A kind of air-cylinder type food is sirred and separated device
Technical field:
Food processing equipment technical field is the utility model is related to, more specifically to a kind of air-cylinder type food stirring point
From device.
Background technology:
Existing food blending machine is usually directly to pour into splicing bucket to carry out aqueous and solid separation after food is stirred,
It needs, using 2 operations, to reduce efficiency.
Utility model content:
The purpose of this utility model and provides a kind of air-cylinder type food and is sirred and separated dress aiming at the deficiency of prior art
Put, it can directly carry out aqueous and solid separation after agitation, without multi-pass operation, greatly improve production efficiency.
Technology solution of the present utility model is as follows:
A kind of air-cylinder type food is sirred and separated device, including stirring cylinder, and stirring is fixed with the top of the stirring cylinder
Lid, the top surface of mixing cover are fixed with stirring motor, and the output shaft of stirring motor is passed down through middle through-hole and the fixation of mixing cover
There is agitator arm, splicing staving is in the lower section of stirring cylinder, has the projection upwardly extended on the middle part bottom plate of splicing staving
Cylinder, the inside of raised cylinder have hollow cavity, and hollow cavity extends downwardly from the bottom plate of splicing staving, the top of hollow cavity
Face is fixed with lifting cylinder, and the push rod of lifting cylinder passes through the top surface of raised cylinder and is fixed with riser, the top of raised cylinder
Annular sleeve is fixed with end face, is fixed with annular slab on the top of annular sleeve, at riser in annular sleeve, the bottom surface of stirring cylinder
It is pressed against on riser and annular slab, there is base circle set in the middle part of the bottom surface of stirring cylinder, base circle inserting is enclosed on annular
In set, the first sealing ring, the lateral wall elasticity of base circle set are nested with the annular groove having on the madial wall of annular sleeve
It is pressed against on the first sealing ring, riser is in base circle set;
The top surface of the annular slab is fixedly arranged in the middle of multiple lug bosses, and lug boss sleeve has on the bottom plate of stirring cylinder
Multiple lower material through hole in, there is gap between the madial wall of the lateral wall of lug boss and lower material through hole.
Multiple positioning cylinders are fixed with the upper outside wall of the splicing staving, the push rod of positioning cylinder passes through splicing bucket
The side wall of body is simultaneously fixed with ring block, and self-lubricating abrasion-resistant block, all self-lubricating abrasion-resistant block pressures are fixed with the madial wall of ring block
Lean against on the lateral wall of stirring cylinder.
Nesting is fixed with the second sealing ring, the second sealing ring elasticity pressure in the annular groove of the top surface edge of the annular slab
Lean against on the bottom surface of stirring cylinder.
The top surface of the push rod of the lifting cylinder is fixed with connecting plate, and the top surface of connecting plate is fixed with permanent magnet blocks, lifting
Plate is pressed against on connecting plate, and permanent magnetic iron block sleeve is in the shrinkage pool that the bottom surface of riser has and adsorbs on riser.
The 3rd sealing ring is clamped between the bottom surface of the adpting flange of the stirring motor and the top surface of mixing cover, the 3rd is close
In the annular groove that the top surface that seal is nested in mixing cover has.
The mixing cover is screwed onto on the top outer wall of stirring cylinder, and the middle part of the bottom surface of mixing cover has annular sleeve,
Annular sleeve sleeve is nested with the 4th in the top of stirring cylinder in the annular groove having on the upper inner wall of stirring cylinder
Sealing ring, the 4th sealing ring elasticity are pressed against on the lateral wall of annular sleeve.
The beneficial effects of the utility model are:
It can directly carry out aqueous and solid separation after agitation, without multi-pass operation, greatly improve production efficiency.
Brief description of the drawings:
Fig. 1 is structural representation of the present utility model;
Structural representations of the Fig. 2 between stirring cylinder and splicing staving.
Embodiment:
Embodiment:As shown in Fig. 1 to Fig. 2, a kind of air-cylinder type food is sirred and separated device, including stirring cylinder 10, described
The top of stirring cylinder 10 is fixed with mixing cover 11, and the top surface of mixing cover 11 is fixed with stirring motor 12, stirring motor 12 it is defeated
Shaft is passed down through the middle through-hole 111 of mixing cover 11 and is fixed with agitator arm 131, and splicing staving 20 is in stirring cylinder 10
Lower section, there is the raised cylinder 21 upwardly extended, the inside of raised cylinder 21 has sky on the middle part bottom plate of splicing staving 20
Chambers of the heart body 22, hollow cavity 22 extend downwardly from the bottom plate of splicing staving 20, and the top end face of hollow cavity 22 is fixed with lifting cylinder
23, the push rod of lifting cylinder 23 passes through the top surface of raised cylinder 21 and is fixed with riser 231, on the top end face of raised cylinder 21
Main loop set 24 is fixed with, main loop, which covers, is fixed with annular slab 25 on 24 top, at riser 23 in main loop set 24, stirring
The bottom surface of staving 10 is pressed against on riser 23 and annular slab 25, has base circle set 14 in the middle part of the bottom surface of stirring cylinder 10,
Base circle covers 14 sleeves in main loop set 24, and first is nested with the annular groove having on the madial wall of main loop set 24
Sealing ring 1, the lateral wall elasticity of base circle set 14 are pressed against on the first sealing ring 1, and riser 231 is in base circle set 14
In;
The top surface of the annular slab 25 is fixedly arranged in the middle of multiple lug bosses 251, and the sleeve of lug boss 251 is in stirring cylinder 10
In the multiple lower material through hole 15 having on bottom plate, between having between the madial wall of the lateral wall of lug boss 251 and lower material through hole 15
Gap.
Further, multiple positioning cylinders 26, positioning cylinder are fixed with the upper outside wall of the splicing staving 20
26 push rod passes through the side wall of splicing staving 20 and is fixed with ring block 261, and self-lubricating is fixed with the madial wall of ring block 261
Wear-resistant block 262, all self-lubricating abrasion-resistant blocks 262 are pressed against on the lateral wall of stirring cylinder 10.
Further, nesting is fixed with the second sealing ring 2 in the annular groove of the top surface edge of the annular slab 25, the
The elasticity of two sealing ring 2 is pressed against on the bottom surface of stirring cylinder 10.
Further, the top surface of the push rod of the lifting cylinder 23 is fixed with connecting plate 232, the top surface of connecting plate 232
Permanent magnet blocks 233 are fixed with, riser 231 is pressed against on connecting plate 232, and the sleeve of permanent magnetic iron block 233 is in the bottom surface of riser 231
In the shrinkage pool having and adsorb on riser 231.
Further, is clamped between the bottom surface of the adpting flange of the stirring motor 12 and the top surface of mixing cover 11
Three sealing rings 3, in the annular groove that the top surface that the 3rd sealing ring 3 is nested in mixing cover 11 has.
Further, the mixing cover 11 is screwed onto on the top outer wall of stirring cylinder 10, the bottom surface of mixing cover 11
Middle part there is annular sleeve 112, the sleeve of annular sleeve 112 is in the top of stirring cylinder 10, the upper inner wall of stirring cylinder 10
On be nested with the 4th sealing ring 4 in the annular groove that has, the elasticity of the 4th sealing ring 4 is pressed against on the lateral wall of annular sleeve 112.
The bottom sidewall of splicing staving 20 has discharge screw, and plug 100 is bolted with discharge screw.
In the present embodiment, by the way that food is put into stirring cylinder 10, is then run by stirring motor 12 and realize stirring,
After stirring certain time, run by lifting cylinder 23 so that stirring cylinder 10 is lifted up certain altitude, so that aqueous
By being flowed into the gap that has between the lateral wall of lug boss 251 and the madial wall of lower material through hole 15 in splicing staving 20, and consolidate
Body is stayed in stirring cylinder 10, realizes separation of solid and liquid, facilitates following process to handle, its efficiency high.The food of this agitating device stirring
Larger its of solid particle of thing will not be blocked in gap.
Wherein, stirring cylinder 10 is promoted when being put into the top of splicing staving 20 by the push rod of positioning cylinder 26 so that
All self-lubricating abrasion-resistant blocks 262 are pressed against on the lateral wall of stirring cylinder 10, meanwhile, ensure that splicing staving 20 can be along Zi Run
Sliding wear-resistant block 262, which is realized, to be moved up and down.
Aqueous can be discharged from discharge screw by opening plug 100.