CN219108679U - Modularized cleaning system of automatic peanut milk production line - Google Patents

Abstract

The utility model provides a modularized cleaning system of a peanut milk automatic production line, wherein an acid liquor outlet pipe is connected in parallel with an outlet of an acid liquor storage tank, an alkali liquor outlet pipe is connected in parallel with an outlet of an alkali liquor storage tank, and a hot water outlet pipe is connected in parallel with an outlet of a flushing water storage tank; the acid liquid storage tank, the alkali liquid storage tank and the flushing water storage tank are connected with a first water supply system; wherein, a group of acid liquor outlet pipe, alkali liquor outlet pipe and hot water outlet pipe are connected with one main liquid supply pipe in parallel, the main liquid supply pipe is connected with a cleaning liquid outlet through a centrifugal pump, and a heating system for heating is arranged on the main liquid supply pipe and is connected with the main liquid supply pipe; the cleaning solution reflux port is connected with the filter through the single-phase valve, an outlet of the filter is connected with a plurality of branch reflux pipes through the main reflux pipe, and each branch reflux pipe is correspondingly connected with the acid solution storage tank, the alkali solution storage tank and the flushing water storage tank through the reflux pneumatic valve. Can be conveniently and singly connected with one or a plurality of devices connected in series on a production line for use, thereby realizing periodic acid washing, alkali washing and high-temperature water flushing of the devices.

Description

Modularized cleaning system of automatic peanut milk production line

Technical Field

The utility model belongs to the technical field of peanut milk production, and particularly relates to a modularized cleaning system of an automatic peanut milk production line.

Background

In the automatic production process of peanut milk, the main production process of pulping, centrifugal deoiling, emulsifying, blending, volume fixing, homogenizing, sterilizing, canning and the like is needed. In the production process, some series of automatic equipment such as an automatic pulping machine, a centrifugal separator, an emulsifying tank, a blending tank, a homogenizing tank, a canning machine and the like are needed. In order to ensure safety and sanitation in the production process, the equipment needs to be cleaned regularly to achieve the sterilization effect; in addition, peanut milk is taken as a vegetable protein product, has natural fishy smell, and needs to be cleaned regularly in order to achieve the effect of removing fishy smell.

At present, the regular cleaning process that usually adopts is high temperature steam cleaning, in the maintenance stage, through letting in high temperature steam to whole production line, steam circulates in equipment and pipeline inside and reaches abluent effect, and above-mentioned cleaning process exists the problem that lies in: because the production line is longer, the cleaning effect of steam is better in the initial stage, but the cleaning effect of equipment at a steam outlet is poor, so that the cleaning is not thorough; and the steam is adopted for cleaning, so that the deodorization effect is poor although the deodorization device has a certain sterilization effect. Based on this, it is necessary to design a corresponding cleaning system to achieve cleaning of the production system in order to ensure the cleaning effect.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a modularized cleaning system of an automatic production line of peanut milk, which adopts a modularized design, and can be conveniently and independently connected with a single or a plurality of devices connected in series on the production line for use, thereby realizing periodic acid washing, alkaline washing and high-temperature water flushing of the devices so as to achieve the optimal sterilization cleaning effect; but also achieves the aim of removing fishy smell well; enhances the flexibility of the cleaning operation.

In order to achieve the technical characteristics, the aim of the utility model is realized in the following way: the modularized cleaning system of the peanut milk automatic production line comprises an acid liquid storage tank, an alkali liquid storage tank and a flushing water storage tank; an acid liquor outlet pipe is connected in parallel with the outlet of the acid liquor storage tank, an alkali liquor outlet pipe is connected in parallel with the outlet of the alkali liquor storage tank, and a hot water outlet pipe is connected in parallel with the outlet of the flushing water storage tank; the acid liquid storage tank, the alkali liquid storage tank and the flushing water storage tank are connected with a first water supply system for diluting the solution; wherein, a group of acid liquor outlet pipe, alkali liquor outlet pipe and hot water outlet pipe are connected with one main liquid supply pipe in parallel, the main liquid supply pipe is connected with a cleaning liquid outlet through a centrifugal pump, and a heating system for heating is arranged on the main liquid supply pipe and is connected with the main liquid supply pipe; the cleaning fluid return port is connected with the filter through the single-phase valve, the outlet of the filter is connected with a plurality of branch return pipes through the main return pipe, each branch return pipe is correspondingly connected with the acid liquor storage tank, the alkali liquor storage tank and the flushing water storage tank respectively through the return pneumatic valve.

The acid liquid storage tank is connected with a concentrated acid supply system for supplying concentrated acid, the concentrated acid supply system comprises a concentrated acid storage tank, the concentrated acid storage tank is connected with the acid liquid storage tank through a concentrated acid supply pipe, and a first pneumatic valve and a first diaphragm pump are sequentially arranged on the concentrated acid supply pipe;

the alkali liquor storage tank is connected with a concentrated alkali supply system for supplying concentrated alkali, the concentrated alkali supply system comprises a concentrated alkali storage tank, the concentrated alkali storage tank is connected with the alkali liquor storage tank through a concentrated alkali supply pipe, and a second pneumatic valve and a second diaphragm pump are sequentially arranged on the concentrated alkali supply pipe.

The first water supply system comprises a main water inlet, the main water inlet is connected with a first main pure water pipe through a first manual valve, the first main pure water pipe is respectively connected with an acid liquid storage tank, an alkali liquid storage tank and a flushing water storage tank through a plurality of first branch pipes, and a third pneumatic valve is arranged on each first branch pipe.

The concentrated acid storage tank and the concentrated alkali storage tank are simultaneously connected with a second water supply system for diluting the concentrated acid storage tank and the concentrated alkali storage tank, the second water supply system comprises a second main pure water pipe, a second manual valve is arranged at the outlet of the second main pure water pipe, the other end of the second manual valve is respectively connected with the concentrated acid storage tank and the concentrated alkali storage tank through a plurality of second branch pipes, and a fourth pneumatic valve is arranged on each second branch pipe.

The bottom ends of the concentrated acid storage tank and the concentrated alkali storage tank are respectively connected with a first emptying pipe through a fifth pneumatic valve, and the first emptying pipe is connected with the treatment tank.

The top ends of the acid liquid storage tank, the alkali liquid storage tank and the flushing water storage tank are respectively connected with a main exhaust pipe through exhaust pipes, and the tail end of the main exhaust pipe is provided with an exhaust gas discharge port;

the bottom ends of the acid liquid storage tank, the alkali liquid storage tank and the flushing water storage tank are respectively connected with a second emptying pipe through discharge pipes, the second emptying pipe is connected with the treatment tank, and liquid level controllers are respectively installed in the second emptying pipe.

The heating system comprises a plate-frame heat exchanger connected with a main liquid supply pipe, one end of the plate-frame heat exchanger is connected with a high-temperature steam supply pipe through an electric control valve, the other end of the plate-frame heat exchanger is connected with a condensed water outlet pipe, a temperature sensor is arranged at the high-temperature outlet end of the main liquid supply pipe, and the temperature sensor is connected with the electric control valve and controls the heating temperature.

The utility model has the following beneficial effects:

1. the cleaning system adopts a modularized design, can be conveniently and independently connected with a single or a plurality of devices connected in series on a production line, and further realizes periodic acid washing, alkali washing and high-temperature water flushing of the devices so as to achieve the optimal sterilization cleaning effect; but also achieves the aim of removing fishy smell well; the flexibility of the cleaning operation is enhanced; but also can realize the purpose of cyclic cleaning.

2. The concentrated acid supply system can be used for supplying corresponding original acid liquid to the acid liquid storage tank; the concentrated alkali supply system can be used for supplying corresponding original alkali liquor to the alkali liquor storage tank.

3. The first water supply system can be used for supplying water to the corresponding acid liquid storage tank, the alkali liquid storage tank and the flushing water storage tank, so that the acid liquid storage tank, the alkali liquid storage tank and the flushing water storage tank are diluted, the concentration required by cleaning is achieved, and the optimal cleaning effect is ensured.

4. The second water supply system can be used for supplying water to the corresponding concentrated acid storage tank and the concentrated alkali storage tank so as to dilute the concentrated acid storage tank and the concentrated alkali storage tank.

5. The first emptying pipe can be used for realizing the emptying operation of the internal solution when the concentrated acid storage tank and the concentrated alkali storage tank are overhauled.

6. The heating system can be used for heating the cleaning solution so as to enable the cleaning solution to reach the temperature required by cleaning, thereby ensuring the optimal cleaning effect.

Drawings

The utility model is further described below with reference to the drawings and examples.

FIG. 1 is a system diagram of the present utility model.

FIG. 2 is a system diagram of portions of the concentrated acid and base supply systems of FIG. 1 in accordance with the present utility model.

Fig. 3 is a partial system diagram of the heating system of fig. 1 in accordance with the present utility model.

FIG. 4 is a partial system diagram of the acid, lye and rinse water tanks of FIG. 1 according to the present utility model.

In the figure: the concentrated acid storage tank 1, the first pneumatic valve 2, the first diaphragm pump 3, the concentrated acid supply pipe 4, the second main pure water pipe 5, the second manual valve 6, the fourth pneumatic valve 7, the second branch pipe 8, the concentrated alkali storage tank 9, the fifth pneumatic valve 10, the first evacuation pipe 11, the second pneumatic valve 12, the second diaphragm pump 13, the concentrated alkali supply pipe 14, the flushing water storage tank 15, the alkali lye storage tank 16, the acid liquid storage tank 17, the main water inlet 18, the first manual valve 19, the first main pure water pipe 20, the first branch pipe 21, the third pneumatic valve 22, the exhaust gas discharge port 23, the main exhaust pipe 24, the exhaust pipe 25, the liquid level controller 26, the hot water pipe 27, the alkali lye pipe 28, the acid liquid pipe 29, the second evacuation pipe 30, the main liquid supply pipe 31, the centrifugal pump 32, the plate-frame heat exchanger 33, the condensed water pipe 34, the temperature sensor 35, the electric control valve 36, the high temperature steam supply pipe 37, the cleaning liquid outlet 38, the return 39, the single-phase valve 40, the filter 41, the main return 42, the return pneumatic valve 43, and the branch return pipe 44.

Detailed Description

Embodiments of the present utility model will be further described with reference to the accompanying drawings.

Referring to fig. 1-4, a modular cleaning system for an automated peanut milk production line includes an acid tank 17, an alkali tank 16, and a rinse water tank 15; an acid liquor outlet pipe 29 is connected in parallel with the outlet of the acid liquor storage tank 17, an alkali liquor outlet pipe 28 is connected in parallel with the outlet of the alkali liquor storage tank 16, and a hot water outlet pipe 27 is connected in parallel with the outlet of the flushing water storage tank 15; the acid liquid storage tank 17, the alkali liquid storage tank 16 and the flushing water storage tank 15 are connected with a first water supply system for diluting the solution; one group of acid liquor outlet pipe 29, alkali liquor outlet pipe 28 and hot water outlet pipe 27 are connected with one main liquid supply pipe 31 which is connected in parallel, the main liquid supply pipe 31 is connected with a cleaning liquid outlet 38 through a centrifugal pump 32, and a heating system for heating is arranged on the main liquid supply pipe 31; the device further comprises a cleaning fluid return port 39, the cleaning fluid return port 39 is connected with a filter 41 through a single-phase valve 40, an outlet of the filter 41 is connected with a plurality of branch return pipes 44 through a main return pipe 42, and each branch return pipe 44 is correspondingly connected with the acid liquid storage tank 17, the alkali liquid storage tank 16 and the flushing water storage tank 15 through a return pneumatic valve 43. The cleaning system adopts a modularized design, can be conveniently and independently connected with a single or a plurality of devices connected in series on a production line, and further realizes periodic acid washing, alkali washing and high-temperature water flushing of the devices so as to achieve the optimal sterilization cleaning effect; but also achieves the aim of removing fishy smell well; enhances the flexibility of the cleaning operation. In the specific use process, the acid liquor, the alkali liquor and the high temperature water for cleaning are respectively and correspondingly supplied through the acid liquor storage tank 17, the alkali liquor storage tank 16 and the flushing water storage tank 15, when the equipment to be cleaned is required to be cleaned regularly, the cleaning liquid outlet 38 is connected with the equipment to be cleaned, the cleaning liquid return port 39 is connected with the equipment outlet, the whole cleaning system is started, and the corresponding supply system can be independently controlled to realize acid cleaning, alkali cleaning and water cleaning, so that the aim of automatic cleaning of the equipment is achieved.

Further, the acid liquid storage tank 17 is connected with a concentrated acid supply system for supplying concentrated acid, the concentrated acid supply system comprises a concentrated acid storage tank 1, the concentrated acid storage tank 1 is connected with the acid liquid storage tank 17 through a concentrated acid supply pipe 4, and a first pneumatic valve 2 and a first diaphragm pump 3 are sequentially installed on the concentrated acid supply pipe 4. Can be used to supply the acid storage tank 17 with the corresponding raw acid by means of a concentrated acid supply system. In a specific working process, the concentrated acid is stored in the concentrated acid storage tank 1, and when the concentrated acid needs to be cleaned, the acid liquid in the concentrated acid storage tank 1 is pumped to the acid liquid storage tank 17 through the first diaphragm pump 3, and then the concentrated acid is diluted, so that the concentration required by cleaning is achieved.

Further, the alkali liquor storage tank 16 is connected with a concentrated alkali supply system for supplying concentrated alkali, the concentrated alkali supply system comprises a concentrated alkali storage tank 9, the concentrated alkali storage tank 9 is connected with the alkali liquor storage tank 16 through a concentrated alkali supply pipe 14, and a second pneumatic valve 12 and a second diaphragm pump 13 are sequentially installed on the concentrated alkali supply pipe 14. By means of a concentrated alkali supply system can be used to supply the alkali liquor storage tank 16 with the corresponding raw alkali liquor. In the specific working process, the concentrated alkali is stored in the concentrated alkali storage tank 9, and when alkali liquid is needed, the concentrated alkali in the concentrated alkali storage tank 9 is pumped to the concentrated alkali supply pipe 14 through the second diaphragm pump 13, and then the concentrated alkali is diluted, so that the concentration needed by cleaning is achieved.

Further, the first water supply system comprises a main water inlet 18, the main water inlet 18 is connected with a first main pure water pipe 20 through a first manual valve 19, the first main pure water pipe 20 is respectively connected with an acid liquid storage tank 17, an alkali liquid storage tank 16 and a flushing water storage tank 15 through a plurality of first branch pipes 21, and a third pneumatic valve 22 is arranged on the first branch pipes 21. The first water supply system can be used for supplying water to the corresponding acid liquid storage tank 17, the alkali liquid storage tank 16 and the flushing water storage tank 15, so that the water is diluted, the concentration required by cleaning is achieved, and the optimal cleaning effect is ensured. In a specific working process, water is supplied through the main water inlet 18, and then the water is independently supplied to the corresponding acid liquid storage tank 17 and the alkali liquid storage tank 16 according to the requirement, so that the solution in the acid liquid storage tank is diluted.

Further, the concentrated acid storage tank 1 and the concentrated alkali storage tank 9 are simultaneously connected with a second water supply system for diluting the concentrated acid storage tank 1 and the concentrated alkali storage tank 9, the second water supply system comprises a second main pure water pipe 5, a second manual valve 6 is arranged at the outlet of the second main pure water pipe 5, the other end of the second manual valve 6 is respectively connected with the concentrated acid storage tank 1 and the concentrated alkali storage tank 9 through a plurality of second branch pipes 8, and a fourth pneumatic valve 7 is arranged on each second branch pipe 8. The second water supply system can be used for supplying water to the corresponding concentrated acid storage tank 1 and the concentrated alkali storage tank 9 so as to dilute the same. In a specific working process, water is supplied through the second main pure water pipe 5, and then the water is independently supplied to the corresponding concentrated acid storage tank 1 and the concentrated alkali storage tank 9 according to the requirement, so that the solution in the concentrated acid storage tank is diluted.

Further, the bottom ends of the concentrated acid storage tank 1 and the concentrated alkali storage tank 9 are respectively connected with a first emptying pipe 11 through a fifth pneumatic valve 10, and the first emptying pipe 11 is connected with a treatment tank 45. The first emptying pipe 11 can be used for realizing the emptying operation of the internal solution when the concentrated acid storage tank 1 and the concentrated alkali storage tank 9 are overhauled.

Further, the top ends of the acid liquid storage tank 17, the alkali liquid storage tank 16 and the flushing water storage tank 15 are respectively connected with a total exhaust pipe 24 through an exhaust pipe 25, and an exhaust gas discharge port 23 is arranged at the tail end of the total exhaust pipe 24; the exhaust gas discharge port 23 can be used for carrying out centralized collection treatment on generated exhaust gas, so as to achieve the aim of environmental protection.

Further, the bottom ends of the acid liquid storage tank 17, the alkali liquid storage tank 16 and the flushing water storage tank 15 are respectively connected with a second emptying pipe 30 through discharge pipes, the second emptying pipe 30 is connected with a treatment tank 45, and liquid level controllers 26 are respectively installed in the second emptying pipe 30. The second emptying pipe 30 can be used for emptying the internal solution during overhauling of the acid liquid storage tank 17, the alkali liquid storage tank 16 and the flushing water storage tank 15. The internal level is conveniently controlled by a level controller 26.

Further, the heating system comprises a plate-frame heat exchanger 33 connected with the main liquid supply pipe 31, one end of the plate-frame heat exchanger 33 is connected with a high-temperature steam supply pipe 37 through an electric control valve 36, the other end of the plate-frame heat exchanger is connected with a condensed water outlet pipe 34, a temperature sensor 35 is installed at the high-temperature outlet end of the main liquid supply pipe 31, and the temperature sensor 35 is connected with the electric control valve 36 and controls the heating temperature. The heating system can be used for heating the cleaning solution so as to enable the cleaning solution to reach the temperature required by cleaning, thereby ensuring the optimal cleaning effect. In a specific working process, steam is supplied to the plate-and-frame heat exchanger 33, so that heat exchange heating is performed on the solution in the plate-and-frame heat exchanger, the temperature sensor 35 is used for detecting the outlet temperature, and the electric control valve 36 can be controlled to be closed after the required temperature is reached, so that the effect of automatic temperature control is achieved.

The application process of the utility model is as follows:

when the production equipment on the production line needs to be cleaned individually or in series, firstly, a cleaning liquid outlet 38 is connected with an inlet of the equipment to be cleaned, and a cleaning liquid return port 39 is connected with an outlet of the equipment; then, selecting a corresponding cleaning solution according to a set cleaning process, regulating the cleaning solution to a required concentration through a first water supply system according to the set concentration, starting the whole cleaning system, selectively conveying the corresponding cleaning solution to a heating system through a centrifugal pump 32, heating to a set temperature through the heating system, and conveying the cleaning solution to the inside of equipment to be cleaned through a cleaning solution outlet 38, so as to realize the cleaning of the equipment, wherein the solution in the cleaning process is provided with a cleaning solution reflux port 39 for reflux, and in the reflux process, the solution is filtered through a filter 41 to ensure the quality of the reflux solution and is refluxed to a corresponding solution storage tank, so that the cyclic utilization cleaning is realized, and the optimal cleaning effect is further realized; after one cleaning mode is finished, the other cleaning liquid can be replaced for continuous cleaning, and after all the acid cleaning or alkali cleaning is finished, the final cleaning is carried out through high temperature water.

Claims (7)

1. Modularized cleaning system of peanut milk automated production line, its characterized in that: the device comprises an acid liquid storage tank (17), an alkali liquid storage tank (16) and a flushing water storage tank (15); an acid liquor outlet pipe (29) is connected in parallel with the outlet of the acid liquor storage tank (17), an alkali liquor outlet pipe (28) is connected in parallel with the outlet of the alkali liquor storage tank (16), and a hot water outlet pipe (27) is connected in parallel with the outlet of the flushing water storage tank (15); the acid liquor storage tank (17), the alkali liquor storage tank (16) and the flushing water storage tank (15) are connected with a first water supply system for diluting the solution; one group of acid liquor outlet pipe (29), alkali liquor outlet pipe (28) and hot water outlet pipe (27) are connected with one main liquid supply pipe (31) which is connected in parallel, the main liquid supply pipe (31) is connected with a cleaning liquid outlet (38) through a centrifugal pump (32), and a heating system for heating is arranged on the main liquid supply pipe (31); the device further comprises a cleaning fluid return port (39), the cleaning fluid return port (39) is connected with a filter (41) through a single-phase valve (40), an outlet of the filter (41) is connected with a plurality of branch return pipes (44) through a main return pipe (42), and each branch return pipe (44) is correspondingly connected with an acid liquid storage tank (17), an alkali liquid storage tank (16) and a flushing water storage tank (15) through a return pneumatic valve (43) respectively.

2. The modular cleaning system for an automated peanut milk production line of claim 1, wherein: the acid liquid storage tank (17) is connected with a concentrated acid supply system for supplying concentrated acid, the concentrated acid supply system comprises a concentrated acid storage tank (1), the concentrated acid storage tank (1) is connected with the acid liquid storage tank (17) through a concentrated acid supply pipe (4), and a first pneumatic valve (2) and a first diaphragm pump (3) are sequentially arranged on the concentrated acid supply pipe (4);

the alkali liquor storage tank (16) is connected with a concentrated alkali supply system for supplying concentrated alkali, the concentrated alkali supply system comprises a concentrated alkali storage tank (9), the concentrated alkali storage tank (9) is connected with the alkali liquor storage tank (16) through a concentrated alkali supply pipe (14), and a second pneumatic valve (12) and a second diaphragm pump (13) are sequentially arranged on the concentrated alkali supply pipe (14).

3. The modular cleaning system for an automated peanut milk production line of claim 1, wherein: the first water supply system comprises a main water inlet (18), the main water inlet (18) is connected with a first main pure water pipe (20) through a first manual valve (19), the first main pure water pipe (20) is connected with an acid liquor storage tank (17), an alkali liquor storage tank (16) and a flushing water storage tank (15) through a plurality of first branch pipes (21) respectively, and a third pneumatic valve (22) is arranged on each first branch pipe (21).

4. The modular cleaning system for an automated peanut milk production line of claim 2, wherein: the concentrated acid storage tank (1) and the concentrated alkali storage tank (9) are connected with a second water supply system for diluting the concentrated acid storage tank and the concentrated alkali storage tank simultaneously, the second water supply system comprises a second main pure water pipe (5), a second manual valve (6) is arranged at the outlet of the second main pure water pipe (5), the other end of the second manual valve (6) is connected with the concentrated acid storage tank (1) and the concentrated alkali storage tank (9) through a plurality of second branch pipes (8) respectively, and a fourth pneumatic valve (7) is arranged on each second branch pipe (8).

5. The modular cleaning system for an automated peanut milk production line of claim 4, wherein: the bottom ends of the concentrated acid storage tank (1) and the concentrated alkali storage tank (9) are respectively connected with a first emptying pipe (11) through a fifth pneumatic valve (10), and the first emptying pipe (11) is connected with a treatment tank (45).

6. The modular cleaning system for an automated peanut milk production line of claim 1, wherein: the top ends of the acid liquid storage tank (17), the alkali liquid storage tank (16) and the flushing water storage tank (15) are respectively connected with a main exhaust pipe (24) through exhaust pipes (25), and an exhaust gas discharge port (23) is arranged at the tail end of the main exhaust pipe (24);

the bottom ends of the acid liquid storage tank (17), the alkali liquid storage tank (16) and the flushing water storage tank (15) are respectively connected with a second emptying pipe (30) through discharge pipes, the second emptying pipe (30) is connected with a treatment tank (45), and liquid level controllers (26) are respectively arranged in the second emptying pipe.

7. The modular cleaning system for an automated peanut milk production line of claim 1, wherein: the heating system comprises a plate-frame heat exchanger (33) connected with a main liquid supply pipe (31), one end of the plate-frame heat exchanger (33) is connected with a high-temperature steam supply pipe (37) through an electric control valve (36), the other end of the plate-frame heat exchanger is connected with a condensed water outlet pipe (34), a temperature sensor (35) is arranged at the high-temperature outlet end of the main liquid supply pipe (31), and the temperature sensor (35) is connected with the electric control valve (36) and controls the heating temperature.

Images