CN211800490U - Batching system adopting highly integrated auxiliary assembly - Google Patents
Batching system adopting highly integrated auxiliary assembly Download PDFInfo
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- CN211800490U CN211800490U CN201922338867.9U CN201922338867U CN211800490U CN 211800490 U CN211800490 U CN 211800490U CN 201922338867 U CN201922338867 U CN 201922338867U CN 211800490 U CN211800490 U CN 211800490U
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- vacuum
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- cooling water
- hydraulic oil
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Abstract
The utility model discloses a batching system adopting a highly integrated auxiliary component, which comprises a batching tank and an auxiliary component which is used for realizing corresponding functions by being connected with a functional interface on the batching tank; the auxiliary assembly comprises a hydraulic control system for hydraulically controlling the batching tank, a vacuum system for vacuumizing the batching tank, a pneumatic control system for pneumatically controlling the batching tank, a cooling system for cooling the batching tank and a heating system for heating the batching tank; the hydraulic control system comprises an integrated pump station and a control element connected with the pump station; the vacuum system comprises a vacuum pump and a filter element connected with the vacuum pump; the pneumatic control system comprises a gas station and a pneumatic element connected with the gas station.
Description
Technical Field
The utility model relates to a mechatronic liquid integration technical field, concretely relates to adopt highly integrated auxiliary assembly's feed proportioning system.
Background
Common ingredient production systems such as a vacuum homogenizing emulsifying machine and sauce production equipment can use a hydraulic system, vacuum and steam heating, cooling by introducing cooling water, and realizing the functions of opening and closing a valve by using a pneumatic element. Usually, the manufacturers of the equipment choose to arrange these components reasonably inside the control cabinet or the rack, but since they are all separately arranged, they occupy a large area and increase the volume of the equipment. With the development of industrialization, the design and manufacture of the device are all developed in the direction of high integration and small volume. The method of occupying more and more areas with more elements is obviously eliminated step by step, and is replaced by a method of small volume, high integration and integration.
SUMMERY OF THE UTILITY MODEL
For solving among the prior art too big scheduling problem of equipment volume, the utility model provides an adopt the feed proportioning system of the auxiliary assembly who highly integrates, be in the same place the used electromechanical liquid auxiliary component height integration of feed proportioning system, and then play the purpose that reduces equipment volume.
The technical scheme of the utility model is that: a batching system adopting a highly integrated auxiliary component comprises a batching tank and an auxiliary component which is used for being connected with a functional interface on the batching tank to realize a corresponding function; the auxiliary assembly comprises a hydraulic control system for hydraulically controlling the batching tank, a vacuum system for vacuumizing the batching tank, a pneumatic control system for pneumatically controlling the batching tank, a cooling system for cooling the batching tank and a heating system for heating the batching tank; the hydraulic control system comprises an integrated pump station and a control element connected with the pump station; the vacuum system comprises a vacuum pump and a filter element connected with the vacuum pump; the pneumatic control system comprises a gas station and a pneumatic element connected with the gas station.
Furthermore, a first vacuum interface, a first cooling water inlet, a first cooling water outlet, a first steam inlet, a first steam outlet, a first hydraulic oil inlet, a first hydraulic oil outlet and a pneumatic actuator are arranged on the batching tank; a second vacuum interface, a second cooling water inlet, a second cooling water outlet, a second steam inlet, a second steam outlet, a second hydraulic oil inlet, a second hydraulic oil outlet and a pneumatic control system interface are arranged outside the auxiliary assembly; the first vacuum interface is connected with a second vacuum interface and connected into a vacuum system, the first cooling water inlet and the first cooling water outlet are respectively connected with a second cooling water inlet and a second cooling water outlet and connected into a cooling system, and the first steam inlet and the first steam outlet are connected with a second steam inlet and a second steam outlet and connected into a heating system; the first hydraulic oil inlet and the first hydraulic oil outlet are connected with the second hydraulic oil inlet and the second hydraulic oil outlet to be connected into the hydraulic control system, and the pneumatic executive component is connected with the pneumatic control system to be connected into the pneumatic control system through an interface.
Further, each system in the auxiliary assembly is connected with a corresponding controlled element on the batching tank.
Further, the batching system is controlled by a PLC.
Further, the auxiliary assembly may be connected to one or more dispensing tanks.
Has the advantages that: the utility model has the advantages of it is following:
1. the utility model discloses be in the same place the auxiliary element integration, the integrated level is high, and is small.
2. The utility model discloses be fit for automatic control.
3. Through the auxiliary assembly, the batching system is convenient to operate and manage.
Drawings
FIG. 1 is a diagram illustrating the usage of the present invention;
FIG. 2 is a diagram illustrating the usage of the present invention;
fig. 3 is a schematic structural diagram of the auxiliary assembly of the present invention.
Detailed Description
The invention is further explained below with reference to the drawings and examples.
As shown in fig. 1, 2 and 3, a batching system using a highly integrated auxiliary assembly according to the present embodiment comprises a batching tank 1 and a highly integrated auxiliary assembly 2; the highly integrated auxiliary assembly 2 comprises a hydraulic control system 3-1, a vacuum system 3-2, a pneumatic control system 3-3, a cooling system 3-4 and a heating system 3-5, wherein the hydraulic control system 3-1 comprises an integrated pump station and a control element; the vacuum system 3-2 comprises a vacuum pump and required filter elements; the pneumatic control system 3-3 comprises pneumatic elements and a gas station; each system in the auxiliary assembly of the batching system is connected with the corresponding controlled element on the batching tank through a pipeline, a valve, a flange and the like, so that one set of auxiliary assembly corresponds to a plurality of sets of batching systems, and various requirements in the production process of the batching systems are met.
The batching system is controlled by a PLC to realize the functions of hydraulic control, vacuum, pneumatic control, cooling, heating and the like. The auxiliary assembly is connected with an interface on the batching tank through a corresponding interface, the interface on the batching tank of the embodiment comprises a vacuum interface 1-2, a cooling water inlet 1-4, a cooling water outlet 1-3, a steam inlet 1-5, a steam outlet 1-6, a hydraulic oil inlet 1-1, a hydraulic oil outlet 1-7 and a pneumatic executive component 1-8, and the interface of the auxiliary assembly comprises a vacuum interface 2-3, a cooling water inlet 2-4, a cooling water outlet 2-5, a steam inlet 2-1, a steam outlet 2-2, a hydraulic oil inlet 2-6, a hydraulic oil outlet 2-7 and a pneumatic control system interface 2-8; the first vacuum interface 1-2 is connected with the second vacuum interface 2-3 to be connected into a vacuum system 3-2, the first cooling water inlet 1-4 and the first cooling water outlet 1-3 are respectively connected with the second cooling water inlet 2-4 and the second cooling water outlet 2-5 to be connected into a cooling system 3-4, and the first steam inlet 1-5 and the first steam outlet 1-6 are connected with the second steam inlet 2-1 and the second steam outlet 2-2 to be connected into a heating system 3-5; the first hydraulic oil inlet 1-1 and the first hydraulic oil outlet 1-7 are connected with the second hydraulic oil inlet 2-6 and the second hydraulic oil outlet 2-7 to be connected into the hydraulic control system 3-1, and the pneumatic executive component 1-8 is connected with the pneumatic control system interface 2-8 to be connected into the pneumatic control system 3-3.
Externally, the auxiliary assembly of the embodiment has only a plurality of interfaces corresponding to each other, so that the external element can be conveniently connected, and the effect of high integration is achieved.
Claims (5)
1. A dispensing system employing highly integrated auxiliary components, characterized by: comprises a dosing tank (1) and an auxiliary component (2) which is connected with a functional interface on the dosing tank (1) to realize the corresponding function; the auxiliary assembly (2) comprises a hydraulic control system (3-1) for hydraulically controlling the dispensing tank (1), a vacuum system (3-2) for vacuumizing the dispensing tank (1), a pneumatic control system (3-3) for pneumatically controlling the dispensing tank (1), a cooling system (3-4) for cooling the dispensing tank (1) and a heating system (3-5) for heating the dispensing tank (1); the hydraulic control system (3-1) comprises an integrated pump station and a control element connected with the pump station; the vacuum system (3-2) comprises a vacuum pump and a filter element connected with the vacuum pump; the pneumatic control system (3-3) comprises a gas station and a pneumatic element connected with the gas station.
2. The dispensing system with highly integrated auxiliary components of claim 1, wherein: a first vacuum interface (1-2), a first cooling water inlet (1-4), a first cooling water outlet (1-3), a first steam inlet (1-5), a first steam outlet (1-6), a first hydraulic oil inlet (1-1), a first hydraulic oil outlet (1-7) and a pneumatic actuator (1-8) are arranged on the batching tank; a second vacuum interface (2-3), a second cooling water inlet (2-4), a second cooling water outlet (2-5), a second steam inlet (2-1), a second steam outlet (2-2), a second hydraulic oil inlet (2-6), a second hydraulic oil outlet (2-7) and a pneumatic control system interface (2-8) are arranged outside the auxiliary component (2); the first vacuum interface (1-2) is connected with the second vacuum interface (2-3) and connected with a vacuum system (3-2), the first cooling water inlet (1-4) and the first cooling water outlet (1-3) are respectively connected with the second cooling water inlet (2-4) and the second cooling water outlet (2-5) and connected with the cooling system (3-4), and the first steam inlet (1-5) and the first steam outlet (1-6) are connected with the second steam inlet (2-1) and the second steam outlet (2-2) and connected with the heating system (3-5); the first hydraulic oil inlet (1-1) and the first hydraulic oil outlet (1-7) are connected with the second hydraulic oil inlet (2-6) and the second hydraulic oil outlet (2-7) to be connected into the hydraulic control system (3-1), and the pneumatic executive component (1-8) is connected with the pneumatic control system interface (2-8) to be connected into the pneumatic control system (3-3).
3. The dispensing system with highly integrated auxiliary components of claim 1, wherein: the systems in the auxiliary assembly (2) are connected with corresponding controlled components on the batching tank.
4. The dispensing system with highly integrated auxiliary components of claim 1, wherein: the batching system is controlled by a PLC.
5. The dispensing system with highly integrated auxiliary components of claim 1, wherein: the auxiliary assembly (2) can be connected to one or more dosing tanks (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201922338867.9U CN211800490U (en) | 2019-12-24 | 2019-12-24 | Batching system adopting highly integrated auxiliary assembly |
Applications Claiming Priority (1)
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CN201922338867.9U CN211800490U (en) | 2019-12-24 | 2019-12-24 | Batching system adopting highly integrated auxiliary assembly |
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CN211800490U true CN211800490U (en) | 2020-10-30 |
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CN201922338867.9U Active CN211800490U (en) | 2019-12-24 | 2019-12-24 | Batching system adopting highly integrated auxiliary assembly |
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2019
- 2019-12-24 CN CN201922338867.9U patent/CN211800490U/en active Active
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