CN110479415A - A kind of double mouse cage powder depolymerization dispersing devices - Google Patents

Abstract

The invention proposes a kind of double mouse cage powder depolymerization dispersing devices, solve the limitation in the prior art because of structure, cause the treatment effect when thin and superfine powder depolymerization is broken up undesirable, influence the problem of working normally, including frame body, for carrying out whole fixation, setting is using ground；And the shell for protecting internal unit is provided on frame body, feed hopper is provided on shell, feed hopper is disposed adjacent with charging gear；First Depolymerizing thrasher structure, is movably disposed on frame body；Second Depolymerizing thrasher structure, setting are disposed adjacent on frame body, and with the first frame body beater structure；First driving device is arranged on frame body, and is sequentially connected with the first Depolymerizing thrasher structure；Second driving device is arranged on frame body, and transmits and connect with the second Depolymerizing thrasher structure；Double mouse cage powder depolymerization dispersing devices proposed by the present invention are structurally reasonable, and depolymerization is broken up high-efficient.

Description

Device is broken up in depolymerization of two squirrel cage powder

Technical Field

The invention relates to the field of powder material depolymerization and scattering equipment, in particular to a double-squirrel-cage powder depolymerization and scattering device.

Background

In the prior art, the equipment for depolymerizing and scattering fine and ultrafine powder mainly adopts double-shaft reamer scattering equipment, wherein the double-shaft reamer scattering equipment not only scatters powder lumps by using a reamer, but also stirs the powder lumps by using the reamer and forwards pushes the powder materials to a discharge port by using the reamer; due to the limitation of the structure, the double-shaft reamer scattering equipment consumes not only scattered kinetic energy but also kinetic energy required by stirring and material pushing; thereby causing large power consumption and fast reamer abrasion; the water-containing powder is easy to form wet mass for the second time in the process of stirring and moving, so that the scattering effect is not ideal enough.

In addition, in the prior art, ring hammer type scattering equipment is also used when fine and superfine powder is depolymerized and scattered, and the ring hammer type scattering equipment is also adopted due to structural limitation, so that the dust is large and the efficiency is low; and when the materials are not dry (contain moisture), the materials cannot work normally.

Disclosure of Invention

The invention provides a double-squirrel-cage powder depolymerization scattering device, which solves the problem that the normal work is influenced because the treatment effect is not ideal when fine and superfine powder is depolymerized and scattered due to the limitation of the structure in the prior art.

The technical scheme of the invention is realized as follows:

a device is broken up in depolymerization of two squirrel cage powder, includes:

the frame body is used for integrally fixing and arranged on a use place; a shell for protecting internal equipment is arranged on the frame body, a feed hopper is arranged on the shell, and the feed hopper is arranged adjacent to the feeding device;

the first depolymerization scattering mechanism is movably arranged on the frame body;

the second depolymerization scattering mechanism is arranged on the frame body and is adjacent to the first frame body scattering mechanism;

the first driving device is arranged on the frame body and is in transmission connection with the first depolymerization scattering mechanism;

and the second driving device is arranged on the frame body and is connected with the second depolymerization scattering mechanism in a transmission way.

As a further technical solution, the method further comprises:

the protection mechanism is arranged on the frame body and is adjacent to the first depolymerization and scattering mechanism.

As a further technical solution, the protection mechanism includes:

the adjusting and positioning seat is arranged at one end of the frame body;

one end of the adjusting spring is connected with the adjusting positioning seat, and the other end of the adjusting spring is connected with the first depolymerization scattering mechanism.

Preferably, the frame body is provided with a guide rail, and the first depolymerization scattering mechanism is arranged on the guide rail and can perform linear motion along the guide rail.

As a further technical scheme, the protection mechanism is a hydraulic buffer device and is arranged on the frame body, and one end of the protection mechanism is connected with the first depolymerization scattering mechanism.

As a further technical solution, the method further comprises:

the adjusting mechanism is used for adjusting the distance between the first depolymerization and scattering mechanism and the second depolymerization and scattering mechanism, is arranged between the first depolymerization and scattering mechanism and the second depolymerization and scattering mechanism, and is respectively connected with the first depolymerization and scattering mechanism.

As a further aspect, the first depolymerization breaking mechanism includes:

the first bearing seat and the second bearing seat are adjustably and oppositely arranged on the frame body;

the first main shaft penetrates through the first bearing seat and the second bearing seat;

and the first squirrel-cage roller is arranged on the first main shaft and rotates along with the first main shaft.

Preferably, one end of the first driving device is provided with a driving wheel, one end of the first main shaft is provided with a driven wheel, and the driving wheel is connected with the driven wheel through a transmission belt.

As a further technical solution, the first cage drum comprises:

the first end plate and the second end plate are provided with a plurality of cage bars;

the cage rings are arranged on the cage strips and form a plurality of cage holes together with the cage strips;

and the wheel hub is connected with the first main shaft and is respectively arranged on the first end plate and the second end plate.

As a further aspect, the second depolymerization breaking mechanism includes:

the third bearing seat and the fourth bearing seat are arranged on the frame body;

the second main shaft penetrates through the third bearing seat and the fourth bearing seat;

and the second squirrel-cage roller is arranged on the second main shaft and rotates along with the second main shaft.

The technical scheme of the invention has simple structure, and the cooperation of the first depolymerization breaking mechanism and the second depolymerization breaking mechanism can adapt to powder lump materials with wider water-containing range, thereby better avoiding secondary agglomeration; in the using process, the first depolymerization breaking mechanism and the second depolymerization breaking mechanism are matched, so that the powder lump material can be extruded, sheared, contorted and impacted, and further the depolymerization breaking function of the powder lump material is realized; and in the action process, secondary agglomeration can be effectively avoided; compared with the prior art, the structure is reasonable, and the depolymerization and scattering efficiency is high;

in addition, through the arrangement of the cage hole structures, the cage holes can have the functions of checking and screening simultaneously in the depolymerization and scattering processes;

and, can adjust and reset according to actual conditions when making the hard piece get into through protection system, and then avoid the damage of breaking up mechanism and second depolymerization mechanism etc. to first depolymerization.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of an angle of a double-cage powder depolymerization scattering device according to the present invention;

FIG. 2 is a schematic structural view of another angle of the double-cage powder deagglomeration scattering device according to the present invention;

FIG. 3 is a schematic mechanism diagram of a first squirrel cage drum;

FIG. 4 is a schematic structural view of one embodiment of the squirrel cage drum shown in FIG. 3;

FIG. 5 is a schematic structural view of another embodiment of the squirrel cage roller after the top view of FIG. 3;

FIG. 6 is a schematic structural view of still another embodiment of the squirrel cage drum shown in FIG. 3;

FIG. 7 is a schematic structural view of a first squirrel cage roller in one embodiment;

fig. 8 is a schematic diagram of a double-cage powder depolymerization scattering device according to the invention.

In the figure:

1-a frame body; 2-a shell; 3-a feed hopper; 4-a feeding device; 5-a first depolymerization breaking mechanism; 51-a first bearing seat; 52-a second bearing housing; 53-a first spindle; 54-a first squirrel cage roller; 541-a first end plate; 542-cage bars; 543-cage ring; 544-a hub; 545-cage holes; 6-a second depolymerization breaking mechanism; 61-a third bearing seat; 62-a fourth bearing seat; 63-a second spindle; 64-a second squirrel cage drum; 7-a first drive; 8-a second drive; 9-a protection mechanism; 91-adjusting the positioning seat; 92-adjusting the spring; 10-an adjustment mechanism; 11-a driving wheel; 12-driven wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 8, the present invention provides a double-cage powder deagglomeration and scattering device, which comprises:

the frame body 1 is arranged at a use place and integrally fixed through the frame body 1, a shell 2 used for protecting internal equipment is arranged on the frame body 1, a feed hopper 3 is arranged on the shell 2, and the feed hopper 3 is arranged adjacent to a feeding device 4; wherein, one end of the feed hopper 3 close to the shell 2 is gradually reduced, which is beneficial to the axial distribution of the powder along the first depolymerization breaking mechanism 5 and the second depolymerization breaking mechanism 6, so as to improve the efficiency; as shown in fig. 8, the position of the frame body 1 can be set according to the needs in the using process, which is determined according to the actual situation, and the invention is not further limited to this; the shell 2 protects the inside, and the powder after depolymerization and scattering is gathered at the lower part of the shell 2 and is uniformly discharged;

the first depolymerization scattering mechanism 5 is movably arranged on the frame body 1; the second depolymerization scattering mechanism 6 is arranged on the frame body 1 and is adjacent to the first depolymerization scattering mechanism 5; the first driving device 7 is arranged on the frame body 1 and is in transmission connection with the first depolymerization scattering mechanism 5; the second driving device 8 is arranged on the frame body 1 and is connected with the second depolymerization scattering mechanism 6 in a transmission way;

the powder enters the shell 2 through the feed hopper 3 on the shell 2, and after entering the shell 2, the powder passes between the first depolymerization breaking mechanism 5 and the second depolymerization breaking mechanism 6, the first depolymerization and scattering mechanism 5 and the second depolymerization and scattering mechanism 6 are driven by a first driving device 7 and a second driving device 8 respectively to act, depolymerizing and scattering the powder, discharging a part of the processed powder into the lower part of the shell 2 in the scattering process, and feeding the other part of the processed powder into the first depolymerizing and scattering mechanism 5 and the second depolymerizing and scattering mechanism 6, is thrown out by the first depolymerization and scattering mechanism 5 and the second depolymerization and scattering mechanism 6 under the action of the powder gravity and the centrifugal force of the first depolymerization and scattering mechanism 5 and the second depolymerization and scattering mechanism 6 and passes through the lower part of the shell 2 again, and the powder is treated again by the first depolymerization scattering mechanism 5 and the second depolymerization scattering mechanism 6 while being thrown out, and then falls into the lower part of the shell 2;

wherein,

the first depolymerization scattering mechanism 5 comprises a first bearing seat 51, a second bearing seat 52, a first main shaft 53 and a first squirrel cage roller 54, wherein the first bearing seat 51 and the second bearing seat 52 are adjustably and oppositely arranged on the frame body 1; the first main shaft 53 is arranged on the first bearing seat 51 and the second bearing seat 52 in a penetrating way; the first cage drum 54 is arranged on the first main shaft 53 and rotates along with the first main shaft 53;

as shown in fig. 2, after the first driving device 7 is operated, the first main shaft 53 is driven to rotate, and the first main shaft 53 rotates on the first bearing seat 51 and the second bearing seat 52, and in the process of rotating, the first main shaft 53 drives the first cage roller 54 to rotate, so as to realize the operation of the first cage roller 54;

in the present invention, it is preferable that one end of the first driving device 7 is provided with a driving pulley 11, one end of the first main shaft 53 is provided with a driven pulley 12, and the driving pulley 11 and the driven pulley 12 are connected by a transmission belt; the first driving device 7 is a motor, and an output shaft of the motor is provided with a driving wheel 11; the driving wheel 11 is driven to move through the rotation of the motor, the driven wheel 12 is driven to rotate through the transmission belt, and the first main shaft 53 is driven to rotate through the driven wheel 12;

in the invention, the driven wheel 12 is used as an inertia wheel, the first squirrel-cage roller 54 is light in weight, when the inertia is insufficient, in order to improve the inertia, an inertia wheel can be additionally arranged on the opposite side of the first squirrel-cage roller 54, the inertia wheel is connected with the other end of the first main shaft 53, and thus, the inertia of the whole body is increased by matching the driven wheel with the additionally arranged inertia wheel; the second depolymerization scattering mechanism 6 comprises a third bearing seat 61, a fourth bearing seat 62, a second main shaft 63 and a second squirrel cage roller 64, wherein the third bearing seat 61 and the fourth bearing seat 62 are arranged on the frame body 1; the second main shaft 63 is arranged on the third bearing seat 61 and the fourth bearing seat 62 in a penetrating manner; the second squirrel cage roller 64 is arranged on the second main shaft 63 and rotates along with the second main shaft 63;

certainly, the second cage roller 64 is light in weight, and when the inertia is insufficient, an inertia wheel can be additionally arranged on one side of the second cage roller 64 for improving the inertia, and the structure of the second cage roller 64 is the same as that of the first cage roller 54 in the invention, so that the arrangement of the inertia wheel on one side of the second cage roller 64 is the same as that of the inertia wheel on one side of the first cage roller 54, and the invention is not further limited for saving space;

in the present invention, the second driving device 8 has the same structure as the first driving device 7, as shown in fig. 2, the second driving device 8 is arranged in a reverse direction, so that the second driving device 8 drives the second main shaft 63 to rotate, and further the second main shaft 63 rotates on the third bearing seat 61 and the fourth bearing seat 62, and further drives the second cage roller 64 to rotate;

through the matching of the second squirrel-cage roller 64 and the first squirrel-cage roller 54, the powder is depolymerized and scattered; of course, according to different requirements and conditions, the first driving device 7 and the second driving device 8 may be adjusted, that is, the rotation speeds of the first driving device 7 and the second driving device 8 may be the same, so that the first cage roller 54 and the second cage roller 64 rotate at the same speed to disaggregate and break up the powder; the first driving device 7 and the second driving device 8 can also have different rotating speeds, so that the first squirrel cage roller 54 and the second squirrel cage roller 64 have different speeds; the action is carried out under different conditions according to different requirements, and the action is specifically adjusted according to the actual condition, which is not further limited by the invention;

in the present invention, the first cage roller 54 includes: a first end plate 541, a second end plate, a plurality of cage bars 542, a plurality of cage rings 543, and a hub 544; a plurality of cage bars 542 are arranged between the first end plate 541 and the second end plate; the cage rings 543 are arranged on the cage bars 542 and form cage holes 545 with the cage bars 542; a hub 544 for connection with the first main shaft 53, arranged on the first end plate 541 and the second end plate, respectively; the hub 544 is sleeved on the first main shaft 53, so that the first main shaft 53 drives the first squirrel cage roller 54 to rotate simultaneously when rotating; the powder can be impacted and cut through the matching of the cage bars 542 and the cage rings 543, so that the powder is depolymerized and broken up, the powder entering the first squirrel cage rotates along with the powder, is thrown out by the first squirrel cage roller 54 under the action of the gravity of the powder and the centrifugal force of the first squirrel cage roller 54 and falls into the lower part of the shell 2 through the cage holes 545 again, and meanwhile, the powder is impacted and cut by the first squirrel cage roller 54 again when passing through the cage holes 545, so that the powder is further broken up; a small amount of materials are lifted by the first squirrel-cage roller 54 and fall, are impacted and cut by the cage bars 542 again, and finally fall into the lower part of the shell 2 through the cage holes 545;

certainly, the structure of the second cage roller 64 is the same as that of the first cage roller 54, and the first cage roller 54 and the second cage roller 64 are required to be matched for use in the using process, so that the deagglomeration and scattering operation of the powder can be carried out; for the sake of brevity, the structure and operation of the second cage roller 64 will not be further described;

of course, the structure of the first cage roller 54 is different according to different requirements, and the first cage roller 54 can be the structure shown in fig. 4-7;

as shown in fig. 4, the cage rings 543 are staggered with the cage bars 542; as shown in fig. 5, cage bars 542 are disposed on the outer surface of cage ring 543; as shown in fig. 6, cage bars 542 are disposed on the inner surface of cage ring 543; in the actual use process, the first squirrel-cage roller 54 with different structures can be selected to perform corresponding operations;

of course, the cage ring 543 may be a circular ring, or may be a single-end spiral line (shown in fig. 7), or a double-end spiral line, a multi-end spiral line, etc.; the first cage roller 54 with different cage holes 545 can also be formed by wrapping the cage with a metal net or a non-metal net; the specific setting is carried out according to the actual situation;

in the invention, for better corresponding use, a protection mechanism 9 is further arranged on the frame body 1 and is arranged adjacent to the first depolymerization and scattering mechanism 5; the force born by the first depolymerization breaking mechanism 5 is buffered by the protection mechanism 9 in the using process, and the first depolymerization breaking mechanism 5 is reset;

the protection mechanism 9 comprises an adjusting positioning seat 91 and an adjusting spring 92, wherein the adjusting positioning seat 91 is arranged at one end of the frame body 1; one end of the adjusting spring 92 is connected with the adjusting positioning seat 91, and the other end is connected with the first depolymerization scattering mechanism 5; as shown in fig. 1 or fig. 2, the adjusting and positioning seat 91 includes a fixing block disposed on the frame body 1, and an adjusting screw and an adjusting bolt are disposed on the fixing block, one end of the adjusting bolt is connected with an adjusting plate, and the adjusting spring 92 is fixed on the adjusting plate, so that the adjusting bolt can be adjusted according to different requirements, and further the tightness of the adjusting spring 92 can be adjusted, so that the first depolymerization and scattering mechanism 5 is suitable for different situations;

of course, the first depolymerization breaking mechanism 5 is better to act, in the invention, preferably, a guide rail is arranged on the frame body 1, and the first depolymerization breaking mechanism 5 is arranged on the guide rail and can move linearly along the guide rail; namely, the first bearing seat 51 on the first depolymerization breaking mechanism 5 is arranged on the guide rail, so that the first bearing seat 51 can better act;

of course, in the present invention, the guide rails are oppositely disposed on the frame body 1, so the second bearing seat 52 is also disposed on the guide rail on the other side of the frame body 1, and the adjusting positioning seat 91 and the adjusting spring 92 are also oppositely disposed on the frame body 1, so that the first bearing seat 51 and the second bearing seat 52 can be adjusted at the same time;

of course, in the present invention, the protection mechanism 9 may also be a hydraulic buffer device, which is disposed on the frame body 1, and one end of the protection mechanism is connected to the first depolymerization breaking mechanism 5; thus, the displacement and reset of the first depolymerization breaking mechanism 5 are carried out through the hydraulic buffer device;

of course, the distance between the first deagglomeration and scattering mechanism 5 and the second deagglomeration and scattering mechanism 6 is different according to different powder requirements, so that the distance between the first deagglomeration and scattering mechanism 5 and the second deagglomeration and scattering mechanism 6 needs to be adjusted before use, whereas in the present invention, an adjusting mechanism 10 is preferably provided, and the adjusting mechanism 10 is disposed between the first deagglomeration and scattering mechanism 5 and the second deagglomeration and scattering mechanism 6 and is connected to the first deagglomeration and scattering mechanism 5; as shown in fig. 1 or fig. 2, the adjusting mechanism 10 is a screw provided on the fixing plate, and the distance between the first depolymerization breaking mechanism 5 and the second depolymerization breaking mechanism 6 is adjusted by adjusting the length of the screw to adjust the position of the first depolymerization breaking mechanism 5.

The first depolymerization breaking-up mechanism 5 and the second depolymerization breaking-up mechanism 6 are matched to adapt to powder lump materials with a wider water-containing range, so that secondary agglomeration can be better avoided; in the using process, the first depolymerization breaking mechanism 5 and the second depolymerization breaking mechanism 6 are matched, so that the powder lump materials can be extruded, sheared, contorted and impacted, and further the depolymerization breaking function of the powder lump materials is realized; and in the action process, secondary agglomeration can be effectively avoided; compared with the prior art, the structure is reasonable, and the depolymerization and scattering efficiency is high;

the present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a device is broken up in depolymerization of two squirrel cage powder which characterized in that includes:

the frame body is used for integrally fixing and arranged on a use place; a shell for protecting internal equipment is arranged on the frame body, a feed hopper is arranged on the shell, and the feed hopper is adjacent to the feeding device;

the first depolymerization scattering mechanism is movably arranged on the frame body;

the second depolymerization scattering mechanism is arranged on the frame body and is adjacent to the first frame body scattering mechanism;

the first driving device is arranged on the frame body and is in transmission connection with the first depolymerization scattering mechanism;

and the second driving device is arranged on the frame body and is connected with the second depolymerization scattering mechanism in a transmission way.

2. The double-cage powder deagglomeration and breakup device of claim 1, further comprising:

and the protection mechanism is used for buffering the force born by the first depolymerization breaking mechanism in the using process and resetting the first depolymerization breaking mechanism, is arranged on the frame body, and is adjacent to the first depolymerization breaking mechanism.

3. The dual-cage powder deaggregation device of claim 2, wherein the protection mechanism comprises:

the adjusting and positioning seat is arranged at one end of the frame body;

and one end of the adjusting spring is connected with the adjusting positioning seat, and the other end of the adjusting spring is connected with the first depolymerization scattering mechanism.

4. The double-cage powder deagglomeration and scattering device according to claim 3, wherein a guide rail is disposed on the frame body, and the first deagglomeration and scattering mechanism is disposed on the guide rail and can move linearly along the guide rail.

5. The double-cage powder deagglomeration and scattering device of claim 2, wherein the protection mechanism is a hydraulic buffer device, and is disposed on the frame body, and one end of the protection mechanism is connected to the first deagglomeration and scattering mechanism.

6. The double-cage powder deagglomeration and breakup device of claim 1, further comprising:

the adjusting mechanism is used for adjusting the distance between the first depolymerization and scattering mechanism and the second depolymerization and scattering mechanism, is arranged between the first depolymerization and scattering mechanism and the second depolymerization and scattering mechanism, and is respectively connected with the first depolymerization and scattering mechanism.

7. The dual-cage powder deagglomeration and breakup device of claim 1, wherein the first deagglomeration and breakup mechanism comprises:

the first bearing seat and the second bearing seat are adjustably and oppositely arranged on the frame body;

the first main shaft penetrates through the first bearing seat and the second bearing seat;

and the first squirrel-cage roller is arranged on the first main shaft and rotates along with the first main shaft.

8. The double-cage powder depolymerization scattering device according to claim 7, wherein one end of the first driving device is provided with a driving wheel, one end of the first main shaft is provided with a driven wheel (12), and the driving wheel and the driven wheel (12) are connected through a transmission belt.

9. The dual-cage powder deaggregation device of claim 7, wherein the first cage drum comprises:

the device comprises a first end plate and a second end plate, wherein a plurality of cage bars are arranged between the first end plate and the second end plate;

the cage rings are arranged on the cage bars and form a plurality of cage holes together with the cage bars;

and the wheel hub is used for being connected with the first main shaft and is respectively arranged on the first end plate and the second end plate.

10. The dual-cage powder deagglomeration and deagglomeration device of claim 1, wherein the second deagglomeration and deagglomeration mechanism comprises:

the third bearing seat and the fourth bearing seat are arranged on the frame body;

the second main shaft penetrates through the third bearing seat and the fourth bearing seat;

and the second squirrel-cage roller is arranged on the second main shaft and rotates along with the second main shaft.