CN210557965U - Glass plate conveying device - Google Patents

Abstract

A glass plate conveying device is provided, which can convey a discarded glass plate without causing clogging, can finely crush the conveyed glass plate into glass pieces, and can increase the amount of the glass pieces which can be recovered in a recovery container. The disclosed device is provided with: a horizontal conveying unit (2) that conveys a belt-shaped glass sheet (G) in a horizontal posture; and a direction changing section (3) provided on the downstream side of the horizontal conveyance section (2) in the conveyance direction for changing the conveyance direction of the glass sheet (G) to the vertical direction, wherein a grip conveyance section (4) is further provided between the horizontal conveyance section (2) and the direction changing section (3), the grip conveyance section (4) has rollers (7, 7) which are a pair of grip members for gripping the glass sheet (G) in the vertical direction, and the grip conveyance section (4) conveys the glass sheet (G) toward the direction changing section (3) while gripping the glass sheet (G) by the rollers (7, 7).

Description

Glass plate conveying device

Technical Field

The utility model relates to a glass plate conveying device. More specifically, the present invention relates to a glass plate conveying apparatus for conveying a glass plate into a small-piece-shaped glass sheet to a collection container.

Background

In general, in a process for producing a glass product, glass flakes crushed into small pieces together with a powdery glass raw material are prepared at a predetermined ratio and placed in a glass melting furnace.

The glass sheet is added to a glass melting furnace in order to facilitate melting of glass raw materials and maintain the quality of a final glass product, and, for example, in a cutting step of cutting a glass plate into a predetermined size, the glass plate discarded as an unnecessary portion is crushed into a suitable size to form a glass sheet, and the glass sheet is conveyed to a collection container. The glass sheet conveyed to the collection container is packed, transported to a predetermined position, and mixed with a powdery glass material for reuse.

The following are known: in a glass plate conveying apparatus for crushing a discarded glass plate into a suitable size to form a glass sheet and conveying the glass sheet to a collection container, a portion for horizontally conveying the glass plate is higher than a portion where the collection container is disposed, and a portion for guiding the glass plate while crushing the glass plate when the glass plate is dropped from a downstream end of the portion for horizontally conveying the glass plate to the collection container is provided (for example, patent document 1).

Prior art documents

Patent document

Patent document 1: japanese patent laid-open publication No. 2002-059025

SUMMERY OF THE UTILITY MODEL

Problem to be solved by utility model

When the glass plate cut and discarded in the cutting step is directly dropped into the collection container, large fragments remain, and the volume of the collection container is immediately filled. Therefore, the number of times of transporting the glass sheets collected in the collection container increases, and the amount of work increases. Further, when the glass sheet cut and discarded in the cutting step is directly dropped into the collection container, there is a possibility that the broken pieces of the glass sheet may be clogged in the middle.

In view of the above-described problems, the present invention provides a glass sheet conveying apparatus capable of conveying a discarded glass sheet without causing clogging, finely crushing the conveyed glass sheet into glass pieces, and increasing the amount of glass pieces that can be recovered in a recovery container.

Means for solving the problems

The above is the problem to be solved by the present invention, and means for solving the problem will be described next.

That is, in the present invention, the glass plate conveying apparatus includes:

a horizontal conveyance unit that conveys a belt-shaped glass plate in a horizontal posture; and

a direction converting section provided on a downstream side in a conveying direction of the horizontal conveying section for converting the conveying direction of the glass plate to a vertically lower direction,

a clamping conveying part is also arranged between the horizontal conveying part and the direction conversion part,

the clamping and conveying part comprises a pair of clamping components for clamping the glass plate in the vertical direction,

the clamping and conveying section conveys the glass sheet toward the direction changing section while clamping the glass sheet by the clamping member.

In the present invention, the pair of gripping members is constituted by a pair of rollers disposed to face each other in the vertical direction.

In the present invention, the pair of holding members disposed at the upper side are provided so as to be movable up and down along the glass plate to be held.

The present invention is directed to the above-described configuration, wherein the holding and conveying section further includes a biasing member for biasing the holding member upward.

The present invention is directed to the above-described object, and a dust collecting device for collecting dust around the pair of holding members is further provided in the holding and conveying section.

The present invention is directed to a direction changing unit having a dust collecting device for collecting dust around the glass plate, the dust collecting device being adapted to change a conveying direction.

The present invention is directed to a glass plate conveying apparatus, which comprises a crushing device disposed on a downstream side of a conveying direction of a direction changing section for crushing a glass plate.

In the present invention, the crushing apparatus has a pair of rotating members rotatable about axes disposed in parallel to each other,

each of the rotary members is provided with an extending member extending radially about the axial center.

In the present invention, the crushing apparatus has a pair of rotating members rotatable about axes disposed in parallel to each other,

each of the rotating members is provided with a plurality of protrusions protruding in a radial direction.

The present invention is directed to the above-described grinding device, and the grinding device further includes a dust collecting device for collecting dust around the pair of rotary members.

Effect of the utility model

As the effect of the present invention, the following effect is exhibited.

The present invention is directed to a glass sheet conveying apparatus that conveys a glass sheet by a horizontal conveying section by a clamping conveying section, and that can reliably guide the glass sheet to a direction changing section while preventing clogging.

Further, according to the present invention, the glass sheet can be continuously held and reliably guided to the direction changing portion by the rotation of the roller serving as the holding member.

Further, in the present invention, since the roller serving as the holding member moves to the upper side when holding the glass sheet, the glass sheet can be reliably guided to the direction changing portion while continuously holding the glass sheet by the weight of the roller.

Further, the present invention can adjust the force for clamping the glass plate by applying upward force to the clamping member by the urging member while clamping the glass plate by the weight of the clamping member.

In addition, in the present invention, the glass frit accumulated on the downstream side of the clamping and conveying unit can be removed.

In addition, in the present invention, the scattered glass frit can be removed in the direction changing portion.

Further, in the present invention, since the discarded glass sheet can be broken before falling into the collection container, the glass sheet becomes a fine glass piece, and the amount of glass sheet collected into the collection container increases. Therefore, the frequency of bagging work and transportation work can be reduced.

In the present invention, the glass plate can be finely broken into glass pieces by the plurality of extension members.

In the utility model, the glass plate can be finely broken into glass sheets through the plurality of protrusions.

The utility model discloses in, can get rid of the glass powder that flies apart in reducing mechanism.

Drawings

Fig. 1 is a side view showing an overall structure of a glass plate conveying apparatus according to an embodiment of the present invention.

Fig. 2 is a side view showing a structure of a grip conveying unit according to an embodiment of the present invention.

Fig. 3 is a side view showing a structure of a crusher including blades according to an embodiment of the present invention.

Fig. 4 is a plan view of a crusher including projections according to an embodiment of the present invention.

Fig. 5 is a side view showing the overall structure of a glass plate conveying apparatus according to a second embodiment of the present invention.

Fig. 6 is a side view showing the overall structure of a glass plate conveying apparatus according to a third embodiment of the present invention.

Description of reference numerals:

1 glass plate conveying device

2 horizontal conveying part

3 direction conversion part

4 clamping and conveying part

5 recovery container

6 crusher (crushing device)

7 roller (holding component)

9 force applying component

16 rotating member

17 blade (extension component)

18 projection

19 dust collecting device

31 dust collecting device

41 dust collecting means.

Detailed Description

Next, embodiments of the present invention will be described.

Fig. 1 is a diagram showing a glass plate conveying apparatus according to an embodiment of the present invention.

As shown in fig. 1, the glass plate conveying apparatus 1 includes a horizontal conveying section 2, a direction switching section 3, a clamping conveying section 4, and a collection container 5. As shown in fig. 1, the glass sheets G after being discarded are sequentially conveyed to the horizontal conveying section 2, the direction switching section 3, and the collection container 5.

In the glass sheet conveying apparatus 1, the glass sheet G is cut in the cutting step and is conveyed as an unnecessary portion to be discarded. The discarded glass sheet G is a strip-shaped sheet. As shown in fig. 1, the belt-like glass sheet G is conveyed to the downstream side in a horizontal posture by the horizontal conveying section 2. The glass sheet G conveyed to the downstream side is further conveyed to the downstream side while being nipped by the nip conveying section 4. The glass sheet G conveyed to the downstream side is conveyed to the direction changing section 3. In the direction changing section 3, the conveying direction of the discarded glass sheet G is changed from the horizontal direction to the downward direction.

The glass sheet G (dropped) conveyed downward is conveyed to a crusher 6 as a crushing apparatus. The glass sheet G crushed by the crusher 6 becomes a glass sheet MG and is collected in the collection container 5.

The horizontal conveyance unit 2 is provided as an example of a conveyance mechanism for conveying the discarded glass sheets G generated in the cutting step to a predetermined portion where the collection container 5 is disposed in a horizontal posture. The structure of the horizontal conveying section 2 is not particularly limited as long as it is a conveyor capable of conveying a plate-like material, such as a belt conveyor or a roller conveyor.

The direction changing unit 3 is disposed on the downstream end of the horizontal conveying unit 2 in the conveying direction. The direction converting section 3 is a mechanism for converting the conveying direction of the glass sheet G to a vertically downward direction by the falling of the glass sheet G due to its own weight, and has a starting end portion 3a extending in the horizontal direction and a lower end portion 3b as a terminal end portion opening downward.

The nip conveying section 4 is provided at a downstream end of the horizontal conveying section 2 in the conveying direction and at an upstream end of the direction changing section 3. The nip conveyor 4 is a conveyor mechanism that feeds the glass sheet G to the direction switching section 3, and includes rollers 7, 7 as a pair of nip members that are arranged to face each other in the vertical direction and nip the glass sheet G in the vertical direction. The upper roller 7 and the lower roller 7 are normally disposed without a gap therebetween. The upper roller 7 is disposed so as to be movable in the vertical direction along the glass sheet G, and when the glass sheet G is nipped, the upper roller 7 moves upward in accordance with the thickness of the glass sheet G. The rollers 7 and 7 have shafts extending in a direction orthogonal to the conveying direction of the horizontal conveying section 2, and driven pulleys 7a and 7a are provided at side end portions of the shafts.

Further, a biasing member 9 for biasing the upper roller 7 upward is attached to the upper roller 7. The biasing member 9 is a biasing mechanism that biases the upper roller 7 upward by an elastic force, and is formed of a spring in the present embodiment. The biasing force of the biasing member 9 is smaller than the load due to the weight of the upper roller 7.

As shown in fig. 2, a motor 8 as a driving source is provided above the nip conveyor 4. The motor 8 has a motor shaft 8a, and a motor pulley 8b is fixed to the motor shaft 8 a.

The motor pulley 8b is coupled to a drive pulley 11a provided on the first transmission shaft 11 via a belt, and a first gear 11b is provided on the same shaft as the drive pulley 11 a. The first gear 11b meshes with a second gear 12a provided on the second transmission shaft 12. The first transmission shaft 11 is a shaft disposed to transmit power to the lower roller 7, and a first transmission pulley 11c is provided in a middle portion of the first transmission shaft 11. The second transmission shaft 12 is a shaft disposed to transmit power to the upper roller 7, and a second transmission pulley 12b is provided in a middle portion of the second transmission shaft 12.

The first transmission pulley 11c and the driven pulley 7a are coupled via a belt. Further, a pulley 14 for applying tension to the belt is disposed between the first transmission pulley 11c and the driven pulley 7 a.

The second transmission pulley 12b and the driven pulley 7a are coupled via a belt. Further, a pulley 14 for applying tension to the belt is disposed between the second transmission pulley 12b and the driven pulley 7 a.

With this configuration, the rotation directions of the rollers 7 and 7 of the nip transport section 4 are different from each other in a side view. That is, the glass sheet G is rotated so as to be conveyed from the upstream side to the downstream side. With this configuration, the glass sheet G can be conveyed toward the direction switching section 3 while being nipped by the rollers 7 and 7.

A collection container 5 is disposed at the lower end of the direction changing portion 3. The collection container 5 is disposed with its upper end open just below the direction converter 3.

Specifically, the recovery container 5 is disposed in a state in which the upper surface door 5a of the container body is opened and the mouth of the flexible bulk bag 13 is opened while facing upward. Thereby, the small sheet-like glass sheets MG dropped from the direction changing portion 3 are reliably dropped into the collection container 5 (more specifically, the flexible container bag 13) and stored.

Next, the crusher 6 as a crushing apparatus will be described.

The crusher 6 is disposed between the lower end of the direction changing portion 3 and the upper end of the collection container 5, and is provided as an example of a crushing device for crushing glass sheets G having various sizes into glass pieces MG, and for crushing large pieces of the glass sheets G into the glass pieces MG further finely when the glass sheets G fall from the direction changing portion 3 toward the collection container 5, for example.

The crusher 6 includes a pair of rotating members 16 rotatable about axial centers arranged in parallel with each other.

Here, the pair of rotating members 16 are cylindrical members. As shown in fig. 3, the rotary member 16 has blades 17 as a plurality of extension members. The plurality of blades 17 are long plates having an axial direction as a longitudinal direction, and extend radially with an axial center as a center. Further, the flange 16a protruding outward from the main body of the rotary member 16 and the blade 17 are fixed by screws or the like.

Two rotary members 16 are provided, and the rotation directions thereof are opposite to each other. Further, the blades 17 of the rotary member 16 are arranged so as not to contact each other during rotation.

The shaft of the rotating member 16 is coupled to a motor, not shown, and the rotating member 16 is driven to rotate by the motor.

The glass sheet G is sheared between the blades 17 of the two rotary members 16 or between the outer peripheral surface of the rotary member 16 and the blades 17, and broken into glass pieces MG.

As shown in fig. 4, the rotary member 16 may have a plurality of projections 18. The plurality of projections 18 are cylindrical members and project in the radial direction from the outer peripheral surface of the main body of the rotary member 16.

Two rotary members 16 are provided, and the rotation directions thereof are opposite to each other. In addition, the projections 18 of the rotary member 16 are arranged so as not to contact each other during rotation.

The shaft of the rotating member 16 is coupled to a motor, not shown, and the rotating member 16 is driven to rotate by the motor.

The glass sheet G is broken into glass pieces MG by colliding with the projections 18 of the pair of rotary members 16.

Next, the dust collecting device 19 will be described.

The dust collecting device 19 is disposed around the crusher 6, and is provided as an example of a dust collecting mechanism for collecting dust floating around the pair of rotary members 16, for example, for collecting dust raised when the glass pieces MG are crushed by the crusher 6.

The dust collecting device 19 is composed of a commercially available dust collector 20, a passage pipe 21 connected to the dust collector 20, and the like.

The front end of the duct tube 21 is connected to a side surface of a space around the crusher 6.

In this way, in the present embodiment, the end of the passage pipe 21 is connected to the side surface of the space around the crusher 6, and therefore dust can be collected in the space.

[ order of recovery actions ]

Next, a description is given of a procedure of the collecting operation of collecting the glass sheet G in the collecting container 5 by the glass plate conveying apparatus 1.

The recovery container 5 is disposed immediately below the direction changing portion 3 in a state where the mouth of the flexible container 13 is opened while facing upward.

The dust collecting device 19 is in an operating state, and the space between the direction converting unit 3 and the collecting container 5 is always in a dust-collected state.

In such a situation, the glass sheet G conveyed by the horizontal conveying section 2 is conveyed toward the direction changing section 3 by the nip conveying section 4 provided at the downstream end of the horizontal conveying section 2. The rollers 7 of the nip conveying section 4 rotate in the direction of conveying the glass sheet G to the direction changing section 3, and the glass sheet G nipped by the rollers 7 is conveyed to the direction changing section 3 while being nipped by the upper and lower rollers 7. The upper roller 7 is disposed so as to be capable of changing its position in the vertical direction. Therefore, when the glass sheet G is nipped between the rollers 7 and 7, the upper roller 7 nips the glass sheet G while moving in the vertical direction due to the thickness of the glass sheet G in the vertical direction. Further, an upper biasing force acts on the upper roller 7. Therefore, the upper roller 7 is urged against the lower force by its own weight, and can move in the vertical direction without interfering with the conveyance of the glass sheet G.

The glass sheet G falls downward through the direction changing portion 3. The glass sheet G is crushed into glass pieces MG by the crusher 6 disposed between the lower end of the direction changing portion 3 and the upper end of the recovery container 5.

When the glass pieces MG are crushed by the crusher 6, the dust is collected by the dust collection device 19 in the space around the crusher 6, and therefore there is no case where the dust flies out to the periphery of the collection container 5 to deteriorate the working environment.

The glass sheets MG after being crushed by the crusher 6 are gradually stored in the flexible container bag 13 of the recovery container 5.

When the amount of the glass sheets G stored in the flexible container bag 13 reaches a predetermined amount and the flexible container bag 13 becomes a filled state, the flexible container bag 13 is replaced with another flexible container bag 13 in an empty state by, for example, the hand of the operator.

[ second embodiment ]

In another embodiment, as shown in fig. 5, a dust collecting device 31 may be provided around the nip conveyor 4. The same components as those of the glass sheet conveying apparatus 1 according to the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

The dust collecting device 31 is provided as an example of dust collecting means for collecting dust floating around the pair of clamping members, and is used for collecting dust raised when the glass sheet G is conveyed by the clamping and conveying section 4, for example.

The dust collector 31 is composed of a commercially available dust collector 32, a passage pipe 33 connected to the dust collector 32, and the like.

The distal end of the passage tube 33 is connected to the upper surface of the wall surrounding the periphery of the clamp conveying unit 4.

In this way, in the present embodiment, the end portion of the passage pipe 33 is connected to the upper surface of the wall portion, and therefore, dust existing around the nip conveyor 4 can be collected.

[ third embodiment ]

In another embodiment, as shown in fig. 6, a dust collecting device 41 may be provided around the direction conversion unit 3. The same components as those of the glass sheet conveying apparatus 1 according to the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

The dust collecting device 41 is provided as an example of a dust collecting mechanism for collecting dust floating around the glass sheet G whose conveying direction is switched in the direction switching section 3, and is used to collect dust that is raised when the glass sheet G moves in the direction switching section 3.

The dust collecting device 41 includes a commercially available dust collector 42, a passage pipe 43 connected to the dust collector 42, and the like.

The tip end of the duct tube 43 is connected to the upper surface of the wall portion surrounding the periphery of the direction converter 3.

In this way, in the present embodiment, the end portion of the duct pipe 43 is connected to the upper surface of the wall portion, and therefore dust existing around the direction conversion portion 3 can be collected.

The glass plate conveying apparatus 1 may be provided with any one of the dust collecting device 19, the dust collecting device 31, and the dust collecting device 41, or may be provided with any two or more of these.

As described above, the present invention relates to a glass sheet conveying apparatus 1 including: a horizontal conveyance unit 2 that conveys a belt-like glass sheet G in a horizontal posture; and a direction changing section 3 provided on the downstream side of the horizontal conveying section 2 in the conveying direction for changing the conveying direction of the glass sheet G to a vertically downward direction, and a nipping and conveying section 4 provided between the horizontal conveying section 2 and the direction changing section 3, the nipping and conveying section 4 having a pair of nipping members, i.e., rollers 7, 7 for nipping the glass sheet G in the vertical direction, and conveying the glass sheet G toward the direction changing section 3 while nipping the glass sheet G by the rollers 7, 7.

With this configuration, the glass sheet G conveyed by the horizontal conveying section 2 is conveyed while being held by the holding and conveying section 4, and thus the glass sheet G can be reliably guided to the direction changing section 3 while preventing the glass sheet G from being jammed in the direction changing section 3. Further, by rotating the rollers 7 and 7 as the nipping members, the glass sheet G can be reliably guided to the direction switching portion 3 while continuously nipping the glass sheet G.

Of the pair of rollers 7 and 7, the roller 7 disposed on the upper side is provided so as to be movable up and down along the glass sheet G to be nipped.

With this configuration, the glass sheet G can be reliably guided to the direction changing portion 3 while being continuously nipped by the weight of the upper roller 7.

The nip-conveying section 4 further includes a biasing member 9 for biasing the roller 7 disposed on the upper side upward.

With this configuration, the glass sheet G can be nipped by the weight of the roller 7, and the force for nipping the glass sheet G can be adjusted by biasing the roller 7 upward by the biasing member 9.

The nip conveyor 4 further includes a dust collector 31 for collecting dust around the pair of rollers 7, 7.

With this configuration, the glass frit accumulated on the downstream side of the nip conveyor 4 can be removed.

The direction converting unit 3 further includes a dust collecting device 41 for collecting dust around the glass plate G whose conveying direction is converted.

With this configuration, the scattered glass frit can be removed in the direction converter 3.

The glass sheet cutting device further includes a crusher 6 disposed downstream of the direction switching unit 3 in the conveying direction and serving as a crushing device for crushing the glass sheets G.

With this configuration, the glass sheets G that have been discarded can be broken before dropping into the collection container 5, and therefore the glass sheets G become fine glass pieces MG and the amount of glass pieces collected into the collection container 5 increases. Therefore, the frequency of bagging work and transportation work can be reduced.

The crusher 6 has a pair of rotary members 16 rotatable about an axial center disposed in parallel with each other, and each of the rotary members 16 is provided with blades 17 as extension members extending radially about the axial center.

With this configuration, the glass sheet G is sheared and broken into the glass pieces MG between the blades 17 of the two rotary members 16 and the blades 17, or between the outer peripheral surface of the rotary member 16 and the blades 17.

The crusher 6 has a pair of rotary members 16 rotatable about axial centers disposed in parallel with each other, and each rotary member 16 is provided with a plurality of projections 18 projecting in the radial direction.

With this configuration, the glass sheet G is broken into the glass pieces MG by colliding with the projections 18 of the two rotary members 16.

The crusher 6 further includes a dust collecting device 19 for collecting dust around the pair of rotary members 16.

With this configuration, the scattered glass frit can be removed by the crusher 6.

Industrial applicability

The utility model discloses can utilize in glass board conveyor's technique.

Claims (10)

1. A glass plate conveying device is characterized in that,

the glass plate conveying device is provided with:

a horizontal conveyance unit that conveys a belt-shaped glass plate in a horizontal posture; and

a direction converting section provided on a downstream side in a conveying direction of the horizontal conveying section for converting the conveying direction of the glass plate to a vertically lower direction,

a clamping conveying part is also arranged between the horizontal conveying part and the direction conversion part,

the clamping and conveying part comprises a pair of clamping components for clamping the glass plate in the vertical direction,

the clamping and conveying section conveys the glass sheet toward the direction changing section while clamping the glass sheet by the clamping member.

2. The glass sheet conveying apparatus according to claim 1,

the pair of nip members is constituted by a pair of rollers disposed to face each other in the vertical direction.

3. The glass sheet conveying apparatus according to claim 1 or 2,

the clamping member disposed on the upper side of the pair of clamping members is provided to be capable of moving up and down along the glass plate to be clamped.

4. The glass sheet conveying apparatus according to claim 3,

the holding and conveying unit further includes a biasing member for biasing the holding member disposed on the upper side upward.

5. The glass sheet conveying apparatus according to claim 1 or 2,

the clamping conveying part is also provided with a dust collecting device for collecting dust around the pair of clamping components.

6. The glass sheet conveying apparatus according to claim 1 or 2,

the direction conversion part is also provided with a dust collecting device for collecting dust around the glass plate with the converted conveying direction.

7. The glass sheet conveying apparatus according to claim 1 or 2,

the glass plate conveying device further includes a crushing device disposed downstream of the direction switching unit in the conveying direction for crushing the glass plate.

8. The glass sheet conveying apparatus according to claim 7,

the crushing device comprises a pair of rotating members capable of rotating around an axis arranged in parallel with each other,

each of the rotary members is provided with an extending member extending radially about the axial center.

9. The glass sheet conveying apparatus according to claim 7,

the crushing device comprises a pair of rotating members capable of rotating around an axis arranged in parallel with each other,

each of the rotating members is provided with a plurality of protrusions protruding in a radial direction.

10. The glass sheet conveying apparatus according to claim 8 or 9,

the crushing device is also provided with a dust collecting device for collecting dust around the pair of rotating members.

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