CN210585844U - Glass mixture shunting rocking screen - Google Patents

Abstract

The utility model relates to the technical field of glass production, in particular to a glass mixture shunting shaker, which comprises a frame, a screen and a screen cover, wherein the screen comprises a bracket and a feed port arranged on the bracket; the support is connected with a driving unit, and the driving unit is connected with a vibrating unit for driving the screen to vibrate; the screen cloth below is equipped with the material collecting pipe, and material collecting pipe bottom is equallyd divide into two at least discharging pipes, and every discharging pipe below all is equipped with a conveyer belt. The utility model utilizes the driving unit to drive the screen mesh to vibrate, thereby realizing the screening of the glass mixture containing caking, and solving the problem that caking in the glass mixture can not be rapidly screened in the prior art; meanwhile, the problem that the preparation speed of the glass mixture is not matched with the melting speed of the glass mixture is solved by utilizing a plurality of discharging pipes.

Description

Glass mixture shunting rocking screen

Technical Field

The utility model relates to a glass production technical field, in particular to glass mixture reposition of redundant personnel sieve shaker.

Background

The glass production generally needs to be carried out through the processes of raw material processing, raw material proportioning, melting, forming, annealing, checking, trimming and the like to obtain a finished product, the raw materials for manufacturing the glass at present mainly comprise quartz sand, soda ash, limestone, feldspar and the like, after the raw material processing and the raw material proportioning, the glass mixture obtained after the raw material proportioning is conveyed to a melting furnace to be melted, and at the stage, part of the glass mixture is agglomerated due to the reasons of wetting or alkalization and the like of the part of the glass mixture; meanwhile, the preparation speed of the glass mixture in the glass production is higher than the melting speed of the glass mixture, and the comprehensive factors such as the continuity of the glass production and the production capacity of the glass production line are combined, so that the raw material processing and the raw material proportioning are carried out in a fixed area in the actual production, and then the glass mixture is conveyed to a plurality of melting production lines, so that the glass mixture needs to be reasonably distributed, and the continuous and stable production of each glass production line is ensured.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a glass mixture reposition of redundant personnel shakes the sieve, has solved the problem of the caking in the unable quick removal glass mixture.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the glass mixture shunting shaking sieve comprises a support and a feeding hole formed in the support, wherein a screen is arranged on the support, the screen is obliquely arranged, the lower end of the screen is rotatably connected to the support, and the high end of the screen is positioned below the feeding hole; the support is connected with a driving unit, and the driving unit is connected with a vibrating unit for driving the screen to vibrate; the driving unit is also connected with a rotating shaft, a pendulum bob is hinged to the rotating shaft, and the pendulum bob is positioned on the upper side of the screen.

The principle of the utility model is that: the glass mixture containing agglomerates enters the screen mesh from the feeding hole, the driving unit drives the screen mesh to vibrate, and the screen mesh is obliquely arranged and the lower end of the screen mesh is rotationally connected to the support, so that the screen mesh can swing along the lower end to a certain extent, the glass mixture meeting the specification is screened out, the agglomerates cannot pass through the screen mesh, and the agglomerates flow to the lower end of the screen mesh under the action of self gravity and the vibration of the screen mesh, so that the purpose of screening and separating the glass mixture and the agglomerates is realized; meanwhile, the driving unit drives the rotating shaft to rotate, so that the pendulum bob on the rotating shaft is driven to swing to impact the screen cloth, the glass mixture quickly passes through the screen cloth, and the pendulum bob has a crushing effect on the lumps, so that part of the lumps are crushed and can be melted through the screen cloth, and part of the lumps can be smoothly made into glass.

The scheme has the advantages that:

1. the caking in the glass mixture can be screened out: utilize the vibration of screen cloth in this application, sieve out the caking in the glass mixture fast, make the glass mixture who accords with the specification get into next melting process to the quality of glass production has been guaranteed.

2. The screening efficiency is high: compare in the screening that only utilizes conventional screen cloth vibration to glass mixture, utilize in this application to put out and strike the screen cloth to make the screen cloth take place violent vibration, make the glass mixture that accords with the specification pass through the screen cloth fast, and the caking can reach the low side of screen cloth fast, and the caking can not hinder the screening of follow-up glass mixture, consequently the screening efficiency height.

3. Is favorable for increasing the utilization rate of raw materials: at pendulum swing in-process, the pendulum can constantly strike glass mixture for the part caking is broken by the pendulum, thereby makes the caking broken back can pass through the screen cloth, makes more raw materialss can be melted and make glass, consequently this application is favorable to increasing the utilization ratio of raw and other materials.

Further, the vibration unit comprises a driving shaft and a cam fixedly connected to the driving shaft, the driving shaft is connected with the driving unit, and the outer contour of the cam is abutted to the bottom of the high end of the screen.

The driving unit drives the driving shaft to rotate, so that the driving shaft drives the cam on the driving shaft to rotate, the outer contour of the cam is abutted against the bottom of the high end of the screen, the screen is abutted against the outer contour of the cam under the action of the self gravity and the gravity of the glass mixture on the screen, and the screen continuously vibrates up and down along with the rotation of the cam, so that the vibration screening effect of the screen on the glass mixture is realized.

Further, the driving unit comprises a driving motor, an output shaft of the driving motor is fixedly connected with the driving shaft, and the driving motor is connected with the rotating shaft through a transmission unit.

The driving shaft is driven to rotate by the driving motor, the output torque of the driving motor is large, the mounting and the control are easy, and the stable vibration of the screen is convenient; meanwhile, the driving motor is connected with the rotating shaft through the transmission unit, so that one driving motor drives the screen to vibrate and the pendulum bob to swing simultaneously, the number of power output sources is reduced, and the overall structure is simplified.

Further, the transmission unit comprises a first gear, a second gear and a transmission chain for connecting the first gear and the second gear, the first gear is fixedly connected to an output shaft of the driving motor, and the second gear is fixedly connected to the rotating shaft.

In the scheme, the swinging frequency of the pendulum bob and the vibration frequency of the screen can be controlled by setting different transmission ratios of the first gear and the second gear, so that the swinging frequency of the pendulum bob and the vibration frequency of the screen can be adjusted according to actual screening requirements, for example, when the caking amount in a glass mixture is large, the swinging frequency of the pendulum bob can be large, and the breaking of caking by the pendulum bob is facilitated; when the amount of the lumps in the glass mixture is small, the glass mixture needs to be screened quickly, and the vibration frequency of the screen is relatively high, so that the glass mixture can be screened quickly.

Furthermore, the inclination angle range of the screen and the horizontal plane is 10-15 degrees, and the rotation angle of the screen is 5-10 degrees.

The inclination angle range of the inclination of the screen is set to be 10-15 degrees, so that the phenomenon that the inclination angle of the screen is too low, the caking can not smoothly slide to the bottom end of the screen to block the screen is prevented, the screening efficiency of the screen is reduced, and the phenomenon that the glass mixture slides to the bottom end of the screen to be fully contacted with the screen due to too large inclination angle of the screen is prevented, so that the glass mixture can not be fully screened; the rotation angle of the screen is 5-10 degrees, so that the screen can have proper rotation amplitude, and the glass mixture can be conveniently and rapidly screened.

Furthermore, the lower end of the screen is fixedly connected with a baffle, and the baffle and the screen form an included angle of 110-130 degrees.

Compared with the screen with the lower end not shielded, the glass mixture meeting the specification on the screen can flow out of the screen along with the caking to cause raw material waste. In this scheme, be provided with the baffle in the low side of screen cloth, can carry out certain stopping to glass mixture and caking, prevent that the glass mixture that accords with the specification is not screened and is discharged away with the caking, contained angle between baffle and the screen cloth is 110 supplyes one's food 130 simultaneously for keep away from screen cloth one end on being less than the baffle with the screen cloth link on the baffle, the baffle is limited to caking and glass mixture's effect of blockking, when the caking piles up to certain degree in baffle department, can be followed the baffle and discharged away, be favorable to realizing the automatic discharge of caking.

Furthermore, a conveying belt is arranged below the screen, and a material collecting frame is arranged below the baffle.

A conveyor belt is arranged below the screen, and the glass mixture screened by the screen directly falls on the conveyor belt to be conveyed away, so that the automatic production is favorably realized; the baffle below is equipped with the collecting frame, and the collecting frame can be collected the caking, is convenient for to the recycle of caking, increases the utilization ratio of raw materials.

Furthermore, a funnel-shaped material collecting pipe is arranged below the screen.

The glass mixture that utilizes the collection pipe that leaks hopper-shaped to select the screen cloth is collected, keeps apart with the caking completely when making the glass mixture whereabouts, prevents that the caking from falling to the glass mixture that has been screened by the screen cloth to prevent to cause adverse effect to glass production quality.

Further, the material collecting pipe bottom is divided equally into at least two discharging pipes, and the discharging pipes are arranged side by side and a conveying belt is arranged below each discharging pipe.

Equally divide into two at least discharging pipes with the bottom of collection material pipe, make the glass mixture by the screening evenly enter into the conveyer belt that the below corresponds, thereby make the conveyer belt convey the melting point of glass mixture to next process, set up a plurality of discharging pipes and carry out the simultaneous transfer, solve among the prior art unmatched contradiction of the preparation speed of glass mixture and the melting speed of glass mixture, through the reasonable reposition of redundant personnel of collection material pipe, make the preparation of glass mixture and the melting of glass mixture go on in step and steadily, guarantee the continuous and stable production of glass.

Furthermore, an elastic part is fixedly connected between the screen and the bracket.

In contrast to the high end of the screen being completely uncontrolled, the screen may bounce during the screening process. In this scheme, fixed connection elastic component between screen cloth and support, the elastic component carries out certain control to the amplitude of screen cloth, and the elastic component still has the cushioning effect to the screen cloth, prevents that the amplitude of screen cloth is too big.

Drawings

FIG. 1 is a longitudinal sectional view of a glass mixture distribution shakers taken along the axis of an aggregate pipe in an embodiment of the present invention.

FIG. 2 is a schematic view showing the connection of a glass mixture split-flow shaker transmission unit in an embodiment of the present invention.

FIG. 3 is a longitudinal sectional view of a glass mixture distribution shakers along the axis of an aggregate pipe according to a second embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a support 1, a feeding hole 2, a screen 3, a driving shaft 4, a cam 5, a driving motor 6, a rotating shaft 7, a first gear 8, a second gear 9, a chain 10, a pendulum bob 11, a damping spring 12, a baffle 13, a material collecting pipe 14, a material discharging pipe 15, a conveying belt 16 and a material collecting frame 17.

The first embodiment is as follows:

the first embodiment is basically as shown in fig. 1 and 2, and the glass mixture reposition of redundant personnel sieve shaker includes support 1, and the upper left side of support 1 is used for throwing in feed inlet 2 that contains the glass mixture of caking through screw fixedly connected with, is equipped with the screen cloth 3 that is the slope form of height from left to right low on support 1, and the inclination of screen cloth 3 is 12, and the right-hand member of screen cloth 3 rotates through the round pin axle mode and connects in the frame, and the left end of screen cloth 3 is located the below of feed inlet 2.

As shown in fig. 1, a driving unit and a vibrating unit for driving the screen 3 to vibrate are connected to the bracket 1, in this embodiment, the vibrating unit includes a driving shaft 4 and a cam 5 fixedly connected to the driving shaft 4 through a flat key, an outer contour of the cam 5 abuts against a bottom surface of a left side of the screen 3, and the cam 5 provides a support for the screen 3. Drive unit includes through bolt fixed connection in the driving motor 6 in the frame, drive shaft 4 passes through shaft coupling and driving motor 6's output shaft fixed connection, when driving motor 6 rotates and drives drive shaft 4 and rotate, drive shaft 4 rotates and drives cam 5 and rotates, because screen cloth 3 offsets tightly with cam 5's outline all the time under the action of self gravity and the action of gravity of glass mixture, when cam 5 rotates, screen cloth 3 vibrates from top to bottom and plays the effect of sieve movement glass mixture, under the action of cam 5, screen cloth 3 is 6 around the right-hand member and the rotation range of the tie point between.

With reference to fig. 1 and 2, a rotating shaft 7 is arranged above the screen 3, two ends of the rotating shaft 7 are rotatably connected to the bracket 1 through bearings, a transmission unit is arranged between the rotating shaft 7 and an output shaft of the driving motor 6, the transmission unit comprises a first gear 8, a second gear 9 and a chain 10 for connecting the first gear 8 and the second gear 9, the first gear 8 is fixedly connected to the output shaft of the driving motor 6 through a flat key, the second gear 9 is fixedly connected to the rotating shaft 7 through a flat key, and the rotating shaft 7 is driven to rotate by the rotation of the driving motor 6; articulated have five pendulum 11 in the pivot 7, drive pendulum 11 swings when pivot 7 rotates to make pendulum 11 striking screen cloth 3, thereby strengthen screen cloth 3's sieve and move the effect, when pendulum 11 strikes screen cloth 3, pendulum 11 also can broken part caking, thereby make the caking smash can be used for making glass after passing through screen cloth 3, make the utilization ratio promotion of raw materials.

As shown in figure 1, in order to prevent the left end of the screen 3 from swinging too much during the vibration process, an elastic part is welded between the support 1 and the screen 3, in the embodiment, the elastic part is preferably a damping spring 12, meanwhile, in order to prevent the glass mixture at the right end of the screen 3 from falling out of the screen 3, a baffle 13 is fixedly connected at the right end of the screen 3 through screws, the right end of the baffle 13 extends out of the right side of the support 1, the included angle between the baffle 13 and the screen 3 is 130 degrees, so that the right end of the baffle 13 is always higher than the left end by a distance during the vibration process of the screen 3, after the arrangement, the caking accumulated at the joint of the baffle 13 and the screen 3 can prevent the glass mixture from leaking to the right side of the screen, when the screen 3 vibrates, the glass mixture can be effectively screened out and fall below the screen 3, and the caking which can not pass, after the final lump height is higher than the height of the right end of the baffle 13, the lump can be automatically discharged from the right end of the baffle 13.

A funnel-shaped material collecting pipe 14 is arranged below the screen 3, the bottom end of the material collecting pipe 14 is divided into two material discharging pipes 15, the lower ends of the two material discharging pipes 15 are respectively provided with a conveying belt 16, and the conveying belts 16 are used for conveying the screened glass mixture to a melting process; meanwhile, a collecting frame 17 is arranged below the baffle 13 and used for receiving the caking discharged by the baffle 13 and collecting the caking so as to recycle the caking.

The specific implementation process is as follows:

when carrying out the screening of glass mixture, the glass mixture that will contain the caking is put into screen cloth 3 by feed inlet 2 on, and simultaneously, start driving motor 6, driving motor 6 drives drive shaft 4 and pivot 7 and rotates simultaneously, drive shaft 4 drives cam 5 and rotates, drive screen cloth 3 vibration from top to bottom and vibrate glass mixture and caking during cam 5 rotates, glass mixture passes screen cloth 3 under the vibration effect and falls into in the collecting pipe 14 after, and divide equally into two parts respectively by two discharging pipes 15 discharge after being collected by collecting pipe 14, be transported to next melting process department after falling into conveyer belt 16 by discharged glass mixture.

When the screen 3 vibrates, the agglomerates on the screen 3 cannot pass through the screen 3, and under the vibration of the screen 3 and the action of the gravity of the agglomerates, the agglomerates slide to the right end of the screen 3 along the upper surface of the screen 3 and gradually gather at the right end of the screen 3, so that the glass mixture cannot flow out along the right end of the screen 3 and is wasted due to the blocking action of the baffle 13; along with the continuous gathering of caking, when the caking gathering height is higher than baffle 13 right-hand member, the caking is by automatic discharge baffle 13 gradually, and the caking is collected by frame 17 of gathering materials after falling, and the caking of being convenient for is collected recycle.

Example two

The difference between the second embodiment and the first embodiment is that: as shown in fig. 3, in order to make the crushing effect of the pendulum bob 11 more obvious, in the first embodiment, five pendulum bob 11 are a set of pendulum bob groups, and two rows of pendulum bob groups are arranged above the screen 3, and at least three pendulum bob groups (not shown in the figure) are arranged on each row of pendulum bob group, so that the crushing effect of the pendulum bob 11 is better, and more agglomerates in the glass mixture can be crushed.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures or features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. Glass mixture reposition of redundant personnel shakeout, its characterized in that: the screen cloth is obliquely arranged, the lower end of the screen cloth is movably connected to the support, and the high end of the screen cloth is positioned below the feed port; the support is connected with a driving unit, and the driving unit is connected with a vibration unit for driving the screen to vibrate; the driving unit is further connected with a rotating shaft, a pendulum bob is hinged to the rotating shaft, and the pendulum bob is located on the upper side of the screen.

2. The glass mix diversion shaker of claim 1, wherein: the vibration unit comprises a driving shaft and a cam fixedly connected to the driving shaft, the driving shaft is connected with the driving unit, and the outer contour of the cam is abutted to the bottom of the high end of the screen.

3. The glass mix diversion shaker of claim 2, wherein: the driving unit comprises a driving motor, an output shaft of the driving motor is fixedly connected with the driving shaft, and the driving motor is connected with the rotating shaft through a transmission unit.

4. The glass mix diversion shaker of claim 3, wherein: the transmission unit comprises a first gear, a second gear and a transmission chain for connecting the first gear and the second gear, the first gear is fixedly connected to an output shaft of the driving motor, and the second gear is fixedly connected to the rotating shaft.

5. The glass mix diversion shaker of claim 2, wherein: the inclination angle range of the screen and the horizontal plane is 10-15 degrees, and the rotation amplitude of the screen is 5-10 degrees.

6. The glass mix diversion shaker of claim 5, wherein: the lower end of the screen is fixedly connected with a baffle, and the baffle and the screen form an included angle of 110 DEG and 130 deg.

7. The glass mix diversion shaker of claim 6, wherein: the screen cloth below is equipped with the conveyer belt, baffle below is equipped with the frame that gathers materials.

8. The glass mix diversion shaker of claim 7, wherein: and a funnel-shaped material collecting pipe is arranged below the screen.

9. The glass mix diversion shaker of claim 8, wherein: the material collecting pipe bottom is divided into at least two material discharging pipes, the material discharging pipes are arranged side by side, and a conveying belt is arranged below each material discharging pipe.

10. The glass mix diversion shaker of any one of claims 1-9, wherein: an elastic part is fixedly connected between the screen and the bracket.

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