CN111208430B - Graphene battery electrode plate detection device - Google Patents

Abstract

The invention discloses a graphene battery electrode plate detection device, which comprises a detection box, wherein a detection cavity for detection is arranged in the detection box, a communicating cavity is also arranged in the detection box, the left end wall and the right end wall of the communicating cavity are communicated with the outside and are penetrated through by the upper end wall of the detection cavity, a driving belt with the left end and the right end both positioned outside is arranged in the communicating cavity, two penetrating cavities penetrating through the upper end surface and the lower end surface of the driving belt are arranged in the driving belt, a graphene electrode plate supported by the driving belt is arranged on the upper side of the penetrating cavity, and a clamping mechanism contacting the graphene electrode plate to be detected is arranged in the detection box. The efficiency of detection is improved.

Description

Graphene battery electrode plate detection device

Technical Field

The invention relates to the field of new materials, in particular to a graphene battery electrode plate detection device.

Background

After the battery graphene pole piece is produced, in order to determine the performance of the pole piece, detection is mostly needed, so that the quality of the produced pole piece is ensured; at present, after the production process of the pole piece is completed, the pole piece is clamped by a mechanical arm mostly and then the detection of the system is carried out, but the surface of the pole piece is damaged easily in the clamping process of the mechanical arm, so that the quality and the detection result of the pole piece are influenced.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a graphene battery electrode plate detection device, which overcomes the problems of damage to the surface of an electrode plate caused by clamping and the like, and thus improves the production quality.

The invention is realized by the following technical scheme.

The invention relates to a graphene battery electrode plate detection device, which comprises a detection box, wherein a detection cavity for detection is arranged in the detection box, a communicating cavity is also arranged in the detection box, the left end wall and the right end wall of the communicating cavity are communicated with the outside and are penetrated through by the upper end wall of the detection cavity, a transmission belt with the left end and the right end both positioned outside is arranged in the communicating cavity, two penetrating cavities penetrating through the upper end surface and the lower end surface of the transmission belt are arranged in the transmission belt, a graphene electrode plate supported by the transmission belt is arranged on the upper side of the penetrating cavities, a clamping mechanism contacting the graphene electrode plate to be detected is arranged in the detection box, the clamping mechanism comprises a lifting cavity positioned in the upper end wall and the lower end wall of the detection cavity, a lifting plate and a moving plate which can slide up and down are arranged in the lifting cavity, the lifting plate is connected with the moving plate, the lift chamber is kept away from the end wall that detects the chamber still is fixed with one end and runs through the lifter plate and with the dead lever of movable plate contact, the movable plate is close to the terminal surface that detects the chamber is fixed with two one ends and is located the bracing piece in detection chamber, it is equipped with two clamp plates and two to detect the intracavity the clamp plate respectively with upper and lower both sides bracing piece fixed connection, be equipped with in the clamp plate and be close to the end wall intercommunication of drive belt the driven groove in detection chamber, the lifter plate is close to the terminal surface of drive belt is fixed with one end and runs through lift chamber end wall with driven groove end wall just is located the lifter in the driven groove, be located in the driven groove the one end of lifter is fixed with the flitch just the flitch is close to the terminal surface of drive belt is fixed with electrically conductive conducting block, downside the lifter plate lower extreme is fixed with the lower extreme and runs through the downside the lift chamber lower extreme wall and upside the lift chamber Fall board fixed connection's connection rope, upside the lift chamber rear end wall is fixed with and drives the upside the electronic guide rail that the lift board goes up and down, it can restrict to be equipped with in the lift chamber left end wall the limiting mechanism of movable plate, it is used for detecting to be equipped with in the detection chamber left end wall the detection mechanism of graphite alkene pole piece, be equipped with in the detection case and be located the pushing mechanism of intercommunication chamber top.

Furthermore, the pushing mechanism comprises a lifting cavity which is positioned in the upper end wall of the communication cavity and the lower end wall of which is communicated with the communication cavity, a lifting plate which can be lifted and is arranged in the lifting cavity and two lifting springs which are connected with the lifting plate and the upper end wall of the lifting cavity are arranged in the lifting cavity, a sliding cavity which penetrates through the upper end surface and the lower end surface of the lifting plate is arranged in the lifting plate, a connecting column which penetrates through the lower end surfaces of the sliding cavity and the lower end wall of the lifting cavity and is positioned in the communication cavity is arranged in the lifting cavity, a limiting plate is fixed at the upper end of the connecting column, an annular block which is penetrated through by the lower end of the connecting column is arranged at the lower side of the lifting plate, a friction plate which is fixed at the lower end and is contacted with the upper end surface of the transmission belt is arranged at the lower end of the connecting column, a pushing cavity with a forward opening is arranged in the rear, the lifting mechanism is characterized in that a limiting groove with a downward opening is formed in the pushing block, an ejection cavity with an upward opening is formed in the lower end wall of the pushing cavity, a first electromagnet is fixed on the lower end wall of the ejection cavity, a trapezoidal block with an upper end located in the limiting groove and an ejection spring supporting the trapezoidal block are arranged in the ejection cavity, the lower end of the trapezoidal block is fixed with a transmission rope, the lower end of the trapezoidal block penetrates through the lower end wall of the ejection cavity, the lower end wall of the lifting cavity and the transmission rope fixedly connected with the lifting plate, and the right end of the annular block penetrates through the right end wall of the lifting cavity, the left end wall of the pushing cavity and the pull rope fixedly connected with.

Further, the limiting mechanism comprises a driving cavity which is located in the left end wall of the lifting cavity and is communicated with the lifting cavity, a push rod and two transmission springs are connected in the left end wall of the driving cavity in a sliding mode, the right end of the driving cavity is located in the lifting cavity and is located between the lifting plate and the movable plate, a limiting block is arranged between the limiting block and the movable plate, the left end of the limiting block is penetrated through the upper end of the push rod, the left end face of the push rod is fixedly provided with a left end penetrating through the left end wall of the driving cavity and the lifting cavity, the end wall of the driving belt is far away from the lifting cavity and is fixedly connected with the movable plate, a driven cavity with an opening to the left is arranged in the right end wall of the lifting cavity, a liftable driven block and a driven spring which is close to the end wall of the driving belt are arranged in the driven cavity, one end face of the driven block, close to the driving belt, is Move chamber left end wall and with catch bar fixed connection's rope, the end wall that the transmission chamber is kept away from detect the chamber is fixed with can with the stopper attract second electro-magnet mutually.

Further, detection mechanism is including being located detect the power in the chamber left end wall, the power downside be equipped with power electric connection's detector, the electric connection has the electric wire on the conducting block, the upside the electric wire upper end is fixed with the upper end and runs through from the moving groove upper end wall and upside go up and down the chamber end wall and with power electric connection, downside the electric wire lower extreme is fixed with the lower extreme and runs through from the moving groove lower end wall and downside go up and down from the chamber end wall and with detector electric connection, detection case right-hand member face is fixed with and shows the display screen of detector testing result.

Furthermore, the elastic force of the transmission spring is greater than that of the driven spring, the friction force between the moving plate and the driven block is greater than the sum of the elastic force of the driven spring and the elastic force of the transmission spring, the elastic force of the lifting spring is greater than that of the connection spring, the friction force between the friction plate and the transmission belt is greater than that of the push spring, and the elastic force of the ejection spring is greater than that of the lifting spring.

The invention has the beneficial effects that: the device simple structure, the simple operation directly accomplishes the electric conductive property detection to the pole piece through mechanical transmission to save the manipulator and press from both sides the process of getting the pole piece, thereby avoid getting the damage pole piece because of pressing from both sides, thereby guarantee the completeness of pole piece, and owing to save the process of getting, improved the efficiency that detects.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged view of the structure A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged view of the structure at B in FIG. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The graphene battery electrode plate detection device described in conjunction with the accompanying drawings 1-3 comprises a detection box 10, a detection cavity 23 for detection is arranged in the detection box 10, a communicating cavity 62 is further arranged in the detection box 10, the left end wall and the right end wall of the communicating cavity communicate with the outside, the communicating cavity is penetrated by the upper end wall of the detection cavity 23, a transmission belt 14 is arranged in the communicating cavity 62, the left end and the right end of the transmission belt 14 are both positioned at the outside, two penetrating cavities 15 penetrating the upper end face and the lower end face of the transmission belt 14 are arranged in the transmission belt 14, a graphene electrode plate 16 supported by the transmission belt 14 is arranged on the upper side of the penetrating cavity 15, a clamping mechanism 59 contacting the graphene electrode plate 16 to be detected is arranged in the detection box 10, the clamping mechanism 59 comprises a lifting cavity 30 positioned in the upper end wall and the lower end wall of the detection cavity 23, a lifting plate 34 and a movable plate 35 capable of sliding up and, downside the end wall is fixed with the connection under lift chamber 30 lift spring 31 of lifter plate 34, lift chamber 30 keeps away from the end wall that detects chamber 23 still is fixed with one end and runs through lifter plate 34 and with the dead lever 63 of moving plate 35 contact, moving plate 35 is close to the terminal surface that detects chamber 23 is fixed with two one ends and is located detect bracing piece 38 in chamber 23, be equipped with two clamp plate 21 and two in detecting chamber 23 clamp plate 21 respectively with upper and lower both sides bracing piece 38 fixed connection, be equipped with in the clamp plate 21 and be close to the end wall intercommunication of drive belt 14 detect the driven groove 37 of chamber 23, lifter plate 34 is close to the terminal surface of drive belt 14 is fixed with one end and runs through lift chamber 30 end wall with driven groove 37 end wall and be located the lifter 36 in driven groove 37, be located in driven groove 37 one end of lifter 36 is fixed with flitch 22 and the flitch 22 is close to drive belt 14 The terminal surface be fixed with electrically conductive conducting block 50, the downside the lifter plate 34 lower extreme is fixed with the lower extreme and runs through the downside the chamber 30 lower end wall and upside the chamber 30 lower end wall just with the upside the lifter plate 34 fixed connection's be connected rope 33, the upside the chamber 30 rear end wall is fixed with and drives the upside the electronic guide rail 45 that the lifter plate 34 goes up and down, be equipped with in the chamber 30 left end wall and restrict the limiting mechanism 60 of movable plate 35, be equipped with in the chamber 23 left end wall and be used for detecting detection mechanism 61 of graphite alkene pole piece 16, be equipped with in the detection case 10 and be located the pushing mechanism 58 of intercommunication chamber 62 top.

Advantageously, the pushing mechanism 58 includes a lifting cavity 55 located in the upper end wall of the communication cavity 62 and having a lower end wall communicated with the communication cavity 62, a lifting plate 53 capable of lifting and being arranged in the lifting cavity 55 and two lifting springs 54 connecting the lifting plate 53 and the upper end wall of the lifting cavity 55, a sliding cavity 57 penetrating through the upper and lower end surfaces of the lifting plate 53 is arranged in the lifting plate 53, a connecting column 52 having a lower end penetrating through the sliding cavity 57 and the lower end wall of the lifting cavity 55 and being located in the communication cavity 62 is arranged in the lifting cavity 55, a limiting plate 56 is fixed at the upper end of the connecting column 52, an annular block 64 penetrated through by the lower end of the connecting column 52 is arranged at the lower side of the lifting plate 53, a friction plate 51 having a lower end contacting with the upper end surface of the transmission belt 14 is fixed at the lower end of the connecting column 52, a pushing cavity 41 having a forward opening is arranged, a pushing block 44 with the front end positioned in the detection cavity 23 and a lifting plate 53 connecting the pushing block 44 and the rear end wall of the pushing cavity 41 are arranged in the pushing cavity 41, a limiting groove 47 with a downward opening is arranged in the pushing block 44, an ejection cavity 40 with an upward opening is arranged in the lower end wall of the pushing cavity 41, a first electromagnet 48 is fixed on the lower end wall of the ejection cavity 40, a trapezoidal block 46 with the upper end positioned in the limiting groove 47 and an ejection spring 39 supporting the trapezoidal block 46 are arranged in the ejection cavity 40, a driving rope 49 with the lower end penetrating through the lower end wall of the ejection cavity 40 and the lower end wall of the lifting cavity 55 and fixedly connected with the lifting plate 53 is fixed at the lower end of the trapezoidal block 46, a pull rope 42 is fixed at the right end of the annular block 64, the right end of the pull rope penetrates through the right end wall of the lifting cavity 55 and the left end wall of the pushing cavity 41, and the pull rope is fixedly connected with the pushing block 44.

Beneficially, the limiting mechanism 60 includes a transmission cavity 27 located in the left end wall of the lifting cavity 30 and communicating with the lifting cavity 30, a push rod 29 and two transmission springs 25 connecting the push rod 29 and the left end wall of the transmission cavity 27 are slidably connected in the transmission cavity 27, a limit block 28 is further disposed in the transmission cavity 27 and having a right end located in the lifting cavity 30 and located between the lifting plate 34 and the moving plate 35, the left end of the limit block 28 is penetrated by the upper end of the push rod 29, a chain 32 having a left end penetrating through the left end wall of the transmission cavity 27 and the end wall of the lifting cavity 30 far away from the transmission belt 14 and fixedly connected with the moving plate 35 is fixed on the left end surface of the push rod 29, a driven cavity 11 having a leftward opening is disposed in the right end wall of the lifting cavity 30, a liftable driven block 12 and a driven spring 13 connecting the driven block 12 and the driven cavity 11 and close to the end wall of the transmission belt 14 are disposed in the driven cavity 11, a rope 26 with one end penetrating through the end wall of the driven cavity 11 and the left end wall of the transmission cavity 27 and fixedly connected with the push rod 29 is fixed on the end surface of the driven block 12 close to the transmission belt 14, and a second electromagnet 66 which can attract the limit block 28 is fixed on the end wall of the transmission cavity 27 far away from the detection cavity 23.

Beneficially, the detection mechanism 61 includes a power supply 19 located in the left end wall of the detection chamber 23, a detector 20 electrically connected to the power supply 19 is disposed on the lower side of the power supply 19, an electric wire 65 is electrically connected to the conductive block 50, an upper end of the electric wire 65 is fixed on the upper side and a lower end of the electric wire 65 is fixed on the upper side and penetrates through the upper end wall of the driven slot 37 and the upper and lower end walls of the lifting chamber 30 on the upper side and is electrically connected to the power supply 19, a lower end of the electric wire 65 is fixed on the lower side and a lower end of the electric wire 65 penetrates through the lower end wall of the driven slot 37 and the upper and lower end walls of the lifting chamber 30 on the lower side and is electrically connected.

Advantageously, the elastic force of the driving spring 25 is greater than that of the driven spring 13, the frictional force between the moving plate 35 and the driven block 12 is greater than the sum of the elastic force of the driven spring 13 and the elastic force of the driving spring 25, the elastic force of the lifting spring 31 is greater than that of the connecting spring 18, the frictional force between the friction plate 51 and the driving belt 14 is greater than that of the pushing spring 43, and the elastic force of the ejecting spring 39 is greater than that of the lifting spring 54.

In the initial state, the chain 32 is in a loose state, the follower spring 13, the lifting spring 31 and the pushing spring 43 are in a compressed state, and the lifting spring 54 is in a stretched state;

the transmission belt 14 works to convey the graphene pole piece 16 into the detection cavity 23, then the transmission belt 14 stops working, the electric guide rail 45 works to drive the upper lifting plate 34 to descend, so as to drive the upper limiting block 28 and the moving plate 35 to descend, so as to enable the supporting rod 38 and the lifting rod 36 to descend, the descending of the upper lifting plate 34 enables the connecting rope 33 to loosen, so that the lifting spring 31 is reset to drive the lower lifting plate 34 to ascend, so as to enable the lower limiting block 28 and the moving plate 35 to ascend, so as to enable the lifting rod 36 and the supporting rod 38 to ascend, so as to enable the two supporting rods 38 to approach each other, finally, the upper clamping plate 21 contacts with the upper end face of the graphene pole piece 16, the lower clamping plate 21 contacts with the lower end face of the graphene pole piece 16, and the moving plate 35 contacts with the end wall of; the moving plate 35 contacts with the driven block 12 in the moving process, so as to drive the driven block 12 to approach towards the direction of the transmission belt 14, so that the driven spring 13 continues to be compressed and the rope 26 continues to become loose, as the moving plate 35 gradually tensions the chain 32 due to the movement, when the moving plate 35 contacts with the end wall of the lifting cavity 30 close to the detection cavity 23, the chain 32 is completely tensioned, so as to drive the push rod 29 to move leftwards and compress the transmission spring 25, so as to drive the stopper 28 to move leftwards and leave the lifting cavity 30, at this time, the limitation of the stopper 28 is lost, the lifting plate 34 can continue to approach towards the transmission belt 14 and compress the connecting spring 18, so as to drive the lifting rod 36 to continue to move, so as to drive the attachment plate 22 to move, so as to make the conductive block 50 attach to the graphene pole piece 16, as the stopper 28 returns to the transmission cavity 27 and then the second, thereby moving the stop 28 away from the belt 14; the power supply 19 starts to supply power when working, the current flows back into the power supply 19 through the electric wire 65, the conductive block 50 and the detector 20, and the result is displayed on the display screen 17 after the detector 20 detects the current, so that the detection is completed; the electric guide rail 45 works to drive the upper lifting plate 34 to move upwards, the lower lifting plate 34 moves downwards through the transmission of the connecting rope 33, so that the lifting spring 31 is compressed, the lifting rod 36 is firstly far away from the graphene pole piece 16, so that the conductive block 50 is far away from the graphene pole piece 16, after the connecting spring 18 is reset, the movement of the lifting plate 34 drives the moving plate 35 to move towards the direction far away from the transmission belt 14, so that the supporting rod 38 and the clamping plate 21 are driven to reset away from the graphene pole piece 16, the chain 32 is loosened when the moving plate 35 moves away from the transmission belt 14, the moving plate 35 drives the driven block 12 to move away, so that the rope 26 is tensioned, the chain 32 is loosened to reset so that the driving spring 25 drives the pushing rod 29 to move rightwards, and the rope 26 is tensioned, so that the pushing rod 29 cannot move, the limit block 28 is still left in the transmission cavity 27, and when the moving plate 35 moves, the moving plate 35 can not be further far away from the transmission belt 14, and at the moment, the moving plate 35 is separated from the driven block 12, so that the transmission spring 25 is reset, the push rod 29 moves rightwards, and the limit block 28 is driven to move rightwards to reset; if the detection is not qualified, the first electromagnet 48 works to attract the trapezoidal block 46, so that the trapezoidal block 46 descends and leaves the limiting groove 47, the transmission rope 49 is loosened, the lifting spring 54 is reset to drive the lifting plate 53 to ascend, the limiting plate 56 and the connecting column 52 ascend, the lower end face of the friction plate 51 is separated from the transmission belt 14, the pushing spring 43 is reset to drive the pushing block 44 to move forwards, and the graphene pole piece 16 is driven to move forwards and leave the upper side of the transmission belt 14 to complete separation; when the next graphene pole piece 16 is detected, the first electromagnet 48 is not operated, so that the ejection spring 39 is reset to drive the trapezoidal block 46 to ascend, the transmission rope 49 is tensioned, the lifting plate 53 is lowered and stretches the lifting spring 54, the connecting column 52 is lowered with the friction plate 51, the lower end of the friction plate 51 is contacted with the lower end face of the transmission belt 14, the friction plate 51 moves leftwards along with the transmission belt 14, the annular block 64 is driven to move leftwards, the pull rope 42 is tensioned, the pushing block 44 moves leftwards, and when the trapezoidal block 46 is located on the lower side of the limiting groove 47, the trapezoidal block 46 enters the limiting groove 47 to limit the pushing block 44.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (3)

1. The utility model provides a graphite alkene battery electrode slice detection device, includes the detection case, its characterized in that: the detection device is characterized in that a detection cavity for detection is arranged in the detection box, a left end wall and a right end wall are communicated with the outside and are penetrated through by the upper end wall of the detection cavity, a transmission belt with a left end and a right end located at the outside is arranged in the communication cavity, two through cavities which penetrate through the upper end face and the lower end face of the transmission belt are arranged in the transmission belt, a graphene pole piece supported by the transmission belt is arranged on the upper side of the through cavity, a clamping mechanism which is in contact with the graphene pole piece to be detected is arranged in the detection box, the clamping mechanism comprises a lifting cavity located in the upper end wall and the lower end wall of the detection cavity, a lifting plate and a moving plate which can slide up and down are arranged in the lifting cavity, the lifting plate is connected with the moving plate through a connecting spring, a lifting spring which is connected with the lifting plate is fixed on the lower end wall of the lifting cavity, and a fixing Two support rods with one ends positioned in the detection cavity are fixed on the end surface of the movable plate close to the detection cavity, two clamping plates are arranged in the detection cavity and are respectively and fixedly connected with the upper side and the lower side of the support rods, a driven groove close to the end wall of the driving belt is arranged in each clamping plate and is communicated with the detection cavity, a lifting rod with one end penetrating through the end wall of the lifting cavity and the end wall of the driven groove and positioned in the driven groove is fixed on the end surface of the lifting plate close to the driving belt, a pasting plate is fixed on one end of the lifting rod positioned in the driven groove and is fixed with a conductive block on the end surface of the pasting plate close to the driving belt, a connecting rope with the lower end penetrating through the lower end wall of the lifting cavity and the upper side and fixedly connected with the lifting plate is fixed, an electric guide rail capable of driving the lifting plate at the upper side to lift is fixed on the rear end wall of the lifting cavity at the upper side, a limiting mechanism capable of limiting the moving plate is arranged in the left end wall of the lifting cavity, a detection mechanism for detecting the graphene pole piece is arranged in the left end wall of the detection cavity, and a pushing mechanism located above the communication cavity is arranged in the detection box; the pushing mechanism comprises a lifting cavity which is positioned in the upper end wall of the communication cavity and the lower end wall of which is communicated with the communication cavity, a lifting plate which can be lifted and is arranged in the lifting cavity and two lifting springs which are connected with the lifting plate and the upper end wall of the lifting cavity are arranged in the lifting plate, a sliding cavity which penetrates through the upper end surface and the lower end surface of the lifting plate is arranged in the lifting plate, a connecting column of which the lower end penetrates through the sliding cavity and the lower end wall of the lifting cavity and is positioned in the communication cavity is arranged in the lifting cavity, a limiting plate is fixed at the upper end of the connecting column, an annular block which is penetrated through by the lower end of the connecting column is arranged at the lower side of the lifting plate, a friction plate of which the lower end is contacted with the upper end surface of the transmission belt is fixed at the lower end of the connecting column, a pushing cavity with a forward opening is arranged in the rear end wall, a limiting groove with a downward opening is formed in the pushing block, an ejection cavity with an upward opening is formed in the lower end wall of the pushing cavity, a first electromagnet is fixed on the lower end wall of the ejection cavity, a trapezoidal block with the upper end located in the limiting groove and an ejection spring supporting the trapezoidal block are arranged in the ejection cavity, a transmission rope with the lower end penetrating through the lower end wall of the ejection cavity and the lower end wall of the lifting cavity and fixedly connected with the lifting plate is fixed at the lower end of the trapezoidal block, and a pull rope with the right end penetrating through the right end wall of the lifting cavity and the left end wall of the pushing cavity and fixedly connected with the pushing block is fixed at the right end of the annular block; limiting mechanism is including being located lift chamber left end wall is interior and intercommunication the transmission chamber in lift chamber, transmission intracavity sliding connection has catch bar and two connections the catch bar with two transmission springs of transmission chamber left end wall, the transmission intracavity still is equipped with the right-hand member and is located the lift intracavity just be located the lifter plate with stopper between the movable plate, the stopper left end quilt the catch bar upper end is run through, the catch bar left end face is fixed with the left end and runs through transmission chamber left end wall with the lift chamber is kept away from the end wall of drive belt and with movable plate fixed connection's chain, be equipped with the driven chamber of opening left in the lift chamber right-hand member wall, driven intracavity is equipped with the driven piece of liftable and connects the driven piece with the driven chamber is close to the driven spring of drive belt end wall, the driven piece is close to the terminal surface of drive belt is fixed with one end and runs through driven chamber end wall with transmission chamber left end wall And the rope is fixedly connected with the pushing rod, and a second electromagnet which can attract the limiting block is fixed on the end wall of the transmission cavity far away from the detection cavity.

2. The graphene battery electrode plate detection device according to claim 1, characterized in that: detection mechanism is including being located detect the power in the chamber left end wall, the power downside be equipped with power electric connection's detector, the electric connection has the electric wire on the conducting block, the upside the electric wire upper end is fixed with the upper end and runs through from the moving groove upper end wall and upside go up and down the chamber end wall and with power electric connection, downside the electric wire lower extreme is fixed with the lower extreme and runs through from the moving groove lower end wall and downside go up and down from the chamber end wall and with detector electric connection, detection case right-hand member face is fixed with and shows the display screen of detector testing result.

3. The graphene battery electrode plate detection device according to claim 2, characterized in that: the elastic force of the transmission spring is greater than that of the driven spring, the friction force between the moving plate and the driven block is greater than the sum of the elastic force of the driven spring and the elastic force of the transmission spring, the elastic force of the lifting spring is greater than that of the connecting spring, the friction force between the friction plate and the transmission belt is greater than that of the pushing spring, and the elastic force of the ejection spring is greater than that of the lifting spring.

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