CN213568013U - Feeding device for producing high borosilicate glass discs - Google Patents

Abstract

The utility model discloses a feedway for producing borosilicate glass dish relates to borosilicate glass dish production technical field. The utility model comprises a feeding and mixing hopper and a conveying device; the feeding mixing hopper is in a cylindrical pipe cavity shape with two ends blocked; an inlet pipe and an outlet pipe are respectively communicated and installed on two sides of the feeding and mixing hopper; a rotary feeding structure is arranged in the inner cavity of the feeding and mixing hopper; the rotary feeding structure comprises a rotating shaft and a stirring blade; the rotating shaft is rotatably arranged on the inner wall of the feeding and mixing hopper with the same axis; a plurality of stirring blades are uniformly distributed on the periphery of the rotating shaft. The utility model discloses a rotation of servo motor drives the rotation of rotation axis and drive roll respectively, and then drives a plurality of arc limiting plates and dials out the outlet pipe when mixing the raw materials, and the conveyer belt is carried the raw materials of dialling out under the drive of drive roll; simultaneously, through the extension or the shortening of second electric telescopic handle, adjust the height of conveyer belt structure, and then adapt to the pay-off of co-altitude not, convenient practicality.

Description

Feeding device for producing high borosilicate glass discs

Technical Field

The utility model belongs to the technical field of borosilicate glass dish production, especially, relate to a feedway for producing borosilicate glass dish.

Background

In the high borosilicate glass disk forming process, the feed raw materials are the same as those for producing the high borosilicate glass. When the high-boric acid glass production line is used for feeding, raw materials need to be primarily mixed uniformly and then conveyed into production and processing equipment. Meanwhile, in many cases, after the feeding device is installed, the height of the feeding device cannot be adjusted, so that the tail end of feeding cannot adapt to feeding at different heights, and inconvenience is brought to production.

In order to solve the problem, the utility model provides a feedway for producing borosilicate glass dish.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a feedway for producing borosilicate glass dish for solve the technical problem who provides in the background art.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model discloses a feedway for producing borosilicate glass dish, include: a feeding and mixing hopper and a conveying device;

the feeding mixing hopper is in a cylindrical pipe cavity shape with two ends blocked; an inlet pipe and an outlet pipe are respectively communicated and installed on two sides of the feeding and mixing hopper; a rotary feeding structure is arranged in the inner cavity of the feeding and mixing hopper;

the rotary feeding structure comprises a rotating shaft and a stirring blade; the rotating shaft is rotatably arranged on the inner wall of the feeding and mixing hopper coaxially; a plurality of stirring blades are uniformly distributed on the periphery of the rotating shaft;

the conveying device is a conveying belt structure; a driving roller of the conveying belt structure is rotatably arranged on the supporting frame; the driven roller of the conveying belt structure is rotatably arranged on the telescopic frame; the support frame comprises a first H-shaped frame; a transverse plate is arranged on the side surface of the top of the side plate of the first H-shaped frame; the transverse plate is connected with the feeding and mixing hopper through a screw; a rotating shaft of the driving roller is rotatably arranged between the two side plates of the first H-shaped frame; two ends of the rotating shaft penetrate through the feeding and mixing hopper and are installed between the two side plates of the first H-shaped frame in a transmission manner;

one end of the rotating shaft, which penetrates through the first H-shaped frame side plate, is coaxially and fixedly provided with a first belt pulley; a rotating shaft of the driving roller penetrates through one end of the first H-shaped frame side plate and is fixedly provided with a second belt pulley coaxially; the first belt pulley is in driving connection with the second belt pulley through a belt; the second belt pulley is connected with the output end of the servo motor; the servo motor is fixedly installed on the supporting plate, and the supporting plate is fixed on the side face of the first H-shaped frame side plate.

As a preferred technical scheme, a flow limiting structure is arranged on the feeding and mixing hopper; the flow limiting structure comprises an arc limiting plate and a first electric telescopic rod; a strip-shaped sliding hole is formed at the joint of the feeding and mixing hopper and the outlet pipe; one end of the arc limiting plate penetrates through the strip-shaped sliding hole in a sliding mode, and the other end of the arc limiting plate is hinged with the output end of the first electric telescopic rod; the first electric telescopic rod is hinged to the outer surface of the inlet pipe.

As a preferred technical scheme, the edges of two ends of the outer side surface of the feeding and mixing hopper are coaxially fixed with arc-shaped limiting eave strips; an arc-shaped limiting sliding hole is formed in the side surface of the arc-shaped limiting eave strip; the fixed sliding blocks at the two ends of the arc limiting plate are correspondingly and slidably mounted in the arc limiting sliding holes.

As a preferred technical scheme, a through hole is formed in the side surface of the transverse plate; a plurality of thread grooves are formed at two end parts of the feeding and mixing hopper; the plurality of thread grooves are distributed in an arc shape; one end of the screw penetrates through the through hole to be in threaded connection with the thread groove.

As a preferred technical scheme, the poking blade is arc-shaped plate-shaped; and a plurality of arc-shaped strip holes which are parallel to each other are uniformly distributed on the side surface of the stirring blade.

As a preferable technical solution, the telescopic frame comprises a second H-shaped frame, a third H-shaped frame and a second electric telescopic rod; the driven rollers are rotatably arranged between the two side rods of the second H-shaped frame; vertical sliding grooves are formed in the tops of the rods on the two sides of the third H-shaped frame; the side rod of the second H-shaped frame is correspondingly and slidably arranged in the vertical sliding groove; a second electric telescopic rod is fixed on the cross rod of the third H-shaped frame; the output end of the second electric telescopic rod is hinged to the output end of the third H-shaped frame; and the side bottom of the second H-shaped frame is connected with the inner bottom of the vertical chute through a spring.

The utility model discloses an aspect has following beneficial effect:

1. the utility model discloses a rotation of servo motor drives the rotation of rotation axis and drive roll respectively, and then drives a plurality of arc limiting plates and dials out the outlet pipe when mixing the raw materials, and the conveyer belt is carried the raw materials of dialling out under the drive of drive roll; simultaneously, through the extension or the shortening of second electric telescopic handle, adjust the height of conveyer belt structure, and then adapt to the pay-off of co-altitude not, convenient practicality.

2. The utility model drives the arc limiting plate to plug the outlet pipe through the expansion of the first electric telescopic rod, thereby realizing the convenient control of the flow velocity of the outlet pipe; meanwhile, the mixing time of the raw materials in the feeding and mixing hopper is ensured, and the mixing degree is improved; the plugging degree of the arc limiting plate to the outlet pipe can be adjusted according to the requirement of primary uniform mixing.

3. The stirring blade of the utility model is arc-shaped plate-shaped; a plurality of arc-shaped strip holes which are parallel to each other are uniformly distributed on the side surface of the stirring blade; dial the movable vane and not only can realize dialling out the raw materials, simultaneously, can guarantee the preliminary mixing of raw materials, the effect in arc hole increases preliminary mixing effect.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

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

FIG. 1 is a schematic structural view of a feeding device for producing high borosilicate glass disks according to the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

fig. 4 is a schematic structural view of the present invention without installing the arc-shaped limiting plate and the servo motor;

in the drawings, the components represented by the respective reference numerals are listed below:

1-feeding mixing hopper, 11-inlet pipe, 12-outlet pipe, 131-rotating shaft, 132-stirring blade, 133-arc strip hole, 21-first H-shaped frame, 22-transverse plate, 221-screw, 222-through hole, 223-thread groove, 31-first belt pulley, 32-second belt pulley, 33-belt, 34-servo motor, 341-supporting plate, 41-arc limiting plate, 411-sliding block, 42-first electric telescopic rod, 43-strip sliding hole, 44-arc limiting eave strip, 441-arc limiting sliding hole, 51-second H-shaped frame, 52-third H-shaped frame and 53-second electric telescopic rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "open hole", "upper", "middle", "length", "inner", etc. indicate positional or orientational relationships and are merely for convenience of description and simplicity of description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Referring to fig. 1-4, the present invention provides a feeding device for producing high borosilicate glass discs, comprising: a feeding and mixing hopper 1 and a conveying device; the feeding mixing hopper 1 is in a cylindrical pipe cavity shape with two ends blocked; an inlet pipe 11 and an outlet pipe 12 are respectively communicated and installed on two sides of the feeding and mixing hopper 1; in particular, the inlet duct 11 is inclined upwards and the outlet duct 12 is inclined downwards, with the outlet duct 12 being located above the conveyor structure; a rotary feeding structure is arranged in the inner cavity of the feeding and mixing hopper 1; the rotary feeding structure comprises a rotating shaft 131 and a stirring blade 132; the rotating shaft 131 is coaxially and rotatably arranged on the inner wall of the feeding mixing hopper 1; a plurality of stirring blades 132 are uniformly distributed on the periphery of the rotating shaft 131; specifically, the toggle blade 132 is arc-shaped plate-shaped; a plurality of arc-shaped strip holes 133 which are parallel to each other are uniformly distributed on the side surface of the stirring blade 132; when the stirring device is actually used, the stirring blade 132 can be used for stirring out raw materials, primary mixing of the raw materials can be guaranteed, and the primary mixing effect is increased due to the action of the arc-shaped strip holes 133;

in addition, a flow limiting structure is arranged on the feeding mixing hopper 1; the flow limiting structure comprises an arc limiting plate 41 and a first electric telescopic rod 42; a strip-shaped sliding hole 43 is formed at the joint of the feeding and mixing hopper 1 and the outlet pipe 12; one end of the arc limiting plate 41 penetrates through the strip-shaped sliding hole 43 in a sliding mode, and the other end of the arc limiting plate is hinged with the output end of the first electric telescopic rod 42; the first electric telescopic rod 42 is hinged on the outer surface of the inlet pipe 11; specifically, the edges of two ends of the outer side surface of the feeding mixing hopper 1 are coaxially fixed with arc-shaped limiting eave strips 44; an arc-shaped limiting sliding hole 441 is formed in the side surface of the arc-shaped limiting eave strip 44; the fixed sliding blocks 411 at the two ends of the arc limiting plate 41 are correspondingly and slidably arranged in the arc limiting sliding holes 441; when the device is actually used, the arc limiting plate 41 is driven to plug the outlet pipe 12 through the extension and retraction of the first electric telescopic rod 42, so that the flow rate of the outlet pipe 12 can be conveniently controlled; meanwhile, the mixing time of the raw materials in the feeding mixing hopper 1 is ensured, and the mixing degree is improved; specifically, the plugging degree of the arc limiting plate 41 to the outlet pipe 12 can be adjusted according to the requirement of primary mixing;

the conveying device is a conveying belt structure; a driving roller of the conveying belt structure is rotatably arranged on the supporting frame; the driven roller of the conveying belt structure is rotatably arranged on the telescopic frame; the support frame comprises a first H-shaped frame 21; a transverse plate 22 is arranged on the side surface of the top of the side plate of the first H-shaped frame 21; the transverse plate 22 is connected with the feeding mixing hopper 1 through a screw 221; a rotating shaft of the driving roller is rotatably arranged between the two side plates of the first H-shaped frame 21; the two ends of the rotating shaft 131 penetrate through the feeding mixing hopper 1 and are installed between the two side plates of the first H-shaped frame 21 in a transmission manner;

a first belt pulley 31 is coaxially and fixedly installed at one end of the rotating shaft 131 penetrating through the side plate of the first H-shaped frame 21; a rotating shaft of the driving roller penetrates through one end of the side plate of the first H-shaped frame 21 and is fixedly provided with a second belt pulley 32 coaxially; the first belt pulley 31 is in driving connection with the second belt pulley 32 through a belt 33; the second belt pulley 32 is connected with the output end of the servo motor 34; the servo motor 34 is fixedly installed on the supporting plate 341 and the supporting plate 341 is fixed on the side of the side plate of the first H-shaped frame 21; during the time use, the rotation through servo motor 34 drives the rotation of rotation axis 131 and drive roll respectively, and then drives a plurality of arc limiting plates 41 and dials out outlet pipe 12 when with the raw materials mixing, and the conveyer belt is carried the raw materials that will dial out under the drive of drive roll, convenient practicality.

For convenience of adjustment, the lateral plate 22 is provided with a through hole 222 on the side; the two end parts of the feeding and mixing hopper 1 are provided with a plurality of thread grooves 223; the plurality of thread grooves 223 are distributed in an arc shape; one end of the screw 221 passes through the through hole 222 and is in threaded connection with the thread groove 223; the screw 221 is matched with the thread groove 223 at different positions to adjust the angle of the feeding mixing hopper 1 to adapt to different conditions.

The telescopic frame comprises a second H-shaped frame 51, a third H-shaped frame 52 and a second electric telescopic rod 53; the driven rollers are rotatably arranged between the two side rods of the second H-shaped frame 51; vertical sliding grooves are formed in the tops of the rods on the two sides of the third H-shaped frame 52; the side rods of the second H-shaped frame 51 are correspondingly and slidably arranged in the vertical sliding grooves; a second electric telescopic rod 53 is fixed on the cross bar of the third H-shaped frame 52; the output end of the second electric telescopic rod 53 is hinged with the output end of the third H-shaped frame 52; the side bottom of the second H-shaped frame 51 is connected with the inner bottom of the vertical chute through a spring; during the in-service use, through the extension or the shortening of second electric telescopic handle 53, adjust the height of conveyer belt structure, and then adapt to the pay-off of co-altitude not, convenient practicality.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. A feedway for producing borosilicate glass dish, its characterized in that includes: a feeding and mixing hopper (1) and a conveying device;

the feeding mixing hopper (1) is in a cylindrical pipe cavity shape with two ends blocked; an inlet pipe (11) and an outlet pipe (12) are respectively communicated and installed on two sides of the feeding and mixing hopper (1); a rotary feeding structure is arranged in the inner cavity of the feeding and mixing hopper (1);

the rotary feeding structure comprises a rotary shaft (131) and a stirring blade (132); the rotating shaft (131) is coaxially and rotatably arranged on the inner wall of the feeding mixing hopper (1); a plurality of stirring blades (132) are uniformly distributed on the periphery of the rotating shaft (131);

the conveying device is a conveying belt structure; a driving roller of the conveying belt structure is rotatably arranged on the supporting frame; the driven roller of the conveying belt structure is rotatably arranged on the telescopic frame; the support frame comprises a first H-shaped frame (21); a transverse plate (22) is arranged on the side surface of the top of the side plate of the first H-shaped frame (21); the transverse plate (22) is connected with the feeding mixing hopper (1) through a screw (221); a rotating shaft of the driving roller is rotatably arranged between the two side plates of the first H-shaped frame (21); two ends of the rotating shaft (131) penetrate through the feeding mixing hopper (1) and are installed between two side plates of the first H-shaped frame (21) in a transmission mode;

one end of the rotating shaft (131) penetrating through the side plate of the first H-shaped frame (21) is coaxially and fixedly provided with a first belt pulley (31); one end of the rotating shaft of the driving roller, which penetrates through the side plate of the first H-shaped frame (21), is coaxially and fixedly provided with a second belt pulley (32); the first belt pulley (31) is in driving connection with the second belt pulley (32) through a belt (33); the second belt pulley (32) is connected with the output end of the servo motor (34); the servo motor (34) is fixedly arranged on the supporting plate (341) and the supporting plate (341) is fixed on the side surface of the side plate of the first H-shaped frame (21).

2. The feeding device for the production of high borosilicate glass disks according to claim 1, characterized in that the feeding and mixing hopper (1) is equipped with flow-limiting structures; the flow limiting structure comprises an arc limiting plate (41) and a first electric telescopic rod (42); a strip-shaped sliding hole (43) is formed at the joint of the feeding and mixing hopper (1) and the outlet pipe (12); one end of the arc limiting plate (41) penetrates through the strip-shaped sliding hole (43) in a sliding mode, and the other end of the arc limiting plate is hinged with the output end of the first electric telescopic rod (42); the first electric telescopic rod (42) is hinged on the outer surface of the inlet pipe (11).

3. The feeding device for producing high borosilicate glass disks according to claim 2, wherein the feeding and mixing hopper (1) has coaxially fixed arc-shaped limiting eaves strips (44) at the edges of the two ends of the outer side surface; an arc-shaped limiting sliding hole (441) is formed in the side surface of the arc-shaped limiting eave strip (44); the fixed sliding blocks (411) at the two ends of the arc limiting plate (41) are correspondingly and slidably mounted in the arc limiting sliding holes (441).

4. The feeding device for the production of high borosilicate glass disks in accordance with claim 1 or 3, characterized in that the transverse plate (22) is provided with through holes (222) on its lateral surface; a plurality of thread grooves (223) are formed at two end parts of the feeding and mixing hopper (1); the plurality of thread grooves (223) are distributed in an arc shape; one end of the screw (221) penetrates through the through hole (222) and is in threaded connection with the threaded groove (223).

5. The feeding device for the production of high borosilicate glass disks according to claim 4, characterized in that said stirring blade (132) is of arc-plate shape; the side surface of the stirring blade (132) is uniformly provided with a plurality of arc-shaped strip holes (133) which are parallel to each other.

6. The feeding device for the production of high borosilicate glass disks according to claim 1 or 5, characterized in that said telescopic frame comprises a second H-shaped frame (51), a third H-shaped frame (52) and a second electric telescopic rod (53); the driven rollers are rotatably arranged between the two side rods of the second H-shaped frame (51); vertical sliding grooves are formed in the tops of the rods on the two sides of the third H-shaped frame (52); the side rods of the second H-shaped frame (51) are correspondingly and slidably arranged in the vertical sliding grooves; a second electric telescopic rod (53) is fixed on the cross bar of the third H-shaped frame (52); the output end of the second electric telescopic rod (53) is hinged to the output end of the third H-shaped frame (52); the side bottom of the second H-shaped frame (51) is connected with the inner bottom of the vertical chute through a spring.

Images