A kind of filter
Technical field
The utility model belongs to chemical industry equipment, relates to a kind of filter.
Background technology
As shown in Figure 1, existing filter, comprises top cover 1 and body 2, and top cover 1 is provided with charging aperture 3, and body 2 bottoms arrange liquid outlet 4, and body 2 middle parts are provided with sieve plate 5, on sieve plate 5, are covered with filter screen.Material enters filter from charging aperture 3, and after sieve plate 5 and strainer filtering, liquid flows out through liquid outlet 4, and solid matter rests on above the sieve plate 5 in body 2, after filtration, opens top cover, takes out solid matter.In the use procedure of this filter, finally will have an artificial operation of taking out solid matter, complex operation, has increased labour intensity.
Utility model content
For the deficiencies in the prior art, the technical problems to be solved in the utility model is that a kind of filter simple to operate is provided.
A kind of filter, comprise housing (10), housing (10) top is provided with charging aperture (20), housing (10) bottom arranges liquid outlet (30), housing (10) middle part is provided with heat exchanger (40), housing (10) periphery has chuck (50) outward, chuck (50) is provided with cold and hot matchmaker's entrance (51) and cold and hot matchmaker outlet (52), interlayer (50) is communicated with by through hole (6) with heat exchanger (40), heat exchanger (40) comprises upper strata card (7) and lower floor's card (8), between upper strata card (7) and lower floor's card (8), be fixed with some tubulations (9), upper strata card is covered with filter screen on (7).
Agitating device (11) is equipped with on described housing (10) top.
Described agitating device (11) is oar formula structure.
Compared with prior art, the device that the utility model provides, in use procedure, solid matter, by automatically flowing out after heating and melting, does not need artificial taking-up, has saved manually, has improved operating efficiency, simple to operate.
Accompanying drawing explanation
Fig. 1 is the filter apparatus configuration schematic diagram of prior art;
Fig. 2 is the filter apparatus configuration schematic diagram that the utility model provides.
Wherein, 1, top cover 2, body 3, charging aperture 4, liquid outlet 5, sieve plate 10 housings 11, agitating device 20, charging aperture 30, liquid outlet 40, heat exchanger 50, chuck 51, heating agent entrance 52, heating agent outlet 6, through hole 7, upper strata card 8, lower floor's card 9, tubulation.
The specific embodiment
As shown in Figure 2, filter comprises housing 10, housing 10 tops are provided with charging aperture 20, and housing 10 bottoms arrange liquid outlet 30, and housing 10 middle parts are provided with heat exchanger 40, housing 10 peripheries have chuck 50 outward, chuck 50 is provided with refrigerant or heating agent entrance 51 and refrigerant or heating agent outlet 52, and chuck 50 is communicated with by through hole 6 with heat exchanger 40, and heat exchanger 40 comprises upper strata card 7 and lower floor's card 8, between upper strata card 7 and lower floor's card 8, be fixed with some tubulations 9, on upper strata card 7, be covered with filter screen.
This filter has two kinds of purposes, the first purposes is output after solid matter heat is melted, and its course of work is: material enters filter from charging aperture 20, after heat exchanger 40 filters, liquid flows out through liquid outlet 30, solid matter rests on above upper strata card 7, after filtration, in the heating agent entrance 51 of chuck 50, passes into heating agent, heating agent enters heat exchanger 40 by through hole 6, solid matter is heated, after solid matter melts, through liquid outlet 30, flow out.Heating agent, by through hole 6 outflow heat exchangers 40, enters chuck 50, from heating agent outlet 52, flows out.
The second purposes is as crystallizer and filter plant, to use simultaneously, its course of work is: material enters this filter through circulating pump from charging aperture 20, in the refrigerant entrance 51 of chuck 50, pass into refrigerant, refrigerant enters heat exchanger 40 by through hole 6, to material, carry out cooling, crystallization material, the crystalline material of heat exchanger 40 belows is transmitted back to charging aperture 20 with material through circulating pump, carry out circulation crystallization filtration, after filtration, solid crystal material rests on above upper strata card 7, and liquid flows out through liquid outlet 30.Then the refrigerant in chuck 50 is emitted, pass into heating agent, output after solid crystal material heat is melted.
In order to improve heat exchanger effectiveness, material is fully contacted with heat exchanger 40, on housing 10 tops, agitating device 11 is housed, described agitating device 11 is oar formula structure.