CN217473436U - Small-size dosing system that becomes more meticulous - Google Patents

Abstract

The utility model belongs to the technical field of the dosing unit, in particular to small-size batching system that becomes more meticulous. The technical scheme is as follows: a small-sized refined batching system comprises a bottom frame and a plurality of sub batching modules, wherein a plurality of receiving openings are formed in the bottom frame, butt joint blocks are arranged on one sides of the sub batching modules, and the butt joint blocks are clamped in the receiving openings; still be provided with the storage silo on the sub-batching module, the bottom of storage silo is connected with reinforced unit. The utility model provides a small-size batching system that becomes more meticulous of modular.

Description

Small-size dosing system that becomes more meticulous

Technical Field

The utility model belongs to the technical field of the dosing unit, in particular to small-size batching system that becomes more meticulous.

Background

When the materials are prepared, the materials in the storage tank are conveyed into the material receiving container through the pump, and the quantity of the added materials is controlled through the on-off of the pump.

The utility model with the patent application number of CN202020596551.X discloses a batching tank, which enables batching and stirring to be automated, and a high-pressure rotating spray head can wash stirring blades and the inner wall of the tank in all directions for cleaning, thereby improving the reliability; the device comprises a batching barrel, a bottom pillar, a bottom supporting disc, a discharge pipe and a discharge pipe hand valve, wherein the middle part of the bottom end of the batching barrel is communicated with the top end of the discharge pipe, and the outer wall of the middle part of the discharge pipe is connected with the inner wall of the discharge pipe hand valve; still include agitator motor, the stirring speed reducer, the (mixing) shaft, the stirring leaf, the axle restraint frame, the pump front-end tube, the pump extension board, the liquid pump, the pump back tube, high-pressure rotatory nozzle, batching bucket top cap and inlet pipe, it is connected with batching bucket top cap bottom to batching bucket top, the liquid pump bottom is connected with pump extension board top, the pump back tube other end is connected with high-pressure rotatory nozzle outer end, high-pressure rotatory nozzle inner communicates with batching bucket left end upper portion, batching bucket top cap top right part is linked together with the inlet pipe bottom.

However, the above device can only be used for configuring one material, and if other materials are configured, the equipment needs to be replaced, thereby increasing the cost.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model aims to provide a small-size batching system that becomes more meticulous of modular.

The utility model discloses the technical scheme who adopts does:

a small-sized refined batching system comprises an underframe and a plurality of sub-batching modules, wherein the underframe is provided with a plurality of receiving openings, and one side of each sub-batching module is provided with a butt joint block which is clamped in the receiving opening; still be provided with the storage silo on the sub-batching module, the bottom of storage silo is connected with reinforced unit.

The utility model discloses a set up a plurality of the same admission ports on the chassis, a plurality of sub-batching modules use the same butt joint piece to be connected with the admission port on the chassis, then can install the material that can dispose corresponding component on the chassis with required a plurality of sub-batching modules as required. The utility model discloses a sub-batching module adopts the modular mounting means, when disposing different materials, only changes sub-batching module, need not carry out the overall change to the feed proportioning system, uses more conveniently and economy.

As the utility model discloses a preferred scheme, still be provided with the control unit who is used for controlling reinforced unit action on the sub-batching module, the control unit is connected with reinforced unit electricity. The control unit can control the feeding unit to be opened or closed, so that the feeding unit can be ensured to carry out quantitative feeding. Each sub-batching module is accurately and quantitatively fed, so that the accuracy of the components of the configured materials is guaranteed.

As the utility model discloses an optimal selection scheme, still be provided with the detection module that is used for detecting the volume of feeding on the sub-batching module, detection module is connected with the control unit electricity. The detection unit detects the feeding amount of the feeding unit in real time and sends the adding amount signal to the control unit, so that the control unit monitors the feeding amount of the feeding unit and controls the feeding unit to stop feeding at an accurate time.

As a preferred scheme of the utility model, an information interaction unit is further arranged on the sub-batching module and is electrically connected with the control unit; the master control unit is in communication connection with the information interaction units on the sub-batching modules respectively. Utilize total the unit setting to dispose the proportion of the component of material, total the unit with component proportion information transmission to the information interaction unit of each sub-batching module, information interaction unit transmits the batching task volume of corresponding component to the control unit can accurate control the opening and close of reinforced unit, reinforced unit adds to this component is accurate. The finally configured materials meet the proportion of the components set by the master control unit, so that the materials are automatically and accurately configured, the material proportioning accuracy is ensured, and the manual operation is reduced.

As the utility model discloses a preferred scheme, reinforced unit includes the reinforced subelement of big dose and the reinforced subelement of small dose, and the flow of the reinforced subelement of big dose is greater than the reinforced subelement of small dose. The single sub-batching module comprises a large-dose feeding subunit and a small-dose feeding subunit, and during batching, the component is added to be close to a preset amount through the large-dose feeding subunit, and then the component is added to be close to the preset amount through the small-dose feeding subunit. The flow of the large-dose charging subunit is large, so that the charging time can be shortened; because the flow of the small-dose feeding subunit is small, the feeding error when the feeding unit is shut down can be reduced.

As the utility model discloses an optimal scheme, the quantity of the storage silo on the sub-batching unit is a plurality of, and reinforced unit is all connected to the bottom of every storage silo.

As the preferred scheme of the utility model, mobile device is installed to the bottom of sub-batching module. The moving device is installed at the bottom of the sub-batching module, so that the sub-batching module can be conveniently moved integrally. The moving device can be a roller, and the roller can be provided with a lock catch.

As the preferred scheme of the utility model, be provided with the passageway that a plurality of confession sub-batching modules removed on the chassis. When each sub-batching module is installed, the sub-batching modules are pushed up to the receiving port on the butt-joint block and the bottom frame.

As the utility model discloses a preferred scheme, be provided with standard quick connect port on the sub-batching module. The standard quick connect port consists of a plug terminal and a receptacle terminal, which are capable of making electrical and signal connections. After the sub-ingredient module moves, the standard quick connection port can be used for quick connection with the main charging system. Under the circumstances that sub-batching module can the quick connect owner feeding system, can conveniently remove sub-batching module, for example, after using up, put the freezer with the sub-batching module of splendid attire needs cold-stored material, avoid the material rotten, and need not rinse when using at every turn and reinforced.

The utility model has the advantages that:

1. the utility model discloses a set up a plurality of the same admission ports on the chassis, a plurality of sub-batching modules use the same butt joint piece to be connected with the admission port on the chassis, then can install the material that can dispose corresponding component on the chassis with required a plurality of sub-batching modules as required. The utility model discloses a sub-batching module adopts the modular mounting means, when the different materials of configuration, only changes sub-batching module, need not carry out the overall change to the feed proportioning system, uses convenient and economy more.

2. The utility model discloses a total accuse unit sends component proportion information to the information interaction unit of each sub-batching module, and the information interaction unit transmits the batching task volume of corresponding component to the control unit to the control unit can accurate control the opening and close of reinforced unit, reinforced unit carries out the accuracy to this component and adds. Therefore, the finally configured materials meet the proportion of the components set by the master control unit, the materials are automatically and accurately configured, the burdening accuracy is ensured, and the manual operation is reduced.

3. The utility model discloses a single sub-batching module all includes the reinforced subelement of the big dose and the reinforced subelement of small dose, during the batching, adds this component to be close to the volume of predetermineeing through the big dose and expects the subelement earlier, reuses the reinforced subelement of small dose and adds this component to the volume of predetermineeing. The feeding time can be shortened due to the large flow of the large-dose feeding subunit; because the flow of the small-dose feeding subunit is small, the feeding error when the feeding unit is shut down can be reduced.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the construction of the chassis;

FIG. 3 is a schematic structural diagram of a sub-ingredient module;

FIG. 4 is a schematic view of a sub-ingredient module having a plurality of storage bins.

In the figure: 1-a chassis; 2-a sub-batching module; 11-a receiving port; 12-a channel; 13-a track; 21-butting block; 22-a storage bin; 23-a feeding unit; 24-a control unit; 25-a detection module; 26-an information interaction unit; 27-a mobile device; 231-bulk dosing subunit; 232-Small dose dosing subunit.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

As shown in fig. 1 to 3, the small-sized refined batching system of the present embodiment includes an underframe 1 and a plurality of sub-batching modules 2, wherein the underframe 1 is provided with a plurality of receiving openings 11, one side of the sub-batching module 2 is provided with a butt-joint block 21, and the butt-joint block 21 is clamped in the receiving openings 11; the sub-batching module 2 is further provided with a storage bin 22, and the bottom of the storage bin 22 is connected with a feeding unit 23. Wherein, each component of the prepared material can be powder, particles, liquid and the like; the feeding unit 23 may be a screw transfer pump, a liquid pump, or the like.

The utility model discloses a set up a plurality of the same accepting openings 11 on chassis 1, a plurality of sub-batching modules 2 use the same butt joint piece 21 to be connected with accepting openings 11 on chassis 1, then can dispose the material that has corresponding component on installing chassis 1 with required a plurality of sub-batching modules as required. The utility model discloses a sub-batching module 2 adopts the modular mounting means, when the different materials of configuration, only changes sub-batching module 2, need not carry out the overall change to the feed proportioning system, uses convenient and economy more.

In order to realize automatic and accurate batching, the sub-batching module 2 is further provided with a control unit 24 for controlling the action of the feeding unit 23, and the control unit 24 is electrically connected with the feeding unit 23. The sub-batching module 2 is also provided with a detection module 25 for detecting the feeding amount, and the detection module 25 is electrically connected with the control unit 24. The sub-batching module 2 is also provided with an information interaction unit 26, and the information interaction unit 26 is electrically connected with the control unit 24; the system also comprises a master control unit which is respectively in communication connection with the information interaction units 26 on the plurality of sub-batching modules 2.

The proportion of the components of the material to be configured is set by using the master control unit, the master control unit sends the component proportion information to the information interaction units 26 of the sub-batching modules 2, and the information interaction units 26 transmit the batching task amount of the corresponding components to the control unit 24. The detection unit detects the feeding amount of the feeding unit 23 in real time and sends an adding amount signal to the control unit 24, so that the control unit 24 monitors the feeding amount of the feeding unit 23 and controls the feeding unit 23 to stop feeding at an accurate timing. The control unit 24 can control the charging unit 23 to be opened or closed, thereby ensuring that the charging unit 23 is dosed. Each sub-batching module 2 is accurately and quantitatively fed, and the accuracy of the components of the configured materials is guaranteed. The finally configured materials meet the proportion of the components set by the master control unit, so that the materials are automatically and accurately configured, the burdening accuracy is ensured, and the manual operation is reduced.

In order to increase the dosing speed and improve the dosing accuracy, the dosing unit 23 comprises a large dosing subunit 231 and a small dosing subunit 232, the large dosing subunit 231 having a larger flow than the small dosing subunit 232. The single sub-dosing modules 2 each comprise a large dosing subunit 231 and a small dosing subunit 232, and during dosing, the component is added to approximately a preset amount by the large dosing subunit 231 and then added to the preset amount by the small dosing subunit 232. The charging time can be shortened due to the larger flow of the large-dose charging subunit 231; since the flow rate of the small-dose charging subunit 232 is small, the charging error when the charging unit 23 is shut down can be reduced.

Further, the bottom of the sub-ingredient module 2 is mounted with a moving device 27. And a moving device 27 is arranged at the bottom of the sub-batching module 2, so that the sub-batching module 2 can be conveniently moved integrally. The moving device 27 may be a roller, and the roller may have a lock. The base frame 1 is provided with a plurality of channels 12 for the sub-batching modules 2 to move. When each sub-batching module 2 is installed, the sub-batching module 2 is pushed onto the bottom frame 1 until the butt joint block 21 on the sub-batching module 2 is clamped with the receiving opening 11 on the bottom frame 1.

In practice, as shown in fig. 4, a plurality of storage bins 22 may be provided on the sub-ingredient unit, and a feeding unit 23 is connected to the bottom of each storage bin 22. Several components, which are always used simultaneously, can be added to several storage silos 22 of the same sub-batching module 2 in order to reduce the number of sub-batching modules 2.

As shown in fig. 2, rails 13 may be provided on the chassis 1, and the ingredient compartment is placed on the rails 13. During the batching, automatic control or manual work promote the proportioning bins and remove to move the proportioning bins respectively to each sub-batching module 2's the reinforced unit 23 position, thereby progressively add each component through each sub-batching module 2.

Furthermore, a standard quick connection port is arranged on the sub-ingredient module 2. The standard quick connect port consists of a plug terminal and a receptacle terminal, which are capable of making electrical and signal connections. After the sub-ingredient module 2 moves, a standard quick connection port can be used for quick connection with the main charging system. Under the circumstances that sub-batching module 2 can the quick connect owner feeding system, can conveniently remove sub-batching module 2, for example, after using up, put the freezer with sub-batching module 2 that the splendid attire needs cold-stored material, avoid the material rotten, and wash and reinforced when needn't using at every turn.

The small-size fine batching method comprises the following steps:

a plurality of sub-batching modules 2 which are needed and are filled with corresponding components are pushed into the base frame 1 from the channel 12 of the base frame 1, so that the butt joint blocks 21 of the sub-batching modules 2 are clamped with the receiving openings 11 of the base frame 1. The proportion of the components of the material to be configured is set by the master control unit, the component proportion information is sent to the information interaction units 26 of the sub-batching modules 2 by the master control unit, and the batching task amount of the corresponding components is transmitted to the control unit 24 by the information interaction units 26. The detection unit detects the charging amount of the charging unit 23 in real time and sends a charging amount signal to the control unit 24, so that the control unit 24 monitors the charging amount of the charging unit 23 and controls the charging unit 23 to stop charging at an accurate timing.

When adding material, the feeding unit 23 with a larger flow rate is used to feed the material to the amount close to the dosing task amount, and then the feeding unit 23 with a smaller flow rate is used to feed the material to the dosing task amount. The charging time can be shortened due to the larger flow of the large-dose charging subunit 231; since the flow rate of the small-dose charging subunit 232 is small, the charging error when the charging unit 23 is shut down can be reduced.

The present invention is not limited to the above-mentioned optional embodiments, and any other products in various forms can be obtained by anyone under the teaching of the present invention, and any changes in the shape or structure thereof, all the technical solutions falling within the scope of the present invention, are within the protection scope of the present invention.

Claims (9)

1. A small-size batching system that becomes more meticulous which characterized in that: the automatic feeding device comprises an underframe (1) and a plurality of sub-batching modules (2), wherein the underframe (1) is provided with a plurality of receiving openings (11), one side of each sub-batching module (2) is provided with a butt joint block (21), and the butt joint blocks (21) are clamped in the receiving openings (11); the sub-batching module (2) is also provided with a storage bin (22), and the bottom of the storage bin (22) is connected with a feeding unit (23).

2. A compact dispensing system as claimed in claim 1, wherein: the sub-batching module (2) is also provided with a control unit (24) for controlling the action of the feeding unit (23), and the control unit (24) is electrically connected with the feeding unit (23).

3. A miniaturized dispensing system according to claim 1, wherein: the sub-batching module (2) is also provided with a detection module (25) for detecting the feeding amount, and the detection module (25) is electrically connected with the control unit (24).

4. A compact dispensing system as claimed in claim 1, wherein: the sub-batching module (2) is also provided with an information interaction unit (26), and the information interaction unit (26) is electrically connected with the control unit (24); the system also comprises a master control unit which is in communication connection with the information interaction units (26) on the plurality of sub-batching modules (2) respectively.

5. A compact dispensing system as claimed in claim 1, wherein: the feeding unit (23) comprises a large-dose feeding subunit (231) and a small-dose feeding subunit (232), and the flow rate of the large-dose feeding subunit (231) is larger than that of the small-dose feeding subunit (232).

6. A compact dispensing system as claimed in claim 1, wherein: the number of the storage bins (22) on the sub-batching units is a plurality, and the bottom of each storage bin (22) is connected with a feeding unit (23).

7. A compact dispensing system as claimed in claim 1, wherein: and a moving device (27) is installed at the bottom of the sub-batching module (2).

8. A miniaturized dispensing system according to claim 1, wherein: the base frame (1) is provided with a plurality of channels (12) for the sub-batching modules (2) to move.

9. A miniature refined batching system as claimed in any one of claims 1 to 8, wherein: and a standard quick connection port is arranged on the sub-batching module (2).

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