CN217550422U - Raw materials sieving mechanism for chemical industry energy - Google Patents

Abstract

The utility model discloses a raw materials sieving mechanism for chemical industry energy belongs to chemical industry energy processing technology field. The utility model provides a raw materials sieving mechanism for chemical industry energy, includes the backup pad, the backup pad frame, and the frame is fixed in backup pad top lateral wall, and the inboard lateral wall sliding connection of frame has the sieve to fight a, and the inboard lateral wall sliding connection of frame has the sieve to fight b, and the sieve is fought b and is located under the sieve is fought a, and the inboard lateral wall sliding connection of frame has sieve to fight c, and the sieve is fought c and is located under the sieve is fought b. The utility model discloses a screen bucket an and screen bucket b and screen bucket c's setting realize screening the multiple particle diameter of chemical industry energy raw materials, can satisfy the screening demand to different particle diameters to the staff, promote then by a wide margin to raw materials screening work efficiency and quality to can make the timely effectual discharge of chemical industry raw materials that screen, improve work efficiency.

Description

Raw materials sieving mechanism for chemical industry energy

Technical Field

The utility model belongs to the technical field of the chemical industry energy processing, concretely relates to raw materials sieving mechanism for the chemical industry energy.

Background

The chemical products have a plurality of varieties and wide application range, the chemical products can not be used independently in the production process, the relationship between human beings and chemical industry is very close, some chemical products play epoch-making important roles in the development history of human beings, and the production and the application of the chemical products are realized, and part of the chemical materials need to be screened and purified before being used;

chemical industry energy raw materials sieving mechanism among the prior art adopts the screen cloth to sieve chemical industry energy raw materials more to use the screen cloth without the specification in order to select the chemical industry energy raw materials of different particle sizes, thereby accomplish the purpose to the screening of chemical industry energy raw materials, but it is in actual application process, and it still exists following not enoughly:

(1) in the screening work of chemical energy raw materials in the prior art, the screening effect on different particle sizes is difficult to realize by a chemical energy raw material screening device, so that the chemical energy raw materials need to be screened for many times, and the screening work efficiency on the chemical energy raw materials is directly influenced;

(2) chemical industry energy raw materials sieving mechanism among the prior art because chemical industry energy raw materials particle diameter is not of uniform size, leads to appearing being difficult to the unloading and even the condition of jam in the screening course, is difficult to obtain the guarantee to the screening work.

Consequently, need a raw materials sieving mechanism for the chemical industry energy, solve exist among the prior art to the chemical industry energy efficiency poor and easily block up and be difficult to the problem of unloading.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a raw materials sieving mechanism for chemical industry energy to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme:

raw materials sieving mechanism for chemical industry energy, including the backup pad, the backup pad

The frame, the frame is fixed in backup pad top lateral wall, frame inboard lateral wall sliding connection has the sieve to fight a, frame inboard lateral wall sliding connection has the sieve to fight b, the sieve is fought b and is located under the sieve is fought a, frame inboard lateral wall sliding connection has the sieve to fight c, the sieve is fought c and is located under the sieve is fought b, frame outside lateral wall is provided with the shake subassembly.

In the scheme, the jitter component comprises

The support is fixed on the side wall of the outer side of the rack, a driving motor is fixed on the side wall of the top end of the support, two rotating shafts which are symmetrically distributed are rotatably connected on the side wall of the inner side of the rack, one of the rotating shafts is coaxially fixed with an output shaft of the driving motor, two cams which are symmetrically distributed are tightly sleeved on the outer surface of the rotating shaft, belt wheels a are arranged at the adjacent ends of the two rotating shafts, and belts a are sleeved on the outer surfaces of the two belt wheels a;

lead to groove a, it is provided with two to lead to groove a, two it sets up in to lead to groove a is the symmetric distribution frame one side lateral wall, the sieve fill a with sieve fill c bottom lateral wall all is fixed with connecting plate a, connecting plate a with lead to the inside sliding connection of groove a, frame one side lateral wall has seted up logical groove b, it is located two to lead to groove b lead to between the groove a, sieve fill b bottom lateral wall is fixed with connecting plate b, connecting plate b with lead to the inside sliding connection of groove b, two connecting plate a with one side lateral wall that connecting plate b is adjacent is fixed with a plurality of springs that are the symmetric distribution.

It is worth further saying that two the connecting plate a is close to one side lateral wall of cam is fixed with the stripper plate, the stripper plate is close to cam one side is the setting of smooth arc surface, the stripper plate with the cam contacts.

It should be further noted that the side wall of the inner side of the rack is rotatably connected with two transmission shafts which are symmetrically distributed, the outer surfaces of the two transmission shafts are jointly sleeved with the conveying belt, a belt pulley b is arranged between one transmission shaft and the adjacent rotating shaft, the outer surfaces of the two belt pulleys b are sleeved with a belt b, and the conveying belt is located right below the sieve hopper c.

As a preferred embodiment, two hoppers which are vertically distributed are fixed on the outer side wall of the rack, the hoppers are respectively located on one side of the screen bucket a and one side of the screen bucket b, and the hoppers and the rack are obliquely distributed.

As a preferred embodiment, the aperture value of the sieve bucket a is greater than that of the sieve bucket b, the aperture value of the sieve bucket b is greater than that of the sieve bucket c, and the sieve buckets a, b and c are obliquely distributed with the frame.

Compared with the prior art, the utility model discloses a raw materials sieving mechanism for chemical industry energy has following beneficial effect:

(1) The utility model discloses a screen bucket an and screen bucket b and screen bucket c's setting realize screening the multiple particle diameter of chemical industry energy raw materials, can satisfy the screening demand to different particle diameters to the staff, promote then by a wide margin to raw materials screening work efficiency and quality to can make the timely effectual discharge of chemical industry raw materials that screen, improve work efficiency.

(2) The utility model discloses a shake subassembly drive sieve fill a and the synchronous reciprocal shake of sieve fill b and sieve fill c to the cooperation sieve is fought a and is fought b and the sieve and fight the aperture of c and differ, can be to the screening of the different particle diameters of chemical industry energy raw materials, but also can avoid appearing the condition of jam when screening chemical industry energy raw materials, provides the guarantee for chemical industry energy raw materials screening work.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of the structure of area A in FIG. 1;

FIG. 3 is a schematic side view of the present invention;

fig. 4 is a schematic side-sectional view of the local structure of the present invention.

Description of the reference numerals:

1. a support plate; 2. a frame; 3. a sieve hopper a; 4. a screen bucket b; 5. a sieve hopper c; 6. a dithering component; 61. a support; 62. a drive motor; 63. a rotating shaft; 64. a cam; 65. a belt wheel a; 66. a belt a; 67. a through groove a; 68. a connecting plate a; 69. a through groove b; 610. a connecting plate b; 611. a spring; 7. a pressing plate; 8. a drive shaft; 9. a conveyor belt; 10. a pulley b; 11. a belt b; 12. a hopper.

Detailed Description

The present invention will be further described with reference to the following examples.

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the following will combine the drawings of the embodiments of the present invention to clearly and completely describe the technical solution of the embodiments of the present invention, and obviously, the described embodiments are a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative labor are within the scope of the protection of the present invention based on the described embodiments of the present invention.

The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention. The condition in the embodiment can be further adjusted according to concrete condition the utility model discloses a it is right under the design prerequisite the utility model discloses a simple improvement of method all belongs to the utility model discloses the scope of claiming.

Please refer to fig. 1-4, the utility model provides a raw materials sieving mechanism for chemical industry energy, including backup pad 1, backup pad 1 frame 2, frame 2 is fixed in 1 top lateral wall of backup pad, 2 inboard lateral wall sliding connection of frame have the sieve fill a3, 2 inboard lateral wall sliding connection of frame has the sieve fill b4, sieve fill b4 is located under sieve fill a3, 2 inboard lateral wall sliding connection of frame has the sieve fill c5, sieve fill c5 is located under sieve fill b4, 2 outside lateral walls of frame are provided with shake subassembly 6, through sieve fill a3 and sieve fill b4 and the setting of sieve fill c5, realize screening the multiple particle diameter of chemical industry energy raw materials, can satisfy the screening demand to different particle diameters to the staff, then promote to raw materials screening work efficiency and quality by a wide margin, and can make the timely effectual discharge of the chemical industry raw materials that screen, and improve work efficiency.

Further as shown in fig. 1, fig. 2 and fig. 3, it is worth specifically explaining that the shaking assembly 6 includes a support 61, the support 61 is fixed on the outer side wall of the rack 2, the side wall of the top end of the support 61 is fixed with a driving motor 62, the inner side wall of the rack 2 is rotatably connected with two rotating shafts 63 which are symmetrically distributed, one of the rotating shafts 63 is coaxially fixed with an output shaft of the driving motor 62, two cams 64 which are symmetrically distributed are fixedly sleeved on the outer surface of the rotating shaft 63, belt wheels a65 are respectively arranged at the adjacent ends of the two rotating shafts 63, and belts a66 are sleeved on the outer surfaces of the two belt wheels a 65; lead to groove a67, it is provided with two to lead to groove a67, two lead to groove a67 and be the symmetric distribution and set up in 2 side lateral walls in frame, sieve fill a3 and sieve fill c5 bottom lateral wall all are fixed with connecting plate a68, connecting plate a68 and lead to the inside sliding connection of groove a67, 2 side lateral walls in frame have seted up logical groove b69, it is located between two logical groove a67 to lead to groove b69, sieve fill b4 bottom lateral wall is fixed with connecting plate b610, connecting plate b610 and the inside sliding connection of logical groove b69, two connecting plate a68 and the adjacent one side lateral wall of connecting plate b610 are fixed with a plurality of springs 611 that are the symmetric distribution, it fights b4 and sieve fill c5 synchronous reciprocal shake to drive sieve fill a3 and sieve through shake subassembly 6, and the aperture that cooperates sieve fill a3 and sieve fill b4 and sieve fill c5 is not uniform, can be to the screening of the different particle diameters of industrial chemicals energy raw materials, and can also can avoid appearing the circumstances that blocks up when screening chemical energy raw materials, provide guarantee for the screening work.

Further as shown in fig. 2, it is worth specifically explaining that, the side wall of one side of two connecting plates a68 close to the cam 64 is fixed with the stripper plate 7, one side of the stripper plate 7 close to the cam 64 is a smooth arc surface, the stripper plate 7 contacts with the cam 64, and one side of the stripper plate 7 close to the cam 64 is a smooth arc surface, so that the smooth stability of the cam 64 and the stripper plate 7 during transmission can be effectively improved, and the case jamming condition of the cam 64 and the stripper plate 7 during transmission can be avoided.

The scheme has the following working processes: when chemical energy raw materials need to be screened, the chemical energy raw materials are poured into a sieve hopper a3, the rotating shafts 63 synchronously rotate under the driving of a driving motor 62, the two rotating shafts 63 synchronously rotate under the driving action of belt wheels a65 and a belt a66, the cams 64 are driven to synchronously rotate, the cams 64 and the extrusion plates 7 are driven to synchronously rotate under the extrusion driving action of the cams 64 and the extrusion plates, the connecting plates a68 are stressed and then move along the through grooves a67, the extrusion plates 7 are always ensured to be in a state of being attached to the cams 64 under the elastic action of springs 611, then the sieve hopper a3 and the sieve hopper c5 are driven to reciprocate in a mutually approaching direction, the chemical energy raw materials with larger particle sizes slide down to the hopper 12 along the sieve hopper a3, the raw materials with smaller particle sizes are shaken to the sieve hopper b4 and are shaken to be sieved by the sieve hopper b4 and then fall to the sieve hopper c5, the chemical energy raw materials with smaller particle sizes are squeezed by the springs 611a spring in a compressed state, the connecting plates b610 is stressed and then moved to the sieve hopper b4, the sieve hopper b4 is driven to synchronously move to collect the raw materials with the belt wheels 9, and the conveyer belt b is driven to synchronously move, the conveyer belt 9 and the conveyer belt b, the conveyer belt 9 and the conveyer belt 9.

According to the working process, the following steps are known: through sieve fill a3 and sieve fill b4 and the setting of sieve fill c5, the realization is filtered the multiple particle diameter of industrial chemicals raw materials, can satisfy the screening demand to different particle diameters to the staff, then promote by a wide margin to raw materials screening work efficiency and quality, and can make the timely effectual discharge of chemical raw materials that filter, work efficiency has been improved, and drive sieve fill a3 and sieve fill b4 and the synchronous reciprocal shake of sieve fill c5 through shake subassembly 6, and the cooperation sieve is fought a3 and is fought the aperture of b4 and sieve fill c5 with the sieve and differ, can be to the screening of the different particle diameters of industrial chemicals raw materials, and can also avoid appearing the condition of jam when screening industrial chemicals raw materials, provide the guarantee for industrial chemicals raw materials screening work, and be the smooth arc surface setting through one side that stripper plate 7 is close to cam 64, not only can effectively promote the smooth stability when cam 64 and stripper plate 7 transmit, and can also avoid appearing the condition of card shell when cam 64 extrudees the transmission with stripper plate 7.

Further as shown in fig. 3, it is worth specifically explaining that, the inside lateral wall of the rack 2 rotates and is connected with two transmission shafts 8 that are symmetrically distributed, the outer surfaces of the two transmission shafts 8 are sleeved with a conveyor belt 9, a belt wheel b10 is arranged between one of the transmission shafts 8 and the adjacent rotating shaft 63, a belt b11 is sleeved on the outer surface of the two belt wheels b10, the conveyor belt 9 is located under the sieve hopper c5, the conveyor belt 9 is arranged under the sieve hopper c5, the raw materials screened by the sieve hopper c5 are received and uniformly conveyed to be collected by workers, and the phenomenon that the raw materials with smaller particle size are not collected enough to cause waste is avoided.

Further as shown in fig. 1, fig. 3 and fig. 4, it should be specifically described that two hoppers 12 which are vertically distributed are fixed on the outer side wall of the frame 2, the hoppers 12 are respectively located on one side of the sieve hopper a3 and one side of the sieve hopper b4, the hoppers 12 and the frame 2 are arranged in an inclined distribution manner, and through the arrangement of the hoppers 12 and the frame 2 in an inclined distribution manner, the raw materials which slide down from the sieve hopper a3 and the sieve hopper b4 can be received and guided, so that the raw materials can be distinguished and collected by the staff.

Further as shown in fig. 1, fig. 3, and fig. 4, it is worth specifically explaining that the aperture value of the sieve bucket a3 is greater than the aperture value of the sieve bucket b4, the aperture value of the sieve bucket b4 is greater than the aperture value of the sieve bucket c5, the sieve buckets a3, the sieve buckets b4, and the sieve buckets c5 are both arranged in an inclined distribution with the frame 2, and the sieve buckets a3, the sieve buckets b4, and the sieve buckets c5 have different apertures, so that the device can be applied to the raw material sieving effect for different particle sizes, and the application range is wide.

To sum up: set up under sieve fill c5 through conveyer belt 9, accept and even transport and supply in the staff to the raw materials after having sieved by sieve fill c5 and collect, avoid appearing the less not enough extravagant condition that causes of raw materials collection of particle diameter, and be the setting of slope distribution between hopper 12 and frame 2, can accept the guide to the raw materials that sieve fill a3 and sieve fill b4 landing, so that the staff distinguishes the collection to the raw materials, and all be different with sieve fill b4 and sieve fill c5 aperture through sieve fill a3, make the device can be applicable to the raw materials screening effect to different particle size, application scope is wider.

The driving motor 62 is commercially available, and the driving motor 62 is provided with a power supply, which belongs to the mature technology in the field and is fully disclosed, so that the detailed description is not repeated in the specification.

Unless defined otherwise, technical or scientific terms used herein should be understood as commonly understood by one of ordinary skill in the art, and the use of the terms "comprising" or "including" and the like in the present invention is intended to mean that elements or items listed before the term encompass elements or items listed after the term and their equivalents, without excluding other elements or items, that "connected" or "connected" and the like are not limited to physical or mechanical connections, but may also include electrical connections, whether direct or indirect, that "up", "down", "left", "right", and the like are used merely to indicate relative positional relationships, which may also change accordingly when the absolute position of the object being described changes.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The raw material screening device for the chemical energy comprises a supporting plate (1), and is characterized in that the supporting plate (1)

Frame (2), frame (2) are fixed in backup pad (1) top lateral wall, frame (2) inboard lateral wall sliding connection has the sieve to fight a (3), frame (2) inboard lateral wall sliding connection has the sieve to fight b (4), the sieve is fought b (4) and is located under sieve is fought a (3), frame (2) inboard lateral wall sliding connection has the sieve to fight c (5), the sieve is fought c (5) and is located under sieve is fought b (4), frame (2) outside lateral wall is provided with shake subassembly (6).

2. The device for screening the raw materials for the chemical energy sources, according to claim 1, is characterized in that: the jitter assembly (6) comprises:

the support (61) is fixed on the outer side wall of the rack (2), a driving motor (62) is fixed on the top side wall of the support (61), two rotating shafts (63) which are symmetrically distributed are rotatably connected on the inner side wall of the rack (2), one of the rotating shafts (63) is coaxially fixed with an output shaft of the driving motor (62), two cams (64) which are symmetrically distributed are fixedly sleeved on the outer surface of the rotating shaft (63), belt wheels a (65) are arranged at one adjacent ends of the two rotating shafts (63), and belts a (66) are sleeved on the outer surfaces of the two belt wheels a (65);

lead to groove a (67), it is provided with two, two to lead to groove a (67) and be the symmetric distribution set up in frame (2) one side lateral wall, the sieve fill a (3) with the sieve is fought c (5) bottom lateral wall all is fixed with connecting plate a (68), connecting plate a (68) with lead to the inside sliding connection of groove a (67), frame (2) one side lateral wall has been seted up and has been led to groove b (69), lead to groove b (69) and be located two lead between groove a (67), the sieve is fought b (4) bottom lateral wall and is fixed with connecting plate b (610), connecting plate b (610) with lead to the inside sliding connection of groove b (69), two connecting plate a (68) with one side lateral wall that connecting plate b (610) are adjacent is fixed with a plurality of springs (611) that are the symmetric distribution.

3. The device for screening raw materials for chemical industry energy according to claim 2, characterized in that: two connecting plate a (68) are close to one side lateral wall of cam (64) is fixed with stripper plate (7), stripper plate (7) are close to cam (64) one side is the setting of smooth arc surface, stripper plate (7) with cam (64) contact.

4. The raw material screening device for chemical energy according to claim 2, characterized in that: frame (2) inboard lateral wall rotates and is connected with two transmission shaft (8) that are symmetric distribution, two transmission shaft (8) surface has cup jointed conveyer belt (9) jointly, one of them transmission shaft (8) and adjacent all be provided with band pulley b (10) between pivot (63), two band pulley b (10) surface has cup jointed belt b (11), conveyer belt (9) are located under sieve fill c (5).

5. The raw material screening device for chemical energy according to claim 1, characterized in that: frame (2) outside lateral wall is fixed with two and is vertical hopper (12) that distribute from top to bottom, hopper (12) are located respectively sieve fill a (3) with sieve fill b (4) one side, hopper (12) with be the slope and distribute the setting between frame (2).

6. The raw material screening device for chemical energy according to claim 1, characterized in that: the aperture value of sieve fill a (3) is greater than the aperture value of sieve fill b (4), the aperture value of sieve fill b (4) is greater than the aperture value of sieve fill c (5), sieve fill a (3) and sieve fill b (4) and sieve fill c (5) all with be the slope between frame (2) and distribute the setting.

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