CN113619820B - Water treatment reagent agitated vessel - Google Patents

Abstract

The invention belongs to the technical field of water treatment, and particularly relates to water treatment reagent stirring equipment, which comprises: a support table, a stirring device disposed on the support table, the stirring device being adapted for reagent capsules; the separating device is arranged on the stirring device and is suitable for separating the stirred reagent capsules, so that the reagent capsules can fall into the reagent bottles below the separating device independently, and the reagent capsules can enter the bottles independently one by one at each time in the bottling process of the reagent capsules, thereby facilitating counting.

Description

Water treatment reagent agitated vessel

Technical Field

The invention belongs to the technical field of water treatment, and particularly relates to water treatment reagent stirring equipment.

Background

In the preparation process of the water treatment reagent, reagent capsules need to be bottled, but in the bottling process, the fact that a single reagent capsule enters a bottle every time cannot be guaranteed, so that the counting is difficult to perform in the bottling process, and the quantity of the reagent capsules in the bottle is uneven.

Therefore, there is a need for a new water treatment agent stirring apparatus based on the above technical problems.

Disclosure of Invention

The invention aims to provide a water treatment reagent stirring device.

In order to solve the above technical problems, the present invention provides a water treatment agent stirring apparatus, comprising:

a support table for supporting the operation of the operation,

a stirring device disposed on the support table, the stirring device adapted for reagent capsules;

the separation device is arranged on the stirring device and is suitable for separating the stirred reagent capsules so that the reagent capsules can independently fall into the reagent bottles below the separation device.

Further, the stirring device includes: the device comprises a driving mechanism, a stirring mechanism and a discharge pipe;

the driving mechanism is arranged on the supporting platform;

the stirring mechanism is arranged on the supporting platform;

the driving mechanism is connected with the stirring mechanism;

the discharge pipe is connected with the stirring mechanism, and the separation device is arranged in the stirring mechanism;

the driving mechanism is suitable for driving the stirring mechanism to stir the reagent capsules, so that the reagent capsules enter the discharge pipe and are separated by the separating device in the discharge pipe, and the reagent capsules independently fall into the reagent bottles below the outlet of the feeding and discharging pipe along the discharge pipe.

Further, the drive mechanism: the device comprises a driving motor, a first rotating shaft, a second rotating shaft and a transmission belt;

the driving motor is arranged on the supporting platform;

the driving motor is connected with the first rotating shaft;

the first rotating shaft is connected with the second rotating shaft through a transmission belt;

the second rotating shaft is connected with the stirring mechanism;

the driving motor is suitable for driving the first rotating shaft to drive the second rotating shaft to be connected through the transmission belt so as to drive the stirring mechanism to work.

Further, the stirring mechanism includes: a bearing plate and a stirring plate;

the bearing disc is arranged on the supporting table;

the stirring disc is arranged on the inner bottom surface of the bearing disc;

the second rotating shaft penetrates through the bottom surface of the bearing plate and then is connected with the stirring plate;

a third groove is circumferentially arranged on the edge of the inner bottom surface of the bearing plate, and a first discharge hole is formed in the third groove;

the discharge pipe is arranged on the outer bottom surface of the bearing disc and is connected with the first discharge hole;

a notch is formed in the stirring plate;

a fourth groove is formed in the edge of the stirring plate, and the fourth groove is covered above the third groove;

one end of the fourth groove is provided with an opening, and the other end of the fourth groove is provided with a seal;

the driving motor is suitable for driving the stirring disc to rotate through the second rotating shaft so as to stir the reagent capsules borne in the bearing disc;

the reagent capsule of stirring gets into the third recess through the breach of agitator disk to the fourth recess rotates in reagent capsule top when the agitator disk rotates, drops in the discharging tube from first discharge gate with the promotion reagent capsule that seals through the fourth recess.

Further, the separation device includes: the device comprises a sleeve, a sliding block, a driving cylinder and a separating mechanism;

the sleeve is arranged in the discharge pipe and is connected with the first discharge hole;

the sliding block is arranged in the sleeve;

the driving cylinder is arranged outside the discharging pipe;

the driving air cylinder penetrates through the discharge pipe and the sleeve and then is connected with the sliding block;

the side walls of the discharge pipe and the sliding block are both provided with sliding holes, and the driving end of the driving air cylinder is suitable for moving along the sliding holes so as to drive the sliding block to move in the sleeve along the length direction of the sleeve;

a second discharge hole is formed in the side wall of the sleeve;

the separating mechanism is arranged on the outer wall of the sleeve and extends into the sleeve;

the slider is suitable for accepting the reagent capsule that falls into in the sleeve from first discharge gate, drives actuating cylinder and drives the slider and slide in the sleeve, makes in the reagent capsule falls into the discharge tube from the second discharge gate, separates the reagent capsule on the slider at the in-process separating mechanism that the slider removed to the second discharge gate, makes in the reagent capsule drops into the feed inlet pipe alone.

Further, the separation mechanism includes: a first rack, a second rack and a gear;

the first rack and the second rack are arranged up and down along the length direction of the sleeve;

the gear is arranged on the outer wall of the sleeve;

the first rack and the second rack are both connected with the gear;

one end of the first rack is flush with the inner wall of the sleeve;

the second rack extends out of the inner wall of the sleeve;

when the slider moves downwards in the sleeve and is close to the second discharge port, the bottom surface of the slider contacts the second rack to enable the second rack to move outwards, the first rack is driven by the gear to extend inwards the sleeve, the first rack extends into the space between two reagent capsules in contact with the slider to enable the reagent capsules to be separated, and the reagent capsules borne by the slider after separation fall into the discharge pipe from the second discharge port.

Further, the separation mechanism further includes: a first spring;

one end of the first spring is connected with the outer wall of the sleeve, and the other end of the first spring is connected with the second rack;

the first spring extends when the bottom surface of the sliding block contacts the second rack to enable the second rack to move outwards to the sleeve, and when the sliding block does not contact the second rack any more, the first spring recovers deformation to drive the second rack to extend inwards to the sleeve, and the first rack is driven by the gear to extend outwards to the sleeve.

Further, the water treatment agent stirring apparatus further includes: a plugging device;

the plugging device is arranged at an outlet of the discharge pipe;

the plugging device is suitable for plugging the bottle mouth of the reagent bottle and preventing the reagent capsules in the discharge pipe from entering the reagent bottle.

Further, the occlusion device comprises: the device comprises a base, a handle, a transmission rod, an eccentric wheel, a connecting frame, a plug, a connecting shaft and a second spring;

the base is arranged on the supporting platform;

the connecting frame is arranged on the base;

the eccentric wheel is arranged on the connecting frame;

the handle is arranged on the transmission rod;

the transmission rod is connected with the eccentric wheel;

the connecting shaft is arranged on the connecting frame;

the second spring is sleeved on the connecting shaft;

the second spring is connected with the plug;

the base is provided with a first inlet, and the discharge pipe extends into the base through the first inlet;

a second inlet is formed in the base, and the plug extends into the second inlet;

a third discharge hole is formed in the base;

the first inlet, the second inlet and the third discharge hole are communicated;

the eccentric wheel is driven to rotate by rotating the transmission rod through the handle, and when the protruding part of the eccentric wheel rotates to the plug, the plug is driven to extend into the second inlet to plug the third discharge hole, so that the reagent capsule in the discharge pipe is prevented from falling into the reagent bottle from the third discharge hole;

when the protruding part of the eccentric wheel leaves the plug, the second spring recovers deformation, the plug is driven to extend out of the second inlet, and the third discharge hole is opened.

Further, the water treatment agent stirring apparatus further includes: a label pressing device;

a stripping head of the label pressing device is internally provided with a cavity, and the cavity is communicated with an ink outlet hole on a second groove formed in the stripping head through a direct connection channel and an arc-shaped communication channel;

a coating block is arranged in the ink outlet hole;

when a pressure roller arranged in a stripping fixing plate in a label pressing device presses a label, ink in a cavity is coated on the printing of the pressure roller by a coating block so as to print on the label.

The reagent capsule stirring device has the beneficial effects that through the support table and the stirring device, the stirring device is arranged on the support table, and the stirring device is suitable for reagent capsules; the separating device is arranged on the stirring device and is suitable for separating the stirred reagent capsules, so that the reagent capsules can fall into the reagent bottles below the separating device independently, and the reagent capsules can enter the bottles independently one by one at each time in the bottling process of the reagent capsules, thereby facilitating counting.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present 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 some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic view of a water treatment agent stirring apparatus according to the present invention;

FIG. 2 is a schematic structural view of another perspective of the water treatment agent stirring apparatus according to the present invention;

FIG. 3 is a cross-sectional view of a separation device according to the present invention;

FIG. 4 is a schematic view of an occluding device according to the present invention;

FIG. 5 is a cross-sectional view of an occlusion device in accordance with the present invention;

fig. 6 is a schematic structural diagram of a marking device according to the present invention;

fig. 7 is an enlarged view of portion a of fig. 6 according to the present invention.

In the figure:

1 is a support table;

2 is a stirring device, 21 is a driving mechanism, 211 is a driving motor, 212 is a first rotating shaft, 213 is a second rotating shaft, 214 is a transmission belt, 22 is a stirring mechanism, 221 is a bearing disc, 2211 is a third groove, 2212 is a first discharge hole, 222 is a stirring disc, 2221 is a fourth groove, and 23 is a discharge pipe;

3 is a separating device, 31 is a sleeve, 311 is a second discharge hole, 32 is a slide block, 33 is a driving cylinder, 34 is a separating mechanism, 341 is a first rack, 342 is a second rack, 343 is a gear, and 344 is a first spring;

4, a label pressing device, 41, a peeling fixing plate, 411, a first groove, 412, a rotating shaft, 413, a pressing roller, 42, a peeling head, 421, a second groove, 422, an ink outlet, 43, a cavity, 44, a direct connection channel, 45, an arc-shaped communication channel, 46, a coating block, 47, an ink replenishing pipe, 48, a collecting groove, 481, a through hole and 49, wherein the first groove and the second groove are arranged in the same plane;

the belt 5, the clamp 51, the spring 52 and the support 53.

6 is a plugging device, 61 is a base, 611 is a first inlet, 612 is a second inlet, 613 is a third outlet, 62 is a handle, 63 is a transmission rod, 64 is an eccentric wheel, 65 is a connecting frame, 66 is a plug, 67 is a connecting shaft, and 68 is a second spring.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 7, the present embodiment provides a water treatment agent stirring apparatus including: a support table 1, a stirring device 212, said stirring device 212 being arranged on said support table 1, said stirring device 212 being adapted for reagent capsules; the separating device 3 is arranged on the stirring device 212, the separating device 3 is suitable for separating the stirred reagent capsules, so that the reagent capsules can fall into the reagent bottles below the separating device 3 independently, the reagent capsules can fall into the bottles independently each time in the bottling process of the reagent capsules, the counting is convenient, the number of the reagent capsules in each reagent bottle is the same, and the net content of the reagent in each reagent bottle is ensured to be the same.

Stirring device 212

In this embodiment, the stirring device 212 includes: a driving mechanism, a stirring mechanism 22 and a discharge pipe 23; the driving mechanism is arranged on the supporting table 1; the stirring mechanism 22 is arranged on the support table 1; the driving mechanism is connected with the stirring mechanism 22; the discharge pipe 23 is connected with the stirring mechanism 22, and the separation device 3 is arranged in the stirring mechanism 22; the driving mechanism is suitable for driving the stirring mechanism 22 to stir the reagent capsules, so that the reagent capsules enter the discharge pipe 23 and are separated in the discharge pipe 23 by the separation device 3, and the reagent capsules independently fall into the reagent bottles below the outlet of the discharge pipe 23 along the discharge pipe 23; the stirring mechanism 22 can prevent the reagent capsules from being adhered together, and the quality of the reagent capsules is prevented from being influenced by the adhesion.

In this embodiment, the drive mechanism: a driving motor 211, a first rotating shaft 212, a second rotating shaft 213 and a driving belt 214; the driving motor 211 is arranged on the support table 1; the driving motor 211 is connected with the first rotating shaft 212; the first rotating shaft 212 is connected with the second rotating shaft 213 through a transmission belt 214; the second rotating shaft 213 is connected with the stirring mechanism 22; the driving motor 211 is adapted to drive the first rotating shaft 212 to drive the second rotating shaft 213 to connect through the transmission belt 214, so as to drive the stirring mechanism 22 to work.

In the present embodiment, the stirring mechanism 22 includes: a carrier plate 221 and a stirring plate 222; the bearing disc 221 is arranged on the support table 1; the stirring plate 222 is arranged on the inner bottom surface of the bearing plate 221; the second rotating shaft 213 penetrates through the bottom surface of the bearing disc 221 and then is connected with the stirring disc 222; a third groove 2211 is circumferentially arranged on the edge of the inner bottom surface of the bearing plate 221, and a first discharge hole 2212 is arranged in the third groove 2211; the discharge pipe 23 is arranged on the outer bottom surface of the bearing disc 221 and connected with the first discharge hole 2212; a gap is formed in the stirring plate 222, and a plate can extend towards the direction of the outer edge of the bearing plate 221 in the height direction at the gap, so that stirring is facilitated; a fourth groove 2221 is formed in the edge of the stirring plate 222, and the fourth groove 2221 is covered above the third groove 2211; one end of the fourth groove 2221 is open, and the other end is sealed; the driving motor 211 is adapted to drive the stirring plate 222 to rotate through the second rotating shaft 213, so as to stir the reagent capsules carried in the carrying plate 221; the stirred reagent capsule enters the third groove 2211 through the gap of the stirring disc 222, and the fourth groove 2221 rotates above the reagent capsule when the stirring disc 222 rotates, so that the reagent capsule is pushed to fall into the discharge pipe 23 from the first discharge port 2212 through the seal of the fourth groove 2221; the carrier tray 221 may be in the shape of a bowl with a depth to carry more reagent capsules; the third and fourth grooves 2211 and 2221 are matched to form a chamber for storing reagent capsules, when the stirring plate 222 rotates and stirs, the fourth groove 2221 is covered above the reagent capsules falling into the third groove 2211 to prevent other capsules from overlapping with the capsules in the third groove 2211, and the rotation of the stirring plate 222 can enable the outer wall of the fourth groove 2221 to extrude other reagent capsules stacked on the reagent capsules in the third groove 2211; the reagent capsules are pushed by the end sealed by the fourth groove 2221 (at this time, the reagent capsules are located between the third groove 2211 and the fourth groove 2221) to fall from the first discharge port 2212 to the discharge pipe 23 along the third groove 2211 one by one.

Separating device 3

In the present embodiment, the separation device 3 includes: the sleeve 31, the slider 3332, the driving cylinder and the separating mechanism 34; the sleeve 31 is arranged in the discharge pipe 23, and the sleeve 31 is connected to the first discharge port 2212; the sliding block 3332 is arranged in the sleeve 31; the driving air cylinder is arranged outside the discharge pipe 23; the driving air cylinder penetrates through the discharge pipe 23 and the sleeve 31 and then is connected with the sliding block 3332; sliding holes are formed in the side walls of the discharge pipe 23 and the sliding block 3332, and the driving end of the driving air cylinder is suitable for moving along the sliding holes so as to drive the sliding block 3332 to move in the sleeve 31 along the length direction of the sleeve 31; a second discharge hole 311 is formed in the side wall of the sleeve 31; the separating mechanism 34 is arranged on the outer wall of the sleeve 31 and extends into the sleeve 31; the sliding block 3332 is suitable for receiving the reagent capsules falling into the sleeve 31 from the first discharge port 2212, the driving cylinder drives the sliding block 3332 to slide in the sleeve 31, so that the reagent capsules fall into the discharge pipe 23 from the second discharge port 311, and the separating mechanism 34 separates the reagent capsules on the sliding block 3332 in the process that the sliding block 3332 moves towards the second discharge port 311, so that the reagent capsules fall into the discharge pipe 23 independently; in an initial state, the sliding block 3332 is positioned at the upper end of the sleeve 31 and can receive the reagent capsules falling from the first discharge port 2212 at the first time; there can be the arc breach on the slider 3332, when the slider 3332 moved to second discharge gate 311, the reagent capsule rolled along the arc breach and fell into second discharge gate 311 to roll in discharging pipe 23.

In the present embodiment, the separation mechanism 34 includes: a first rack 341, a second rack 342, and a gear 343; the first rack 341 and the second rack 342 are disposed up and down along the length direction of the sleeve 31; the gear 343 is provided on the outer wall of the sleeve 31; the first rack 341 and the second rack 342 are both connected to the gear 343; one end of the first rack 341 is flush with the inner wall of the sleeve 31; the second rack 342 extends out of the inner wall of the sleeve 31; when the sliding block 3332 moves downwards in the sleeve 31 to approach the second discharge port 311, the bottom surface of the sliding block 3332 contacts the second rack 342, so that the second rack 342 moves outwards of the sleeve 31, at this time, the gear 343 drives the first rack 341 to extend into the sleeve 31, the first rack 341 extends between two reagent capsules contacting on the sliding block 3332, so that the reagent capsules are separated, and the reagent capsules carried by the separated sliding block 3332 fall into the discharge pipe 23 from the second discharge port 311; when the slider 3332 receives a reagent capsule, one end of the first rack 341 is located in the sidewall of the sleeve 31 or flush with one side of the inner sidewall of the sleeve 31, one end of the second rack 342 extends out of the inner sidewall of the sleeve 31 (and the end is an inclined surface) and is located in the sleeve 31, when the slider 3332 moves downward to be close to the second discharge port 311, the slider 3332 contacts the inclined surface to gradually push the second rack 342 out of the sleeve 31, the first rack 341 is driven by the gear 343 to extend into the sleeve 31, the first rack 341 is located between two reagent capsules to separate the two reagent capsules, after the second rack 342 completely retracts into the sidewall of the sleeve 31, the slider 3332 moves to the second discharge port 311, and the reagent capsule received by the slider 3332 rolls into the discharge pipe 23 from the second discharge port 311.

In this embodiment, the separation mechanism 34 further includes: a first spring 344; one end of the first spring 344 is connected with the outer wall of the sleeve 31, and the other end is connected with the second rack 342; when the bottom surface of the sliding block 3332 contacts the second rack 342, the first spring 344 extends when the second rack 342 moves towards the outside of the sleeve 31, and when the sliding block 3332 does not contact the second rack 342 any more, the first spring 344 recovers deformation to drive the second rack 342 to extend towards the inside of the sleeve 31, and the gear 343 drives the first rack 341 to extend towards the outside of the sleeve 31; after reagent capsules received by the sliding block 3332 roll into the discharging pipe 23 from the second discharging port 311, the driving cylinder drives the sliding block 3332 to move towards the first discharging port 2212, the second rack 342 is driven to extend out of the side wall of the sleeve 31 and enter the sleeve 31 by the recovery deformation of the first spring 344 from the extension state, the first rack 341 is driven to contract by the gear 343 at the moment, the reagent capsules separated by the racks drop on the sliding block 3332, if the reagent capsules enter the sleeve 31 from the first discharging port 2212, the reagent capsules are stacked on the sliding block 3332, and then the reagent capsules are separated.

Plugging device 6

In this embodiment, the water treatment agent stirring apparatus further includes: an occlusion device 6; the plugging device 6 is arranged at the outlet of the discharge pipe 23; the plugging device 6 is suitable for plugging the mouth of the reagent bottle to prevent the reagent capsule in the discharge pipe 23 from entering the reagent bottle; because only a single reagent capsule gets into the reagent bottle at every turn, can obtain the quantity of the reagent capsule that drops according to the reciprocating motion number of times that drives actuating cylinder, accomplish the bottling and can prevent unnecessary reagent capsule bottling through plugging device 6 when the reagent capsule quantity in a reagent bottle reaches, can accept the reagent capsule through next empty bottle.

In the present embodiment, the occlusion device 6 includes: the device comprises a base 61, a handle 62, a transmission rod 63, an eccentric wheel 64, a connecting frame 65, a plug 66, a connecting shaft 67 and a second spring 68; the base 61 is arranged on the support table 1; the connecting frame 65 is arranged on the base 61; the eccentric wheel 64 is arranged on the connecting frame 65; the handle 62 is arranged on the transmission rod 63; the transmission rod 63 is connected with the eccentric wheel 64; the connecting shaft 67 is arranged on the connecting frame 65; the second spring 68 is sleeved on the connecting shaft 67; the second spring 68 is connected with the plug 66; the base 61 is provided with a first inlet 611, and the discharge pipe 23 extends into the base 61 through the first inlet 611; a second inlet 612 is formed in the base 61, and the plug 66 extends into the second inlet 612; a third discharge hole 613 is formed in the base 61; the first inlet 611, the second inlet 612 and the third outlet 613 are communicated; the driving rod 63 is rotated by the handle 62 to drive the eccentric wheel 64 to rotate, and when the protruding portion of the eccentric wheel 64 rotates to the plug 66, the plug 66 is driven to extend into the second inlet 612 to plug the third outlet 613, so that the reagent capsule in the discharging tube 23 is prevented from falling into the reagent bottle from the third outlet 613; when the convex part of the eccentric wheel 64 leaves the plug 66, the second spring 68 recovers deformation, drives the plug 66 to extend out of the second inlet 612, and opens the third discharge hole 613; the third outlet 613 can be blocked by rotating the eccentric wheel 64 through the handle 62, and a reagent bottle can be arranged below the third outlet 613, so that the third outlet 613 is blocked to prevent a reagent capsule from entering the reagent bottle.

The driving motor 211 drives the stirring plate 222 to rotate, so that the reagent capsule drops on the sliding block 3332 from the first discharge port 2212, the driving cylinder drives the sliding block 3332 to move towards the second discharge port 311, the second rack 342 drives the first rack 341 through the gear 343 to separate the reagent capsule on the sliding block 3332, a reagent capsule on the sliding block 3332 enters the discharge pipe 23 through the second discharge port 311, the reagent bottle drops from the third discharge port 613, and when the reagent bottle is bottled, the handle 62 drives the plug 66 to block the third discharge port 613, so that the empty reagent bottle can be replaced to continuously receive the reagent capsule.

Marking device 4

In this embodiment, the water treatment agent stirring apparatus further includes: a marking device 4; the marking device 4 includes: a peeling fixing plate 4123 and a peeling head 42; the peel fixing plate 4123 is provided on the bracket 53; the peeling head 42 is rotatably connected with the peeling fixing plate 4123; a first groove 411 is arranged on the end surface of the stripping fixing plate 4123 rotationally connected with the stripping head 42; a rotating shaft 412 is arranged in the first groove 411; a pressing roller 413 is sleeved on the rotating shaft 412; the rotating shaft 412 can stretch out and draw back to facilitate the disassembly of the pressing roller 413, and a gap is reserved between the pressing roller 413 and the side wall of the first groove 411 to facilitate the contraction of the rotating shaft 412; the peeling head 42 is suitable for attaching the label on the labeling film unreeled by the unreeling device onto the reagent bottle, firmly attaching the label onto the reagent bottle through the pressing roller 413, and rolling the labeling film through the reeling device, so that the label is firmly attached onto the reagent bottle, and the label is prevented from falling off.

In this embodiment, the stamping device 4 further includes: a cavity 43, a direct connecting channel 44, an arc-shaped communicating channel 45 and a coating block 46; a second groove 421 is arranged on the end surface of the stripping head 42 rotatably connected with the stripping fixing plate 4123; the shape of the second groove 421 is matched with the shape of the part of the pressing roller 413 exposed out of the first groove 411; the cavity 43 is opened in the peeling head 42 to store ink; the direct passage 44 communicates with the cavity 43; the arc-shaped communicating channel 45 is communicated with the direct connecting channel 44, and the arc-shaped communicating channel 45 is communicated with an ink outlet 422 formed in the second groove 421; the coating block 46 is arranged in the ink outlet 422, and the coating block 46 is sealed with the ink outlet 422 to prevent ink from flowing out; the coating block 46 is fitted with printing on the pressure roller 413; the cavity 43 is communicated with the outside of the peeling head 42 through an ink supplementing pipe 47 so as to supplement ink into the cavity 43 through the ink supplementing pipe 47; the labels on the labeling film can be arranged at intervals, a hole is formed between every two adjacent labels, and after the labels are attached to the reagent bottles, the hole behind the labels is located at the position of the compression roller 413, so that the prints can pass through the hole to contact the labels, and the prints are convenient; the pressure roller 413 rotates for one circle each time the pressure roller 413 presses the label, so that the coating block 46 is ensured to contact the printing each time the coating block is contacted with the pressure roller 413; the chamber 43 can be cleaned by filling clean water into the clean water cleaning chamber 43 through the ink supply pipe 47, and the clean water is guided to the pressure roller 413 through the coating block 46 to clean the pressure roller 413 and the collecting groove 48.

In this embodiment, the stamping device 4 further includes: a collection trough 48 and a scraper 49; the collecting groove 48 is arranged in the first groove 411 and is arranged below the pressing roller 413; a through hole 481 is formed in the bottom surface of the collecting groove 48; the scraper 49 is arranged in the collecting groove 48, and the scraper 49 is contacted with the pressing roller 413, so that foreign matters on the surface of the pressing roller 413 are scraped in the collecting groove 48 when the pressing roller 413 rotates, and fall out of the peeling fixing plate 4123 through the through hole 481; the length of the scraper 49 can be matched with the length of the pressure roller 413 without printing, so that the scraper 49 is prevented from being attached with ink on the printing.

In the embodiment, one side of the marking device 4 is provided with a transmission belt 5, and a clamp 51 is arranged on the transmission belt; the reagent bottles after bottling can be clamped to the clamp 51 on the conveyor belt through a manipulator; a spring 52 is arranged on the bottom surface of the clamp 51; the clamp 51 is adapted to hold a reagent bottle, and the reagent bottle is disposed on the spring 52; the conveyor belt 5 is adapted to transport a gripper 51 for transporting reagent bottles.

The labeling film on the unwinding device contacts the head end of the peeling head 42 from the upper part of the peeling head 42, then extends along the length direction of the peeling fixing plate 4123 from the lower part of the peeling head 42, is wound on the winding device, and is driven to unwind while winding; the reagent bottles are conveyed by the conveyor belt, the reagent bottles are contacted with the stripping heads 42 in the swinging state, the stripping heads 42 are driven to rotate towards the top surface of the stripping fixing plate 4123, at the moment, the stripping heads 42 abut against the reagent bottle compression springs 52, the bottom surfaces of the stripping heads 42 are gradually flush with the bottom surface of the stripping fixing plate 4123 along with the continuous conveying of the reagent bottles by the conveyor belt, the parts of the first grooves 411, which are exposed by wrapping pressing rollers 413, between the second grooves 421 are wrapped, and the labels on the label films are attached to the reagent bottles by the stripping heads 42 at the moment; the conveyor belt continues to convey the reagent bottles, the reagent bottles leave the stripping head 42, the stripping head 42 swings down again, at the moment, the springs 52 recover to deform, and the reagent bottles are driven to lift up so that the labels on the reagent bottles are flush with the lowest points of the pinch rollers 413; after the peeling head 42 leaves the reagent bottle, the conveyor belt starts to reversely transport the reagent bottle, the reagent bottle contacts the fallen peeling head 42 to drive the peeling head 42 to rotate towards the bottom surface of the peeling fixing plate 4123, the label contacts the lowest point of the pressure roller 413 to drive the pressure roller 413 to rotate, the pressure roller 413 presses the label, the hole in the labeling film moves to the pressure roller 413, and the pressure roller 413 prints the printing on the surface of the label through the hole; the reagent bottle with the fastened label can be taken out, and the label can be conveniently attached to the next reagent bottle.

In summary, the present invention provides a reagent capsule preparation apparatus comprising a support base 1, a stirring device 212, wherein the stirring device 212 is provided on the support base 1, and the stirring device 212 is adapted to a reagent capsule; the separating device 3 is arranged on the stirring device 212, the separating device 3 is suitable for separating the stirred reagent capsules, so that the reagent capsules can fall into the reagent bottles below the separating device 3 independently, and the reagent capsules can enter the bottles independently one by one each time in the bottling process of the reagent capsules, so that the counting is convenient.

The components selected for use in the present application (components not illustrated for specific structures) are all common standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experimentation. Moreover, the software programs referred to in the present application are all prior art, and the present application does not relate to any improvement of the software programs.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some communication interfaces, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (8)

1. A water treatment agent stirring apparatus, comprising:

a support table for supporting the operation of the operation,

a stirring device disposed on the support table, the stirring device adapted for reagent capsules;

the separation device is arranged on the stirring device and is suitable for separating the stirred reagent capsules so that the reagent capsules can independently fall into the reagent bottles below the separation device;

the separation device includes: the device comprises a sleeve, a sliding block, a driving cylinder and a separating mechanism;

the sleeve is arranged in a discharge pipe of the stirring device and is connected with a first discharge hole of the stirring device;

the sliding block is arranged in the sleeve;

the driving cylinder is arranged outside the discharging pipe;

the driving air cylinder penetrates through the discharge pipe and the sleeve and then is connected with the sliding block;

the side walls of the discharge pipe and the sliding block are both provided with sliding holes, and the driving end of the driving air cylinder is suitable for moving along the sliding holes so as to drive the sliding block to move in the sleeve along the length direction of the sleeve;

a second discharge hole is formed in the side wall of the sleeve;

the separating mechanism is arranged on the outer wall of the sleeve and extends into the sleeve;

the sliding block is suitable for receiving the reagent capsules falling into the sleeve from the first discharge port, the driving cylinder drives the sliding block to slide in the sleeve, so that the reagent capsules fall into the discharge pipe from the second discharge port, and the separating mechanism separates the reagent capsules on the sliding block in the process that the sliding block moves towards the second discharge port, so that the reagent capsules independently fall into the feed pipe and the discharge pipe;

the separation mechanism includes: a first rack, a second rack and a gear;

the first rack and the second rack are arranged up and down along the length direction of the sleeve;

the gear is arranged on the outer wall of the sleeve;

the first rack and the second rack are both connected with the gear;

one end of the first rack is flush with the inner wall of the sleeve;

the second rack extends out of the inner wall of the sleeve;

when the slider moves downwards in the sleeve and is close to the second discharge port, the bottom surface of the slider contacts the second rack to enable the second rack to move outwards, the first rack is driven by the gear to extend inwards the sleeve, the first rack extends into the space between two reagent capsules in contact with the slider to enable the reagent capsules to be separated, and the reagent capsules borne by the slider after separation fall into the discharge pipe from the second discharge port.

2. The water-treating agent agitating apparatus of claim 1,

the stirring device includes: the device comprises a driving mechanism, a stirring mechanism and a discharge pipe;

the driving mechanism is arranged on the supporting platform;

the stirring mechanism is arranged on the supporting platform;

the driving mechanism is connected with the stirring mechanism;

the discharge pipe is connected with the stirring mechanism, and the separation device is arranged in the stirring mechanism;

the driving mechanism is suitable for driving the stirring mechanism to stir the reagent capsules, so that the reagent capsules enter the discharge pipe and are separated by the separating device in the discharge pipe, and the reagent capsules independently fall into the reagent bottles below the outlet of the feeding and discharging pipe along the discharge pipe.

3. The water-treating agent agitating apparatus of claim 2,

the driving mechanism is: the device comprises a driving motor, a first rotating shaft, a second rotating shaft and a transmission belt;

the driving motor is arranged on the supporting platform;

the driving motor is connected with the first rotating shaft;

the first rotating shaft is connected with the second rotating shaft through a transmission belt;

the second rotating shaft is connected with the stirring mechanism;

the driving motor is suitable for driving the first rotating shaft to drive the second rotating shaft to be connected through the transmission belt so as to drive the stirring mechanism to work.

4. The water-treating agent agitating apparatus of claim 3,

the stirring mechanism includes: a bearing plate and a stirring plate;

the bearing disc is arranged on the supporting table;

the stirring disc is arranged on the inner bottom surface of the bearing disc;

the second rotating shaft penetrates through the bottom surface of the bearing plate and then is connected with the stirring plate;

a third groove is circumferentially arranged on the edge of the inner bottom surface of the bearing plate, and a first discharge hole is formed in the third groove;

the discharge pipe is arranged on the outer bottom surface of the bearing disc and is connected with the first discharge hole;

a notch is formed in the stirring plate;

a fourth groove is formed in the edge of the stirring plate, and the fourth groove is covered above the third groove;

one end of the fourth groove is provided with an opening, and the other end of the fourth groove is provided with a seal;

the driving motor is suitable for driving the stirring disc to rotate through the second rotating shaft so as to stir the reagent capsules borne in the bearing disc;

the reagent capsule of stirring gets into the third recess through the breach of agitator disk to the fourth recess rotates in reagent capsule top when the agitator disk rotates, drops in the discharging tube from first discharge gate with the promotion reagent capsule that seals through the fourth recess.

5. The water treatment agent agitating apparatus of claim 4,

the separation mechanism further includes: a first spring;

one end of the first spring is connected with the outer wall of the sleeve, and the other end of the first spring is connected with the second rack;

the first spring extends when the bottom surface of the sliding block contacts the second rack to enable the second rack to move outwards to the sleeve, and when the sliding block does not contact the second rack any more, the first spring recovers deformation to drive the second rack to extend inwards to the sleeve, and the first rack is driven by the gear to extend outwards to the sleeve.

6. The water treatment agent agitating apparatus of claim 5,

the water treatment agent stirring apparatus further comprises: a plugging device;

the plugging device is arranged at an outlet of the discharge pipe;

the plugging device is suitable for plugging the bottle mouth of the reagent bottle and preventing the reagent capsules in the discharge pipe from entering the reagent bottle.

7. The water treatment agent agitating apparatus of claim 6,

the occlusion device comprises: the device comprises a base, a handle, a transmission rod, an eccentric wheel, a connecting frame, a plug, a connecting shaft and a second spring;

the base is arranged on the supporting platform;

the connecting frame is arranged on the base;

the eccentric wheel is arranged on the connecting frame;

the handle is arranged on the transmission rod;

the transmission rod is connected with the eccentric wheel;

the connecting shaft is arranged on the connecting frame;

the second spring is sleeved on the connecting shaft;

the second spring is connected with the plug;

the base is provided with a first inlet, and the discharge pipe extends into the base through the first inlet;

a second inlet is formed in the base, and the plug extends into the second inlet;

a third discharge hole is formed in the base;

the first inlet, the second inlet and the third discharge hole are communicated;

the eccentric wheel is driven to rotate by rotating the transmission rod through the handle, and when the protruding part of the eccentric wheel rotates to the plug, the plug is driven to extend into the second inlet to plug the third discharge hole, so that the reagent capsule in the discharge pipe is prevented from falling into the reagent bottle from the third discharge hole;

when the protruding part of the eccentric wheel leaves the plug, the second spring recovers deformation, the plug is driven to extend out of the second inlet, and the third discharge hole is opened.

8. The water treatment agent agitating apparatus of claim 7,

the water treatment agent stirring apparatus further comprises: a label pressing device;

a stripping head of the label pressing device is internally provided with a cavity, and the cavity is communicated with an ink outlet hole on a second groove formed in the stripping head through a direct connection channel and an arc-shaped communication channel;

a coating block is arranged in the ink outlet hole;

when a pressure roller arranged in a stripping fixing plate in a label pressing device presses a label, ink in a cavity is coated on the printing of the pressure roller by a coating block so as to print on the label.

Images