CN205295708U - Dyeingization salt system - Google Patents

Abstract

Dyeingization salt system relates to fluid distribution device's design technical field, puts changing storage bucket group, organizing three board filling tubes, a plurality of pad dyeing mouth of one -to -one with three groupization storage buckets of different prescription auxiliary agents including three inter blocks, every group storage bucket component do not includes firstization storage bucket, the second storage bucket of built -in the same prescription auxiliary agent. The utility model discloses change the storage bucket with two in every group and add water to current mark liquid level, add the stirring of various auxiliary agents, when arbitrary one change the storage bucket stirring after, the tubing pump begins toward the board pay -off, when one of them changed storage bucket use to low liquid level, the warning light began the scintillation, and system's automatic switch -over is to another changes the storage bucket use on the same group, adding water to what stop using and changing the current sign liquid level of storage bucket, to re -enter the stirs the mode, circulates in proper order. The utility model discloses reduce the human cost, improve work efficiency, reduce the operation degree of difficulty to can of assurance material concentration, be applicable to among the dyeingization salt system of printing and dyeing company.

Description

Dyeingization salt system

Technical field

This utility model relates to the design field of liquid dispensing device.

Background technology

Printing and dyeing company originalization salt device be primarily present problem have following some: 1) fault rate is higher, often occur lacking material phenomenon; 2) cylinder difference is serious, because feed proportioning system error is inevitable, and the dyeing quality problem easily caused because fixation liquid concentration is unstable during fixation after dyeing.

Utility model content

This utility model purpose is in that for problem above, it is provided that a kind of reduction human cost, the work efficiency that improves, reduction operation easier, it is possible to ensure the dyeing salt system of material concentration.

This utility model includes the material bucket group of three groups of built-in different formulations auxiliary agents and three groups of material bucket group three board charge pipes, several pad dyeing mouths one to one; Described often group material bucket group includes the first material bucket of built-in same recipe auxiliary agent, the second material bucket respectively;

Discharging opening at described first material bucket connects the first discharge nozzle, from top to bottom sets gradually the first outlet valve, the first filter, the first stand-by pump switching valve, the first electric pump, the first check-valves and the first baiting valve on described first discharge nozzle;

Discharging opening at described second material bucket connects the second discharge nozzle, from top to bottom sets gradually the second outlet valve, the second filter, the second stand-by pump switching valve, the second electric pump, the second check-valves and the second baiting valve on described second discharge nozzle;

Switching on described first discharge nozzle, in the first filter and the first stand-by pump and connect the first pipeline between valve, the other end of described first pipeline is connected on the second discharge nozzle between the second filter and the second stand-by pump switching valve; Described first pipeline arranges the 3rd stand-by pump switching valve and the 4th stand-by pump switching valve;

Connecting second pipe on described first discharge nozzle, between the first check-valves and the first baiting valve, the other end of described second pipe is connected on the second discharge nozzle between the second check-valves and the second baiting valve; Described second pipe arranges the 5th stand-by pump switching valve and the 6th stand-by pump switching valve;

The first pipeline between described 3rd stand-by pump switching valve and the 4th stand-by pump switching valve connects the 3rd pipeline, the other end of described 3rd pipeline is connected on the second pipe between the 5th stand-by pump switching valve and the 6th stand-by pump switching valve, arranges stand-by pump on the 3rd pipeline;

Connecting the first circulating line in described first side, material bucket bottom, the other end of described first circulating line is connected on the first discharge nozzle between the first check-valves and the first baiting valve; Described first circulating line arranges the first circulation pneumatic operated valve, the first circulating line between described first circulation pneumatic operated valve and the first material bucket connects the first blow-off pipe, described first blow-off pipe arranges the first blowoff valve;

Connecting the second circulating line in described second side, material bucket bottom, the other end of described second circulating line is connected on the second discharge nozzle between the second check-valves and the second baiting valve; Described second circulating line arranges the second circulation pneumatic operated valve, the second circulating line between described second circulation pneumatic operated valve and the second material bucket connects the second blow-off pipe, described second blow-off pipe arranges the second blowoff valve;

The first discharge nozzle often organizing described material bucket group is connected on corresponding board charge pipe with the outfan of the second discharge nozzle; Each pad dyeing mouth connects three feed pipes respectively, and three feed pipes connect one to one respectively on three board charge pipes; Being respectively provided with manually-operated gate on every feed pipe, each pad dyeing mouth is respectively equipped with controlled valve.

When this utility model uses, adding water to existing mark liquid level by often organizing two material buckets, add various auxiliary agent, be stirred, after any one material bucket stirring terminates, pipeline pump starts toward board feeding; By being marked when board uses, open respective valves and begin to use; When one of them material bucket uses to low liquid level, warning light starts flicker, and system automatically switches to and uses with another material bucket of group; Adding water to the existing mark liquid level of withdraw from service material bucket, be again introduced into stir mode, after stirring terminates, pipeline pump continues cycling through, and this barrel stand-by, circulates successively; When blowdown, open blowoff valve blowdown.

This utility model reduces human cost, improves work efficiency, reduces operation easier, it is possible to ensure material concentration, it is adaptable in printing and dyeing company dyeingization salt system.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Detailed description of the invention

As it is shown in figure 1, this utility model includes the material bucket group 1 of three groups of built-in different formulations auxiliary agents and three groups of material bucket group 1 three board charge pipes 2, several pad dyeing mouths 3 one to one; Described often group material bucket group 1 includes the first material bucket 1-1 of built-in same recipe auxiliary agent, the second material bucket 1-2 respectively.

Discharging opening at described first material bucket 1-1 connects the first discharge nozzle 4, from top to bottom sets gradually the first outlet valve the 5, first filter the 6, first stand-by pump switching valve the 7, first electric pump the 8, first check-valves 9 and the first baiting valve 10 on described first discharge nozzle 4.

Discharging opening at described second material bucket 1-2 connects the second discharge nozzle 11, from top to bottom sets gradually the second outlet valve the 12, second filter the 13, second stand-by pump switching valve the 14, second electric pump the 15, second check-valves 16 and the second baiting valve 17 on described second discharge nozzle 11.

Switching with the first stand-by pump on described first discharge nozzle 4, in the first filter 6 and be connected the first pipeline 18 between valve 7, the other end of described first pipeline 18 is connected on the second discharge nozzle 11 between the second filter 13 and the second stand-by pump switching valve 14; Described first pipeline 18 arranges the 3rd stand-by pump switching valve 19 and the 4th stand-by pump switching valve 20.

Connecting second pipe 21 on described first discharge nozzle 4, between the first check-valves 9 and the first baiting valve 10, the other end of described second pipe 21 is connected on the second discharge nozzle 11 between the second check-valves 16 and the second baiting valve 17; Described second pipe 21 arranges the 5th stand-by pump switching valve 22 and the 6th stand-by pump switching valve 23.

Being connected the 3rd pipeline 24 on the first pipeline 18 between described 3rd stand-by pump switching valve 19 and the 4th stand-by pump switching valve 20, the other end of described 3rd pipeline 24 is connected on the second pipe 21 between the 5th stand-by pump switching valve 22 and the 6th stand-by pump switching valve 23; 3rd pipeline 24 arranges stand-by pump 36.

Connecting the first circulating line 25 in described first side, material bucket 1-1 bottom, the other end of described first circulating line 25 is connected on the first discharge nozzle 4 between the first check-valves 9 and the first baiting valve 10; Described first circulating line 25 arranges the first circulation pneumatic operated valve 26, the first circulating line 25 between described first circulation pneumatic operated valve 26 and the first material bucket 1-1 is connected the first blow-off pipe 27, described first blow-off pipe 27 arranges the first blowoff valve 28.

Connecting the second circulating line 29 in described second side, material bucket 1-2 bottom, the other end of described second circulating line 29 is connected on the second discharge nozzle 11 between the second check-valves 16 and the second baiting valve 17; Described second circulating line 29 arranges the second circulation pneumatic operated valve 30, the second circulating line 29 between described second circulation pneumatic operated valve 30 and the second material bucket 1-2 is connected the second blow-off pipe 31, described second blow-off pipe 31 arranges the second blowoff valve 32.

The first discharge nozzle 4 often organizing described material bucket group 1 is connected on corresponding board charge pipe 2 with the outfan of the second discharge nozzle 11; Each pad dyeing mouth 3 connects three feed pipes 33 respectively, and three feed pipes 33 connect one to one respectively on three board charge pipes 2; Being respectively provided with manually-operated gate 34 on every feed pipe 33, each pad dyeing mouth 3 is respectively equipped with controlled valve 35.

Claims (1)

1. dyeingization salt system, it is characterised in that: include the material bucket group of three groups of built-in different formulations auxiliary agents and three groups of material bucket group three board charge pipes, several pad dyeing mouths one to one; Described often group material bucket group includes the first material bucket of built-in same recipe auxiliary agent, the second material bucket respectively;

Discharging opening at described first material bucket connects the first discharge nozzle, from top to bottom sets gradually the first outlet valve, the first filter, the first stand-by pump switching valve, the first electric pump, the first check-valves and the first baiting valve on described first discharge nozzle;

Discharging opening at described second material bucket connects the second discharge nozzle, from top to bottom sets gradually the second outlet valve, the second filter, the second stand-by pump switching valve, the second electric pump, the second check-valves and the second baiting valve on described second discharge nozzle;

Switching on described first discharge nozzle, in the first filter and the first stand-by pump and connect the first pipeline between valve, the other end of described first pipeline is connected on the second discharge nozzle between the second filter and the second stand-by pump switching valve; Described first pipeline arranges the 3rd stand-by pump switching valve and the 4th stand-by pump switching valve;

Connecting second pipe on described first discharge nozzle, between the first check-valves and the first baiting valve, the other end of described second pipe is connected on the second discharge nozzle between the second check-valves and the second baiting valve; Described second pipe arranges the 5th stand-by pump switching valve and the 6th stand-by pump switching valve;

The first pipeline between described 3rd stand-by pump switching valve and the 4th stand-by pump switching valve connects the 3rd pipeline, the other end of described 3rd pipeline is connected on the second pipe between the 5th stand-by pump switching valve and the 6th stand-by pump switching valve, arranges stand-by pump on the 3rd pipeline;

Connecting the first circulating line in described first side, material bucket bottom, the other end of described first circulating line is connected on the first discharge nozzle between the first check-valves and the first baiting valve; Described first circulating line arranges the first circulation pneumatic operated valve, the first circulating line between described first circulation pneumatic operated valve and the first material bucket connects the first blow-off pipe, described first blow-off pipe arranges the first blowoff valve;

Connecting the second circulating line in described second side, material bucket bottom, the other end of described second circulating line is connected on the second discharge nozzle between the second check-valves and the second baiting valve; Described second circulating line arranges the second circulation pneumatic operated valve, the second circulating line between described second circulation pneumatic operated valve and the second material bucket connects the second blow-off pipe, described second blow-off pipe arranges the second blowoff valve;

The first discharge nozzle often organizing described material bucket group is connected on corresponding board charge pipe with the outfan of the second discharge nozzle; Each pad dyeing mouth connects three feed pipes respectively, and three feed pipes connect one to one respectively on three board charge pipes; Being respectively provided with manually-operated gate on every feed pipe, each pad dyeing mouth is respectively equipped with controlled valve.