CN209997917U - kinds of glass particle screening machine - Google Patents

Abstract

The utility model relates to an kinds of glass particle sieve separator, the on-line screen storage device comprises a base, the link, the action wheel, from the driving wheel, conveyer belt and sieving mechanism, from, the action wheel activity respectively sets up the left side at the link, right side both ends, the action wheel is connected with motor a's transmission shaft, sieving mechanism includes the frame, the screening frame, the pivot, the cam, motor b, the belt and owner, from the belt pulley, the frame both sides are provided with logical groove, establish at logical inslot in the activity of frame both sides, logical groove and screening frame head, be provided with the spring between the afterbody, the pivot sets up at frame cavity head, and rotate with the frame and be connected, the cam sets up in the pivot, and contact with the screening frame, pivot end passes the frame and is connected with from the belt pulley, motor b sets up at the frame top, main belt pulley is connected with motor b's transmission shaft, the belt takes turns to owner, from the leather wheel, be provided with the dead lever between frame and the link.

Description

kinds of glass particle screening machine

Technical Field

The utility model relates to an kinds of glass particle screening machines.

Background

Outside abandonment glass was rolled and is ground into the granule, in order to carry out manufacturing procedure down, must filter the glass particle size, but present glass particle screening machine can only filter the glass particle and can not directly transport the glass after the screening and hold up the department, and the power source of present glass particle screening machine is vibration screening machine, and vibration screening machine can produce very big noise at the during operation, influences staff's work.

Disclosure of Invention

The utility model aims to improve and innovate the shortcomings and problems existing in the background art, and provides glass particle screening machines.

The technical scheme of the utility model be structure kinds of glass particle sieve separator, include base, link, action wheel, follow driving wheel, conveyer belt and sieving mechanism, its characterized in that from driving wheel and action wheel activity respectively set up the left and right both ends at the link, the action wheel center is connected with the transmission shaft of the outer motor a of link, sieving mechanism includes frame, screening frame, pivot, cam, motor b, belt, main belt pulley, follows the belt pulley, the frame both sides are provided with logical groove, what the activity can be controlled on the frame both sides carves and establishes at logical inslot, it is provided with the spring to lead to between groove and screening frame head and the afterbody, the pivot sets up the head at the frame cavity, and rotates with the frame and be connected, the cam sets up in the pivot to contact with the screening frame top, pivot end still passes the frame and will follow the belt pulley setting in this end, motor b sets up at the frame top, main belt pulley is connected with motor b's transmission shaft, the belt package connects main belt pulley and follows the belt pulley, be provided with the dead lever between frame and the dead lever, the dead lever upper end is connected with the frame, and the lower.

In embodiments, a hydraulic rod and a support rod are sequentially arranged between a base and a connecting frame of the glass particle screening machine, a groove is formed in the connecting frame, the lower end of the hydraulic rod is connected with the base, a moving shaft is arranged at the top of a piston rod of the hydraulic rod and is wedged in the groove, the lower end of the support rod is connected with the base, and the upper end of the support rod is hinged to the connecting frame.

In embodiments, the frame and the tail part of the screening frame of the glass particle screening machine are arranged by adopting openings.

In of the embodiments, the screening device of the glass particle screening machine is arranged at the tail part of the connecting frame and is parallel to the connecting frame.

In embodiments, two or more cams of the glass particle screening machine are uniformly arranged on the rotating shaft at intervals.

In embodiments, a pulley with a locking mechanism is arranged below the base of the glass particle screening machine.

The utility model has the advantages and beneficial effect:

the pivot is rotatory through belt 11, main belt pulley 12 and from belt pulley 13 drive pivot when motor b pivot rotates, and epaxial cam can extrude the screening frame, and the spring still can give screening frame elasticity, makes the screening frame slide left and right in logical inslot, thereby has replaced and has utilized vibrating motor as the power source, and consequently the noise is littleer, and the transport height that is used for carrying the conveyer belt of the glass granule after the screening is adjustable, therefore the adaptability is stronger.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of the screening device of the present invention.

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

Description of the figures:

1. the automatic screening device comprises a base, 2, a connecting frame, 3, a driving wheel, 4, a driven wheel, 5, a conveying belt, 6, a frame, 7, a screening frame, 8, a rotating shaft, 9, a cam, 10, a motor b, 11, a belt, 12, a main belt pulley, 13, a driven belt pulley, 14, a through groove, 15, a spring, 16, a fixing rod, 17, a pulley, 18, a hydraulic rod, 18-1, a piston rod, 19, a supporting rod, 20, a groove, 21 and a moving shaft.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It should be noted that when an element is referred to as being "disposed" or "connected" to another elements, it can be directly disposed or connected to the other elements or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description presented herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Specifically, as shown in fig. 2, glass particle screening machines include a base 1, a connecting frame 2, a driving wheel 3, a driven wheel 4, a conveyor belt 5 and a screening device, the driven wheel 4 and the driving wheel 3 are respectively and movably disposed at the left and right ends of the connecting frame 2, the center of the driving wheel 3 is connected with a transmission shaft of a motor a (not shown) outside the connecting frame, the screening device includes a frame 6, a screening frame 7, a rotating shaft 8, a cam 9, a motor b10, a belt 11, a main belt pulley 12 and a secondary belt pulley 13, through grooves 14 are disposed at two sides of the frame 6, wedges capable of moving left and right are disposed in the through grooves 14 at two sides of the frame 6, a spring 15 is disposed between the through grooves 14 and the head and the tail of the screening frame 7, the rotating shaft 8 is disposed at the head of a cavity of the frame 6 and is rotatably connected with the frame 6, the cam 9 is disposed on the rotating shaft 8 and is in contact with the top of the screening frame 7, the rotating shaft 8 further passes through the frame 6 and sets the secondary belt pulley 13 at this end, the motor b10 is disposed at the top of the frame 12, and the belt pulley 10, the lower end of the frame is connected with the belt pulley 16, and the frame 16, and the lower end of the frame is connected with the frame 2, and the.

Specifically, as shown in fig. 2, a hydraulic rod 18 and a support rod 19 are sequentially arranged between the base 1 and the connecting frame 2, a groove 20 is formed in the connecting frame 2, the lower end of the hydraulic rod 18 is connected with the base 1, a movable shaft 21 is arranged at the top of a piston rod 18-1 of the hydraulic rod 18, the movable shaft 21 is wedged in the groove 20, the lower end of the support rod 19 is connected with the base, the upper end of the support rod is hinged to the connecting frame 2, and the hydraulic rod and the support rod arranged between the base and the connecting frame are used for adjusting the angle of the connecting frame, so that the adaptability of the glass particles is stronger, and the glass particles can be conveyed to different heights.

Specifically, as shown in fig. 2 and fig. 3, the frame 6 and the screening frame 7 are provided with openings at their ends, and the openings are used for discharging large particles screened.

Specifically, as shown in fig. 1, the screening device is arranged at the tail of the connecting frame 2 and parallel to the connecting frame 2, and the screening device is arranged at the tail of the connecting frame to facilitate discharging large particles screened out.

Specifically, as shown in fig. 2, two or more cams 9 are uniformly arranged on the rotating shaft 8 at intervals.

Specifically, as shown in fig. 1, a pulley 17 with a locking mechanism is arranged below the base 1.

The utility model discloses work is kept away from and the working process:

the working principle of the screening device is that when the rotating shaft of the motor b rotates, the rotating shaft is driven to rotate through the belt 11, the main belt pulley 12 and the secondary belt pulley 13, the cam on the rotating shaft can extrude the screening frame, and the spring can provide elastic forces to the screening frame, so that the screening frame slides left and right in the through groove to achieve the purpose of screening, and a vibration motor is replaced to be used as a power source.

The working process is as follows: starting motor b and motor a, motor b drives the screening frame and slides left and right to realize the screening, big glass particle can follow screening frame afterbody roll-off, and little glass particle can drop on the conveyer belt, thereby is carried and is stored the department of storing. When the height of the storage position is relatively low or relatively high and the conveying height of the conveying belt needs to be adjusted, only the hydraulic rod needs to be started, the piston rod of the hydraulic rod moves upwards or downwards, the connecting frame rotates around the hinged point of the supporting rod, and the moving shaft slides in the groove, so that the height of the conveying belt is changed.

The embodiments of the present invention are only descriptions of the preferred embodiments of the present invention, not right the present invention is designed and limited, without departing from the design concept of the present invention, the technical personnel in the field should fall into the protection scope of the present invention for various modifications and improvements made by the technical solution of the present invention, and the technical contents of the present invention are all recorded in the claims.

Claims (6)

1. The utility model provides a kind of glass particle sieve separator, including base (1), link (2), action wheel (3), follow driving wheel (4), conveyer belt (5) and sieving mechanism, its characterized in that from left and right both ends of driving wheel (4) and action wheel (3) activity setting respectively at link (2), action wheel (3) center is connected with the transmission shaft of the outer motor a of link, the sieving mechanism includes frame (6), screening frame (7), pivot (8), cam (9), motor b (10), belt (11), main belt pulley (12), follow belt pulley (13), frame (6) both sides are provided with logical groove (14), the carving of activity is established in logical groove (14) about frame (6) both sides, be provided with spring (15) between logical groove (14) and screening frame (7) head and the afterbody, pivot (8) set up the head at frame (6) cavity, and rotate with frame (6) and be connected, cam (9) set up in pivot (8) to with screening frame (7) and screening frame (7) head and afterbody be provided with spring (15), pivot (8) set up the head of frame (6) and be connected with frame (6) top 356) and motor b) connection dead lever (16), motor b) and motor b (10) are connected from frame (6) top and motor b lower extreme (16) are connected.
2. 2. The glass particle screening machine according to claim 1, characterized in that a hydraulic rod (18) and a support rod (19) are sequentially arranged between the base (1) and the connecting frame (2), a groove (20) is formed in the connecting frame (2), the lower end of the hydraulic rod (18) is connected with the base (1), a moving shaft (21) is arranged at the top of a piston rod (18-1) of the hydraulic rod (18), the moving shaft (21) is wedged in the groove (20), the lower end of the support rod (19) is connected with the base, and the upper end of the support rod is hinged to the connecting frame (2).
3. 3. Glass particle screening machine according to claim 1, characterized in that the frame (6) and the screening frame (7) are open at their ends.
4. 4. Glass particle screening machine according to claim 1, characterized in that the screening device is arranged at the end of the connecting frame (2) and parallel to the connecting frame (2).
5. 5. The glass particle screening machine according to claim 1, wherein the cams (9) are arranged on the shaft (8) at equal intervals.
6. 6. Glass particle screening machine according to claim 1, characterized in that a pulley (17) with a locking mechanism is arranged under the base (1).

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