CN209715886U - Cleaning drying integral machine is used in a kind of production of desiccant - Google Patents

Abstract

The utility model discloses a kind of desiccant production cleaning drying integral machines, belong to desiccant production equipment technology, including wiper mechanism and drying mechanism, screening mechanism is equipped between wiper mechanism and drying mechanism, the utility model sifts out the bulky grain being bonded together and broken desiccant particle by the way that screening mechanism is arranged between wiper mechanism and drying mechanism, after solving the cleaned drying of molding desiccant, final finished particle unevenness, inconsistent problem.

Description

Cleaning drying integral machine is used in a kind of production of desiccant

Technical field

The utility model belongs to desiccant production equipment technology, and in particular to cleaning, drying is used in a kind of production of desiccant All-in-one machine.

Background technique

In dry agent producing process, molding desiccant is needed through overpickling, after pickler pickling, will be dried Agent is delivered to cleaning equipment, washes in cleaning equipment, by the water venting in cleaning equipment after washing, then again by desiccant from Cleaning equipment takes out, and is put into drying equipment drying.Existing desiccant production equipment cleaning is separately carried out with drying process, is cleaned Desiccant is manually transferred to drying equipment after the completion, process is tedious, large labor intensity.In addition, cleaning equipment is being cleaned and dried When agent, in order to improve cleaning effect, usually all it is to add stirring rod to be stirred in cleaning equipment, accelerates cleaning effect, in this way Although cleaning effect can be improved, it will appear the molded desiccant in part broken, desiccant smashed in cleaning Powder and molding desiccant bond, the non-uniform problem of desiccant particle.

Utility model content

The purpose of this utility model is to provide a kind of structures, and simple, after drying the desiccant particle degree of consistency is high Cleaning drying integral machine is used in desiccant production.

Based on object above, the utility model takes following technical scheme: a kind of desiccant production cleaning, drying one Machine, including wiper mechanism and drying mechanism are equipped with screening mechanism, the screening mechanism between the wiper mechanism and drying mechanism Including sieving chamber, the first Screening Network and the second Screening Network, first sieve are successively arranged in the screening chamber from top to bottom The aperture of subnetting is greater than the size of qualified desiccant particle, and the aperture of the second Screening Network is less than the size of qualified desiccant particle；

The screening chamber is equipped with second charging aperture, bulky grain discharge port, conforming particle discharge port and little particle discharging Mouthful, the discharge port of the wiper mechanism is connect with second charging aperture, and the bulky grain discharge port is connect with the first collecting box, described Little particle discharge port is connect with the second collecting box, the feed inlet connection of the conforming particle discharge port and drying mechanism.

Preferably, first Screening Network is obliquely installed, and bulky grain discharge port setting is on screening chamber close to the At the lower position of one Screening Network；Second Screening Network is obliquely installed, and the conforming particle discharge port setting is in screening chamber At the lower position of upper close second Screening Network, the little particle discharge port setting is in screening cavity bottom.

Preferably, the first screening sieve bottom is equipped with the first vibrator；The second screening sieve bottom is equipped with the second vibration Dynamic device.

Preferably, the wiper mechanism includes cleaning case, stirring rod, shift plate and stirring motor, the stirring rod first end It protrudes into cleaning case and is rotatablely connected with cleaning case, the second end of stirring rod is stretched out cleaning case and connected with the output shaft of stirring motor It connects, driving lever is connect with stirring rod；Cleaning case is equipped with first charging aperture, discharge outlet and the first discharge port, first discharge port It is connect with second charging aperture, filter screen is equipped at discharge outlet.

Preferably, the shift plate is four, and shift plate is arranged circumferentially along stirring rod.

Preferably, the longitudinal section of the shift plate is isosceles trapezoidal structure, and the shift plate is shift plate close to stirring rod on one side Short side, the short side of shift plate connect by connecting rod with stirring rod.

Preferably, the conforming particle discharge port is connected by the feed inlet of screw input feeder and drying mechanism.

Preferably, the drying mechanism includes drying box, and drying box is equipped with third feed inlet and the second discharge port, dry It is equipped in case and hot air nozzle, the hot air nozzle is connect by blast pipe with air heat source.

Compared with prior art, the utility model has the following beneficial effects:

1, the utility model is between wiper mechanism and drying mechanism by being arranged screening mechanism, sifts out and is bonded together Bulky grain and broken desiccant particle, after solving the cleaned drying of molding desiccant, final finished particle is not , inconsistent problem.

2, the first Screening Network in the utility model screens out the bulky grain desiccant being bonded together to come, and bulky grain is dry Drying prescription is fallen in the first collecting box along the first Screening Network, is reused after the later period is broken.Qualified desiccant particle and by The desiccant particle smashed is fallen on the second Screening Network from the mesh of the first Screening Network, and broken desiccant particle is from second The sieve pore of Screening Network leaks out and enters the second collecting box from little particle discharge port, can be reused for manufacture desiccant.Qualification is dry Agent particle enters drying mechanism along the second Screening Network, carries out baking process, structure is simple, solves final finished desiccant particle Uneven, inconsistent problem.

3, the setting of the first vibrator and the second vibrator in the utility model, makes the first Screening Network, the second Screening Network Reciprocating sieve is formed, the first Screening Network, the sieve of the second Screening Network and bulky grain discharge port, conforming particle discharge port is can avoid and goes out The case where now blocking, meanwhile, unstable bulky grain desiccant vibration can also be bonded on the first Screening Network opens, it is practical.

4, in the utility model, stirring rod is laterally arranged the utility model, is arranged circumferentially four along stirring rod Shift plate constantly stirs the desiccant for being deposited on bottom under the drive of stirring rod, and cleaning effect is good, and shift plate is designed as isosceles Trapezium structure, while not influencing mixing effect, the inner space for occupying cleaning case is small, compact-sized.

5, filter screen is equipped at the utility model discharge outlet, the aperture of filter screen is less than the size of desiccant conforming particle, It avoids after the completion of cleaning, when draining, desiccant is discharged from discharge outlet.

6, conforming particle desiccant is delivered to third from conforming particle discharge port using screw input feeder by the utility model Feed inlet further avoids conforming particle desiccant the phenomenon that conforming particle discharge port blocks.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model embodiment one；

Fig. 2 is the structural schematic diagram of the utility model embodiment two；

Fig. 3 is the structural schematic diagram of the utility model embodiment three.

In figure: wiper mechanism 100, cleaning case 101, discharge outlet 1011, the first discharge port 1012, stirring rod 102, shift plate 103, stirring motor 104, drying mechanism 200, drying box 201, third feed inlet 202, the second discharge port 203, screening mechanism 300, sieve chamber 301, bulky grain discharge port 302, conforming particle discharge port 303, little particle discharge port 304, the first Screening Network 305, the second Screening Network 306, the first collecting box 307, the second collecting box 308, the first vibrator 400, the second vibrator 500, spiral shell Revolve feeder 600.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawings of the specification, it is clear that described embodiment It is the most preferred embodiment of the utility model.

Embodiment one

As shown in Figure 1, a kind of desiccant production cleaning drying integral machine, including wiper mechanism 100 and drying mechanism 200 And it is arranged between wiper mechanism 100 and drying mechanism 200 and is equipped with screening mechanism 300.Screening mechanism 300 is bonded in for sifting out Bulky grain and broken desiccant particle together, after solving the cleaned drying of molding desiccant, final finished Grain unevenness, inconsistent problem.

Wiper mechanism 100 includes cleaning case 101, stirring rod 102, shift plate 103 and stirring motor 104, stirring rod 102 first End is protruded into cleaning case 101 and is rotatablely connected with cleaning case 101, and the second end of stirring rod 102 stretches out cleaning case 101 and passes through shaft coupling The output axis connection of device and stirring motor 104, stirring motor 104 are mounted on 101 upper support frame of cleaning case by motor mount On, shift plate 103 is connect with stirring rod 102, and the shift plate 103 in the utility model is four, and shift plate 103 is circumferential along stirring rod 102 It is evenly arranged, the longitudinal section of shift plate 103 is isosceles trapezoidal structure, and shift plate 103 is shift plate 102 close to stirring rod 102 on one side The short side of short side, shift plate 103 is connect by connecting rod with stirring rod 102.Since desiccant particle cleans in cleaning case 101 When, it is deposited on 101 bottom of cleaning case, in order to clean more thoroughly, stirring rod 102 is laterally arranged the utility model, along stirring more Bar 102 is arranged circumferentially four shift plates 103, and under the drive of stirring rod 102, the desiccant for being deposited on bottom is constantly turned over Dynamic, shift plate 103 is designed as isosceles trapezoidal structure, while not influencing mixing effect, occupies the inner space of cleaning case 101 It is small, it is compact-sized.Cleaning case 101 is equipped with first charging aperture, discharge outlet 1011 and the first discharge port 1012, at discharge outlet 1011 Equipped with drain valve, the first outlet valve, the feed inlet of the first discharge port 1012 and screening mechanism 300 are equipped at the first 1012 mouthfuls of discharging Connection, discharge outlet 1011 are connect by drainpipe with wastewater disposal basin.Filter screen is equipped at discharge outlet 1011, the aperture of filter screen is less than The size of desiccant conforming particle avoids after the completion of cleaning, and when draining, desiccant is discharged from discharge outlet 1011.

Screening mechanism 300 includes screening chamber 301, and screening chamber 301 is equipped with second charging aperture, bulky grain discharge port 302, conforming particle discharge port 303 and little particle discharge port 304 sieve on second charging aperture and the cleaning case 101 on chamber 301 The first discharge port 1012 connection.

It is successively arranged the first Screening Network 305 and the second Screening Network 306, the first Screening Network from top to bottom in screening chamber 301 305 aperture is slightly larger than the size of qualified desiccant particle, and the desiccant particle being bonded together is screened out to come, and makes qualified dry Drying prescription particle and broken desiccant particle are fallen on the second Screening Network 306 from the mesh of the first Screening Network 305, and second The aperture of Screening Network 306 is less than the size of qualified desiccant particle, and qualified desiccant particle is screened out to come, broken drying Agent particle falls into screening cavity bottom from the mesh of the second Screening Network 306.First Screening Network 305 is obliquely installed, and bulky grain goes out Material mouth 302 is arranged on screening chamber 301 at the lower position of the first Screening Network 305, bulky grain discharge port 302 and first Collecting box 307 connects, and the bulky grain desiccant particle being bonded together slides downwards after screening out along the first Screening Network 305, It eventually falls into the first collecting box 307.The setting of little particle discharge port 304 is in screening 301 bottom of chamber, little particle discharge port 304 It is connect with the second collecting box 308, broken desiccant particle enters in the second collecting box 308 from little particle discharge port 304.

Second Screening Network 306 is obliquely installed, and the setting of conforming particle discharge port 303 is on screening chamber 301 close to the second sieve At the lower position of subnetting 306, conforming particle discharge port 303 is connect with the feed inlet of drying mechanism 200, screens out the qualification come Desiccant particle falls along the second Screening Network 306, and flows to drying mechanism 200 from conforming particle discharge port 303 and enter drying work Sequence.

Drying mechanism 200 includes drying box 201, and drying box 201 is equipped with third feed inlet 202 and the second discharge port 203, Third feed inlet 202 on drying box 201 is connect with conforming particle discharge port 303, and the second discharging is equipped at the second discharge port 203 Valve, is equipped in drying box 201 and hot air nozzle, hot air nozzle are connect by blast pipe with air heat source.The utility model Drying mechanism 200 is not improved, drying mechanism 200 uses the drying box 201 of existing desiccant production.

Working principle: the molding desiccant particle after pickling is sent into cleaning case 101 and is cleaned, and after the completion of cleaning, beats Begin to rehearse water valve, and water is discharged from discharge outlet 1011, after the completion of draining, closes drain valve, opens the first outlet valve, desiccant first goes out Material mouth 1012 enters screening chamber 301, and falls on the first Screening Network 305, and the bulky grain desiccant being bonded together screens out Coming, and is fallen in the first collecting box 307 along the first Screening Network 305, the first collecting box 307 is equipped with the first transparent windows, When the first collecting box 307 collects full fastly, the discharge gate on the first collecting box 307 is opened, bulky grain desiccant is taken out and put Enter in crusher and be crushed, next time uses.Qualified desiccant particle and broken desiccant particle are from the first Screening Network 305 It is fallen into mesh on the second Screening Network 306, broken desiccant particle leaks out from the sieve pore of the second Screening Network 306 and from small Grain discharge port 304 enters the second collecting box 308, and the second collecting box 308 is equipped with the second transparent windows, when the second collecting box 308 is fast when collecting full, opens the discharge gate on the second collecting box 308, will smash drying prescription taking-up, uses next time.Qualified desiccant Particle enters drying mechanism 200 along the second Screening Network 306, carries out baking process, and hot-air is sprayed from hot air nozzle to drying Drying in case 201 into being dried, desiccant through drying box 201 it is dry it is qualified after, open the second outlet valve, desiccant is from the The discharge of two discharge ports 203.

Embodiment two

The technical solution of embodiment two and the technical solution of embodiment one are essentially identical, the difference is that: such as Fig. 2 institute Show, 305 bottom of the first Screening Network in embodiment two is equipped with the first vibrator 400, and the first vibrator 400 in the present embodiment is Two, in 305 middle and upper part of the first Screening Network, another is arranged close to 305 low side of the first Screening Network, is arranged first for a setting 305 low side of Screening Network can avoid bulky grain discharge port 302 and block.Second Screening Network, 306 bottom is equipped with the second vibrator 500, the second vibrator 500 in the present embodiment is two, and one is arranged in 306 middle and upper part of the second Screening Network, another is close The setting of second Screening Network, 306 low side, setting can avoid conforming particle discharge port 303 and block up in 306 low side of the second Screening Network Plug.First vibrator and the second vibrator are all made of the vibrator of CZ model, such as CZ100 vibrator, the first vibrator and The setting of two vibrator makes the first Screening Network 305, the second Screening Network 306 form reciprocating sieve, can avoid the first Screening Network 305, the The case where sieve of two Screening Networks 306 blocks, meanwhile, unstable bulky grain can also be bonded on the first Screening Network 305 Desiccant vibration is opened, practical.

Embodiment three

The technical solution of embodiment three and the technical solution of embodiment two are essentially identical, the difference is that: such as Fig. 3 institute Show, conforming particle discharge port 303 is connect by screw input feeder 600 with third feed inlet 202.Pass through conforming particle desiccant spiral shell Rotation feeder 600 enters drying mechanism 200 and further avoids conforming particle desiccant in qualification using screw input feeder 600 The phenomenon that particle discharge port 303 blocks.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model Protection scope within.

Claims (8)

1. a kind of desiccant production cleaning drying integral machine, including wiper mechanism (100) and drying mechanism (200), feature It is: is equipped with screening mechanism (300) between the wiper mechanism (100) and drying mechanism (200), the screening mechanism (300) Including sieving chamber (301), the first Screening Network (305) and the second sieve are successively arranged in the screening chamber (301) from top to bottom Subnetting (306), the aperture of first Screening Network (305) are greater than the size of qualified desiccant particle, the second Screening Network (306) Aperture is less than the size of qualified desiccant particle；

The screening chamber (301) be equipped with second charging aperture, bulky grain discharge port (302), conforming particle discharge port (303) and The discharge port of little particle discharge port (304), the wiper mechanism (100) is connect with second charging aperture, the bulky grain discharge port (302) it is connect with the first collecting box (307), the little particle discharge port (304) connect with the second collecting box (308), the conjunction Lattice particle discharge port (303) is connect with the feed inlet of drying mechanism (200).

2. desiccant production cleaning drying integral machine as described in claim 1, it is characterised in that: first Screening Network (305) it is obliquely installed, bulky grain discharge port (302) setting is in screening chamber (301) close to the first Screening Network (305) At lower position；Second Screening Network (306) is obliquely installed, and conforming particle discharge port (303) setting is in screening chamber (301) at the lower position of the second Screening Network (306), little particle discharge port (304) setting is in screening chamber (301) bottom.

3. desiccant production cleaning drying integral machine as claimed in claim 2, it is characterised in that: first Screening Network (305) bottom is equipped with the first vibrator (400)；Second Screening Network (306) bottom is equipped with the second vibrator (500).

4. desiccant production cleaning drying integral machine a method according to any one of claims 1-3, it is characterised in that: the cleaning machine Structure (100) includes cleaning case (101), stirring rod (102), shift plate (103) and stirring motor (104), the stirring rod (102) One end is protruded into cleaning case (101) and is rotatablely connected with cleaning case (101), and the second end of stirring rod (102) stretches out cleaning case (101) And the output axis connection with stirring motor (104), shift plate (103) are connect with stirring rod (102)；Cleaning case (101) is equipped with the One feed inlet, discharge outlet (1011) and the first discharge port (1012), first discharge port (1012) connect with second charging aperture, Filter screen is equipped at discharge outlet (1011).

5. desiccant as claimed in claim 4 production cleaning drying integral machine, it is characterised in that: the shift plate (103) is Four, shift plate (103) is arranged circumferentially along stirring rod (102).

6. desiccant production cleaning drying integral machine as claimed in claim 5, it is characterised in that: the shift plate (103) Longitudinal section is isosceles trapezoidal structure, and the shift plate (103) is the short side of shift plate (103), shift plate close to stirring rod (102) on one side (103) short side is connect by connecting rod with stirring rod (102).

7. the desiccant production cleaning drying integral machine as described in claim 5 or 6 is any, it is characterised in that: the qualification Particle discharge port (303) is connect by screw input feeder (600) with the feed inlet of drying mechanism (200).

8. desiccant production cleaning drying integral machine as claimed in claim 7, it is characterised in that: the drying mechanism It (200) include drying box (201), drying box (201) is equipped with third feed inlet (202) and the second discharge port (203), drying box (201) hot air nozzle is equipped in, the hot air nozzle is connect by blast pipe with air heat source.