CN114527038A

CN114527038A - Polymer battery production batching stirring viscosity measurement system

Info

Publication number: CN114527038A
Application number: CN202210162888.3A
Authority: CN
Inventors: 曾洪华; 曾宪武; 蔡锦伟; 陈宗发
Original assignee: Foshan Teamgiant New Energy Technology Co Ltd
Current assignee: Foshan Teamgiant New Energy Technology Co Ltd
Priority date: 2022-02-22
Filing date: 2022-02-22
Publication date: 2022-05-24
Anticipated expiration: 2042-02-22
Also published as: CN114527038B

Abstract

The invention relates to the technical field of battery production, in particular to a system for measuring the mixing viscosity of polymer battery production ingredients, which comprises a mixing drum, wherein the mixing drum is fixed at the top of a base; the viscosity detector is fixed on the top of the base; the connecting pipe is fixedly communicated with the input end of the viscosity detector, and one end of the connecting pipe, which is back to the viscosity detector, is fixedly communicated with the inside of the stirring drum; the electromagnetic valve is fixed inside the connecting pipe; and the stirring detection device is arranged at the top of the support frame. This device carries out even stirring to the inside batching of churn through stirring detection device's setting to relative pressure when stirring detects, is favorable to whether the discernment batching that the operator is accurate stirs evenly, thereby is favorable to carrying out the data accuracy when viscosity measurement to the batching.

Description

Polymer battery production batching stirring viscosity measurement system

Technical Field

The invention relates to the field of battery production, in particular to a system for measuring the mixing viscosity of ingredients in the production of polymer batteries.

Background

A battery refers to a device that converts chemical energy into electrical energy in a portion of the space of a cup, tank, or other container or composite container that holds an electrolyte solution and metal electrodes to produce an electrical current. Has a positive electrode and a negative electrode. With the advancement of technology, batteries generally refer to small devices that can generate electrical energy.

The prior art discloses an invention patent in the aspect of partial battery production, and a Chinese patent with the application number of CN201910966374.1, and discloses an efficient stirring and batching device for lithium battery production, which comprises a stirring bin, a bottom rod, a telescopic rod and a rotating plate; the main body is of a rectangular structure, side pieces of a wedge-shaped structure are arranged on two sides of the main body, and side plates are arranged on two sides of the bottom of the right end of the main body in a fixed connection mode; the top end of the rotating piece is connected with the bottom end of the transmission rod in a fixed connection mode; the buffer block is made of rubber, and in addition, the inner end of the stress block is arranged in the main body.

In order to meet the use requirement of the stirred battery ingredients, viscosity measurement needs to be carried out on the stirred ingredients, and when the viscosity measurement is carried out, whether the ingredients are stirred uniformly or not is difficult to confirm, so that the detected viscosity data has locality and is difficult to represent the overall viscosity of the ingredients. Therefore, the invention provides a polymer battery production ingredient stirring viscosity measurement system for solving the problems.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a stirring viscosity measuring system for polymer battery production ingredients.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: polymer battery production batching stirring viscosity measurement system, including the base, the top of base is fixed with the lift seat, the top of lift seat is fixed with the support frame, still includes:

the mixing drum is fixed at the top of the base;

the viscosity detector is fixed on the top of the base;

the connecting pipe is fixedly communicated with the input end of the viscosity detector, and one end of the connecting pipe, which is back to the viscosity detector, is fixedly communicated with the inside of the mixing drum;

the electromagnetic valve is fixed inside the connecting pipe;

stirring detection device, stirring detection device install in the top of support frame, stirring detection device is used for right carry out preliminary detection to batching viscosity when the inside of churn stirs.

Preferably, the stirring detection device includes first mobile station, first mobile station movable sleeve is located the outer lane of support frame, first mobile station dorsad the orbit actuating mechanism is installed to the one end bottom of support frame, orbit actuating mechanism with install stirring actuating mechanism between the churn, orbit actuating mechanism is used for driving stirring actuating mechanism carries out the circulation according to certain orbit and removes, stirring actuating mechanism is used for right the inside of churn is stirred and is carried out real-time viscosity detection, orbit actuating mechanism with install the mechanism of falling between the support frame, it is used for the mechanism of falling the orbit actuating mechanism is right after every two circles first mobile station carries out a check and falls the position.

Preferably, the orbit actuating mechanism includes first motor, first motor is fixed in the top of first mobile station, the output of first motor runs through coaxial second plectane that is fixed with behind the first mobile station, one side of second plectane bottom is fixed with first slide rail, the opposite side of second plectane bottom is fixed with the cylinder, the inside sliding connection of first slide rail has first slider, the bottom of first slider is fixed with the second mobile station, the second mobile station with stirring actuating mechanism is connected, the output of cylinder with the lateral wall fixed connection of second mobile station.

Preferably, the stirring actuating mechanism includes the mounting groove, the mounting groove is seted up in the inside of second mobile station, the inside of mounting groove is fixed with the second motor, the output shaft of second motor runs through the bottom after-fixing of second mobile station has the pivot, the outside cover of pivot is equipped with the rotation barrel, rotate the barrel with install the pressure detection mechanism who is used for detecting relative pressure when stirring between the pivot, the outer lane of rotating the barrel is fixed with a plurality of puddlers.

Preferably, the pressure detection mechanism comprises a fan-shaped rotating block, a fan-shaped inner groove and a display screen, the fan-shaped inner groove is formed in the rotating cylinder, the fan-shaped rotating block is fixed on the side wall of the rotating shaft and located inside the fan-shaped inner groove, four annular rods are symmetrically and vertically fixed inside the fan-shaped inner groove, four arc-shaped through holes are symmetrically and vertically formed in the fan-shaped rotating block, the annular rods are slidably inserted into the arc-shaped through holes, pressure sensors are fixed on the side walls of the two sides of the fan-shaped rotating block, and the display screen is fixed on the side wall of the first moving table.

Preferably, the descending mechanism comprises a second slide rail, a first circular plate and a plurality of first yielding grooves, the second slide rail is fixed at the top of the second circular plate, the inside of the second slide rail is connected with a slide bar in a sliding manner, the top of the slide bar is fixed with a second slide block, the first circular plate is fixed at the bottom of the first mobile station, the bottom of the first circular plate is fixed with a track limiting plate, the top of the second slide block is connected inside the track of the track limiting plate in a sliding manner, the track limiting plate comprises a first limiting groove, a second limiting groove and a third limiting groove, the side surface of the inner wall of the third limiting groove is provided with an arc-shaped mounting groove, the inner wall of the arc-shaped mounting groove is hinged with an arc-shaped guide plate, the side surface of the arc-shaped guide plate is provided with a slide groove, the inner wall of the slide groove is connected with a pushing slide block in a sliding manner, and the side surface of the pushing slide block is hinged with a pushing cylinder, correspond on the inner wall of arc mounting groove the position of push cylinder has been seted up and has been connected logical groove, push cylinder fixed mounting be in connect the inside in logical groove, it is whole the vertical array in first groove of stepping down is seted up in the inside of support frame, first rotation groove has all been seted up, two to the both sides in first inslot portion of stepping down first rotation inslot's inside all rotates and installs the bracing piece, the bracing piece is right first mobile station supports, two on the same group through elastic mechanism interconnect between the bracing piece, elastic mechanism is used for maintaining the pulling two the bracing piece is withdrawed in step to first inslot portion's elasticity trend power of stepping down.

Preferably, the elastic mechanism comprises two rectangular inner grooves, the two rectangular inner grooves are respectively arranged at the opposite ends of the two support rods, second rotating grooves are respectively arranged in the middle parts of the two support rods in a penetrating manner, the second rotating grooves are communicated with the rectangular inner grooves, rotating blocks are respectively rotatably connected inside the two second rotating grooves, and second springs are jointly fixed at the opposite ends of the two rotating blocks.

Preferably, one side of the support frame is provided with a groove, a pulling rod is inserted in the groove in a sliding manner, an arc-shaped groove is arranged on one side of the supporting frame and is positioned in the middle of the groove, a plurality of traction ropes corresponding to the support rods are fixed at the two ends of the pulling rod in an array manner, one end of each traction rope, which is back to the pulling rod, is fixedly connected with the support rods, a third spring is jointly fixed between one side of the pulling rod facing the supporting frame and the inner part of the groove, a plurality of second abdicating grooves matched with the traction ropes are arranged on the side wall of the support frame in an array way, when the support frame is not stored in the first abdicating groove, the traction rope is in a loose state, when the support frame is not accomodate to inside the first groove of stepping down, the haulage rope is straightened and is embedded inside the second groove of stepping down.

Preferably, the bottom of rotating the barrel is fixed with the drum, the bottom of rotating the barrel is fixed with first spring, first spring is located the inside of drum, the bottom of first spring is fixed with the spheroid, the spheroidal top is fixed with the vocal ware, the bottom of rotating the barrel is fixed with pressure switch, pressure switch with vocal ware electric connection and looks adaptation, pressure switch with the vocal ware all is located the inside of drum, the outer lane array cover of pivot is equipped with the different colored rubber cover of a plurality of colours, colored rubber cover is located the top of rotating the barrel.

Preferably, a heat preservation shell is fixed outside the mixing drum, an electric heating wire is fixed inside the heat preservation shell, and the electric heating wire is connected with an external power supply.

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

1. according to the invention, through the arrangement of the stirring detection device, the ingredients in the stirring cylinder are uniformly stirred, so that the ingredients can be fully stirred during stirring, and through the detection of the relative pressure during stirring, an operator can accurately identify whether the ingredients are uniformly stirred, so that the data during viscosity measurement of the ingredients are accurate.

2. According to the invention, through the arrangement of the track driving mechanism, the second mobile platform is in spiral reciprocating motion under the combined action of the pushing of the cylinder and the rotation of the second circular plate, so that the uniform stirring of the interior of the stirring cylinder is facilitated, and the uniform viscosity of ingredients in the stirring cylinder after stirring is facilitated.

3. According to the invention, through the arrangement of the stirring driving mechanism, an operator can observe the non-uniform viscosity of the ingredients through the change of the numerical value, and after the viscosity of the ingredients is uniform, even if the stirring rod is subjected to position change during stirring, the numerical value detected by the pressure detection mechanism can still be kept relatively stable, so that the operator can observe the uniform viscosity through the numerical value, and thus the viscosity numerical value measurement can be favorably carried out after the viscosity of the ingredients is uniform, and the accuracy of the viscosity measurement numerical value is favorably realized.

4. The invention can make the sliding rod poke the supporting rod after rotating for two circles through the arrangement of the position lowering mechanism, the supporting rods are retracted, the supporting rods with the same height are retracted synchronously under the action of the elastic mechanism, the first abdicating groove provides a containing space for the retracted supporting rods, so that the height of the first mobile station is reduced after the first mobile station loses the support of the supporting rods, the ingredients in the mixing drum are further mixed, and after the sliding rod stirs the supporting rod, the mixing chamber at the same height is needed again, can adjust arc guide board upset entering third spacing inslot portion and with the port border butt joint of first spacing groove through promoting the cylinder, realize once more that the high department stirs here, adjust as required after a period until the stirring, be favorable to guaranteeing to rotate just can reduce the stirring height after the stirring is circulated to the batching, reciprocate the stirring in the same position when avoiding stirring and cause the stirring inhomogeneous.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a structural schematic diagram of the present invention after being wholly sectioned.

Fig. 3 is a partially enlarged structural diagram of a portion a in fig. 2 according to the present invention.

Fig. 4 is a structural schematic diagram of the present invention after being integrally inclined in section.

Fig. 5 is a partially enlarged structural diagram of the invention at B in fig. 4.

Fig. 6 is a schematic structural diagram of the present invention after rotating the cylinder section.

Fig. 7 is a partially enlarged structural view of the invention at C in fig. 6.

Fig. 8 is a partially enlarged structural view of the invention at D in fig. 6.

Fig. 9 is a schematic structural view of the top section of the rotary cylinder of the present invention.

Fig. 10 is a schematic view showing a connection structure of the track defining plate and the slide bar according to the present invention.

Fig. 11 is a partially enlarged structural view of the part E in fig. 10 according to the present invention.

Fig. 12 is a partially enlarged view of F in fig. 10 according to the present invention.

Fig. 13 is a schematic view of the connection relationship between the arcuate guide plate and the pushing cylinder according to the present invention.

FIG. 14 is a top cross-sectional view of the support frame of the present invention.

Fig. 15 is a partially enlarged view of the structure at G in fig. 14 according to the present invention.

Fig. 16 is a partially enlarged view of the structure at H in fig. 15 according to the present invention.

FIG. 17 is a schematic structural view of the present invention with one side of the supporting frame along the cross section of the groove.

Fig. 18 is a partially enlarged structural view of the part I in fig. 17 according to the present invention.

In the figure: 1. a base; 2. a mixing drum; 3. a viscosity detector; 4. a connecting pipe; 5. an electromagnetic valve; 6. a lifting seat; 7. a support frame; 8. a first mobile station; 9. a first circular plate; 10. a first motor; 11. a second circular plate; 12. a first slide rail; 13. a cylinder; 14. a second mobile station; 15. mounting grooves; 16. a second motor; 17. a rotating shaft; 18. a sector turning block; 19. rotating the cylinder; 20. a stirring rod; 21. a sector-shaped inner groove; 22. an annular rod; 23. an arc-shaped through hole; 24. a pressure sensor; 25. a cylinder; 26. a sphere; 27. a first spring; 28. a pressure switch; 29. a sound generator; 30. a color rubber sleeve; 31. a first slider; 32. a second slide rail; 33. a slide bar; 34. a second slider; 35. a track defining plate; 3501. a first limit groove; 3502. a second limit groove; 3503. a third limiting groove; 36. a first abdicating groove; 37. a first rotating groove; 38. a support bar; 39. a rectangular inner groove; 40. a second rotating groove; 41. rotating the block; 42. a second spring; 43. a groove; 44. pulling a rod; 45. a third spring; 46. a hauling rope; 47. a second abdicating groove; 48. a heat preservation shell; 49. an electric heating wire; 50. a display screen; 51. an arc-shaped slot; 52. an arc-shaped guide plate; 5201. a sliding groove; 5202. pushing the slide block; 53. and pushing the air cylinder.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments described below are by way of example only, and other obvious variations will occur to those skilled in the art.

The polymer battery production ingredient stirring viscosity measurement system as shown in fig. 1 to fig. 18 comprises a base 1, wherein a lifting seat 6 is fixed on the top of the base 1, a support frame 7 is fixed on the top of the lifting seat 6, and the system further comprises:

the mixing drum 2 is fixed on the top of the base 1;

the viscosity detector 3 is fixed on the top of the base 1;

the connecting pipe 4 is fixedly communicated with the input end of the viscosity detector 3, and one end of the connecting pipe 4, which is back to the viscosity detector 3, is fixedly communicated with the inside of the mixing drum 2;

the electromagnetic valve 5 is fixed inside the connecting pipe 4;

the stirring detection device is arranged at the top of the support frame 7 and is used for primarily detecting the viscosity of the ingredients while stirring the inside of the stirring cylinder 2; during operation, the battery ingredients need to be stirred and mixed in the battery production, in order to enable the stirred battery ingredients to supply the use requirement, the viscosity of the stirred ingredients needs to be measured, and during the viscosity measurement, whether the ingredients are sufficiently and uniformly stirred is difficult to confirm, so that the detected viscosity data has locality and is difficult to represent the overall viscosity of the ingredients, the embodiment of the invention can solve the problems, and specifically, the base 1 can support and mount the whole ingredients, the stirring drum 2 is used for stirring the ingredients, the lifting seat 6 can support and mount the support frame 7, the support frame 7 can support and mount the stirring detection device, the stirring detection device can detect the relative pressure generated by stirring while uniformly stirring the ingredients in the stirring drum 2, and after the ingredients in the stirring drum 2 are uniform in viscosity, the pressure that stirring detection device detected during the stirring is invariable relatively, open solenoid valve 5 afterwards, make the inside batching of churn 2 get into viscosity detector 3's inside along connecting pipe 4, thereby start viscosity detector 3 and measure batching viscosity, be favorable to avoiding carrying out that the stirring of batching is not enough even and the measured data that leads to when viscosity measurement is inaccurate, thereby be favorable to the accurate measurement to batching stirring back viscosity, make operating personnel can feed in raw material and add solution according to the viscosity demand of batching stirring after obtaining accurate viscosity data, thereby make the batching can allocate to the viscosity of needs through the detection of viscosity and the interpolation of batching after the stirring, make the batching after the processing can satisfy the user demand.

As an embodiment of the invention, the stirring detection device comprises a first mobile station 8, the first mobile station 8 is movably sleeved on an outer ring of a support frame 7, a track driving mechanism is installed at the bottom of one end of the first mobile station 8, which is back to the support frame 7, a stirring driving mechanism is installed between the track driving mechanism and a stirring drum 2, the track driving mechanism is used for driving the stirring driving mechanism to circularly move according to a certain track, the stirring driving mechanism is used for stirring the inside of the stirring drum 2 and performing real-time viscosity detection, a lowering mechanism is installed between the track driving mechanism and the support frame 7, and the lowering mechanism is used for performing one-step lowering on the first mobile station 8 after the track driving mechanism rotates for two circles; during operation, the first mobile station 8 can fixedly install the track driving mechanism, the track driving mechanism can drive the stirring driving mechanism to circularly move according to a specified track after being started, so that the stirring driving mechanism can stir the inside of the stirring cylinder 2 in all directions through the circular movement, the uniform distribution of the viscosity of ingredients is facilitated, the stirring driving mechanism can stir the inside of the stirring cylinder 2 and check the relative pressure generated during stirring, the change of the viscosity is indicated through the change of the relative pressure, the lowering mechanism can drive the first mobile station 8 to carry out one-grid lowering after the stirring at the same height is finished under the guidance of the track driving mechanism, so that the stirring driving mechanism can stir different heights inside the stirring cylinder 2, and the uniform stirring of the ingredients inside the stirring cylinder 2 is facilitated, thereby be favorable to the batching to carry out intensive mixing when stirring to relative pressure when stirring detects, whether the discernment batching that is favorable to the operator to be accurate stirs evenly, thereby is favorable to carrying out the data accuracy when viscosity measurement to the batching.

As an embodiment of the present invention, the trajectory driving mechanism includes a first motor 10, the first motor 10 is fixed on the top of the first moving stage 8, a second circular plate 11 is coaxially fixed after the output end of the first motor 10 penetrates through the first moving stage 8, a first slide rail 12 is fixed on one side of the bottom of the second circular plate 11, a cylinder 13 is fixed on the other side of the bottom of the second circular plate 11, a first slide block 31 is slidably connected inside the first slide rail 12, a second moving stage 14 is fixed on the bottom of the first slide block 31, the second moving stage 14 is connected with the stirring driving mechanism, and the output end of the cylinder 13 is fixedly connected with the side wall of the second moving stage 14; during operation, first motor 10 can drive second plectane 11 through the output shaft after starting to rotate, second plectane 11 can drive first slide rail 12 and cylinder 13 after rotating and rotate, first slide rail 12 can inject second mobile station 14's removal orbit through first slider 31, cylinder 13 can drive second mobile station 14 through the output after starting and carry out reciprocating motion along first slide rail 12, cylinder 13 promotes second mobile station 14 and carries out a whole reciprocating motion when controlling first motor 10 and drive second plectane 11 and rotate two rings, thereby make second mobile station 14 do the spiral reciprocating motion in plane under the promotion of cylinder 13 and the rotation combined action of second plectane 11, thereby be favorable to carrying out even stirring to the inside of churn 2, be favorable to the batching stirring back viscosity of churn 2 inside even.

As an embodiment of the present invention, the stirring driving mechanism includes a mounting groove 15, the mounting groove 15 is opened inside the second mobile station 14, a second motor 16 is fixed inside the mounting groove 15, an output shaft of the second motor 16 penetrates through the bottom of the second mobile station 14 and then is fixed with a rotating shaft 17, a rotating cylinder 19 is sleeved outside the rotating shaft 17, a pressure detecting mechanism for detecting relative pressure during stirring is installed between the rotating cylinder 19 and the rotating shaft 17, and a plurality of stirring rods 20 are fixed on an outer ring of the rotating cylinder 19; during operation, the installation of the second motor 16 can be carried out in the installation groove 15, the second motor 16 can drive the rotating shaft 17 to rotate through the output shaft after being started, the rotating shaft 17 drives the rotating cylinder 19 to rotate under the action of the pressure detection mechanism after rotating, the rotating cylinder 19 drives the stirring rod 20 to rotate, so that the inside of the stirring cylinder 2 is stirred through the rotation of the stirring rod 20, the pressure detection mechanism can detect the relative pressure generated between the rotating shaft 17 and the rotating cylinder 19 when driving the rotating cylinder 19 to rotate, when the batching viscosity is not uniform, the position of the stirring rod 20 is continuously moved during stirring, so that the value detected by the pressure detection mechanism is unstable, an operator can observe the non-uniform viscosity of the batching through the change of the value, after the batching viscosity is uniform, even if the stirring rod 20 carries out the position change during stirring, the value detected by the pressure detection mechanism can still keep relatively stable, the viscosity can be observed by an operator through the value, so that the viscosity value can be measured by the operator after the viscosity of the ingredients is uniform, and the accuracy of the viscosity measurement value is facilitated.

As an embodiment of the present invention, the pressure detection mechanism includes a fan-shaped rotation block 18, a fan-shaped inner groove 21 and a display screen 50, the fan-shaped inner groove 21 is opened inside the rotation cylinder 19, the fan-shaped rotation block 18 is fixed on the side wall of the rotation shaft 17, the fan-shaped rotation block 18 is located inside the fan-shaped inner groove 21, four annular rods 22 are fixed inside the fan-shaped inner groove 21 in an up-down symmetrical manner, four arc-shaped through holes 23 are formed inside the fan-shaped rotation block 18 in an up-down symmetrical manner, the annular rods 22 are slidably inserted inside the arc-shaped through holes 23, pressure sensors 24 are fixed on both side walls of the fan-shaped rotation block 18, and the display screen 50 is fixed on the side wall of the first moving table 8; when the device works, the rotating shaft 17 drives the sector-shaped rotating block 18 to rotate after rotating, the sector-shaped rotating block 18 extrudes the inner wall of the sector-shaped inner groove 21 after rotating, the rotating cylinder 19 is driven to rotate by extruding the inner wall of the sector-shaped inner groove 21, the sector-shaped rotating block 18 is movably sleeved on the outer ring of the annular rod 22 through the arc-shaped through hole 23, the sector-shaped rotating block 18 can not extrude the inner walls of the upper end and the lower end of the sector-shaped inner groove 21 when moving, the extrusion of the inner walls of the sector-shaped rotating block 18 and the sector-shaped inner groove 21 is centralized on the surface of the pressure sensor 24, the pressure is measured through the pressure sensor 24, the display screen 50 can display the measured pressure value, thereby indicating the viscosity change during the stirring of ingredients through the change of the pressure value, being beneficial for an operator to measure the viscosity value after observing the stirring uniformity, and being wirelessly connected between the display screen 50 and the pressure sensor 24, and the pressure value detected by the pressure sensor 24 can be displayed on the display screen 50, so that the pressure value can be conveniently observed and recorded by a worker.

As an embodiment of the present invention, the lowering mechanism includes a second slide rail 32, a first circular plate 9 and a plurality of first abdicating slots 36, the second slide rail 32 is fixed on the top of the second circular plate 11, a slide rod 33 is slidably connected inside the second slide rail 32, a second slider 34 is fixed on the top of the slide rod 33, the first circular plate 9 is fixed on the bottom of the first moving table 8, a track limiting plate 35 is fixed on the bottom of the first circular plate 9, the top of the second slider 34 is slidably connected inside the track of the track limiting plate 35, the track limiting plate 35 includes a first limiting slot 3501, a second limiting slot 3502 and a third limiting slot 3503, an arc-shaped mounting slot is opened on the side of the inner wall of the third limiting slot 3503, an arc-shaped 52052 is hinged on the inner wall of the arc-shaped mounting slot, a slide slot 5201 is opened on the side of the arc-shaped guide plate 52, a pushing slider 2 is slidably connected on the inner wall of the slide slot 5201, a pushing cylinder 53 is hinged on the side of the pushing slider 5202, a connecting through groove is formed in the inner wall of the arc-shaped mounting groove corresponding to the position of the pushing cylinder 53, the pushing cylinder 53 is fixedly mounted inside the connecting through groove, all the first abdicating grooves 36 are vertically arrayed inside the support frame 7, first rotating grooves 37 are formed in two sides inside the first abdicating grooves 36, support rods 38 are rotatably mounted inside the two first rotating grooves 37, the support rods 38 support the first mobile station 8, the two support rods 38 in the same group are mutually connected through an elastic mechanism, and the elastic mechanism is used for maintaining elastic tendency force for pulling the two support rods 38 to be synchronously retracted into the first abdicating grooves 36; when the stirring machine works, the first circular plate 9 can fixedly install the track limiting plate 35, the second circular plate 11 rotates to drive the second sliding rail 32 to rotate, the second sliding rail 32 drives the internal sliding rod 33 to rotate, the sliding rod 33 drives the second sliding block 34 to rotate, the second sliding block 34 slides along the track of the track limiting plate 35 while rotating along with the second circular plate 11, when the stirring is required to be carried out all the time at the same height, the pushing cylinder 53 is started through an external controller, the pushing cylinder 53 pushes the pushing sliding block 5202, the pushing sliding block 5202 pushes the arc-shaped guide plate 52 to turn over into the third limiting groove 3503 while sliding in the sliding groove 5201 and butt-joint with the port edge of the first limiting groove 3501, so that the second sliding block 34 always enters the first limiting groove 3501, the sliding rod 33 is prevented from extending out of the second sliding rail 32, therefore, the supporting rod 38 is prevented from being stirred, the original height is maintained, when the stirring at the same height is completed, when the height needs to be reduced, the pushing cylinder is controlled by the external controller to pull the pushing slider 5202 to reset, so as to indirectly drive the arc-shaped guide plate 52 to reset, at this time, when the second slider 34 passes through the inside of the third limiting groove 3503, under the action of centripetal force, the second slider 34 enters the second limiting groove 3502, under the guidance of the second limiting groove 3502, the second slider 34 is pushed to slide in the track of the track limiting plate 35, so as to drive the sliding rod 33 to slide in the second sliding rail 32, so that the sliding rod 33 gradually extends out toward the direction of the support frame 7 after the second circular plate 11 rotates for one circle, and the sliding rod 33 gradually retracts back toward the direction of the support frame 7 after the sliding rod 33 continues to rotate for one circle along with the second circular plate 11, so that the sliding rod 33 can toggle the support rod 38 after rotating for two circles, so that the support rod 38 is retracted, and the support rod 38 at the same height is synchronously retracted under the action of the elastic mechanism, first groove 36 of stepping down provides accommodation space for the bracing piece 38 of withdrawing, make first mobile station 8 lose highly reducing after bracing piece 38's support, stir the deeper layer of the inside batching of churn 2, and stir the back at bracing piece 38 at slide bar 33, need once more at same high teeter chamber, can adjust arc guide board 52 upset through promoting cylinder 53 and get into inside third spacing groove 3503 and with the butt joint of the port border of first spacing groove 3501, realize once more that stir in this high department, adjust as required after up to the even a period of stirring, be favorable to guaranteeing to rotate just can reduce the stirring height after carrying out circulation stirring to the batching, it is inhomogeneous to reciprocate the stirring in same position when avoiding stirring.

As an embodiment of the present invention, the elastic mechanism includes two rectangular inner grooves 39, the two rectangular inner grooves 39 are respectively opened at opposite ends of the two support rods 38, a second rotation groove 40 is respectively opened at the middle parts of the two support rods 38, the second rotation groove 40 is communicated with the rectangular inner grooves 39, rotation blocks 41 are respectively rotatably connected inside the two second rotation grooves 40, and second springs 42 are jointly fixed at opposite ends of the two rotation blocks 41; in operation, the supporting rod 38 is pushed to rotate along the position of the first rotating groove 37, after the supporting rod 38 on one side rotates, the two supporting rods 38 are not in linear symmetry, so that the pulling direction of the second spring 42 after the supporting rod 38 rotates does not follow the direction of the supporting rod 38, so that the other supporting rod 38 also rotates under the pulling action of the second spring 42, so that the two supporting rods 38 rotate together after the supporting rod 38 on one side is pushed, the second rotating groove 40 can rotatably mount the rotating block 41, the rotating block 41 is connected with the two ends of the second spring 42, so that the rotating block 41 can be pulled to rotate by the second spring 42 when the position of the supporting rod 38 changes, so that the two supporting rods 38 are pulled by the second spring 42 always in a linear state, so that the two supporting rods 38 are synchronously retracted after the sliding rod 33 pushes one supporting rod 38, so that the first moving platform 8 loses the support of the height supporting rod 38 and descends, the first mobile station 8 is advantageously height-adjusted.

As an implementation mode of the invention, one side of the supporting frame 7 is provided with a groove 43, a pulling rod 44 is slidably inserted into the groove 43, one side of the supporting frame 7 is provided with an arc-shaped groove 51, the arc-shaped groove 51 is positioned in the middle of the groove 43, a plurality of pulling ropes 46 corresponding to the supporting rods 38 are fixed at two ends of the pulling rod 44 in an array manner, one end of each pulling rope 46, which is back to the pulling rod 44, is fixedly connected with the supporting rods 38, a third spring 45 is jointly fixed between one side of the pulling rod 44, which faces the supporting frame 7, and the inside of the groove 43, a plurality of second abdicating grooves 47 matched with the pulling ropes 46 are arranged on the side wall of the supporting frame 7 in an array manner, when the support frame 7 is not stored in the first avoiding groove 36, the pulling rope 46 is in a loose state, when the support frame 7 is not stored in the first avoiding groove 36, the pulling rope 46 is straightened and embedded in the second avoiding groove 47; in operation, after the first mobile station 8 moves downwards to the bottommost part, all the support rods 38 are in a retracted state, and at this time, when all the support rods 38 are used again, the support rods 38 need to be pulled out in sequence, so that the use of the support rods 38 is inconvenient, the embodiment of the present invention can solve the above problems, in a specific implementation manner, when all the support rods 38 need to be reset, an operator pulls the pulling rod 44 along the arc-shaped groove 51, the pulling rod 44 is pulled to pull the pulling ropes 46 on both sides, the pulling ropes 46 pull all the support rods 38 to rotate, after the support rods 38 rotate, the two support rods 38 at the same height are in a linear position, so that the support rods 38 keep an extended state, and then the operator loosens the pulling rod 44, and the pulling rod 44 is reset under the pulling action of the third spring 45 and kept in the groove 43 to avoid affecting the downward movement of the first mobile station 8, therefore, an operator can directly pull the pulling rod 44 to drive all the supporting rods 38 to reset, and the inconvenience in use when the supporting rods 38 are repeatedly used is reduced.

As an embodiment of the present invention, a cylinder 25 is fixed at the bottom of the rotary cylinder 19, a first spring 27 is fixed at the bottom of the rotary cylinder 19, the first spring 27 is located inside the cylinder 25, a sphere 26 is fixed at the bottom of the first spring 27, a sounder 29 is fixed at the top of the sphere 26, a pressure switch 28 is fixed at the bottom of the rotary cylinder 19, the pressure switch 28 is electrically connected with and adapted to the sounder 29, the pressure switch 28 and the sounder 29 are both located inside the cylinder 25, a plurality of colored rubber sleeves 30 with different colors are sleeved on the outer ring array of the rotary shaft 17, and the colored rubber sleeves 30 are located above the rotary cylinder 19; when the stirring device works, when the rotary cylinder 19 gradually descends to stir, the bottom of the rotary cylinder 19 cannot continuously descend after contacting the bottom of the stirring cylinder 2, and at the moment, if the rotary cylinder 19 continuously descends, the bottom of the rotary cylinder 19 is extruded by the bottom of the stirring cylinder 2 to cause unstable stress, the embodiment of the invention can solve the above problems, in a specific implementation mode, when the rotary cylinder 19 moves downwards to the bottom of the stirring cylinder 2, the bottom of the stirring cylinder 2 extrudes the sphere 26, so that the sphere 26 moves upwards along the cylinder 25 and pushes the first spring 27 to compress, the sphere 26 drives the sounder 29 to move upwards, the sounder 29 moves upwards to extrude the pressure switch 28, so that the pressure switch 28 starts the sounder 29 to give an alarm, thereby reminding an operator that the rotary cylinder 19 touches the bottom, and avoiding the damage of equipment caused by the fact that the rotary cylinder 19 touches the bottom under unknown conditions of the operator, the colored rubber sleeve 30 generates a colored ring shape when rotating, an operator can judge the stirring depth of the rotating cylinder 19 according to the color of the colored rubber sleeve 30 exposed on the liquid level, the rotating cylinder 19 can indicate the viscosity through pressure when the rotating cylinder is at a proper depth, and the viscosity can be observed and judged.

As an embodiment of the present invention, a heat-insulating shell 48 is fixed outside the mixing drum 2, a heating wire 49 is fixed inside the heat-insulating shell 48, and the heating wire 49 is connected with an external power supply; during operation, the stability of the measuring body needs to be kept when the viscosity is measured, so that the accuracy of viscosity measurement is guaranteed, the measurement of ingredients after being stirred in a normal temperature environment is prone to inaccuracy of viscosity measurement values due to non-uniformity of temperature, the embodiment of the invention can solve the problems.

The working principle of the invention is as follows: the embodiment of the invention can solve the above problems by stirring and mixing the battery ingredients in the battery production, and measuring the viscosity of the stirred ingredients in order to meet the use requirement of the stirred battery ingredients, and when measuring the viscosity, it is difficult to confirm whether the ingredients are sufficiently and uniformly stirred, so that the detected viscosity data has locality and is difficult to represent the overall viscosity of the ingredients, and the embodiment of the invention has the following specific implementation modes that the base 1 can support and mount the whole ingredients, the stirring drum 2 is used for stirring the ingredients, the lifting seat 6 can support and mount the support frame 7, the support frame 7 can support and mount the stirring detection device, the stirring detection device can uniformly stir the ingredients in the stirring drum 2 and detect the relative pressure generated by stirring, and when the ingredients in the stirring drum 2 are uniform in viscosity, the pressure that stirring detection device detected during the stirring is invariable relatively, open solenoid valve 5 afterwards, make the inside batching of churn 2 get into viscosity detector 3's inside along connecting pipe 4, thereby start viscosity detector 3 and measure batching viscosity, be favorable to avoiding carrying out that the stirring of batching is not enough even and the measured data that leads to when viscosity measurement is inaccurate, thereby be favorable to the accurate measurement to batching stirring back viscosity, make operating personnel can feed in raw material and add solution according to the viscosity demand of batching stirring after obtaining accurate viscosity data, thereby make the batching can allocate to the viscosity of needs through the detection of viscosity and the interpolation of batching after the stirring, make the batching after the processing can satisfy the user demand.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined by the appended claims and their equivalents.

Claims

1. Polymer battery production batching stirring viscosity measurement system, including base (1), the top of base (1) is fixed with lift seat (6), the top of lift seat (6) is fixed with support frame (7), its characterized in that still includes:

the stirring cylinder (2), the stirring cylinder (2) is fixed on the top of the base (1);

the viscosity detector (3), the viscosity detector (3) is fixed on the top of the base (1);

the connecting pipe (4) is fixedly communicated with the input end of the viscosity detector (3), and one end, back to the viscosity detector (3), of the connecting pipe (4) is fixedly communicated with the inside of the stirring drum (2);

the electromagnetic valve (5), the said electromagnetic valve (5) is fixed to the inside of the said joint pipe (4);

stirring detection device, stirring detection device install in the top of support frame (7), stirring detection device is used for right carry out preliminary detection to batching viscosity when the inside of churn (2) stirs.

2. The polymer battery production ingredient mixing viscosity measurement system of claim 1, the stirring detection device comprises a first mobile station (8), the first mobile station (8) is movably sleeved on the outer ring of the support frame (7), the bottom of one end of the first mobile station (8) back to the support frame (7) is provided with a track driving mechanism, a stirring driving mechanism is arranged between the track driving mechanism and the stirring drum (2), the track driving mechanism is used for driving the stirring driving mechanism to circularly move according to a certain track, the stirring driving mechanism is used for stirring the inside of the stirring cylinder (2) and carrying out real-time viscosity detection, a position lowering mechanism is arranged between the track driving mechanism and the supporting frame (7), and the position lowering mechanism is used for performing position lowering on the first mobile platform (8) after the track driving mechanism rotates for two circles every time.

3. The polymer battery production ingredient mixing viscosity measurement system according to claim 2, the track driving mechanism comprises a first motor (10), the first motor (10) is fixed on the top of the first mobile station (8), the output end of the first motor (10) penetrates through the first mobile station (8) and then is coaxially fixed with a second circular plate (11), a first slide rail (12) is fixed on one side of the bottom of the second circular plate (11), a cylinder (13) is fixed on the other side of the bottom of the second circular plate (11), a first sliding block (31) is connected inside the first sliding rail (12) in a sliding way, a second moving table (14) is fixed at the bottom of the first sliding block (31), the second moving table (14) is connected with the stirring driving mechanism, the output end of the air cylinder (13) is fixedly connected with the side wall of the second mobile station (14).

4. The system for measuring the stirring viscosity of the polymer battery production ingredients according to claim 3, wherein the stirring driving mechanism comprises a mounting groove (15), the mounting groove (15) is arranged in the second mobile station (14), a second motor (16) is fixed in the mounting groove (15), an output shaft of the second motor (16) penetrates through the bottom of the second mobile station (14) and is fixed with a rotating shaft (17), a rotating cylinder (19) is sleeved outside the rotating shaft (17), a pressure detection mechanism for detecting the relative pressure during stirring is installed between the rotating cylinder (19) and the rotating shaft (17), and a plurality of stirring rods (20) are fixed on the outer ring of the rotating cylinder (19).

5. The polymer battery production ingredient mixing viscosity measurement system according to claim 4, the pressure detection mechanism comprises a sector rotating block (18), a sector inner groove (21) and a display screen (50), the fan-shaped inner groove (21) is arranged in the rotating cylinder body (19), the fan-shaped rotating block (18) is fixed on the side wall of the rotating shaft (17), the sector rotating block (18) is positioned inside the sector inner groove (21), four annular rods (22) are symmetrically fixed inside the sector inner groove (21) up and down, four arc-shaped through holes (23) are symmetrically arranged at the upper and lower parts in the sector rotating block (18), the annular rod (22) is inserted in the arc-shaped through hole (23) in a sliding way, pressure sensors (24) are fixed on the side walls of the two sides of the sector rotating block (18), the display screen (50) is fixed to a side wall of the first mobile station (8).

6. The polymer battery production batching stirring viscosity measuring system of claim 3, wherein said lowering mechanism comprises a second slide rail (32), a first circular plate (9) and a plurality of first abdicating grooves (36), said second slide rail (32) is fixed on the top of said second circular plate (11), a slide rod (33) is slidably connected inside said second slide rail (32), a second slide block (34) is fixed on the top of said slide rod (33), said first circular plate (9) is fixed on the bottom of said first moving platform (8), a track limiting plate (35) is fixed on the bottom of said first circular plate (9), the top of said second slide block (34) is slidably connected inside the track of said track limiting plate (35), said track limiting plate (35) comprises a first limiting groove (3501), a second limiting groove (3502) and a third limiting groove (3503), an arc-shaped mounting groove is formed in the side face of the inner wall of the third limiting groove (3503), an arc-shaped guide plate (52) is hinged to the inner wall of the arc-shaped mounting groove, a sliding groove (5201) is formed in the side face of the arc-shaped guide plate (52), a pushing slider (5202) is connected to the inner wall of the sliding groove (5201) in a sliding mode, a pushing cylinder (53) is hinged to the side face of the pushing slider (5202), a connecting through groove is formed in the position, corresponding to the pushing cylinder (53), on the inner wall of the arc-shaped mounting groove, the pushing cylinder (53) is fixedly mounted in the connecting through groove, all the first abdicating grooves (36) are vertically arrayed and arranged in the supporting frame (7), first rotating grooves (37) are formed in two sides of the inner part of each abdicating groove (36), and supporting rods (38) are rotatably mounted in the inner parts of the first rotating grooves (37), bracing piece (38) are right first mobile station (8) support, with organizing two through elastic mechanism interconnect between bracing piece (38), elastic mechanism is used for maintaining the pulling two bracing piece (38) are withdrawed in step to the inside elasticity trend power of first groove of stepping down (36).

7. The system for measuring the stirring viscosity of the polymer battery production ingredients as claimed in claim 6, wherein the elastic mechanism comprises two rectangular inner grooves (39), the two rectangular inner grooves (39) are respectively arranged at the opposite ends of the two support rods (38), a second rotating groove (40) is respectively arranged at the middle parts of the two support rods (38) in a penetrating manner, the second rotating groove (40) is communicated with the rectangular inner grooves (39), rotating blocks (41) are respectively and rotatably connected inside the two second rotating grooves (40), and a second spring (42) is jointly fixed at the opposite ends of the two rotating blocks (41).

8. The system for measuring the stirring viscosity of the polymer battery production ingredients according to claim 7, wherein one side of the support frame (7) is provided with a groove (43), a pulling rod (44) is slidably inserted into the groove (43), one side of the support frame (7) is provided with an arc-shaped groove (51), the arc-shaped groove (51) is located in the middle of the groove (43), a plurality of pulling ropes (46) corresponding to the supporting rods (38) are fixed to the two ends of the pulling rod (44) in an array manner, one end of each pulling rope (46) back to the pulling rod (44) is fixedly connected with the supporting rods (38), a third spring (45) is jointly fixed between one side of the pulling rod (44) facing the support frame (7) and the inside of the groove (43), a plurality of second yielding grooves (47) matched with the pulling ropes (46) are formed in an array manner on the side wall of the support frame (7), when the support frame (7) is not received to inside the first groove of stepping down (36), the haulage rope (46) is in the slack state, when the support frame (7) is not received to inside the first groove of stepping down (36), the haulage rope (46) is straightened and is embedded inside the second groove of stepping down (47).

9. The polymer battery production ingredient stirring viscosity measuring system according to claim 4, wherein a cylinder (25) is fixed at the bottom of the rotating cylinder (19), a first spring (27) is fixed at the bottom of the rotating cylinder (19), the first spring (27) is located inside the cylinder (25), a sphere (26) is fixed at the bottom of the first spring (27), a sounder (29) is fixed at the top of the sphere (26), a pressure switch (28) is fixed at the bottom of the rotating cylinder (19), the pressure switch (28) is electrically connected with the sounder (29) and is adapted to the sounder, the pressure switch (28) and the sounder (29) are both located inside the cylinder (25), and a plurality of colored rubber sleeves (30) with different colors are sleeved on the outer ring array of the rotating shaft (17), the color rubber sleeve (30) is positioned above the rotary cylinder body (19).

10. The system for measuring the stirring viscosity of the polymer battery production ingredients according to claim 3, wherein a heat preservation shell (48) is fixed on the outside of the stirring cylinder (2), a heating wire (49) is fixed inside the heat preservation shell (48), and the heating wire (49) is connected with an external power supply.