CN213664871U - Liquid seasoning dosing system - Google Patents

Abstract

The utility model discloses a liquid condiment batching system relates to intelligent culinary art batching field. The liquid seasoning batching system comprises a central control host, a batching host, a batch feeder and an air pressure generator, wherein the batching host comprises a liquid seasoning batching module and a water starch batching module, and the air pressure generator is connected with the batch feeder through a positive pressure pipeline and a negative pressure pipeline; the batch feeder is connected with the batching host; the central control host is respectively connected with the batching host and the feeder and used for sending out control commands so as to enable the batching host and the feeder to execute corresponding actions according to the control commands. The utility model discloses a liquid condiment batching system can realize functions such as ration of liquid condiment batching prepareeing material, distribution, buffer memory, input automatically, has saved the consumption of manpower and materials, has improved liquid condiment batching system's space utilization and work efficiency.

Description

Liquid seasoning dosing system

Technical Field

The utility model belongs to the technical field of intelligence culinary art batching and specifically relates to a liquid condiment feed proportioning system is related to.

Background

In the process of preparing dishes, dishes to be cooked need to be prepared and then fed according to the cooking sequence.

However, in the prior art, a plurality of independent liquid seasoning ingredient systems, such as an independent liquid seasoning ingredient system and an independent water-starch seasoning ingredient system, need to be designed for the seasoning ingredient system for preparing dishes, but a plurality of independent ingredient systems occupy a large amount of space, so that the space utilization rate of the ingredient system is low, and the work efficiency of the ingredient machine is also low.

In view of the above, there is a need for a liquid seasoning dispensing system that can improve space utilization and work efficiency.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a liquid condiment feed proportioning system, main aim at solve liquid condiment feed proportioning system's space utilization low and the low technical problem of work efficiency.

In order to realize the aim, the utility model provides a liquid seasoning batching system, which comprises a central control host, a batching host, a batch feeder and an air pressure generator, wherein the batching host comprises a liquid seasoning batching module and a water starch batching module,

the air pressure generator is connected with the feeding device through a positive pressure pipeline and a negative pressure pipeline;

the batch feeder is connected with the batching host;

the central control host is respectively connected with the batching host and the feeder and used for sending out control commands so as to enable the batching host and the feeder to execute corresponding actions according to the control commands.

In an embodiment of the present invention, optionally, the liquid seasoning dosing module includes a liquid seasoning tank, an air inlet valve, a first discharge valve, a liquid seasoning delivery pipe, and a first feeding valve, wherein an inlet of the liquid seasoning tank is connected to one end of the air inlet valve, and the other end of the air inlet valve is communicated with air; the outlet of the liquid seasoning tank is connected with one end of a first discharge valve, and the other end of the first discharge valve is connected with a liquid seasoning conveying pipeline; one end of the liquid seasoning conveying pipeline is connected with one end of the first feeding valve, and the other end of the first feeding valve is connected with the feeding pipeline of the feeding device.

In an embodiment of the present invention, optionally, the liquid seasoning ingredient module further comprises a first pressure valve, wherein the other end of the liquid seasoning conveying pipeline is connected to one end of the first pressure valve, and the other end of the first pressure valve is connected to the positive pressure pipeline of the air pressure generator.

In an embodiment of the present invention, optionally, the water and starch batching module includes a water and starch mixing tank, a stirring motor, a first water inlet valve, a liquid flow meter, a second water inlet valve and a second feeding valve, wherein an inlet of the water and starch mixing tank is connected to one end of the first water inlet valve, the other end of the first water inlet valve is connected to the liquid flow meter, the other end of the liquid flow meter is connected to one end of the second water inlet valve, and the other end of the second water inlet valve is connected to the water inlet pipe; blades of the stirring motor are arranged in the water-starch mixing tank, the stirring motor is connected with the central control host, and the stirring motor is used for rotating or stopping according to a control command sent by the central control host; the outlet of the water-starch mixing tank is connected with one end of a second feeding valve, and the other end of the second feeding valve is connected with a feeding pipeline of a feeding device.

In an embodiment of the present invention, optionally, the water starch batching module further includes a starch feeder, the starch feeder is connected to another inlet of the water starch mixing tank, the starch feeder is used for holding starch, and the starch is put into the water starch mixing tank according to a control command sent by the central control host.

In one embodiment of the present invention, optionally, the first feeding valve of the liquid seasoning dosing module and the second feeding valve of the water starch dosing module are connected.

In an embodiment of the present invention, optionally, the feeding device includes a feeding buffer module, and the feeding buffer module includes a liquid seasoning buffer bottle, a feeding pipeline, a first negative pressure valve and an exhaust valve, wherein the liquid seasoning buffer bottle is connected to one end of the first negative pressure valve, and the other end of the first negative pressure valve is connected to the negative pressure pipeline of the air pressure generator; the liquid seasoning buffer bottle is also connected with one end of an exhaust valve, and the other end of the exhaust valve is communicated with the air; the inlet of the liquid seasoning buffer bottle is connected with one end of a feeding pipeline, and the other end of the feeding pipeline is connected with a first feeding valve of a liquid seasoning batching module and/or a second feeding valve of a water starch batching module.

In an embodiment of the present invention, optionally, the feeding device further includes a feeding module, the feeding module includes a second pressure valve and a pipe clamping valve, wherein one end of the second pressure valve is connected to the feeding pipeline, and the other end of the second pressure valve is connected to the positive pressure pipeline of the air pressure generator; one end of the pipe clamping valve is connected with the outlet of the liquid seasoning buffer bottle, and the other end of the pipe clamping valve is communicated with the air.

In an embodiment of the present invention, optionally, the ingredient main machine further includes a liquid seasoning cleaning module, the liquid seasoning cleaning module includes a third water inlet valve, wherein one end of the third water inlet valve is connected to the liquid seasoning conveying pipe, and the other end of the third water inlet valve is connected to the water inlet pipe; the cleaning water of the liquid seasoning cleaning module enters through one end of the third water inlet valve communicated with the water inlet pipeline and is discharged through one end of the batch feeder for feeding seasoning.

In an embodiment of the present invention, optionally, the batching host further includes a water starch cleaning module, the water starch cleaning module includes a cleaning tank, a second negative pressure valve, a third positive pressure valve, a wastewater inlet valve and a wastewater discharge valve, wherein the cleaning tank is connected to one end of the second negative pressure valve, and the other end of the second negative pressure valve is connected to a negative pressure pipeline of the air pressure generator; the cleaning tank is also connected with one end of a third positive pressure valve, and the other end of the third positive pressure valve is connected with a positive pressure pipeline of the air pressure generator; the inlet of the cleaning tank is connected with one end of a wastewater inlet valve, and the other end of the wastewater inlet valve is connected with a water-starch mixing tank; the other end of the waste water inlet valve is also connected with one end of a waste water drainage valve.

In an embodiment of the present invention, optionally, the ingredient main machine further includes a sterilization module, the sterilization module includes an ozone water buffer bottle, an ozone generator, a fourth water inlet valve, and an ozone water outlet valve, wherein the ozone generator is connected to the ozone water buffer bottle; the inlet of the ozone buffer bottle is connected with one end of a fourth water inlet valve, and the other end of the fourth water inlet valve is connected with a water inlet pipeline; the outlet of the ozone buffer bottle is connected with one end of an ozone water outlet valve, and the other end of the ozone water outlet valve is connected with a liquid seasoning conveying pipeline and/or a water starch seasoning module of the liquid seasoning batching module.

In an embodiment of the present invention, optionally, the other end of the ozone water outlet valve is connected to the water inlet pipe of the water starch dosing module.

The utility model provides a liquid seasoning batching system, including batching host computer, well accuse host computer, feeder and atmospheric pressure generator, batching host computer includes liquid seasoning batching module and water starch batching module, wherein, liquid seasoning batching module can carry out quantitative prepareeing material and distribution to the liquid seasoning that need not to reconcile, water starch batching module can carry out quantitative prepareeing material and distribution to the liquid seasoning that needs to reconcile, two batching modules not only can the timesharing work, also can work simultaneously, the work efficiency of liquid seasoning batching system has been guaranteed, the space occupancy of liquid seasoning batching system has also been reduced simultaneously, furthermore, batching host computer links to each other with feeder, feeder links to each other with atmospheric pressure generator's malleation pipeline and negative pressure pipeline respectively, can realize buffer memory and the input of liquid seasoning, in addition, well accuse host computer links to each other with each electron device of batching host computer and feeder respectively, the liquid dispensing and dispensing device can send various control commands, and the dispensing host and the dispensing device can execute corresponding actions after receiving the control commands, so that related functions of quantitative material preparation, distribution, caching, dispensing and the like of liquid dispensing and dispensing are realized. The liquid seasoning batching system provided by the embodiment can automatically realize the functions of quantitative material preparation, distribution, buffer storage, throwing and the like of liquid seasoning batching, saves the consumption of manpower and material resources, and improves the space utilization rate and the working efficiency of the liquid seasoning batching system.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a schematic structural diagram of a liquid seasoning dispensing system according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a liquid seasoning dispensing system according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a liquid seasoning dispensing system according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a liquid seasoning dispensing system according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a liquid seasoning dispensing system according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a liquid seasoning dispensing system according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a liquid seasoning dispensing system according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of a liquid seasoning dispensing system according to an embodiment of the present invention;

FIG. 9 is a schematic diagram of a liquid seasoning dispensing system according to an embodiment of the present invention;

FIG. 10 is a schematic diagram of a liquid seasoning dispensing system according to an embodiment of the present invention;

fig. 11 shows a schematic structural diagram of a liquid seasoning dispensing system according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

To further illustrate the technical means and effects of the present invention adopted to achieve the intended purpose of the present invention, the following detailed description is given with reference to the accompanying drawings and preferred embodiments, in order to explain the detailed embodiments, structures, features and effects of the present invention. In the following description, different "one embodiment" or "an embodiment" refers to not necessarily the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

A liquid seasoning dispensing system according to some embodiments of the present invention is described below with reference to fig. 1 to 11.

As shown in fig. 1, an embodiment of the present invention provides a liquid seasoning batching system, which includes a batching host 100, a central control host 200 (not shown), a batch charger 300 and an air pressure generator 400 (not shown), wherein the batching host 100 includes a liquid seasoning batching module 110 and a water starch batching module 120, wherein the air pressure generator 400 is connected to the batch charger 300 through a positive pressure pipeline and a negative pressure pipeline, the batch charger 300 is connected to the liquid seasoning batching module 110 and the water starch batching module 120 of the batching host 100, the central control host 200 is connected to the batching host 100 and the batch charger 300, respectively, for issuing a control command, so that the batching host 100 and the batch charger 300 perform corresponding actions according to the control command.

In the above embodiment, the blending host 100 is configured to quantitatively stock and dispense liquid flavoring, where the liquid flavoring may be liquid flavoring that does not need to be blended, such as light soy sauce, dark soy sauce, mature vinegar, white vinegar, cooking wine, and white spirit, and the liquid flavoring may also be liquid flavoring that needs to be blended, such as water starch, and in this embodiment, the liquid flavoring batching module 110 is configured to quantitatively stock and dispense liquid flavoring that does not need to be blended, the water starch batching module 120 is configured to quantitatively stock and dispense liquid flavoring that needs to be blended, the two batching modules may work in a time-sharing manner or simultaneously, so as to ensure the working efficiency of the liquid flavoring batching system, and further, the liquid flavoring batching module 110 and the water starch batching module 120 may be respectively connected to the batch feeder 300, and the batch feeder 300 is configured to buffer and feed liquid flavoring, in this embodiment, the batch feeder 300 is connected with the negative pressure pipeline of the air pressure generator 400, so that the liquid seasoning in the liquid seasoning module 110 and/or the water starch seasoning module 120 can be sucked into the batch feeder 300, and then the batch feeder 300 is connected with the positive pressure pipeline of the air pressure generator 400, so that the liquid seasoning stored in the batch feeder 300 can be thrown into the frying pan. In this embodiment, the central control host 200 may be connected to each electronic device of the dispensing host 100 and the batch feeder 300, respectively, and send out various control commands, and after receiving the control command sent by the central control host 200, the dispensing host 100 and the batch feeder 300 may execute corresponding actions according to the control command, such as opening a certain electromagnetic valve, and the like, thereby implementing related functions of material preparation, distribution, buffer storage, and delivery of liquid dispensing and batching.

The embodiment of the utility model provides a liquid seasoning batching system, including batching host computer, well accuse host computer, feeder and atmospheric pressure generator, batching host computer includes liquid seasoning batching module and water starch batching module, wherein, liquid seasoning batching module can be to need not harmonious liquid seasoning to prepare material and distribute quantitatively, water starch batching module can be to need harmonious liquid seasoning to prepare material and distribute quantitatively, two batching modules not only can the timesharing work, also can work simultaneously, the work efficiency of liquid seasoning batching system has been guaranteed, the space occupancy of liquid seasoning batching system has also been reduced simultaneously, furthermore, batching host computer links to each other with feeder, feeder links to each other with atmospheric pressure generator's malleation pipeline and negative pressure pipeline respectively, can realize buffer memory and the input of liquid seasoning, in addition, well accuse host computer links to each electronic device with batching host computer and feeder respectively, the liquid dispensing and dispensing device can send various control commands, and the dispensing host and the dispensing device can execute corresponding actions after receiving the control commands, so that related functions of quantitative material preparation, distribution, caching, dispensing and the like of liquid dispensing and dispensing are realized. The liquid seasoning batching system provided by the embodiment can automatically realize the functions of quantitative material preparation, distribution, buffer storage, throwing and the like of liquid seasoning batching, saves the consumption of manpower and material resources, and improves the space utilization rate and the working efficiency of the liquid seasoning batching system.

In one embodiment of the present invention, preferably, as shown in fig. 1 and 2, the liquid seasoning dosing module 110 includes one or more liquid seasoning tanks P103(P104, P105, P106, P107, P108 are all liquid seasoning tanks, only P103 is illustrated), an air inlet valve K115, a first discharge valve K116(K117, K118, K119, K120, K121 are all first discharge valves, only K116 is illustrated), a liquid seasoning delivery pipe, a first feeding valve K106(K107, K108 are all first feeding valves, only K106 is illustrated), and a first pressure valve K123, wherein an inlet of the liquid seasoning tank P103 is connected to one end of the air inlet valve K115, the other end of the air inlet valve K115 is connected to air, an outlet of the liquid seasoning tank P103 is connected to one end of the first discharge valve K116, the other end of the first discharge valve K116 is connected to the liquid seasoning delivery pipe, one end of the liquid delivery pipe is connected to one end of the first pressure valve K123, the other end of the first pressurizing valve K123 is connected with a positive pressure pipeline of the air pressure generator, the other end of the liquid seasoning conveying pipeline is connected with one end of the first feeding valve K106, and the other end of the first feeding valve K106 is connected with a feeding pipeline of the feeding device 300.

In the above embodiments, the liquid seasoning tanks are used for holding liquid seasonings such as light soy sauce, dark soy sauce, mature vinegar, white vinegar, cooking wine, white spirit and the like, each liquid seasoning tank is used for holding a liquid seasoning, for example, the liquid seasoning tank P103 is used for holding light soy sauce, one end of the air inlet valve K115 is communicated with the atmosphere, the other end is connected with each liquid seasoning tank, and is used for keeping the pressure balance in the liquid seasoning tank during the quantitative material preparation and distribution of the liquid seasoning, the first outlet valve is used for controlling the liquid seasoning to flow out into the liquid seasoning delivery pipeline, the first feeding valve is used for controlling the liquid seasoning to flow out into the feeder 300, the first pressurizing valve K123 is used for blowing the residual liquid seasoning in the liquid seasoning delivery pipeline into the feeder 300, in this embodiment, each valve of the liquid seasoning dosing module 110 is controlled by the central control host 200, that each valve of the liquid seasoning dosing module 110 can perform opening and closing actions according to a control command, to achieve quantitative stock preparation and dispensing of liquid seasoning.

In other embodiments, the difference is that instead of providing a liquid flavoring conduit in communication with the positive pressure, the liquid flavoring conduit is closed at one end in place of the first pressurization valve K123 in communication with the positive pressure conduit, i.e., in this embodiment, the liquid flavoring system does not include the first pressurization valve K123 nor in communication with the positive pressure conduit. At the moment, after the quantification is completed under the action of the negative pressure, the first discharge valve K116 is closed, the negative pressure is continuously applied for a period of time, and the liquid which has completed the quantification is sucked into the liquid seasoning cache bottle under the action of the negative pressure.

In one embodiment of the present invention, preferably, as shown in fig. 1 and fig. 2, the water starch batching module 120 includes one or more water starch mixing tanks, stirring motors M109-1(M109-2 and M109-3 are both stirring motors, only M109-1 is illustrated), first water inlet valves K114-1(K114-2 and K114-3 are both first water inlet valves, only K114-1 is illustrated), a liquid flow meter L101, a second water inlet valve K127 and a second feeding valve K113-1(K113-2 and K113-3 are both second feeding valves, only K113-1 is illustrated), wherein an inlet of the water starch mixing tank is connected to one end of the first water inlet valve K114-1, the other end of the first water inlet valve K114-1 is connected to the liquid flow meter L101, the other end of the liquid flow meter L101 is connected to one end of the second water inlet valve K127, the other end of the second water inlet valve K127 is connected with a water inlet pipeline, the stirring blade is arranged in the water-starch mixing tank, the stirring motor M109-1 is connected with the central control host 200, the stirring motor M109-1 is used for rotating or stopping according to a control command sent by the central control host, the outlet of the water-starch mixing tank is connected with one end of a second feeding valve K113-1, and the other end of the second feeding valve K113-1 is connected with a feeding pipeline of a feeding device 300.

In the above embodiment, the water-starch mixing tank is used for containing mixed water starch, and the water starch is a mixture of starch and water and can generate precipitation when the water starch is static, therefore, in this embodiment, a stirring motor is installed at the bottom of the water-starch mixing tank, a blade of the stirring motor is arranged in the water-starch mixing tank, a motor of the stirring motor is arranged outside the water-starch mixing tank, the stirring motor is connected with the control host 200 and can rotate or stop according to a command of the control host 200, the first water inlet valve is connected with a water inlet of the water-starch mixing tank and can control clean water to flow into the water-starch mixing tank, the liquid flow meter L101 is connected with the first water inlet valve and can measure the amount of clean water entering the water-starch mixing tank, the second water inlet valve K127 is connected with a water inlet pipeline and can control clean water to flow into the batching host 100, the second batching valve is used for controlling the mixed water starch to flow out of the batch feeder 300, in this embodiment, each valve of the water starch batching module 120 can perform opening and closing actions according to the control command, so as to realize quantitative preparation and distribution of the water starch.

In this other embodiment, stirring vane is magnetic stirrers, water starch agitator tank below sets up the base, water starch agitator tank places on the base, be provided with the magnetic structure on the base, magnetic mechanism is connected with agitator motor M109-1, magnetic mechanism rotates under agitator motor's effect, because magnetic force adsorption, the magnetic stirrers that drives in the water starch agitator tank rotates, thereby realize the mixed stirring of water starch, the mode of magnetic stirring is convenient for tearing open of water starch agitator tank and is got, also make the stirring structure easily wash simultaneously. In other embodiments, the stirring mode may also be a mode in which the stirring motor directly drives the stirring blade to stir in the water starch stirring tank, which is not limited herein.

In an embodiment of the present invention, preferably, as shown in fig. 1 and 2, the water starch batching module 120 further includes a starch feeder, the starch feeder is connected to another inlet of the water starch mixing tank, the starch feeder is used for containing starch and feeding the starch into the water starch mixing tank according to a control command sent by the central control host 200.

In one embodiment of the present invention, preferably, as shown in fig. 1 and 2, the first feeding valve K106 of the liquid seasoning ingredient module 110 and the second feeding valve K113-1 of the water starch ingredient module 120 are connected. In the above embodiment, the end of the first feeding valve K106 connected to the feeding device 300 and the end of the second feeding valve K113-1 connected to the feeding device 300 are connected, so that the liquid seasoning ingredient module 110 and the water starch ingredient module 120 can form a passage, which is controlled by the first feeding valve of the liquid seasoning ingredient module 110 and the second feeding valve of the water starch ingredient module 120, respectively. In this embodiment, the water starch module 120 and the liquid blending module 110 are respectively provided with a feeding valve, so that the liquid flavoring and the water starch can be simultaneously conveyed to the feeding device, which is beneficial to improving the efficiency.

In other embodiments, the water starch module 120 and the liquid ingredient module 110 may share a single dosing valve.

In an embodiment of the present invention, preferably, as shown in fig. 1 and fig. 2, the feeding device 300 includes a feeding buffer module 310, the feeding buffer module includes a liquid seasoning buffer bottle P302, a feeding pipeline, a first negative pressure valve K304 and an exhaust valve K305, wherein the liquid seasoning buffer bottle P302 is connected to one end of the first negative pressure valve K304, the other end of the first negative pressure valve K304 is connected to the negative pressure pipeline of the air pressure generator, the liquid seasoning buffer bottle P302 is further connected to one end of the exhaust valve K305, the other end of the exhaust valve K305 is connected to the air, the inlet of the liquid seasoning buffer bottle P302 is connected to one end of the feeding pipeline, and the other end of the feeding pipeline is connected to the first feeding valve K106 of the liquid seasoning batching module 110 and/or to the second feeding valve K113-1 of the starch water batching module 120.

In the above embodiment, the liquid seasoning bottle P302 is a gas-liquid separator for containing a predetermined amount of prepared liquid seasoning or water starch, and the separated gas is discharged from the K305 when the mixture of the liquid or water starch and the gas is transferred into the liquid seasoning bottle P302 by using the cyclone principle. The first negative pressure valve K304 is used for quantifying and sucking the liquid seasoning or the water starch in the ingredient main machine 100 into the liquid seasoning conveying pipeline, the feeding pipeline and/or the liquid seasoning buffer bottle P302, the exhaust valve K305 is used for matching with the first pressurizing valve K123 of the liquid seasoning ingredient module 110, and when the liquid seasoning or the water starch in the liquid seasoning conveying pipeline and the feeding pipeline is blown into the liquid seasoning buffer bottle P302, the gas separated from the liquid seasoning buffer bottle is exhausted into the atmosphere; andor: for negative pressure pumping of the finished amount of seasoning into the liquid seasoning bottle P302, the separated gas is discharged to the atmosphere. The vent valve K305 may also be used in other situations where it is desirable to vent gas from the liquid seasoning bottle P302.

In an embodiment of the present invention, preferably, as shown in fig. 1 and fig. 2, the feeding device 300 further includes a feeding module 320, and the feeding module 320 includes a second pressure valve K306 and a pinch valve K307, wherein one end of the second pressure valve K306 is connected to the feeding pipeline, the other end of the second pressure valve K306 is connected to the positive pressure pipeline of the air pressure generator, one end of the pinch valve K307 is connected to the outlet of the liquid seasoning buffer bottle P302, and the other end of the pinch valve K307 is connected to the air.

In the above embodiment, the pinch valve K307 is used to control the liquid seasoning or water starch in the liquid seasoning bottle P302 to be poured into the wok, and the second pressurizing valve K306 is used to cooperate with the pinch valve K307 to blow the liquid seasoning or water starch in the liquid seasoning bottle P302 into the wok.

In an embodiment of the present invention, preferably, as shown in fig. 1 and fig. 2, the ingredient main machine 100 further includes a liquid seasoning cleaning module, the liquid seasoning cleaning module includes a third water inlet valve K122, wherein one end of the third water inlet valve K122 is connected to the liquid seasoning conveying pipeline, the other end of the third water inlet valve K122 is connected to the water inlet pipeline, the cleaning water of the liquid seasoning cleaning module enters through the end of the third water inlet valve K122 communicated with the water inlet pipeline, and the end of the liquid seasoning cleaning module that is fed with seasoning through the feeder 300 is discharged.

In the above embodiment, the third water inlet valve K122 is connected to one end of the liquid seasoning conveying pipeline, specifically, the cleaning water may flow into the liquid seasoning conveying pipeline through the third water inlet valve K122, flow into the feeding pipeline of the feeding device 300 through the first feeding valve K106, flow into the liquid seasoning buffer bottle P302, and flow into the wok through the pinch valve K307.

In an embodiment of the present invention, preferably, as shown in fig. 1 and fig. 2, the batching host 100 further includes a water starch cleaning module, the water starch cleaning module includes a cleaning tank, a second negative pressure valve K101, a third positive pressure valve K109, a wastewater inlet valve K112 and a wastewater drain valve K124, wherein the cleaning tank is connected to one end of the second negative pressure valve K101, the other end of the second negative pressure valve K101 is connected to a negative pressure pipeline of the air pressure generator, the cleaning tank is further connected to one end of the third positive pressure valve K109, the other end of the third positive pressure valve K109 is connected to a positive pressure pipeline of the air pressure generator, an inlet of the cleaning tank is connected to one end of the wastewater inlet valve K112, and the other end of the wastewater inlet valve K112 is connected to a water starch mixing tank; the other end of the wastewater inlet valve K112 is also connected with one end of a wastewater discharge valve K124.

In the above embodiment, one end of the wastewater inlet valve K112 is connected to the water-starch mixing tank, and the other end is connected to the cleaning tank, so that the cleaning water in the water-starch mixing tank can be sucked into the cleaning tank under the action of the negative pressure pipeline communicated with the second negative pressure valve K101, and then the wastewater in the cleaning tank is discharged out of the batching host 100 through the wastewater inlet valve K112 and the wastewater drainage valve K124, such as into the wastewater pipeline, under the action of the positive pressure pipeline communicated with the third positive pressure valve K109.

In this embodiment, wash the module with water starch and set up alone, set up the inlet channel of water starch simultaneously alone, separate its inlet channel with liquid cleaning module, this kind of setting can realize washing water starch module alone, also can in time wash after the unloading is accomplished to water starch at every turn, has avoided leading to the jam of pipeline because the characteristic that water starch easily deposits.

In other embodiments, the water starch washing module may be in other forms, without the washing tank P101, using a similar washing manner as the liquid washing. Specifically, after the operation of the menu is completed, a cleaning program is started, clear water enters the water-starch mixing tank from the K114, and the water-starch mixing tank can be connected with a negative pressure pipeline for the convenience of entering the clear water; meanwhile, the water starch tank can be communicated with a positive pressure pipeline, under the action of positive pressure, cleaning water enters a liquid seasoning cache bottle P302 of the feeder from the water starch mixing tank through K113, the liquid seasoning cache bottle P302 is communicated with the positive pressure, and the cleaning water is fed into the frying pan through the positive pressure, so that the cleaning of the water starch tank, the conveying pipeline and the feeder is completed.

In an embodiment of the present invention, preferably, as shown in fig. 1 and fig. 2, the dosing host 100 further includes a sterilization module 130, the sterilization module 130 includes an ozone water buffer bottle, an ozone generator, a fourth water inlet valve K126 and an ozone water outlet valve K128, wherein the ozone generator is connected to the ozone water buffer bottle, an inlet of the ozone buffer bottle is connected to one end of the fourth water inlet valve K126, another end of the fourth water inlet valve K126 is connected to the water inlet pipe, an outlet of the ozone buffer bottle is connected to one end of the ozone water outlet valve K128, and another end of the ozone water outlet valve K128 is connected to the liquid seasoning delivery pipe of the liquid seasoning dosing module 110 and/or the water starch dosing module 120.

In the above embodiment, the ozone generator and the fourth water inlet valve K126 are respectively connected to the ozone water buffer bottle, and ozone water for sterilization can be mixed in the ozone water buffer bottle, in this embodiment, a level gauge may be provided in the ozone water buffer bottle for monitoring the water level, and when the water level in the ozone water buffer bottle reaches a predetermined level, the sterilizing module 130 automatically closes the fourth water inlet valve K126 under the control of the control main unit 200, and then, after the ozone in the ozone water generator is mixed with the clean water for a period of time, the ozone water is filled into the liquid flavoring conveying pipeline of the liquid flavoring batching module 110 and/or the water starch batching module 120 through the ozone water outlet valve K128, the ozonated water may then flow into the liquid seasoning delivery line and/or the water starch dosing module 120 and finally exit through the end of the feeder 300 where the seasoning is dispensed. The disinfection module can effectively disinfect all parts of the dosing main machine 100 and the batch feeder 300, so that the disinfection effect is optimal.

In one embodiment of the present invention, preferably, the other end of the outlet valve K128 for ozone water is connected to the water inlet pipe of the water starch dosing module 120. In the embodiment, an outlet valve K128 of the ozone water is connected with a flow meter, and enters the water-starch mixing tank through a first inlet valve K114-1, then enters the batch feeder 300 through a second batch feeding valve K113-1, and finally is discharged into a frying pan through a pipe clamping valve K307. In other embodiments, the other end of the outlet valve K128 for the ozone water may also be directly connected to the water-starch mixing tank, and the ozone water is filled into the water-starch mixing tank and then discharged through the feeding device 300. In other embodiments, the water-starch mixing tank may be in communication with a negative pressure pipeline for facilitating the absorption of the ozonated water into the water-starch mixing tank, or in communication with a positive pressure pipeline for facilitating the discharge of the ozonated water from the water-starch mixing tank.

In an embodiment of the present invention, as a specific implementation of the above embodiment, the present invention provides a liquid seasoning batching system, as shown in fig. 2, the liquid seasoning batching system includes a batching host 100, a central control host 200 (not shown), a feeding device 300 and an air pressure generator 400 (not shown), the batching host 100 includes a liquid seasoning batching module 110, a water starch batching module 120, a liquid seasoning cleaning module, a water starch cleaning module and a sterilizing module 130, the feeding device 300 includes a feeding buffer module 310 and a feeding module 320, in this embodiment, each module can perform corresponding actions and realize corresponding functions under the control of the central control host 200, the functions that can be realized include quantitative preparation and distribution of liquid seasoning and water starch, feeding of liquid seasoning and water starch, cleaning and sterilizing of the liquid seasoning batching module, cleaning and sterilizing of the water starch batching module, and the like, in the following paragraphs, the implementation principle of each function and the operation mode of each module will be explained one by one.

Function 1, quantitative stock preparation and dispensing of liquid seasoning. As shown in fig. 3, after the dispensing main unit 100 receives a command from the central control main unit 200 to prepare a certain amount of liquid flavoring (e.g., light soy sauce) into the dispensing device 300, the dispensing device 300 opens the first negative pressure valve K304 to communicate the liquid flavoring buffer bottle P302 with the negative pressure pipeline of the air pressure generator, then the dispensing main unit 100 opens the air inlet valve K115, the first outlet valve K116 and the first dispensing valve K106, the liquid flavoring enters the liquid pipeline from the flavoring bottle under the action of negative pressure, the liquid flavoring is determined by the time of the negative pressure and the time of the valve opening, when the liquid flavoring reaches the target weight, the first outlet valve K116 and the first negative pressure valve K304 are closed, at this time, the liquid completing the determination may not reach the liquid flavoring buffer bottle P302, at this time, the valve K123 is opened to communicate the liquid flavoring pipeline with positive pressure, the flavoring remaining in the liquid flavoring pipeline is blown into the liquid flavoring buffer bottle P302 under the action of positive pressure, and opening the exhaust valve K305 and the first pressurizing valve K123, blowing the liquid seasoning into the liquid seasoning cache bottle P302 through positive pressure, and closing the exhaust valve K305, the first feeding valve K106, the first pressurizing valve K123 and the air inlet valve K115 after a plurality of seconds to finish the quantitative preparation and distribution of the liquid seasoning.

In another embodiment, the difference is that no liquid seasoning pipeline is arranged to be communicated with the positive pressure, at this time, after the quantitative determination is completed under the action of the negative pressure, the first discharging valve K116 is closed, the negative pressure is continuously applied for a period of time, and the liquid which has completed the quantitative determination is sucked into the liquid seasoning cache bottle under the action of the negative pressure.

Function 2, quantitative stock preparation and distribution of water starch. As shown in fig. 4, after the central control host 200 issues a command for quantitatively preparing and distributing water and starch (for example, the batch feeder 300 prepares water and starch), the batching host 100 starts the stirring motor M109-1, simultaneously opens the first water inlet valve K114-1 and the second water inlet valve K127 to fill a certain amount of clean water into the water and starch mixing tank 1, calculates the water amount to reach a target amount according to the pulse number fed back by the flow meter L101-1, then closes the first water inlet valve K114-1 and the second water inlet valve K127, then starts the starch feeder 1 to add a certain amount of starch into the water and starch mixing tank 1, closes the starch feeder 1 after reaching the target amount, fully stirs by the stirring motor M109-1 to prepare water and starch, and before completing the water and starch feeding, the stirring motor M109-1 needs to continuously operate to prevent the water and starch from precipitating.

And function 3, throwing in liquid seasonings. As shown in fig. 5, after the central control host 200 sends out a liquid seasoning throwing command (for example, the batch feeder 300 throws liquid seasoning into the wok 1), the batching host 100 transmits the command to the batch feeder 300 through a signal line, the batch feeder 300 opens the pipe clamping valve K307 and the second pressurizing valve K306, seasoning in the liquid seasoning buffer bottle P302 is thrown into the wok 1 through positive pressure, and after several seconds, the pipe clamping valve K307 and the second pressurizing valve K306 are closed, thereby completing the liquid seasoning throwing action.

And 4, putting water starch. As shown in fig. 6, after the central control host 200 sends out a water starch feeding command (e.g., the feeding device 300 feeds water starch to the wok 1), the batching host 100 opens the second feeding valve K113-1, the feeding device 300 opens the first negative pressure valve K304, the water starch in the water starch mixing tank 1 is pumped into the liquid seasoning buffer bottle P302 of the feeding device 300 through negative pressure, after several seconds, the second feeding valve K113-1 and the first negative pressure valve K304 are closed, then the feeding device 300 opens the second pressurizing valve K306 and the pinch valve K307, the water starch is fed into the wok 1 through positive pressure, and after several seconds, the second pressurizing valve K306 and the pinch valve K307 are closed, thereby completing the water starch feeding operation.

And function 5, automatic cleaning of the water starch batching module. As shown in fig. 7, after the water starch is fed, the batching host can automatically enter a water starch automatic cleaning process, and the process can effectively clean the water starch remained in the pipeline and prevent the pipeline from being blocked and mildewing. At this time, the batching host machine 100 starts the stirring motor M109-1, the first water inlet valve K114-1 and the second water inlet valve K127 to allow clear water to enter the water-starch mixing tank 1, closes the first water inlet valve K114-1 and the second water inlet valve K127 after a plurality of seconds, opens the first feeding valve K106, the second feeding valve K113-1, the wastewater water inlet valve K112 and the second negative pressure valve K101, sucks water in the water-starch mixing tank 1 into the cleaning tank P101 through negative pressure, closes the second negative pressure valve K101, the wastewater water inlet valve K112, the first feeding valve K106, the second feeding valve K113-1 and the stirring motor M109-1 after a plurality of seconds, then opens the wastewater drainage valve K124, the wastewater water inlet valve K112 and the third positive pressure valve K109, discharges wastewater to a wastewater outlet through positive pressure, finally closes the third positive pressure valve K109, the wastewater water inlet valve K112 and the wastewater drainage valve K124, and (5) finishing automatic cleaning of the water starch.

Function 6, cleaning of the liquid seasoning dosing module. As shown in fig. 8, after the central control host 100 sends out a cleaning command (for example, cleaning the liquid seasoning dosing module 110 and the batch feeder 300) of the liquid seasoning dosing module, the dosing host 100 and the batch feeder 300 respectively open the second water inlet valve K127, the third water inlet valve K122, the first dosing valve K106 and the first negative pressure valve K304, and suck clean water into the liquid seasoning conveying pipeline through negative pressure, after several seconds, close the second water inlet valve K127, the third water inlet valve K122 and the first negative pressure valve K304, then open the first pressurizing valve K123 and the pinch valve K307, and blow the clean water in the liquid seasoning conveying pipeline into the liquid seasoning buffer bottle P302 through positive pressure, and finally put into the wok 1, and after several seconds, close the first pressurizing valve K123, the first dosing valve K106 and the pinch valve K307, and complete the cleaning action.

Function 7, disinfection of the liquid seasoning ingredient module. As shown in fig. 9, after the central control host 100 sends out a sterilization command of the liquid seasoning dosing module (e.g., sterilizing the liquid seasoning dosing module 120 and the batch feeder 300), the dosing host 100 opens the fourth water inlet valve K126 and the ozone generator CY101, adds clean water and ozone gas into the ozone water buffer bottle, mixes the clean water and the ozone gas to form ozone water, closes the fourth water inlet valve K126 after the high level gauge reaches a high level, then opens the ozone water outlet valve K128, the third water inlet valve K122, the first dosing valve K106 and the first negative pressure valve K304, sucks ozone water into the liquid seasoning delivery pipe through negative pressure, closes the ozone water outlet valve K128, the third water inlet valve K122 and the first negative pressure valve K304 after several seconds, opens the first pressurizing valve K123 and the pinch valve K307 after several seconds, blows ozone water in the liquid seasoning delivery pipe into the liquid seasoning buffer bottle P302 through positive pressure, finally, the materials are put into the frying pan 1, the first pressurizing valve K123, the first feeding valve K106 and the pinch valve K307 are closed after a plurality of seconds to finish the disinfection action, the disinfection process can be circulated for a plurality of times, and the ozone generator CY101 is closed after the disinfection is finished.

Function 8, cleaning of the water starch dosing module. As shown in fig. 10, after the central control host 100 sends out a cleaning command (e.g. cleaning the water-starch mixing tank 1) of the water-starch batching module, the batching host 100 starts the stirring motor M109-1, opens the first water inlet valve K114-1 and the second water inlet valve K127, flows in a certain amount of clean water into the water-starch mixing tank 1, calculates the water amount reaching a target amount according to the pulse number fed back by the flow meter L101, closes the first water inlet valve K114-1 and the second water inlet valve K127, then the batching host 100 opens the second feeding valve K113-1, the batch feeder 300 opens the first negative pressure valve K304, pumps the clean water in the water-starch mixing tank 1 into the liquid seasoning buffer bottle P302 of the batch feeder 300 through negative pressure, closes the second feeding valve K113-1, the first negative pressure valve K304 and the stirring motor M109-1 after a few seconds, finally the batch feeder 300 opens the second pressurizing valve K306 and the pinch valve K307, and (3) pouring clear water into the frying pan 1 through positive pressure, closing the second pressurizing valve K306 and the pinch valve K307 after a plurality of seconds, and finishing the cleaning of the water-starch pipeline.

Function 9, disinfection of the water starch dosing module. As shown in FIG. 11, after the central control host 100 sends out a sterilization command of the aqueous starch ingredient module (e.g., ozone water sterilized starch mixing tank 1), the ingredient host 100 opens the fourth water inlet valve K126 and the ozone generator CY101, and adds clean water and ozone gas into the ozone water buffer bottle, and the two are mixed to form ozone water, after the high level gauge reaches the high level, the fourth water inlet valve K126 is closed, then the ozone water outlet valve K128, the first water inlet valve K114-1 and the stirring motor M109-1 are opened, the ozone water flows into the aqueous starch mixing tank 1, after several seconds, the ozone water outlet valve K128 and the first water inlet valve K114-1 are closed, then the first negative pressure valve K304 and the second material feeding valve K113-1 are opened, the ozone water in the aqueous starch mixing tank 1 is pumped into the liquid seasoning buffer bottle P302 of the material feeder 300 by negative pressure, after several seconds, the second material feeding valve K113-1 is closed, The first negative pressure valve K304 and the stirring motor M109-1 are opened, finally, the second pressurizing valve K306 and the pinch valve K307 are opened, the clean water is poured into the frying pan 1 through positive pressure, the second pressurizing valve K306 and the pinch valve K307 are closed after a plurality of seconds, the water-starch pipeline is disinfected, the disinfection process can be repeated for many times, and the ozone generator CY101 is closed after the disinfection is finished.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (12)

1. The liquid seasoning batching system is characterized by comprising a central control host, a batching host, a batch feeder and an air pressure generator, wherein the batching host comprises a liquid seasoning batching module and a water starch batching module,

the air pressure generator is connected with the feeder through a positive pressure pipeline and a negative pressure pipeline;

the batch feeder is connected with the batching host;

the central control host is respectively connected with the batching host and the batch feeder and used for sending out a control command so as to enable the batching host and the batch feeder to execute corresponding actions according to the control command.

2. The liquid flavoring batching system of claim 1, wherein said liquid flavoring batching module comprises a liquid flavoring tank, an air inlet valve, a first outlet valve, a liquid flavoring delivery conduit, and a first dosing valve, wherein,

the inlet of the liquid seasoning tank is connected with one end of the air inlet valve, and the other end of the air inlet valve is communicated with the air;

the outlet of the liquid seasoning tank is connected with one end of the first discharge valve, and the other end of the first discharge valve is connected with the liquid seasoning conveying pipeline;

one end of the liquid seasoning conveying pipeline is connected with one end of the first feeding valve, and the other end of the first feeding valve is connected with a feeding pipeline of the feeding device.

3. The liquid flavoring batching system according to claim 2, wherein said liquid flavoring batching module further comprises a first pressurized valve, wherein the other end of said liquid flavoring delivery conduit is connected to one end of said first pressurized valve, and wherein the other end of said first pressurized valve is connected to a positive pressure conduit of said pneumatic pressure generator.

4. The liquid seasoning batching system of claim 1, wherein the water starch batching module comprises a water starch mixing tank, a stirring motor, a first water inlet valve, a liquid flow meter, a second water inlet valve, and a second dosing valve, wherein,

the inlet of the water-starch mixing tank is connected with one end of the first water inlet valve, the other end of the first water inlet valve is connected with the liquid flow meter, the other end of the liquid flow meter is connected with one end of the second water inlet valve, and the other end of the second water inlet valve is connected with a water inlet pipeline;

blades of the stirring motor are arranged in the water-starch mixing tank, the stirring motor is connected with the central control host, and the stirring motor is used for rotating or stopping according to a control command sent by the central control host;

the outlet of the water-starch mixing tank is connected with one end of the second feeding valve, and the other end of the second feeding valve is connected with a feeding pipeline of the feeding device.

5. The liquid seasoning batching system of claim 4 wherein the water-starch batching module further comprises a starch feeder connected to another inlet of the water-starch mixing tank, the starch feeder being adapted to receive starch and to dispense starch into the water-starch mixing tank in response to a control command from the central control host.

6. The liquid seasoning compounding system of claim 2 wherein a first dosing valve of the liquid seasoning compounding module is coupled to a second dosing valve of the water starch compounding module.

7. The liquid seasoning batching system of claim 1 wherein the batch charger comprises a batch buffer module comprising a liquid seasoning buffer bottle, a batch charging conduit, a first negative pressure valve, and an exhaust valve, wherein,

the liquid seasoning cache bottle is connected with one end of the first negative pressure valve, and the other end of the first negative pressure valve is connected with a negative pressure pipeline of the air pressure generator;

the liquid seasoning cache bottle is also connected with one end of the exhaust valve, and the other end of the exhaust valve is communicated with the air;

the inlet of the liquid seasoning buffer bottle is connected with one end of the feeding pipeline, and the other end of the feeding pipeline is connected with the first feeding valve of the liquid seasoning batching module and/or the second feeding valve of the water starch batching module.

8. The liquid seasoning blending system of claim 7 wherein the batch charger further comprises a batch module comprising a second pressurized valve and a pinch valve, wherein,

one end of the second pressure valve is connected with the feeding pipeline, and the other end of the second pressure valve is connected with the positive pressure pipeline of the air pressure generator;

one end of the pipe clamping valve is connected with the outlet of the liquid seasoning cache bottle, and the other end of the pipe clamping valve is communicated with the air.

9. The liquid seasoning blending system of any of claims 1 to 8 wherein the main blending bin further comprises a liquid seasoning wash module comprising a third water inlet valve, wherein,

one end of the third water inlet valve is connected with the liquid seasoning conveying pipeline, and the other end of the third water inlet valve is connected with the water inlet pipeline;

the cleaning water of the liquid seasoning cleaning module enters through one end of the third water inlet valve communicated with the water inlet pipeline and is discharged through one end of the batch feeder for throwing the seasoning.

10. The liquid seasoning batching system of any one of claims 1 to 8 wherein the batching host further comprises a water starch wash module comprising a wash tank, a second negative pressure valve, a third positive pressure valve, a waste water inlet valve and a waste water drain valve, wherein,

the cleaning tank is connected with one end of the second negative pressure valve, and the other end of the second negative pressure valve is connected with a negative pressure pipeline of the air pressure generator;

the cleaning tank is also connected with one end of the third positive pressure valve, and the other end of the third positive pressure valve is connected with a positive pressure pipeline of the air pressure generator;

the inlet of the cleaning tank is connected with one end of the wastewater inlet valve, and the other end of the wastewater inlet valve is connected with the water-starch mixing tank;

the other end of the wastewater inlet valve is also connected with one end of the wastewater drainage valve.

11. The liquid seasoning batching system of any one of claims 1 to 8 wherein the batching host further comprises a sterilization module comprising an ozone water buffer tank, an ozone generator, a fourth water inlet valve and an ozone water outlet valve, wherein,

the ozone generator is connected with the ozone water cache bottle;

an inlet of the ozone water cache bottle is connected with one end of the fourth water inlet valve, and the other end of the fourth water inlet valve is connected with a water inlet pipeline;

the outlet of the ozone water buffer bottle is connected with one end of the ozone water outlet valve, and the other end of the ozone water outlet valve is connected with the liquid seasoning delivery pipeline of the liquid seasoning dosing module and/or the water starch dosing module.

12. The liquid flavoring dosing system according to claim 11, wherein the other end of said ozonated water outlet valve is connected to the water inlet line of said aqueous starch dosing module.

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