking part 3331 extends into the unlocking opening 42213, the pulling module 332 drives the hooking part 3331 to be in contact with the inner wall of the unlocking opening 42213, the pushing component 422 is further driven to move, the pressure head is separated from the battery 5, the spring 4222 is stressed and compressed, the battery 5 is conveniently taken out, after a new battery 5 is placed, the unlocking unit 33 reversely moves the spring 4222 to rebound, the pressure head is contacted with the battery 5 again, the grabbing component 3 is far away from the clamp body 42, the hooking part 3331 is separated from the unlocking opening 42213, the new battery 5 is clamped, and therefore replacement of the battery 5 is completed.

Further, the hooking portion 3331 is disposed at a position lower than the clamping portion of the clamping jaw unit 32, so that when the drawing module 332 drives the hooking portion 3331 to drive the pushing block 4221 to move, interference between the unlocking block 333 and the clamping portion of the clamping jaw unit 32 is avoided, and meanwhile, the clamping portion of the clamping jaw unit 32 clamps a part of the end surface of the battery 5, the position where the hooking portion 3331 contacts the unlocking port 42213 is lower than the upper surface of the material receiving block 421, and when the clamping portion of the clamping jaw unit 32 is lower than the upper surface of the material receiving block 421, the clamping portion of the clamping jaw unit 32 collides with the material receiving block 421.

The clamping jaw unit 32 includes a driving module 321, a connecting rod 323, and a clamping module 325, wherein the driving module 321 is connected to the clamping module 325 through the connecting rod 323, so that the driving module 321 drives the clamping module 325 to approach the clamp body 42.

The gripper unit 32 further includes a guide plate 324, the gripping module 325 is mounted on the guide plate 324, the connecting rod 323 is connected to the guide plate 324, and a guide is provided between the guide plate 324 and the support plate 312 so that the guide plate 324 slides on the support plate 312 in a guide direction of the guide.

A buffer 322 is arranged between the driving module 321 and the connecting rod 323, and the clamping module 325 plays a role of buffering when contacting with the material bearing block 421 through the buffer 322; the clamping module 325 and the material bearing block 421 are prevented from being damaged.

In another preferred embodiment, the grabbing assembly 3 can also take out the battery 5 placed on the fixture body 42, the pulling module 332 drives the hooking part 3331 to move, so as to drive the pushing assembly 422 on the fixture body 42 to move, so that the pushing assembly 422 is out of contact with the battery 5, the driving module 321 drives the grabbing module 325 to approach the material bearing block 421, and the grabbing module 325 takes out the battery 5 in the material bearing block 421;

the clamping jaw unit 32 grabs the vertical battery 5 and then moves to the carrying platform 641, at this time, the positioning clamp 642 on the carrying platform 641 is in a vertical state, after the clamping jaw unit 32 places the battery 5 in the positioning groove 6411, the rotating motor 65 drives the carrying platform 641 to turn over to a state where the battery 5 is placed horizontally, and then the external device grabs the battery 5 and then puts the battery back to the tray.

The rotating assembly 6 of the preferred embodiment is used for feeding the detection equipment, the rotating assembly 6 of the other embodiment is used for blanking the detection equipment, the same material tray is used in the feeding and blanking processes, and materials are saved.

The utility model provides a turning clamp for charging and discharging of batteries, which comprises a turning clamp and a turning module, wherein the turning clamp is turned through the turning module, so that the batteries on the fixed turning clamp are turned, the batteries are automatically turned, the grabbing is convenient, and the batteries can be conveniently moved to a detection device and can be comprehensively detected inside the batteries; the battery placing position is positioned through the positioning groove, and a side through groove is formed in the side surface close to the positioning groove, so that the battery can be conveniently grabbed by the clamping equipment; the turning angle of the carrier is limited by the stop block, so that the carrier is placed in a certain angle, and meanwhile, the stop block is used for supporting the carrier; the battery overturning and transporting device comprises a grabbing component and a rotating component, the grabbing component grabs the vertical battery and places the battery on the clamp body after the battery is overturned by an angle through the rotating component, and accurate detection of detection equipment is facilitated; through the runner assembly, snatch the subassembly and realize going up the unloading to the anchor clamps body respectively to make the battery remove between anchor clamps body and charging tray, the utility model discloses convenient to use, simple structure.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way; the utility model can be smoothly implemented by the ordinary technicians in the industry according to the drawings and the above description; however, those skilled in the art should understand that changes, modifications and variations made by the above-described technology can be made without departing from the scope of the present invention, and all such changes, modifications and variations are equivalent embodiments of the present invention; meanwhile, any changes, modifications, evolutions, etc. of the above embodiments, which are equivalent to the actual techniques of the present invention, still belong to the protection scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a upset anchor clamps for unloading on battery, includes rotating assembly (6), its characterized in that: the rotating assembly (6) comprises a rotating clamp (64) and a rotating module; the rotating clamp (64) comprises a carrying platform (641) and a positioning clamp (642);

a bearing position for placing a battery (5) is arranged on the carrying platform (641), and one surface of the battery (5) is attached to the bearing position; the positioning clamp (642) is arranged on the carrying platform (641); moving the clamping part of the positioning clamp (642) towards the placing position, so as to fix the battery (5) placed in the placing position;

the carrying platform (641) is arranged on the rotatable end of the rotating module, and the carrying platform (641) is driven to rotate through the rotating module, so that the battery (5) fixed on the carrying platform (641) is turned over around the rotating center of the rotating module, and the position of the battery (5) is converted.

2. The turning clamp for loading and unloading of batteries as claimed in claim 1, wherein: the rotating assembly (6) further comprises a support frame (61), and the support frame (61) is used for forming a support structure of the rotating assembly (6);

the supporting frame (61) comprises a supporting side plate (611) and a driver fixing frame (623); the driver fixing frame (623) is installed on one side surface of the supporting side plate (611), the driving part of the rotating module is installed on the driver fixing frame (623), and the rotating clamp (64) is arranged on the other side surface of the supporting side plate (611).

3. The turning clamp for loading and unloading of batteries as claimed in claim 2, wherein: the supporting frame (61) is further provided with two sensors (63), and the sensors (63) are at least two, and the sensors (63) are arranged on a horizontal plane and a vertical plane where the rotation axis of the rotating module is located.

4. The turning clamp for loading and unloading of batteries as claimed in claim 2, wherein: a stop block (612) is arranged on one side surface of the supporting side plate (611) close to the rotating clamp (64), and the carrier (641) comprises a first limit surface (6413) and a second limit surface (6414); the first limit surface (6413) is the back surface corresponding to one surface on which the battery (5) is placed; the second limiting surface (6414) is a surface connected with the rotating module;

the number of the stop blocks (612) is two, the first limit surface (6413) is in contact with one stop block (612) on the support side plate (611), and after the carrying platform (641) is turned over, the second limit surface (6414) is in contact with the other stop block (612) on the support side plate (611).

5. The turning clamp for loading and unloading of batteries as claimed in claim 3, wherein: the rotating module comprises a rotating motor (65) and a rotating shaft (651), and one end of the rotating shaft (651) is installed on the rotating motor (65); one side surface of the rotating clamp (64) is arranged on the rotating shaft (651);

the number of the supporting side plates (611) is two, the rotating shaft (651) penetrates through the two supporting side plates (611), and the rotating clamp (64) is arranged between the two supporting side plates (611); the other end of the rotating shaft (651) is provided with a front cover (62).

6. The turning clamp for loading and unloading of batteries as claimed in claim 5, wherein: the sensor (63) is a photoelectric switch, an induction sheet is arranged on the front cover (62), and the induction sheet rotates to the photoelectric switch; thereby controlling the steering of the rotating electrical machine (65).

7. The turning clamp for loading and unloading of batteries as claimed in claim 1, wherein: a positioning groove (6411) for forming the bearing position is formed in the upper surface of the carrying platform (641);

the positioning groove (6411) is arranged at a side close to the carrying platform (641), so that part of the battery (5) protrudes out of the carrying platform (641).

8. The turning clamp for loading and unloading of batteries as claimed in claim 7, wherein: a side through groove (6412) is formed on the adjacent side surface of the carrying platform (641) provided with the positioning groove (6411); the side through groove (6412) is positioned to correspond to the positioning groove (6411), and the positioning groove (6411) is communicated with the side through groove (6412).

9. The turning clamp for loading and unloading of batteries as claimed in claim 7, wherein: a through hole is formed in the bottom of the positioning groove (6411), a detection module (643) is installed in the through hole, and the detection module (643) is used for detecting the placement of the battery (5) in the positioning groove (6411).

10. Battery upset conveyer, its characterized in that: comprising a rotating assembly (6) according to claim 1, a gripping assembly (3); the grabbing component (3) is used for grabbing the battery (5) so as to enable the driving battery (5) to move between the rotating component (6) and the clamp body (42);

the grabbing assembly (3) comprises a clamping jaw unit (32) and an unlocking unit (33), wherein the unlocking unit (33) comprises a drawing module (332) and an unlocking block (333);

the unlocking unit (33) is close to the material bearing block (421) of the clamp body (42), so that the unlocking block (333) is connected with the pushing block (4221) on the material bearing block (421), and the pulling module (332) drives the unlocking block (333), so that the pushing block (4221) is far away from the bearing position of the clamp body (42) for placing the battery (5); the clamping part of the clamping jaw unit (32) is close to the bearing position to take and place the battery (5).

Images