CN112403912A

CN112403912A - Impurity removing device for cement processing

Info

Publication number: CN112403912A
Application number: CN202011172204.5A
Authority: CN
Inventors: 罗建祥
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-28
Filing date: 2020-10-28
Publication date: 2021-02-26

Abstract

The invention relates to an impurity removing device, in particular to an impurity removing device for cement processing. Need design one kind and can be with iron and the impurity separation of cleaing away out in the cement, and need not the manual cement of breaking up the caking of people, more laborsaving be used for cement processing impurity clearing device. A impurity removing device for cement processing comprises: a working table is fixedly connected to one side of the bottom plate; the screening mechanism is arranged on the workbench; and the blanking mechanism is arranged between the bottom plate and the workbench and is connected and matched with the screening mechanism. According to the invention, the cement without impurities removed is poured into the screening mechanism, the screening mechanism is started, the screening mechanism is operated to screen the cement without impurities removed, the screening mechanism also drives the blanking mechanism to operate, and the blanking mechanism operates to remove the impurities from the screened cement again, so that the iron and the impurities removed from the cement can be separated, and the removing effect is better.

Description

Impurity removing device for cement processing

Technical Field

The invention relates to an impurity removing device, in particular to an impurity removing device for cement processing.

Background

And part of cement is required to be screened and removed with impurities before use, so that the subsequent use is facilitated. At present, the most all is impurity removal in people and the machine cooperation with cement, and people need hold iron shovel with the hand and pour cement into the machine on, and the impurity of starting machine in to cement is clear away, but the iron of clearing away out mixes together with impurity easily, influences the recovery processing of iron, and the phenomenon that still can appear the caking in the cement, leads to people to need manual to break up the cement of caking, and is more laborious.

Therefore, need design one kind and can be with iron and the impurity separation that clears away in the cement, and need not the manual cement that breaks up the caking of people, more laborsaving be used for cement processing impurity clearing device.

Disclosure of Invention

In order to overcome the iron and impurity of cleaing away and mix together easily, influence the recovery processing of iron, and people need manually break up the cement of caking, the shortcoming of relatively hard, the technical problem is: the utility model provides a can be with iron and the separation of impurities that clears away in the cement, and need not the manual cement of breaking up the caking of people, more laborsaving be used for cement processing impurity clearing device.

The technical scheme is as follows: a impurity removing device for cement processing comprises: a working table is fixedly connected to one side of the bottom plate; the screening mechanism is arranged on the workbench; and the blanking mechanism is arranged between the bottom plate and the workbench and is connected and matched with the screening mechanism.

Further, screening mechanism includes: the first support frames are fixedly connected to the workbench at intervals, and the number of the first support frames is four; the first springs are fixedly connected to the first support frames, the number of the first springs on the two first support frames on one side is two, and the number of the first springs on the two first support frames on the other side is one; the connecting blocks are fixedly connected among the tail ends of the first springs, and the number of the connecting blocks is four; the vibrating screen is fixedly connected among the inner sides of the four connecting blocks; the first supporting seat is fixedly connected to the workbench; the first motor is fixedly connected to the first supporting seat; the first bearing seat is fixedly connected to the first supporting seat, and an output shaft of the first motor is fixedly connected with a bearing in the first bearing seat; the universal joint is fixedly connected to the end part of the output shaft of the first motor; the first transmission shafts are rotatably connected between the two sides of the vibrating screen, and the number of the first transmission shafts is two; the eccentric block is fixedly connected to two ends of the first transmission shaft; the first rotating shaft is rotatably arranged on the vibrating screen; the first belt pulley assembly is arranged between the first rotating shaft and one of the first transmission shafts; the second rotating shaft is rotatably arranged on the vibrating screen, and one side of the second rotating shaft is fixedly connected with the blanking mechanism; the belt pulley block is fixedly connected to the vibrating screen; the baffle plates are fixedly connected to one side in the vibrating screen, and the number of the baffle plates is two; the rotating shaft protection device comprises two rotating shaft protection devices, wherein the two rotating shaft protection devices are arranged between two sides of the vibrating screen, and the first rotating shaft is positioned on the inner side of the rotating shaft protection device; the number of the rotating gears is three, one of the rotating gears is fixedly connected to the circumferential direction of one side of one of the first rotating shafts, the other two rotating gears are respectively fixedly connected to the circumferential direction of one side of the second rotating shaft and the circumferential direction of one side of the first rotating shaft, and the three rotating gears are meshed with each other.

Further, blanking mechanism is including: the supporting plate is arranged on the bottom plate; the second supporting seat is symmetrically arranged on one side of the bottom plate; the blanking frame is fixedly connected between the bottom plate and the workbench; the flexible connection is arranged between one side of the blanking frame and one side of the vibrating screen and communicated with the blanking frame; the material distributing cylinder is rotatably arranged on one side of the blanking frame; the second bearing seat is fixedly connected to the second supporting seat; the second transmission shaft is rotatably arranged between the second bearing seats on the two sides, one end of the second transmission shaft is rotatably connected with one side of the supporting plate and is positioned at the circle center of the distributing cylinder; the second belt pulley assembly is arranged between one side of the second transmission shaft and one side of the second rotating shaft; the special-shaped plate is fixedly connected to one side of the second bearing seat, and the circle center position of the special-shaped plate is rotatably connected with the second transmission shaft; the rotating plates are fixedly connected to one side of the second transmission shaft at regular intervals, and the number of the rotating plates is six; the electromagnet is fixedly connected with the outer end of the rotating plate and fixedly connected with one side in the material distributing cylinder; and the travel switch is fixedly connected to one side of the rotating plate, is in contact fit with the special-shaped plate and is in circuit connection with the electromagnet.

Further, still including feed mechanism, feed mechanism is including: the second support frames are symmetrically arranged on the bottom plate; the third supporting seat is fixedly connected between one sides of the two second supporting frames; the motor bracket is arranged on the third supporting seat; the second motor is arranged on one side of the motor bracket; the conveying belt is arranged between one sides of the two second supporting frames; the chain wheel assembly is arranged between the shaft end part on one side of the conveying belt and the output shaft of the second motor; the third support frame is fixedly connected between one sides of the two second support frames; and the discharging hopper is fixedly connected to the third supporting frame and matched with the vibrating screen.

Further, still including blowing the material mechanism, blow the material mechanism including: the third bearing seat is fixedly connected to the end parts of the two connecting blocks; the third transmission shaft is rotatably arranged between the two third bearing seats; the third belt pulley assembly is arranged between one end of the third transmission shaft and one end of one of the first transmission shafts; the blanking channels are fixedly connected to one side of the vibrating screen, the number of the blanking channels is two, and the blanking channels are communicated with the vibrating screen; the mounting cylinder is fixedly connected between one sides of the two blanking channels and is communicated with the blanking channels; the fan blades are fixedly connected to the third transmission shaft and are positioned in the mounting cylinder; the discharging channel is fixedly connected to the middle of one side of the discharging channel and is communicated with the discharging channel; and the connecting pipe is arranged between one side of the discharging channel and is communicated with the discharging channel.

Further, still including dividing the material subassembly, divide the material subassembly including: the mounting plate is fixedly connected between the two inner side surfaces of the vibrating screen; the adjusting rods are uniformly and alternately connected to the mounting plate in a sliding mode in a penetrating mode, and the number of the adjusting rods is three; the first scraper plate is fixedly connected among the bottom ends of the three adjusting rods; and the second spring is arranged between the first scraper and the mounting plate and is sleeved on the adjusting rod.

Further, still including the unloading subassembly, the unloading subassembly is including: the fourth transmission shaft is rotatably arranged between the two sides of the blanking frame; the fourth belt pulley assembly is arranged between the fourth transmission shaft and the second transmission shaft; the material distributing rotating plate is fixedly connected to the fourth transmission shaft; the guide plate is fixedly connected to one side in the blanking frame; and the material distributing rotating plate is fixedly connected to the fourth transmission shaft and is matched with the guide plate.

Further, still including scraping whitewashed subassembly, scrape whitewashed subassembly including: the supporting rods are fixedly connected to the bottom plate, and the number of the supporting rods is two; the universal buckle is arranged at one end of the supporting rod; the connecting plate is fixedly connected between the two universal buckles; and the second scraper plate is fixedly connected to one side of the connecting plate and is in contact fit with the material distribution cylinder.

The invention has the beneficial effects that:

1. in pouring the cement of not clearing away impurity into screening mechanism, start screening mechanism, screening mechanism's operation screens the cement of not clearing up impurity, and screening mechanism's operation still drives blanking mechanism's operation, and blanking mechanism's operation carries out impurity removal once more with the cement of screening, so, can clear away iron and impurity separation in the cement, the effect of cleaing away is better.

2. Through feed mechanism's effect, enable cement and carry to screening mechanism in, so, need not in operating personnel manually delivers to screening mechanism cement, convenient and fast.

3. Through scraping the powder subassembly, enable the iron impurity that adsorbs on dividing the material drum and scrape down, so, avoided iron impurity to continue to adsorb and influence its follow-up use on dividing the material drum.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the screening mechanism of the present invention.

Fig. 3 is a partial perspective view of the screening mechanism of the present invention.

Fig. 4 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 5 is a schematic view of a partial three-dimensional structure of the blanking mechanism of the present invention.

Fig. 6 is a schematic perspective view of a first part of the present invention.

Fig. 7 is a perspective view of a second part of the present invention.

Fig. 8 is a perspective view of a third part of the present invention.

Fig. 9 is a perspective view of a fourth part of the present invention.

Part names and serial numbers in the figure: 1_ bottom plate, 2_ workbench, 3_ screening mechanism, 30_ first support frame, 31_ first spring, 32_ vibrating screen, 33_ connecting block, 34_ first support seat, 35_ first motor, 36_ first bearing seat, 37_ universal joint, 38_ first transmission shaft, 39_ eccentric block, 310_ first rotating shaft, 311_ first belt pulley assembly, 312_ second rotating shaft, 313_ rotating gear, 314_ belt pulley block, 315_ baffle, 316_ rotating shaft protector, 4_ blanking mechanism, 40_ flexible connection, 41_ blanking frame, 42_ material separating cylinder, 43_ second support seat, 44_ second bearing seat, 45_ support plate, 46_ second transmission shaft, 47_ rotating plate, 48_ electromagnet, 49_ special-shaped plate, 410_ stroke switch, 411_ second belt pulley assembly, 5_ feeding mechanism, 50_ second support frame, 51_ third support seat, 52_ motor support, 53_ second motor, 54_ conveyer belt, 55_ sprocket assembly, 56_ third support frame, 57_ blanking hopper, 6_ blowing mechanism, 60_ third bearing seat, 61_ third transmission shaft, 62_ third pulley assembly, 63_ fan blade, 64_ mounting cylinder, 65_ blanking channel, 66_ discharge channel, 67_ connecting pipe, 7_ splitting assembly, 70_ mounting plate, 71_ adjusting rod, 72_ second spring, 73_ first scraper, 8_ blanking assembly, 80_ fourth transmission shaft, 81_ fourth pulley assembly, 82_ splitting rotating plate, 83_ guide plate, 9_ powder scraping assembly, 90_ support rod, 91_ universal buckle, 92_ connecting plate, 93_ second scraper.

Detailed Description

The technical scheme of the invention is further explained by combining the attached drawings.

Example 1

The utility model provides a be used for cement processing impurity clearing device, as shown in fig. 1-5, including bottom plate 1, workstation 2, screening mechanism 3 and

blanking mechanism

4, 1 top right side of bottom plate is equipped with

workstation

2, and 2 outer tops of workstation are equipped with screening mechanism 3, are equipped with blanking mechanism 4 between 1 top right side of bottom plate and the 2 right sides of workstation, and screening mechanism 3 and blanking mechanism 4 intercommunication, screening mechanism 3 and blanking mechanism 4 are connected the cooperation.

The screening mechanism 3 comprises a first support frame 30, first springs 31, a vibrating screen 32, a connecting block 33, a first support seat 34, a first motor 35, a first bearing seat 36, a universal joint 37, a first transmission shaft 38, an eccentric block 39, a first rotating shaft 310, a first belt pulley assembly 311, a second rotating shaft 312, a rotating gear 313, a belt pulley stop 314, a baffle 315 and a rotating shaft protector 316, wherein four first support frames 30 are fixedly connected to the outer top of the workbench 2 at intervals, two first springs 31 are fixedly connected to the tops of the two left first support frames 30, one first spring 31 is fixedly connected to the tops of the two right first support frames 30, a connecting block 33 is fixedly connected between the tail ends of the two first springs 31 on each left side, a vibrating screen 32 is fixedly connected between the inner side faces of the four connecting blocks 33, a first support seat 34 is fixedly connected to the rear side of the left part of the outer top of the workbench 2, a first motor 35 is arranged at the rear side of the top of the first supporting seat 34, a first bearing seat 36 is fixedly connected to the front side of the top of the first supporting seat 34, an output shaft of the first motor 35 is fixedly connected with a bearing in the first bearing seat 36, a universal joint 37 is fixedly connected to the end portion of the output shaft of the first motor 35, a first transmission shaft 38 is rotatably arranged between the upper sides of the left portions of the front and back sides and the lower side of the right portion of the front and back sides of the vibrating screen 32, eccentric blocks 39 are fixedly connected to the front and back ends of the first transmission shaft 38, a first rotating shaft 310 is rotatably arranged at the lower side of the right portion of the outer front side of the vibrating screen 32, the first rotating shaft 310 is arranged at the left side of the right first transmission shaft 38, a first belt pulley assembly 311 is arranged between the first rotating shaft 310 and the front side of the left first transmission shaft 38 in the circumferential direction, a second rotating shaft 312 is rotatably arranged at the lower side of the right portion of the outer front side of the vibrating, a belt pulley block 314 is fixedly connected to the lower right side of the outer front side of the vibrating screen 32, the belt pulley block 314 is located on the upper side of the second rotating shaft 312, a baffle 315 is fixedly connected between the right side of the upper portion of the front side in the vibrating screen 32 and the front side of the upper portion of the inner right side, a baffle 315 is also fixedly connected between the right side of the upper portion of the rear side in the vibrating screen 32 and the rear side of the upper portion of the inner right side, two rotating shaft shields 316 are arranged between the front side and the rear side of the vibrating screen 32, the first rotating shaft 310 is located on the inner side of the rotating shaft shields 316, a rotating gear 313 is fixedly connected to the front side of the first rotating shaft 38 on the right side in the circumferential direction, a rotating gear 313 is also fixedly connected to the front side of the.

The blanking mechanism 4 comprises a flexible connection 40, a blanking frame 41, a material distributing cylinder 42, a second supporting seat 43, a second bearing seat 44, a supporting plate 45, a second transmission shaft 46, a rotating plate 47, an electromagnet 48, a special-shaped plate 49, a travel switch 410 and a second belt pulley assembly 411, wherein the supporting plate 45 is arranged at the front part of the right side of the top of the bottom plate 1, the second supporting seat 43 is symmetrically arranged at the front and back of the right side of the top of the bottom plate 1, the second supporting seat 43 is positioned at the rear side of the supporting plate 45, the blanking frame 41 is fixedly connected at the right side of the top of the bottom plate 1, the blanking frame 41 is positioned between the two second supporting seats 43, the flexible connection 40 is arranged between the bottom of the blanking frame 41 and the right side of the bottom of the vibrating screen 32, the material distributing cylinder 42 is rotatably connected at the right lower side of the blanking frame 41, the second bearing seat 44 is fixedly connected, the second transmission shaft 46 is located at the circle center of the distributing cylinder 42, a second belt pulley assembly 411 is arranged between the circumferential direction of the front side of the second transmission shaft 46 and the circumferential direction of the rear side of the second rotating shaft 312, a special-shaped plate 49 is connected with the circumferential direction of the front side of the second transmission shaft 46 in a rotating mode, the lower portion of the front side of the special-shaped plate 49 is fixedly connected with the rear side of the front side second bearing seat 44, six rotating plates 47 are fixedly connected with the rear side of the second transmission shaft 46 at even intervals in the circumferential direction, an electromagnet 48 is fixedly connected with the outer end of each rotating plate 47, the outer side face of the electromagnet 48 is fixedly connected with the inner side face of the distributing cylinder 42, a travel switch 410 is fixedly connected with.

At first operating personnel places two collection containers on bottom plate 1 below right side, pour the cement of not clearing impurity into screening mechanism 3 again, start screening mechanism 3, screening mechanism 3 operates and still drives blanking mechanism 4 and operates, screening mechanism 3 operates and tentatively screens cement, the big impurity of selecting is stayed in screening mechanism 3, the cement of selecting then drops to in blanking mechanism 4, blanking mechanism 4 operates and carries out impurity removal once more with the cement of screening, the cement of clearing impurity then drops to in the left side collection container, and blanking mechanism 4 operates and makes the iron impurity who clears away drop to in the right side collection container, so repeatedly, can be continuous carry out impurity removal to cement. After all cement is cleaned of impurities, the screening mechanism 3 is closed, the blanking mechanism 4 stops operating, and the collecting container is taken up to process the cement and the impurities.

Firstly, an operator pours cement without removing impurities into the vibrating screen 32, starts the first motor 35, the first motor 35 reversely rotates to drive the left first transmission shaft 38 to reversely rotate, the left first transmission shaft 38 reversely rotates to drive the left eccentric block 39 to reversely rotate, the left first transmission shaft 38 reversely rotates and also drives the first rotating shaft 310 to reversely rotate through the first belt pulley component 311, the first rotating shaft 310 reversely rotates to drive the left rotating gear 313 to reversely rotate, the left rotating gear 313 reversely rotates to drive the middle rotating gear 313 to normally rotate, the middle rotating gear 313 normally rotates to drive the right first transmission shaft 38 to normally rotate, the right first transmission shaft 38 normally rotates to drive the right eccentric block 39 to normally rotate, due to the action of the first spring 31, the left eccentric block 39 reversely rotates and the right eccentric block 39 normally rotates to enable the vibrating screen 32 to screen the cement, screened impurities are left in the vibrating screen 32, and the cement falls into the blanking mechanism 4, the middle rotating gear 313 rotates positively and drives the right rotating gear 313 to rotate negatively, the right rotating gear 313 rotates negatively and drives the second rotating shaft 312 to rotate negatively, the second rotating shaft 312 rotates negatively and drives the blanking mechanism 4 to operate, the blanking mechanism 4 operates to screen cement again, and the impurity removal can be continuously carried out on the cement repeatedly. When all the cement is cleaned of impurities, the first motor 35 is turned off, the eccentric block 39 stops rotating, and the blanking mechanism 4 stops operating.

When cement after primary screening falls into the blanking frame 41 through the flexible connection 40 from the vibrating screen 32, the cement is in circumferential contact with the outer part of the material distribution cylinder 42, the electrified electromagnet 48 sucks iron impurities in the cement through the material distribution cylinder 42, when the first motor 35 is started to rotate reversely, the second rotating shaft 312 rotates reversely and also drives the second belt pulley assembly 411 to rotate reversely, the second belt pulley assembly 411 rotates reversely and drives the second transmission shaft 46 to rotate reversely, the second transmission shaft 46 rotates reversely and drives the rotating plate 47 to rotate reversely, the rotating plate 47 rotates reversely and drives the electromagnet 48 to rotate reversely, the electromagnet 48 rotates reversely and drives the material distribution cylinder 42 to rotate reversely, the rotating plate 47 rotates reversely and also drives the travel switch 410 to rotate reversely, when the travel switch 410 rotates reversely and contacts with the convex part of the special-shaped plate 49, the electromagnet 48 is closed, at the moment, the iron impurities on the outer side of the material distribution cylinder 42 fall into the right-side collecting container, when the travel switch 410 continues to, the electromagnet 48 is electrified, and the electromagnet 48 continuously sucks the iron impurities in the cement through the distributing cylinder 42, and the steps are repeated, so that the iron impurities in the cement can be continuously removed. After all the cement is cleaned of impurities, the first motor 35 is turned off, the second rotating shaft 312 stops driving the second pulley assembly 411 to rotate reversely, and the material-separating cylinder 42 also stops rotating reversely.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 6 and 7, the present invention further comprises a feeding mechanism 5, wherein the feeding mechanism 5 comprises a second supporting frame 50, a third supporting frame 51, a motor bracket 52, a second motor 53, a conveyer belt 54, a sprocket assembly 55, a third supporting frame 56 and a blanking hopper 57, the second supporting frame 50 is disposed at both the front and rear parts of the left side of the top of the bottom plate 1, the third supporting frame 51 is fixedly connected between the lower parts of the left side surfaces of the second supporting frames 50 at the front and rear sides, the motor bracket 52 is disposed at the right side of the top of the third supporting frame 51, the second motor 53 is disposed at the bottom part of the motor bracket 52, the conveyer belt 54 is disposed between the upper parts of the inner side surfaces of the second supporting frames 50 at the front and rear sides, the sprocket assembly 55 is disposed between the transmission shaft at the left side of the conveyer belt 54 and the output shaft of the second motor 53, the third supporting, the lower hopper 57 is located at the upper left side of the vibrating screen 32.

The material blowing mechanism 6 is further included, the material blowing mechanism 6 includes a third bearing seat 60, a third transmission shaft 61, a third belt pulley assembly 62, fan blades 63, an installation cylinder 64, a blanking channel 65, a discharging channel 66 and a connecting pipe 67, the third bearing seat 60 is fixedly connected to the right ends of the two right connecting blocks 33, the third transmission shaft 61 is rotatably connected between the third bearing seats 60 on the front side and the rear side, the third belt pulley assembly 62 is arranged between the rear end of the third transmission shaft 61 and the rear end of the first right transmission shaft 38, the fan blades 63 are fixedly connected to the third transmission shaft 61 in the circumferential direction, the blanking channel 65 is fixedly connected to the front side and the rear side of the right side of the vibrating screen 32, the blanking channel 65 is communicated with the vibrating screen 32, the installation cylinder 64 is fixedly connected between the left sides of the upper parts of the two blanking channels 65, the installation cylinder 64 is communicated with the blanking channel 65, the fan blades 63 are located in, the discharging channel 66 is communicated with the discharging channel 65, and a connecting pipe 67 is arranged between the bottom of the discharging channel 66 and the right side of the lower part of the discharging channel 65.

Firstly, an operator puts cement without impurities onto a conveying belt 54, then starts a second motor 53, the second motor 53 rotates forwards to drive a chain wheel assembly 55 to rotate forwards, the chain wheel assembly 55 rotates forwards to drive the conveying belt 54 to rotate forwards, the conveying belt 54 rotates forwards to drive the cement to move rightwards, the cement moves rightwards and falls into a lower hopper 57, the cement falls into a vibrating screen 32 through the lower hopper 57, when the cement falls into the vibrating screen 32, the first motor 35 is started, the vibrating screen 32 operates to remove the impurities from the cement, when all the cement is conveyed into the vibrating screen 32, the second motor 53 is closed, and the conveying belt 54 stops rotating forwards. Therefore, the cement is not required to be placed into the vibrating screen 32 by hands of an operator, the operation is convenient and labor-saving, and the working efficiency is high.

When the first motor 35 is started, the right first transmission shaft 38 rotates positively to drive the third belt pulley assembly 62 to rotate positively, the third belt pulley assembly 62 rotates positively to drive the third transmission shaft 61 to rotate positively, the third transmission shaft 61 rotates positively to drive the fan blades 63 to rotate positively, when part of cement falls into the discharging channel 65 from the right side of the vibrating screen 32, the fan blades 63 rotate positively to blow impurities into the discharging channel 66 from the discharging channel 65, the impurities in the discharging channel 66 are blown out, an operator can collect the impurities from the right side of the discharging channel 66, the cement for removing the impurities falls onto the ground from the discharging channel 65, after all the cement is removed with the impurities, the first motor 35 is closed, the right first transmission shaft 38 stops driving the third belt pulley assembly 62 to rotate positively, and the fan blades 63 also stop rotating positively. Therefore, impurities in the cement can be further removed.

Example 3

On the basis of the

embodiments

1 and 2, as shown in fig. 1, 3, 8 and 9, the vibrating screen further comprises a material distributing assembly 7, wherein the material distributing assembly 7 comprises a mounting plate 70, adjusting rods 71, a second spring 72 and a first scraper 73, the mounting plate 70 is fixedly connected between the front side surface and the rear side surface of the vibrating screen 32, the mounting plate 70 is slidably connected with the three adjusting rods 71 at regular intervals through nuts, the first scraper 73 is fixedly connected between the bottom ends of the three adjusting rods 71, the second spring 72 is connected between the top of the first scraper 73 and the bottom of the mounting plate 70, and the second spring 72 is sleeved on the adjusting rods 71.

Still including unloading subassembly 8, unloading subassembly 8 is including fourth transmission shaft 80, fourth pulley subassembly 81, divide material commentaries on classics board 82 and deflector 83, the rotary type is equipped with fourth transmission shaft 80 between the upper portion of both sides around unloading frame 41, be connected with fourth pulley subassembly 81 between fourth transmission shaft 80 rear end and the second transmission shaft 46 rear end, fourth transmission shaft 80 upwards rigid coupling in circumference has branch material commentaries on classics board 82, the left surface upper portion rigid coupling has deflector 83 in the unloading frame 41, divide material commentaries on classics board 82 and deflector 83 cooperation.

Still including scraping powder subassembly 9, scrape powder subassembly 9 including bracing piece 90, universal knot 91, connecting plate 92 and second scraper blade 93, both sides all the rigid coupling has bracing piece 90 around 1 top right side of bottom plate, and bracing piece 90 left side is equipped with universal knot 91, and the rigid coupling has connecting plate 92 between the universal knot 91 left side of both sides around, and connecting plate 92 left surface rigid coupling has second scraper blade 93, second scraper blade 93 and the cooperation of dividing the contact of material drum 42.

When cement is conveyed into the vibrating screen 32 through the conveying belt 54, the cement is contacted with the first scraping plate 73, the first motor 35 is started, the vibrating screen 32 vibrates to drive the first scraping plate 73 to vibrate, the first scraping plate 73 vibrates to break up the cement agglomerated in the vibrating screen 32, after all the cement is cleaned of impurities, the first motor 35 is closed, and the vibrating screen 32 stops driving the first scraping plate 73 to vibrate. Therefore, the cement blocks do not need to be scattered by hands of operators, and the operation is convenient.

When the first motor 35 is started, the second transmission shaft 46 reversely rotates to drive the fourth transmission shaft 80 to reversely rotate through the fourth belt pulley assembly 81, the fourth transmission shaft 80 reversely rotates to drive the material distribution rotating plate 82 to reversely rotate, the material distribution rotating plate 82 reversely rotates to convey cement in the blanking frame 41 to the guide plate 83, the cement falls to the outside of the material distribution cylinder 42 under the action of the guide plate 83, after all the cement is cleaned of impurities, the first motor 35 is turned off, the second transmission shaft 46 stops reversely rotating, and the material distribution rotating plate 82 also stops reversely rotating. In this way, it is avoided that cement cannot fall onto the distributing cylinder 42 for re-screening.

When the material distributing cylinder 42 rotates reversely, the material distributing cylinder 42 contacts with the second scraper 93, and the second scraper 93 scrapes off iron impurities which do not fall down from the outside of the material distributing cylinder 42, so that the iron impurities are prevented from being continuously adsorbed on the material distributing cylinder 42 to influence the subsequent use of the material distributing cylinder.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a be used for cement manufacture impurity clearing device which characterized in that, including:

the device comprises a bottom plate (1), wherein a workbench (2) is fixedly connected to one side of the bottom plate (1);

the screening mechanism (3), the screening mechanism (3) is installed on the workbench (2);

and the blanking mechanism (4) is arranged between the bottom plate (1) and the workbench (2) and is connected and matched with the screening mechanism (3).

2. A device for removing impurities in cement manufacture according to claim 1, characterized in that the screening means (3) comprises:

the first supporting frames (30), the first supporting frames (30) are fixedly connected to the workbench (2) at intervals, and the number of the first supporting frames is four;

the first springs (31) are fixedly connected to the first support frames (30), the number of the first springs (31) on the two first support frames (30) on one side is two, and the number of the first springs (31) on the two first support frames (30) on the other side is one;

the connecting blocks (33), the connecting blocks (33) are fixedly connected between the tail ends of the first springs (31), and the number of the connecting blocks is four;

the vibrating screen (32), the vibrating screen (32) is fixedly connected between the inner sides of the four connecting blocks (33);

the first supporting seat (34), the first supporting seat (34) is fixedly connected to the workbench (2);

the first motor (35), the first motor (35) is fixedly connected to the first supporting seat (34);

the first bearing seat (36), the first bearing seat (36) is fixedly connected to the first supporting seat (34), and the output shaft of the first motor (35) is fixedly connected with the bearing in the first bearing seat (36);

the universal joint (37), the universal joint (37) is fixedly connected to the end part of the output shaft of the first motor (35);

the first transmission shafts (38), the first transmission shafts (38) are rotatably connected between two sides of the vibrating screen (32), and the number of the first transmission shafts is two;

the eccentric block (39), the eccentric block (39) is fixedly connected to both ends of the first transmission shaft (38);

the first rotating shaft (310), the first rotating shaft (310) is installed on the vibrating screen (32) in a rotating mode;

the first belt pulley assembly (311), the first belt pulley assembly (311) is installed between the first rotating shaft (310) and one of the first transmission shafts (38);

the second rotating shaft (312) is rotatably arranged on the vibrating screen (32), and one side of the second rotating shaft (312) is fixedly connected with the blanking mechanism (4);

the belt pulley block (314), the belt pulley block (314) is fixedly connected to the vibrating screen (32);

the baffle plates (315), the baffle plates (315) are fixedly connected to one side in the vibrating screen (32), and the number of the baffle plates is two;

the rotating shaft shields (316), the number of the rotating shaft shields (316) is two, and the first rotating shaft (310) is positioned on the inner side of the rotating shaft shields (316);

the number of the rotating gears (313) is three, one of the rotating gears is fixedly connected to the circumferential direction of one side of one first transmission shaft (38), the other two rotating gears are respectively fixedly connected to the circumferential direction of one side of the second rotating shaft (312) and the circumferential direction of one side of the first rotating shaft (310), and the three rotating gears (313) are meshed.

3. The impurity removing device for cement processing according to claim 2, wherein the blanking mechanism (4) comprises:

the supporting plate (45), the supporting plate (45) is installed on the bottom plate (1);

the second supporting seat (43), the second supporting seat (43) is symmetrically arranged on one side of the bottom plate (1);

the blanking frame (41), the blanking frame (41) is fixedly connected between the bottom plate (1) and the workbench (2);

the flexible connection (40), the flexible connection (40) is arranged between one side of the blanking frame (41) and one side of the vibrating screen (32) and is communicated with the blanking frame;

the material distributing cylinder (42), the material distributing cylinder (42) is rotatably arranged on one side of the blanking frame (41);

the second bearing seat (44), the second bearing seat (44) is fixedly connected to the second supporting seat (43);

the second transmission shaft (46) is rotatably arranged between the second bearing seats (44) at two sides, one end of the second transmission shaft (46) is rotatably connected with one side of the supporting plate (45), and the second transmission shaft is positioned at the circle center position of the distributing cylinder (42);

the second belt pulley assembly (411), the second belt pulley assembly (411) is installed between one side of the second transmission shaft (46) and one side of the second rotating shaft (312);

the special-shaped plate (49), the special-shaped plate (49) is fixedly connected to one side of the second bearing seat (44), and the position of the circle center of the special-shaped plate is rotatably connected with the second transmission shaft (46);

the rotating plates (47) are fixedly connected to one side of the second transmission shaft (46) at uniform intervals, and the number of the rotating plates (47) is six;

the electromagnet (48), the electromagnet (48) is fixedly connected to the outer end of the rotating plate (47), it is fixedly connected with one side in the material-distributing cylinder (42);

and the travel switch (410), the travel switch (410) is fixedly connected to one side of the rotating plate (47), is in contact fit with the special-shaped plate (49), and is in circuit connection with the electromagnet (48).

4. The impurity removing device for cement processing according to claim 3, further comprising a feeding mechanism (5), wherein the feeding mechanism (5) comprises:

the second support frame (50), the second support frame (50) is symmetrically installed on the bottom plate (1);

the third supporting seat (51), the third supporting seat (51) is fixedly connected between one sides of the two second supporting frames (50);

the motor bracket (52), the motor bracket (52) is installed on the third supporting seat (51);

the second motor (53), the second motor (53) is installed on one side of the motor bracket (52);

the conveying belt (54), the conveying belt (54) is installed between one sides of the two second supporting frames (50);

the chain wheel component (55), the chain wheel component (55) is installed between the shaft end part of one side of the conveying belt (54) and the output shaft of the second motor (53);

the third support frame (56), the third support frame (56) is fixedly connected between one side of the two second support frames (50);

and the lower hopper (57) is fixedly connected to the third supporting frame (56) and matched with the vibrating screen (32).

5. The impurity removing device for cement processing according to claim 4, further comprising a blowing mechanism (6), wherein the blowing mechanism (6) comprises:

the third bearing seat (60), the third bearing seat (60) is fixedly connected with the end parts of two connecting blocks (33);

the third transmission shaft (61), the third transmission shaft (61) is installed between two third bearing seats (60) rotatably;

a third pulley assembly (62), the third pulley assembly (62) being mounted between one end of the third drive shaft (61) and one end of one of the first drive shafts (38);

the blanking channels (65), the number of which is two, are fixedly connected to one side of the vibrating screen (32), and the blanking channels (65) are communicated with the vibrating screen (32);

the mounting cylinder (64) is fixedly connected between one sides of the two blanking channels (65) and communicated with the blanking channels (65);

the fan blade (63), the fan blade (63) is fixedly connected to the third transmission shaft (61), it locates in installing the cylinder (64);

the discharging channel (66), the discharging channel (66) is fixedly connected in the middle of one side of the discharging channel (65), and the discharging channel (66) is communicated with the discharging channel (65);

and the connecting pipe (67) is arranged between one side of the discharging channel (66) and one side of the blanking channel (65) and is communicated with the discharging channel (67).

6. The impurity removing device for cement processing according to claim 5, further comprising a material distributing assembly (7), wherein the material distributing assembly (7) comprises:

the mounting plate (70), the mounting plate (70) is fixedly connected between the two inner side surfaces of the vibrating screen (32);

the adjusting rods (71), the adjusting rods (71) are evenly and alternately connected on the mounting plate (70) in a sliding mode in a penetrating mode, and the number of the adjusting rods is three;

the first scraper (73), the first scraper (73) is fixedly connected between the bottom ends of the three adjusting rods (71);

and the second spring (72) is arranged between the first scraper (73) and the mounting plate (70) and sleeved on the adjusting rod (71).

7. The impurity removing device for cement processing according to claim 6, further comprising a blanking assembly (8), wherein the blanking assembly (8) comprises:

the fourth transmission shaft (80), the fourth transmission shaft (80) is installed between the two sides of the blanking frame (41) in a rotating mode;

a fourth pulley assembly (81), the fourth pulley assembly (81) being mounted between the fourth drive shaft (80) and the second drive shaft (46);

the material distributing rotating plate (82), the material distributing rotating plate (82) is fixedly connected to the fourth transmission shaft (80);

the guide plate (83), the guide plate (83) is fixedly connected to one side in the blanking frame (41);

the material distributing rotating plate (82), the material distributing rotating plate (82) is fixedly connected to the fourth transmission shaft (80), and the material distributing rotating plate is matched with the guide plate (83).

8. The impurity removing device for cement processing according to claim 7, further comprising a powder scraping assembly (9), wherein the powder scraping assembly (9) comprises:

the supporting rods (90), the supporting rods (90) are fixedly connected to the bottom plate (1), and the number of the supporting rods is two;

the universal buckle (91), the universal buckle (91) is installed at one end of the support rod (90);

the connecting plate (92), the connecting plate (92) is fixedly connected between two universal buckles (91);

and the second scraper (93), the second scraper (93) is fixedly connected to one side of the connecting plate (92), and the second scraper is in contact fit with the material distribution cylinder (42).