CN112909448A - Device for automatically charging electrolyte - Google Patents

Abstract

The invention discloses a device for automatically charging electrolyte, which comprises a machine body, wherein a transmission cavity is arranged at the lower side of the machine body, a working cavity is arranged in the upper cavity wall of the transmission cavity, an electrolyte placing cavity is arranged in the upper cavity wall of the working cavity, a transfusion mechanism is arranged in the electrolyte placing cavity, a driving cavity is also arranged in the upper cavity wall of the working cavity, a driving mechanism is arranged in the driving cavity, an upper pulling cavity is arranged in the upper cavity wall of the driving cavity, a cover taking mechanism is arranged in the upper pulling cavity, the transfusion mechanism comprises an electrolyte placing box positioned in the electrolyte placing cavity, six transfusion pipes are arranged in the electrolyte placing box, the device has a simple structure and is convenient and fast to operate, the device can automatically open and tighten the bottle cover of a dry storage battery during normal work, automatically add the electrolyte into the dry storage battery, and prevent the electrolyte from splashing during the automatic liquid adding process, the efficiency of adding electrolyte is improved and personnel's safety has been guaranteed.

Description

Device for automatically charging electrolyte

Technical Field

The invention relates to the field of storage battery design, in particular to a device for automatically charging electrolyte.

Background

In life, the storage battery is mainly used for starting and lighting automobiles, motorcycles, tractors, diesel engines and the like, can also be used as a standby power supply for communication, power plants and computer system protection and automatic control, and has wide application range;

in the current stage, except for a maintenance-free storage battery on an automobile (a car), the automobile is a dry-charged storage battery, but the dry-charged storage battery is added with electrolyte when in use, needs special liquid adding personnel to operate in the process of adding the electrolyte, and adds the liquid manually, so that certain hidden danger is caused to the safety problem of people.

Disclosure of Invention

The invention aims to solve the technical problem of providing a device for automatically charging electrolyte, which solves the problems of liquid charging by redundant personnel, personnel safety and the like, and has the functions of automatically charging liquid, preventing liquid from splashing and the like.

The invention is realized by the following technical scheme.

The invention relates to a device for automatically loading electrolyte, which comprises a machine body, wherein a conveying cavity is arranged at the lower side of the machine body, a working cavity is arranged in the upper cavity wall of the conveying cavity, an electrolyte placing cavity is arranged in the upper cavity wall of the working cavity, a transfusion mechanism is arranged in the electrolyte placing cavity, a driving cavity is also arranged in the upper cavity wall of the working cavity, a driving mechanism is arranged in the driving cavity, an upper pulling cavity is arranged in the upper cavity wall of the driving cavity, a cover taking mechanism is arranged in the upper pulling cavity, the transfusion mechanism comprises an electrolyte placing box positioned in the electrolyte placing cavity, six transfusion pipes are arranged in the electrolyte placing box, an electrolyte placing partition plate is arranged in the transfusion pipes, a long rope is fixedly connected to the upper end surface of the electrolyte placing partition plate, a top plate cavity is arranged in the upper cavity wall of the electrolyte placing box, a floating ball is also arranged in the electrolyte placing box, and a fixed rope, the electrolytic cell is characterized in that a top plate is arranged in the top plate cavity, the upper end face of the top plate is fixedly connected with a small magnet and a chain, the upper end face of the top plate is fixedly connected with the other end of the top plate spring fixedly connected with the upper cavity wall of the top plate cavity, the upper cavity wall of the top plate cavity is fixedly connected with a small electromagnet, electrolyte is placed in the upper cavity wall of the cavity and is also provided with a blocking block cavity, a blocking block is arranged in the blocking block cavity, the right end face of the blocking block cavity is fixedly connected with the other end of the blocking block cavity and penetrates through the right cavity wall of the blocking block cavity to the seven rope pulling block cavity, the chain is fixedly connected with the upper end face of the top plate, a seven rope pulling block cavity is arranged in the upper cavity wall of the electrolyte placing cavity, a seven rope pulling block is arranged in the seven rope pulling block cavity, and the other end of the lower end face of the seven rope pulling block is fixedly connected with the lower cavity wall of the seven rope pulling block cavity The upper end face of the electrolyte baffle is fixedly connected with an electrolyte baffle spring, the other end of the electrolyte baffle is fixedly connected with the electrolyte baffle spring, and the other end of the electrolyte baffle plate penetrates through the upper end face of the working cavity to the inner side of the seven-rope pulling block clamping cavity The pull rope is fixedly connected.

Further, the cap taking mechanism comprises a wide pulling block arranged in the upper pulling cavity, the upper end surface of the wide pulling block is fixedly connected with an upper pulling block reset spring of which the other end is fixedly connected with the upper cavity wall of the connecting plate cavity, the upper end surface of the wide pulling block is also fixedly connected with the other end and the thin rope fixedly connected with the right end surface of the auxiliary button block penetrating through the upper cavity wall of the connecting plate cavity to the auxiliary button block cavity, a long clamping block cavity with a leftward opening is arranged in the right cavity wall of the connecting plate cavity, a long clamping block is arranged in the long clamping block cavity, the right end surface of the long clamping block is fixedly connected with a long clamping block spring of which the other end is fixedly connected with the right cavity wall of the long clamping block cavity, an iron chain is also fixedly connected with the right end surface of the long clamping block cavity, a small clamping block cavity with an upward opening is arranged in the lower cavity wall of the long clamping block cavity, a small clamping block, the lower end face of the small fixture block is also fixedly connected with a small fixture block spring of which the other end is fixedly connected with the lower cavity wall of the small fixture block cavity, the lower end face of the small fixture block is also fixedly connected with the other end and the chain which penetrates through the small fixture block cavity to be fixedly connected with the right end face of the auxiliary block in the auxiliary block cavity, the lower cavity wall of the small fixture block cavity is fixedly connected with a large electromagnet, the driving cavity is internally provided with a clamping device box which is meshed with a circular gear, the clamping device box is internally provided with a small rope wheel shaft which is rotatably connected with the lower shell wall of the inner shell of the clamping device box, the small rope wheel shaft is fixedly connected with an auxiliary driven bevel gear, a small rope wheel and a small rotating wheel, the small rope wheel is wound with the iron chain of which the other end penetrates through the upper cavity wall of the driving cavity to the right end face of the long fixture block in the long fixture block, the hollow rotating wheel is internally provided with a clamp, the upper cavity wall of the driving cavity is internally provided with a connecting plate cavity, the connecting plate cavity is internally provided with a connecting plate fixedly connected with the clamp, and the connecting plate is fixedly connected with the wide pulling block.

Further, the driving mechanism comprises a driving motor fixedly connected with the right cavity wall of the driving cavity, the driving motor is in power connection with a power shaft, the power shaft is fixedly connected with a small driving pulley, a small driving pulley and a large rope, the large rope is in friction connection with a large driving bevel gear and an auxiliary driving bevel gear, the rear cavity wall of the driving cavity is rotatably connected with a rotating shaft, the rotating shaft is in sliding connection with a rotating gear and a rotating wheel, the rotating shaft is fixedly connected with a large driven bevel gear meshed with the large driving bevel gear, a rotating ring groove is arranged in the rotating gear, two rotating sliders are in sliding connection in the rotating ring groove, the rear end face of each rotating slider is fixedly connected with a displacement spring, the other end of each displacement spring is fixedly connected with the rear cavity wall of the driving cavity, the rear end face of the left end of each rotating slider is fixedly connected with the large rope, the rotary wheel is internally provided with a rotary ring groove, the rotary ring groove is internally and slidably connected with a rotary ring block, the front end face of the rotary ring block is fixedly connected with the other end and an extension spring fixedly connected with the front wall of the driving cavity, the front end face of the rotary ring block is also fixedly connected with the other end and a hemp rope fixedly connected with the rear end face of the rotary slider, which penetrates through the front cavity wall of the driving cavity to the inner right end of the rotary ring groove, the front cavity wall of the driving cavity is rotatably connected with an auxiliary short shaft, the auxiliary short shaft is fixedly connected with a circular gear and is meshed with a clamping device box shell, the lower cavity wall of the driving cavity is provided with an auxiliary button block cavity with an upward opening, an auxiliary button block is arranged in the auxiliary button block cavity, the right end face of the auxiliary button block is fixedly connected with a thin rope, the lower end face, a small driven pulley shaft is rotatably connected to the right cavity wall of the bridging cavity, a small driven pulley shaft and an auxiliary driving bevel gear are fixedly connected to the small driven pulley shaft, the small driven pulley is connected with the small driving pulley through a small belt, auxiliary driven bevel gear shafts are rotatably connected to the front cavity wall and the rear cavity wall of the bridging cavity, the auxiliary driven bevel gear shafts are fixedly connected with auxiliary driven bevel gears meshed with the auxiliary driving bevel gears, the auxiliary driven bevel gear shafts are further fixedly connected with a large pulley, a conveying belt motor is fixedly connected to the rear cavity wall of the conveying cavity, the conveying belt motor is in power connection with a conveying belt shaft, the conveying belt shaft is fixedly connected with a conveying pulley, a conveying belt driven shaft is further rotatably connected to the rear cavity wall of the conveying cavity, the conveying belt driven shaft is fixedly connected with a conveying belt driven wheel, and, the conveying cavity is internally provided with an auxiliary block cavity with a left opening, an auxiliary block is arranged in the auxiliary block cavity, the other end of the upper end face of the auxiliary block is fixedly connected with the thick rope which penetrates through the upper cavity wall of the conveying cavity to the seven-rope pulling block cavity and is fixedly connected with the upper end face of the seven-rope pulling block, the right end face of the auxiliary block is also fixedly connected with an auxiliary block spring with the other end fixedly connected with the right cavity wall of the auxiliary block cavity, and the right end face of the auxiliary block is fixedly connected with a short rope.

Further, be equipped with electrolyte in the cavity wall on the working chamber and place the chamber in advance, electrolyte is placed the intracavity in advance and is equipped with electrolyte and places the case in advance, electrolyte is placed the incasement in advance and is equipped with electrolyte places the infusion mouth that the case link up, electrolyte is placed the intracavity in advance and is equipped with the electrolyte back-off mouth, electrolyte is placed the intracavity right side in advance and is equipped with the big gear wheel chamber of opening left in the chamber wall, the chamber wall rotates around the big gear wheel chamber and is connected with the bevel pinion shaft, there is bevel pinion on the bevel pinion shaft, bevel pinion shaft has the big driven pulley who connects through the belt, the chamber wall rotates under the big gear wheel chamber and is connected with the gear shaft, gear shaft fixed.

The invention has the beneficial effects that: the device simple structure, the simple operation, the device can be automatic open and screw up the bottle lid of dry-charged battery at normal during operation to add electrolyte to the dry-charged battery automatically, and have the in-process at automatic liquid feeding and prevent splashing of electrolyte, improved the efficiency of adding electrolyte and guaranteed personnel's safety.

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 a schematic diagram of the structure A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic top view of the conveyor belt motor structure of FIG. 1 in full section according to an embodiment of the present invention;

FIG. 4 is a schematic front view of the clamp wheel of FIG. 1;

FIG. 5 is a schematic top view of the bridge chamber structure of FIG. 1;

FIG. 6 is a schematic top view of the large sheave structure of FIG. 1;

FIG. 7 is a schematic diagram of a partial enlarged structure at B in FIG. 1 according to an embodiment of the present invention;

FIG. 8 is an enlarged partial structural view of the embodiment of the present invention at C in FIG. 1;

FIG. 9 is a schematic diagram of a partial enlarged structure at D in FIG. 1 according to an embodiment of the present invention;

FIG. 10 is an enlarged partial structural view of the embodiment of the present invention at E in FIG. 1;

FIG. 11 is an enlarged view of a portion of FIG. 2;

FIG. 12 is an enlarged partial structural view at G in FIG. 2 according to an embodiment of the present invention;

FIG. 13 is an enlarged partial structural diagram at H 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. 1-13, 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.

With reference to fig. 1-13, the device for automatically assembling electrolyte comprises a machine body 10, a conveying cavity 55 is arranged on the lower side of the machine body 10, a working cavity 14 is arranged in the upper cavity wall of the conveying cavity 55, an electrolyte placing cavity 123 is arranged in the upper cavity wall of the working cavity 14, an infusion mechanism 202 is arranged in the electrolyte placing cavity 123, a driving cavity 43 is further arranged in the upper cavity wall of the working cavity 14, a driving mechanism 200 is arranged in the driving cavity 43, an upward-pulling cavity 37 is arranged in the upper cavity wall of the driving cavity 43, a cover taking mechanism 201 is arranged in the upward-pulling cavity 37, the infusion mechanism 202 comprises an electrolyte placing box 125 positioned in the electrolyte placing cavity 123, six infusion tubes 93 are arranged in the electrolyte placing box 125, an electrolyte placing partition plate 124 is arranged in the infusion tubes 93, a long rope 82 is fixedly connected to the upper end face of the electrolyte placing partition plate 124, a top plate cavity 85 is arranged in the, a floating ball 89 is further arranged in the electrolyte placing box 125, the upper surface of the floating ball 89 is fixedly connected with a fixed rope 90 of which the other end is fixedly connected with the upper wall of the top plate cavity 85, a top plate 88 is arranged in the top plate cavity 85, the upper end surface of the top plate 88 is fixedly connected with a small magnet 87 and a chain 95, the upper end surface of the top plate 88 is also fixedly connected with a top plate spring 91 of which the other end is fixedly connected with the upper wall of the top plate cavity 85, the upper wall of the top plate cavity 85 is also fixedly connected with a small electromagnet 86, the upper wall of the electrolyte placing cavity 123 is also provided with a barrier block cavity 98, a barrier block 96 is arranged in the barrier block cavity 98, the right end surface of the barrier block cavity 98 is fixedly connected with a barrier block telescopic spring 97 of which the other end is fixedly connected with the right wall of the barrier block cavity 98, the right end surface of the barrier block cavity 98 is also fixedly connected with the chain 95 which penetrates through the right wall of the barrier block cavity 98 to the upper end surface of the, a seven-rope pulling block cavity 33 is arranged in the upper cavity wall of the electrolyte placing cavity 123, a seven-rope pulling block 34 is arranged in the seven-rope pulling block cavity 33, the lower end surface of the seven-rope pulling block 34 is fixedly connected with the long rope 82 with the other end fixedly connected with the upper end surface of the electrolyte placing clapboard 124 which penetrates through the lower cavity wall of the seven-rope pulling block cavity 33 into the electrolyte placing box 125, the upper end surface of the seven-rope pulling block 34 is fixedly connected with a seven-rope pulling block spring 31 with the other end fixedly connected with the upper cavity wall of the seven-rope pulling block 34, the upper end surface of the seven-rope pulling block 34 is fixedly connected with a thick rope 32, a seven-rope pulling block clamping block cavity 29 is arranged in the left cavity wall of the seven-rope pulling block cavity 33, a seven-rope pulling block clamping block 30 is arranged in the seven-rope pulling block clamping cavity 29, the left end surface of the seven-rope pulling block clamping block 30 is fixedly connected with a seven-rope pulling block spring, the left end face of the seven-rope pulling block clamping block 30 is fixedly connected with a pulling rope 17, a working object 13 and an electrolyte baffle 15 are arranged in the working cavity 14, the other end of the upper end face of the electrolyte baffle 15 is fixedly connected with an electrolyte baffle spring 16 fixedly connected with the upper cavity wall of the working cavity 14, and the other end of the upper end face of the electrolyte baffle 15 is fixedly connected with the pulling rope 17 fixedly connected with the left end face of the seven-rope pulling block clamping block 30 and penetrates through the upper cavity wall of the working cavity 14 to the seven-rope pulling block clamping block cavity 29.

Beneficially, the cover removing mechanism 201 includes a wide pulling block 128 disposed in the pull-up cavity 37, the upper end surface of the wide pulling block 128 is fixedly connected with a pull-up block return spring 38 having another end fixedly connected with the upper cavity wall of the connecting plate cavity 127, the upper end surface of the wide pulling block 128 is further fixedly connected with another end fixedly connected with the thin rope 39 penetrating through the upper cavity wall of the connecting plate cavity 127 to the right end surface of the auxiliary button block 111 in the auxiliary button block cavity 112, a long block cavity 105 having a leftward opening is disposed in the right cavity wall of the connecting plate cavity 127, a long block 102 is disposed in the long block cavity 105, a long block spring 103 having another end fixedly connected with the right cavity wall of the long block cavity 105 is fixedly connected to the right end surface of the long block 102, a steel chain 104 is further fixedly connected to the right end surface of the long block 102, a small block cavity 106 having an upward opening is disposed in the lower cavity wall of the long block cavity 105, and a small block 101 is disposed, a large magnet 100 is fixedly connected to the lower end surface of the small clamping block 101, a small clamping block spring 99 with the other end fixedly connected with the lower cavity wall of the small clamping block cavity 106 is further fixedly connected to the lower end surface of the small clamping block 101, the other end fixedly connected with the chain 60 is fixedly connected with the right end surface of the auxiliary block 59 penetrating through the small clamping block cavity 106 to the auxiliary block cavity 56, a large electromagnet 94 is fixedly connected with the lower cavity wall of the small clamping block cavity 106, a clamping device box 53 engaged with the circular gear 68 is arranged in the driving cavity 43, a small rope wheel shaft 42 rotatably connected with the lower shell wall of the clamping device box 53 is arranged in the clamping device box 53, an auxiliary driven bevel gear 35, a small rope wheel 40 and a small rotating wheel 52 are fixedly connected to the small rope wheel shaft 42, the iron chain 104 with the other end and penetrating through the upper cavity wall of the driving cavity 43 to the right end surface of the long clamping block 102 in the long clamping block cavity 105 is wound on the small rope wheel, still be equipped with six hollow runners 126 in the clamping device case 53 inner shell and with the broadband with little runner 52 forms and is connected, be equipped with clip 72 in the hollow runner 126, be equipped with connection board chamber 127 in the cavity wall on the drive chamber 43, be equipped with in the connection board chamber 127 with clip 72 fixed connection's connecting plate 36, connecting plate 36 with wide piece 128 fixed connection that draws.

Beneficially, the driving mechanism 200 includes a driving motor 47 fixedly connected to the right cavity wall of the driving cavity 43, the driving motor 47 is power-connected to a power shaft 50, the power shaft 50 is fixedly connected to a small driving pulley, a small driving pulley 46 and a large rope 49, the large rope 49 is friction-connected to the power shaft 50, a large driving bevel gear 44 and an auxiliary driving bevel gear 51 are connected to the power shaft 50, a rotating shaft 116 is rotatably connected to the rear cavity wall of the driving cavity 43, the rotating shaft 116 is slidably connected to a rotating gear 131 and a rotating wheel 121, the rotating shaft 116 is fixedly connected to a large driven bevel gear 130 engaged with the large driving bevel gear 44, a rotating ring groove 113 is formed in the rotating gear 131, two rotating sliders 114 are slidably connected to the rotating ring groove 113, a displacement spring 115 with the other end fixedly connected to the rear cavity wall of the driving cavity 43 is, the left end rotatory slider 114 rear end face fixedly connected with big rope 49, the right-hand member rotatory slider 114 rear end face fixedly connected with hemp rope 117, be equipped with in the wheel 121 and rotate annular 119, sliding connection has rotating ring piece 120 in rotating annular 119, the preceding terminal surface fixedly connected with other end of rotating ring piece 120 with wall fixed connection's extension spring 118 before driving chamber 43, the preceding terminal surface of rotating ring piece 120 still fixedly connected with other end with run through driving chamber 43 preceding cavity wall to right-hand member in the rotating annular 113 rotatory slider 114 rear end face fixedly connected hemp rope 117, driving chamber 43 preceding cavity wall rotates and is connected with supplementary minor axis 67, supplementary minor axis 67 fixedly connected with circular gear 68 and with clamping device case 53 shell meshing, driving chamber 43 lower cavity wall is equipped with the ascending supplementary button piece chamber 112 of opening, be equipped with supplementary button piece 111 in the supplementary button piece chamber 112, the right end face of the auxiliary button block 111 is fixedly connected with a string 39, the lower end face of the auxiliary button block 111 is also fixedly connected with an auxiliary button spring 110, the upper cavity wall of the driving cavity 43 is internally provided with a bridging cavity 107, the right cavity wall of the bridging cavity 107 is rotatably connected with a small driven pulley shaft 78, the small driven pulley shaft 78 is fixedly connected with a small driven pulley 77 and an auxiliary driving bevel gear 109, the small driven pulley 77 is connected with the small driving pulley 46 through a small belt 45, the front cavity wall and the rear cavity wall of the bridging cavity 107 are rotatably connected with an auxiliary driven bevel gear shaft 75, the auxiliary driven bevel gear shaft 75 is fixedly connected with an auxiliary driven bevel gear 74 meshed with the auxiliary driving bevel gear 109, the auxiliary driven bevel gear shaft 75 is also fixedly connected with a large pulley 76, the rear cavity wall of the conveying cavity 55 is fixedly connected with a conveying belt motor 69, and the conveying belt motor 69 is dynamically, conveying belt shaft 71 fixedly connected with conveying belt wheel 70, conveying chamber 55 rear cavity wall still rotates and is connected with conveying belt driven shaft 11, conveying belt driven shaft 11 fixedly connected with conveying belt follows driving wheel 12, conveying belt follows fixedly connected with L type piece 92 on driving wheel 12, still be equipped with opening auxiliary block chamber 56 to the left in the conveying chamber 55, be equipped with auxiliary block 59 in the auxiliary block chamber 56, the last end face fixedly connected with other end of auxiliary block 59 with run through conveying chamber 55 upper cavity wall extremely in the seven rope draws the piece chamber 33 seven rope draws piece 34 up end face fixed connection the thick rope 32, auxiliary block 59 right end face still fixedly connected with other end with auxiliary block chamber 56 right side cavity wall fixed connection's auxiliary block spring 57, auxiliary block 59 right end face fixedly connected with short rope 58.

Beneficially, be equipped with electrolyte in the cavity wall in the working chamber 14 and place chamber 18 in advance, electrolyte is placed in advance and is equipped with electrolyte and places case 19 in advance in the cavity 18, electrolyte is placed in advance in the case 19 and is equipped with the infusion mouth 20 that the case 125 link up is placed to the electrolyte, electrolyte is placed in advance and is equipped with electrolyte back-entry 21 on the chamber 18, electrolyte is placed in advance and is equipped with the left gear wheel chamber 23 of opening in the cavity wall in the right side of chamber 18, gear wheel chamber 23 front and back chamber wall is rotated and is connected with pinion gear shaft 25, pinion gear shaft 25 is last to have pinion bevel gear 24, pinion gear shaft 25 has big driven pulley 132 of connecting through belt 27, gear wheel chamber 23 lower chamber wall is rotated and is connected with pinion shaft 129, pinion shaft 129 fixed connection pinion driven bevel gear 26.

Sequence of mechanical actions of the whole device:

in an initial state, the pull rope 17 and the iron chain 104 are elastic ropes, the auxiliary driven bevel gear 74 is engaged with the auxiliary drive bevel gear 109, the rotating gear 131 is engaged with the clamping device case 53, the large drive bevel gear 44 is engaged with the large driven bevel gear 130, and the small sheave 40 rotates forward and is in a released state.

1: when the operator places the dry battery on the storage battery 12, the driving motor 47 rotates in the forward direction to rotate the power shaft 50, thereby rotating the small driving pulley, the small driving pulley 46, the large rope 49, the large driving bevel gear 44, and the auxiliary driving bevel gear 51, and when the small driving pulley, the large driving bevel gear 44, the large driving pulley, the large driven pulley 77, the small driven pulley shaft 78, the auxiliary driving bevel gear 109, the auxiliary driven bevel gear 74, the auxiliary driven bevel gear shaft 75, the large belt pulley 76, the large driven pulley 132, the small bevel gear shaft 25, the small bevel gear 24, the small driven bevel gear 26, the large bevel gear shaft 129, and the large gear shaft 22, thereby driving the electrolyte pre-placing box 19 to rotate so that the electrolyte is in a vibration state, when the large drive bevel gear 44 rotates, thereby driving the large driven bevel gear 130 to rotate, thereby driving the rotating shaft 116 to rotate, thereby driving the rotating gear 131 and the rotating wheel 121 to rotate, thereby driving the clamping device box 53 to move downwards, when moving to the dry battery cover, at this time, the auxiliary driven bevel gear 35 is engaged with the auxiliary drive bevel gear 51, the auxiliary drive bevel gear 51 rotates, thereby driving the small rope wheel shaft 42 to rotate, thereby driving the small wheel 52, the small rope wheel 40 to rotate, thereby driving the hollow wheel 126 to rotate, at the same time, the auxiliary button block 111 is pressed, thereby driving the thin rope 39 to be pulled, thereby driving the wide pulling block 128 to pull up, thereby causing the clamp 72 to clamp the cover, thereby causing the cover to be rotationally loosened, when the driving motor 47 rotates reversely, at this time, the large rope wheel 48, thereby pulling the large rope 49 to move the rotary gear 131 backward, thereby releasing the hemp rope 117, thereby moving the rotary wheel 121 backward, thereby bringing the rotary wheel 121 into engagement with the circular gear 68, thereby moving the clamping device case 53 upward;

2: the staff firstly puts a large amount of electrolyte into the electrolyte pouring opening 21, when the electrolyte is full of the electrolyte and is placed in the cavity 123, the floating ball 89 moves upwards to drive the top plate 88 to move upwards, so that the top plate spring 91 is loosened, at the moment, the small electromagnet 86 and the large electromagnet 94 are electrified, so that the small electromagnet 86 and the small magnet 87 are attracted, at the same time, the blocking block 96 moves leftwards to block the infusion opening, the conveyor motor 69 is started by positive rotation, the conveyor motor 69 is driven by positive rotation to drive the conveyor belt shaft 71 to rotate, the conveyor belt wheel 70 is driven to rotate, so that the workpiece 13 moves leftwards, when the L-shaped block 92 moves leftwards to press the auxiliary block 59, the conveyor motor 69 is turned off, at the moment, the short rope 58 is loosened, the lock chain 60 and the thick rope 32 are pulled, the short rope 58 is loosened, so that the electrolyte baffle 15 moves downwards to the bottleneck to prevent the electrolyte from splashing, at the seven-rope, therefore, the electrolyte placing partition plate 124 is opened for transfusion, the chain 60 is pulled to drive the small clamping block 101 to move downwards, the large magnet 100 is attracted with the large electromagnet 94, after the transfusion is finished, the conveyor belt motor 69 is started in a reverse rotation mode, the conveyor belt shaft 71 is driven to rotate, the conveyor belt wheel 70 is driven to rotate, the workpiece 13 is driven to move rightwards, and the workpiece 13 is reset and closed;

3: the driving motor 47 rotates forward to drive the power shaft 50 to rotate, thereby driving the large driving bevel gear 44 to rotate, thereby driving the large driven bevel gear 130 to rotate, thereby driving the rotating shaft 116 to rotate, thereby driving the rotating gear 131 and the rotating wheel 121 to rotate, thereby driving the clamping device box 53 to move downward, when moving to the lid of the dry storage battery, the auxiliary driven bevel gear 35 is engaged with the auxiliary driving bevel gear 51, the auxiliary driving bevel gear 51 rotates, thereby driving the small rope wheel shaft 42 to rotate, thereby driving the small wheel 52 and the small rope wheel 40 to rotate, thereby driving the hollow wheel 126 to rotate, and simultaneously the auxiliary button block 111 is pressed, thereby driving the thin rope 39 to be pulled, thereby rotatably tightening the lid, when the driving motor 47 rotates reversely, thereby driving the small rope wheel 40 to rotate, the iron chain 104 to be pulled, thereby moving the wide pulling block 128 downward, thereby loosening the clamp 72, so that the lid is loosened, big rope sheave 48 reversal this moment to drive big rope 49 and be pulled, thereby make the slewing gear 131 move backward, thereby make rope 117 relax, thereby make and rotate wheel 121 and move backward, thereby make and rotate wheel 121 and circular gear 68 and accomplish the meshing, thereby make clamping device case 53 move up, move to the starting point, close driving motor 47, little electro-magnet 86, big electro-magnet 94, accomplish work.

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 (4)

1. The utility model provides an automatic device of loading electrolyte which includes the organism, its characterized in that: a conveying cavity is arranged at the lower side of the machine body, a working cavity is arranged in the upper cavity wall of the conveying cavity, an electrolyte placing cavity is arranged in the upper cavity wall of the working cavity, a transfusion mechanism is arranged in the electrolyte placing cavity, a driving cavity is also arranged in the upper cavity wall of the working cavity, a driving mechanism is arranged in the driving cavity, an upward-pulling cavity is arranged in the upper cavity wall of the driving cavity, a cover taking mechanism is arranged in the upward-pulling cavity, the transfusion mechanism comprises an electrolyte placing box positioned in the electrolyte placing cavity, six transfusion tubes are arranged in the electrolyte placing box, an electrolyte placing partition plate is arranged in the transfusion tubes, a long rope is fixedly connected to the upper end face of the electrolyte placing partition plate, a top plate cavity is arranged in the upper cavity wall of the electrolyte placing cavity, a floating ball is also arranged in the electrolyte placing box, and the upper surface of, the electrolytic cell is characterized in that a top plate is arranged in the top plate cavity, the upper end face of the top plate is fixedly connected with a small magnet and a chain, the upper end face of the top plate is fixedly connected with the other end of the top plate spring fixedly connected with the upper cavity wall of the top plate cavity, the upper cavity wall of the top plate cavity is fixedly connected with a small electromagnet, electrolyte is placed in the upper cavity wall of the cavity and is also provided with a blocking block cavity, a blocking block is arranged in the blocking block cavity, the right end face of the blocking block cavity is fixedly connected with the other end of the blocking block cavity and penetrates through the right cavity wall of the blocking block cavity to the seven rope pulling block cavity, the chain is fixedly connected with the upper end face of the top plate, a seven rope pulling block cavity is arranged in the upper cavity wall of the electrolyte placing cavity, a seven rope pulling block is arranged in the seven rope pulling block cavity, and the other end of the lower end face of the seven rope pulling block is fixedly connected with the lower cavity wall of the seven rope pulling block cavity The upper end face of the electrolyte baffle is fixedly connected with an electrolyte baffle spring, the other end of the electrolyte baffle is fixedly connected with the electrolyte baffle spring, and the other end of the electrolyte baffle plate penetrates through the upper end face of the working cavity to the inner side of the seven-rope pulling block clamping cavity The pull rope is fixedly connected.

2. The apparatus for automatically charging an electrolyte as set forth in claim 1, wherein: the cap taking mechanism comprises a wide pulling block arranged in the upper pulling cavity, the upper end surface of the wide pulling block is fixedly connected with an upper pulling block reset spring of which the other end is fixedly connected with the upper cavity wall of the connecting plate cavity, the upper end surface of the wide pulling block is also fixedly connected with the other end and a thin rope fixedly connected with the right end surface of the auxiliary button block penetrating through the upper cavity wall of the connecting plate cavity to the inner cavity of the auxiliary button block, a long clamping block cavity with a leftward opening is arranged in the right cavity wall of the connecting plate cavity, a long clamping block is arranged in the long clamping block cavity, the right end surface of the long clamping block is fixedly connected with a long clamping block spring of which the other end is fixedly connected with the right cavity wall of the long clamping block cavity, an iron chain is also fixedly connected with the right end surface of the long clamping block, a small clamping block cavity with an upward opening is arranged in the lower cavity wall of the long clamping block cavity, the lower end face of the small fixture block is also fixedly connected with a small fixture block spring of which the other end is fixedly connected with the lower cavity wall of the small fixture block cavity, the lower end face of the small fixture block is also fixedly connected with the other end and the chain which penetrates through the small fixture block cavity to be fixedly connected with the right end face of the auxiliary block in the auxiliary block cavity, the lower cavity wall of the small fixture block cavity is fixedly connected with a large electromagnet, the driving cavity is internally provided with a clamping device box which is meshed with a circular gear, the clamping device box is internally provided with a small rope wheel shaft which is rotatably connected with the lower shell wall of the inner shell of the clamping device box, the small rope wheel shaft is fixedly connected with an auxiliary driven bevel gear, a small rope wheel and a small rotating wheel, the small rope wheel is wound with the iron chain of which the other end penetrates through the upper cavity wall of the driving cavity to the right end face of the long fixture block in the long fixture block, the hollow rotating wheel is internally provided with a clamp, the upper cavity wall of the driving cavity is internally provided with a connecting plate cavity, the connecting plate cavity is internally provided with a connecting plate fixedly connected with the clamp, and the connecting plate is fixedly connected with the wide pulling block.

3. The apparatus for automatically charging an electrolyte as set forth in claim 1, wherein: the driving mechanism comprises a driving motor fixedly connected with the right cavity wall of the driving cavity, the driving motor is in power connection with a power shaft, the power shaft is fixedly connected with a small driving belt wheel, a small driving belt wheel and a large rope, the large rope is in friction connection with a large driving bevel gear and an auxiliary driving bevel gear, the rear cavity wall of the driving cavity is rotationally connected with a rotating shaft, the rotating shaft is in sliding connection with a rotating gear and a rotating wheel, the rotating shaft is fixedly connected with a large driven bevel gear meshed with the large driving bevel gear, a rotating ring groove is arranged in the rotating gear, two rotating sliding blocks are in sliding connection in the rotating ring groove, the rear end face of each rotating sliding block is fixedly connected with a displacement spring, the other end of the displacement spring is fixedly connected with the rear cavity wall of the driving cavity, the rear end face of the rotating sliding block is fixedly connected with, the rotary wheel is internally provided with a rotary ring groove, the rotary ring groove is internally and slidably connected with a rotary ring block, the front end face of the rotary ring block is fixedly connected with the other end and an extension spring fixedly connected with the front wall of the driving cavity, the front end face of the rotary ring block is also fixedly connected with the other end and a hemp rope fixedly connected with the rear end face of the rotary slider, which penetrates through the front cavity wall of the driving cavity to the inner right end of the rotary ring groove, the front cavity wall of the driving cavity is rotatably connected with an auxiliary short shaft, the auxiliary short shaft is fixedly connected with a circular gear and is meshed with a clamping device box shell, the lower cavity wall of the driving cavity is provided with an auxiliary button block cavity with an upward opening, an auxiliary button block is arranged in the auxiliary button block cavity, the right end face of the auxiliary button block is fixedly connected with a thin rope, the lower end face, a small driven pulley shaft is rotatably connected to the right cavity wall of the bridging cavity, a small driven pulley shaft and an auxiliary driving bevel gear are fixedly connected to the small driven pulley shaft, the small driven pulley is connected with the small driving pulley through a small belt, auxiliary driven bevel gear shafts are rotatably connected to the front cavity wall and the rear cavity wall of the bridging cavity, the auxiliary driven bevel gear shafts are fixedly connected with auxiliary driven bevel gears meshed with the auxiliary driving bevel gears, the auxiliary driven bevel gear shafts are further fixedly connected with a large pulley, a conveying belt motor is fixedly connected to the rear cavity wall of the conveying cavity, the conveying belt motor is in power connection with a conveying belt shaft, the conveying belt shaft is fixedly connected with a conveying pulley, a conveying belt driven shaft is further rotatably connected to the rear cavity wall of the conveying cavity, the conveying belt driven shaft is fixedly connected with a conveying belt driven wheel, and, the conveying cavity is internally provided with an auxiliary block cavity with a left opening, an auxiliary block is arranged in the auxiliary block cavity, the other end of the upper end face of the auxiliary block is fixedly connected with the thick rope which penetrates through the upper cavity wall of the conveying cavity to the seven-rope pulling block cavity and is fixedly connected with the upper end face of the seven-rope pulling block, the right end face of the auxiliary block is also fixedly connected with an auxiliary block spring with the other end fixedly connected with the right cavity wall of the auxiliary block cavity, and the right end face of the auxiliary block is fixedly connected with a short rope.

4. The apparatus for automatically charging an electrolyte as set forth in claim 1, wherein: the utility model discloses a portable infusion apparatus, including working chamber, electrolyte placing chamber, big gear shaft, little bevel gear shaft has big driven pulley connected through the belt, the intracavity is equipped with electrolyte placing chamber in advance to the working chamber, electrolyte placing chamber intracavity is equipped with electrolyte placing chamber in advance, electrolyte placing chamber incasement be equipped with in advance with electrolyte places the infusion mouth that the case link up, electrolyte placing chamber intracavity is equipped with the electrolyte and pours into the mouth in advance, electrolyte placing chamber right side intracavity is equipped with the big gear chamber left in advance, the rotation of chamber wall is connected with the big gear shaft around the big gear chamber, big gear shaft fixed connection.

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