A kind of material-receiving device of dehydrator
Technical field
This utility model belongs to construction engineering technical field, especially relates to a kind of material-receiving device of dehydrator.
Background technology
In building trade, the river sand as used by dry powder and mortar industry, yellow ground, casting industry is used for all size molding sand,
The blast-furnace cinder of building material cement industry is typically required to using drying unit, it is dried, and then enters in putting into engineering
Exercise and use.
When yellow ground dehydrator works, yellow ground, after drying, is importing directly in splicing groove.Existing splicing groove exists
The situation of mobile inconvenience, is not easy to move transmission to the splicing groove filling yellow ground;Yellow ground enters into splicing groove still simultaneously
Band is had a surplus temperature, it sometimes appear that the situation that polylith yellow ground is bonded together, the drying efficiency of impact yellow ground;Yellow ground with impurity
Impurity being made to separate with yellow ground after drying, if now not carrying out impurity operation detached with yellow ground, directly reducing
The quality of yellow ground.
Utility model content
The purpose of this utility model is that a kind of structure of offer is simple, is easy to mobile splicing cell body, realizes continuing splicing, raising
Yellow ground drying efficiency, it is easy to separate the material-receiving device of the dehydrator of yellow ground and impurity, be especially suitable in drying yellow ground technique.
The technical solution of the utility model is:A kind of material-receiving device of dehydrator, including transmission track, moving member and multiple
Interconnective material receiving mechanism, described transmission track slides and is provided with multiple material receiving mechanisms, described material receiving mechanism includes connecing
Hopper body, pendulum and receiving hopper, splicing cylinder that described splicing cell body includes being sequentially provided with from top to bottom, conical shell and
Cylinder, described splicing cylinder upper end outward flange side is provided with L-type hook, and opposite side is correspondingly provided with and is matched with L-type hook
Hanging groove, be from left to right sequentially provided with the first swash plate, the first dividing plate, second partition and the second swash plate in splicing cylinder, described
The first swash plate and the second swash plate, the first dividing plate and second partition arrange each along the centrosymmetry of splicing cylinder, described the
It is provided with multiple left pins between one swash plate and splicing cylinder inner left wall, set between the second described swash plate and splicing cylinder inner right wall
There are multiple right pins, inside described conical shell and cylinder junction, be provided with pendulum, described pendulum includes vibrating
Sieve plate, the first cylinder and the second cylinder, the first described cylinder and the second cylinder are located at by the first base plate, the second base plate respectively
On arranged on left and right sides wall in cylinder body, the piston rod of the first described cylinder and the second cylinder is respectively provided at the following table of oscillating screen plate
Face both sides, described oscillating screen plate is provided with multiple sieve apertures, and described the first swash plate, the first dividing plate, second partition and second are oblique
The lower end of plate extends in conical shell, and described oscillating screen plate is oblique located at the first swash plate, the first dividing plate, second partition and second
The underface of plate, described cylinder lower end is connected with receiving hopper, the receiving hopper of the material receiving mechanism of high order end and driving cylinder
Piston rod is connected, and described driving cylinder is in gripper shoe.
Further, the first described swash plate is obliquely installed towards the first dividing plate.
Further, the second described swash plate is obliquely installed towards second partition.
Further, forward and backward side in splicing cylinder for the described left and right pin.
Further, described splicing cylinder upper end is provided with ring baffle.
Further, described gripper shoe is on the left of transmission track.
This utility model has the advantages and positive effects that:Due to adopting technique scheme, it is easy to mobile splicing groove
Body, realization continue splicing, improve yellow ground drying efficiency, are easy to separate yellow ground and impurity, convenient;There is structure simple, dimension
Repair the advantages of facilitate.
Brief description
Fig. 1 is structural representation of the present utility model.
Fig. 2 is the top view of material receiving mechanism.
Fig. 3 is the sectional view of material receiving mechanism.
In figure:
1st, transmission track 2, splicing cell body 3, receiving hopper
4th, splicing cylinder 5, conical shell 6, cylinder
7th, L-type hook 8, hanging groove 9, the first swash plate
10th, the first dividing plate 11, second partition 12, the second swash plate
13rd, left pin 14, right pin 15, oscillating screen plate
16th, the first cylinder 17, the second cylinder 18, driving cylinder
19th, gripper shoe
Specific embodiment
As Figure 1-3, the technical solution of the utility model is a kind of material-receiving device of dehydrator, including transmission track 1,
Moving member and multiple interconnective material receiving mechanism, described transmission track 1 slide and are provided with multiple material receiving mechanisms, described connects
Material mechanism includes splicing cell body 2, pendulum and receiving hopper 3, and described splicing cell body 2 includes the splicing being sequentially provided with from top to bottom
Cylinder 4, conical shell 5 and cylinder 6, described splicing cylinder 4 upper end outward flange side is provided with L-type hook 7, and opposite side corresponds to
It is provided with the hanging groove 8 matching with L-type hook 7, matched with hanging groove 8 by L-type hook 7 between each material receiving mechanism, it is right to realize
The effect of the adjacent connection of two material receiving mechanisms, be from left to right sequentially provided with splicing cylinder 4 first swash plate 9, first every
Plate 10, second partition 11 and the second swash plate 12, described the first swash plate 9, the first dividing plate 10, second partition 11 and the second swash plate 12
Each along the centrosymmetry setting of splicing cylinder 4, between the first described swash plate 9 and splicing cylinder 4 inner left wall, it is provided with multiple left sides
Pin 13, is provided with multiple right pins 14, so Huang after drying between the second described swash plate 12 and splicing cylinder 4 inner right wall
The region that sand forms each other from the first swash plate 9, the first dividing plate 10, second partition 11 and the second swash plate 12 respectively drops to and connects
In barrel body 4, conical shell 5, play the effect that the yellow ground after drying is dried, the pin of setting, play and tentatively separate yellow ground
Effect, be provided with pendulum inside described conical shell 5 and cylinder 6 junction, described pendulum includes oscillating screen plate
15th, the first cylinder 16 and the second cylinder 17, the first described cylinder 16 and the second cylinder 17 pass through the first base plate, the second bottom respectively
Plate is located on arranged on left and right sides wall in cylinder 6, and the piston rod of the first described cylinder 16 and the second cylinder 17 is respectively provided at vibration
The lower surface both sides of sieve plate 15, described oscillating screen plate 15 is provided with multiple sieve apertures, described the first swash plate 9, the first dividing plate 10,
The lower end of second partition 11 and the second swash plate 12 extends in conical shell 5, described oscillating screen plate 15 located at the first swash plate,
The underface of one dividing plate, second partition and the second swash plate, described cylinder lower end is connected with receiving hopper 3, the splicing of high order end
The receiving hopper 3 of mechanism is connected with the piston rod of driving cylinder 18, and described driving cylinder 18 is in gripper shoe 19.
In the present embodiment, the first described swash plate 9 is obliquely installed towards the first dividing plate 10.
In the present embodiment, the second described swash plate 12 is obliquely installed towards second partition 11.
In the present embodiment, the described left and right pin forward and backward side in splicing cylinder 4.
In the present embodiment, described splicing cylinder 4 upper end is provided with ring baffle, prevents yellow ground from dropping to from splicing cylinder 4
The generation of local phenomenon.
In the present embodiment, described gripper shoe 19 is on the left of transmission track 1.
In the present embodiment, the lower end of receiving hopper 3 is provided with the pulley matching with transmission track 1.
The work process of this example:During work, will be poured into below the discharging opening of dehydrator through the yellow ground dried
Splicing cell body 2 in, then start driving cylinder 18, treat to fill Huang in the splicing cell body 2 below the discharging opening of dehydrator
After sand, will be close to material receiving mechanism mobile so that being in the new splicing cell body 2 of material receiving mechanism below the discharging opening of dehydrator i.e.
Can, wherein for the yellow ground dropping in splicing cell body 2 on pendulum, that is, the first cylinder 16, under the vibration of the second cylinder 17,
So that the operation that the yellow ground on oscillating screen plate 15 is screened, improve the purity of yellow ground.
Above an embodiment of the present utility model is described in detail, but described content is only of the present utility model
Preferred embodiment is it is impossible to be considered for limiting practical range of the present utility model.All made according to this utility model application range
Impartial change and improvement etc., all should still belong within patent covering scope of the present utility model.