CN110550383A - Conveying device - Google Patents

Abstract

The present invention relates to a conveyor capable of increasing a conveying speed and effectively utilizing energy, the conveyor comprising: a conveyor belt having first teeth formed on an inner circumferential surface thereof; a driving wheel, on the circumferential surface of which a second tooth meshed with the first tooth is formed, for driving the conveying belt; and a support belt group provided within the conveyor belt to support the drive wheel.

Description

Conveying device

Technical Field

The present invention relates to a conveying device capable of improving conveying speed and effectively utilizing energy.

Background

In general, in a process of charging a material such as a low-temperature or high-temperature Slab (Slab), Bloom, Billet (Billet) into a heating furnace, a lot of time is required for the material to be transported and charged.

furthermore, due to the slow speed of material transport, the high temperature material cools during transport. Therefore, reheating the material in the heating furnace further requires time and energy.

Therefore, in order to save the time required for material conveyance and the energy required for reheating, a conveyance device capable of charging a high-temperature material into a heating furnace as quickly as possible is required.

incidentally, the prior art related to the present invention is korean patent laid-open publication No. 1746989.

Disclosure of Invention

Technical problem

In view of the above, the present invention is directed to a conveying apparatus capable of increasing a conveying speed and effectively utilizing energy.

Technical scheme

A conveying apparatus according to an embodiment of the present invention includes: a conveyor belt having first teeth formed on an inner circumferential surface thereof; a driving wheel, on the circumferential surface of which a second tooth meshed with the first tooth is formed, for driving the conveying belt; and a support belt group provided within the conveyor belt to support the drive wheel. Effects of the invention

According to the invention, the conveying speed of the material can be improved, the energy required by conveying can be reduced, and the energy required by reheating the high-temperature material after cooling can also be reduced.

Further, according to the present invention, the throughput can be increased by shortening the conveying time, while the cost can be reduced by effectively utilizing energy.

Drawings

Fig. 1 is a partially cut-away perspective view of a conveyor belt in a conveyor according to one embodiment of the invention.

Fig. 2 is a schematic view of important parts of the transport apparatus shown in fig. 1 according to one embodiment of the present invention.

Detailed Description

The present invention is described in detail below with reference to the accompanying drawings. It should be noted that when reference numerals are used in the drawings, the same reference numerals are used as much as possible for the same members in different drawings. In addition, in the description of the present invention, when it is considered that the detailed description on the related well-known structure or function unnecessarily obscures the gist of the present invention, the detailed description thereof is omitted.

fig. 1 is a partially cut-away perspective view of a conveyor belt in a conveyor according to an embodiment of the invention, and fig. 2 is a schematic view of important parts in the conveyor according to an embodiment of the invention shown in fig. 1.

As shown in the drawings, a conveying apparatus according to an embodiment of the present invention includes: a conveyor belt 10 having first teeth 11 formed on an inner circumferential surface thereof; a driving wheel 20 having a second tooth 21 formed on a circumferential surface thereof to be engaged with the first tooth for driving the conveyor belt; and a support belt set 50 disposed within the conveyor belt to support the drive wheel.

in the conveyor belt 10, the outer peripheral surface, which is the surface in contact with the conveyed object 1, is formed in a flat structure, and the inner surface, which is the inner peripheral surface, may have a plurality of first teeth 11 formed continuously in the vicinity of both side leading ends extending in the traveling direction of the conveyor belt. The first tooth may be integrally formed with the conveyor belt or may be fixed to the conveyor belt by welding or bolting.

such a conveyor belt 10 is preferably made of a material having heat resistance and being strong, such as metal or the like.

A pair of driving wheels 20 may be respectively located at both side front ends extending in the traveling direction of the conveyor belt 10. Further, the drive shaft 22 connecting these drive wheels may be provided extending in a direction at right angles to the traveling direction of the conveyor belt.

As described above, since each of the driving wheels 20 is provided on its circumferential surface with the second teeth 21 which are engaged with the first teeth 11 formed on the inner circumferential surface in the vicinity of both side leading ends of the conveyor belt 10, the conveyor belt is driven.

A driving motor, not shown, may be connected to one side of the driving shaft 22. For the drive motor, it may be connected to the drive shaft through a transmission mechanism such as a speed reducer, a chain, a belt, or directly through a motor shaft. For this reason, the drive shaft may extend further in its length direction (i.e., a direction at right angles to the traveling direction of the conveyor belt) than shown in the drawings.

In addition, a plurality of bearings 23 may be provided on the driving shaft 22 at regular intervals along the length direction of the driving shaft, the bearings 23 appropriately support the weight of the conveying object 1 and the conveying belt 10, and the bearings 23 and the driving shaft may relatively rotate. Due to these bearings, the conveyor belt can smoothly travel even if a heavy conveying object is placed.

The conveying apparatus according to an embodiment of the present invention may further include a plurality of supporting wheel sets 35, the supporting wheel sets 35 including: a pair of support wheels 30 for supporting the inner circumferential surface of the conveyor belt 10; a support shaft 32 for connecting the support wheels; and a plurality of bearings 33 provided on the support shaft at regular intervals.

A plurality of support wheel sets 35 may be provided at appropriate intervals within the conveyor belt 10 in its direction of travel. In this case, the support shaft 32 is provided astride the conveyor belt 10.

the pair of support wheels 30 are provided with third teeth 31 on their circumferential surfaces, which are engaged with the first teeth 11 formed on the inner circumferential surfaces near the front ends of both sides of the conveyor belt 10, and rotated together by the drive of the conveyor belt, like the drive wheel 20.

The plurality of bearings 33 and the support shaft 32 are relatively rotatable, so that the conveyor belt 10 can smoothly travel and support the weight of the conveyed object 1 and the conveyor belt 10.

In order to support the rotation of each support wheel set 35, the support shaft 32 may be further extended in its length direction (i.e., a direction at right angles to the traveling direction of the conveyor belt) than shown in the drawings and supported by a bearing or a bush or the like provided on another bracket.

By providing such a plurality of support wheel sets 35, the conveyor device according to one embodiment of the present invention can support the conveyor belt 10 not to sag, whereby the conveyor belt can be kept running smoothly.

The support band set 50 may include: a support band 52 having a fourth tooth 51 formed on an outer circumferential surface thereof, engaged with the second tooth 21 and supporting the driving wheel 20; and at least one pair of driven pulleys 53 contacting an inner circumferential surface of the support belt, the support belt circulating around the driven pulleys 53.

For example, a pair of support belt groups 50 may be located adjacent to both side leading ends extending in the traveling direction of the conveyor belt 10, respectively.

The support belt 52 is provided on the outer circumferential surface thereof with fourth teeth 51, which are engaged with the second teeth 21 formed on the circumferential surface of the drive wheel 20, like the conveyor belt 10, to be driven by and support the drive wheel.

Further, with such a support belt 52, when the support wheel group 35 is disposed in the conveyor belt 10, it is also possible to engage with the third teeth 31 formed on the circumferential surface of the support wheel 30 and support the support wheel.

The inner sides of the support bands 52, i.e., the front ends of both sides of the driven pulleys 53 at the inner circumferential surfaces thereof, may be formed with ridges 54 for preventing the support bands from falling off.

in order to support the rotation of each support belt set 50, the driven pulley 53 may be supported by a rotation shaft (not shown) rotatably mounted on another bracket provided at the outer side of the conveyor belt 10 and extending therefrom.

In the conveying apparatus according to an embodiment of the present invention, by providing such a support belt set 50, the drive wheel 20 and the support wheel 30 can be supported while power can be transmitted precisely by the engagement of the teeth with the teeth.

A plurality of brackets 40 may be provided on the outer circumferential surface of the conveyor belt at predetermined intervals along the traveling direction of the conveyor belt 10. Each bracket may be fixed to the conveyor belt by welding or bolting, but is not limited thereto.

The bracket 40 may be formed with a sliding pad 41 capable of minimizing a contact area with the transporting object 1. The shape or number of such sliding pads (skidbutton) is not particularly limited in the present invention.

According to the slide block 41, when the transport object 1 is placed on the cradle 40, it is possible to prevent a defect caused by a scratch on the surface of the transport object, and when the transport object is a high-temperature transport object, it is possible to prevent a temperature drop caused by heat transfer to the cradle.

Further, the conveyor according to one embodiment of the present invention may include a shutter 60 formed in a curved shape (substantially in an inverted U-shape) to shield at least a portion of the upper side of the conveyor belt 10.

The shield 60 may be made of a material having high heat reflectivity such as metal, for example, aluminum, but is not limited thereto. For example, after being made of a heat-resistant material, the inner surface may be coated with a heat-insulating coating material having a high heat reflectivity, or the inner surface may be coated with a material having a heat reflectivity.

The lower ends of the two sides of the shield 60 may be disposed on the bottom of the apparatus or another stand higher than the bottom, but are not limited thereto. For example, the lower ends of the two sides may also be provided with means for moving the shutter when servicing the conveyor.

when the conveying device of the present invention conveys the high-temperature conveyed object 1, the shutter 60 prevents the temperature of the conveyed object from decreasing. In particular, since radiant heat possessed by the transport object and heat reflection by the shield are utilized, a temperature drop of the transport object can be prevented without supplying an additional heat source.

Further, in order to avoid deterioration of the shield 60 due to heat of the conveying object 1 and to reduce the amount of deformation of the shield due to thermal expansion of the material, it is also possible to prevent a rapid temperature rise of the shield by air cooling based on an air layer between the inverted U-shaped shield and the conveying object.

The operation of the conveyor according to one embodiment of the invention is briefly described below.

The conveyor belt 10 of the conveyor apparatus according to one embodiment of the invention moves the drive wheel 20 in a caterpillar-type cycle by receiving a driving force from a drive shaft 22 connected to a drive motor. A plurality of bearings 23 mounted on the driving shaft can appropriately support the weight of the conveying object 1 and the conveying belt 10.

The support wheels 30 of the plurality of support wheel sets 35 rotate together with the conveyor belt 10, and the plurality of bearings 33 mounted on the support shafts 32 can support the weight of the conveyed object 1 and the conveyor belt 10.

When the conveyor belt 10 conveys the conveyed object 1, the conveyor belt is supported by the bearing 23 of the drive shaft 22 and the bearing 33 of the support shaft 32, so that the conveyor belt is prevented from sagging due to weight, thereby eliminating a portion of friction, preventing the wear of the conveyor belt, minimizing the external force hindrance caused by the friction, and precisely controlling the driving force and the conveying speed.

Further, since the support wheels 30 of the plurality of support wheel groups 35 support the conveyor belt and the teeth are engaged with each other to rotate, the tension of the conveyor belt 10 driven by the drive wheel 20 can be maintained and the conveyor belt 10 itself does not sag due to the weight of the conveying object 1 and the weight thereof.

Further, by providing the support band set 50, the drive wheel 20 and the support wheel 30 are supported by the support band 52, while power can be transmitted precisely by the engagement of the teeth with the teeth.

The object 1 to be conveyed is conveyed more quickly and stably in the traveling direction of the conveyor belt than in the conventional art, in a state where the object is placed on the plurality of brackets 40 provided on the outer peripheral surface of the conveyor belt 10, particularly, on the slide pads 41 on the brackets capable of minimizing the contact area.

as described above, according to the present invention, the throughput can be increased by increasing the material conveying speed and shortening the material moving time.

In addition, the conveying apparatus according to one embodiment of the present invention blocks thermal energy radiated from the high-temperature conveying object 1 by the shield 60, so that it is possible to prevent the temperature of the conveying object from dropping.

As described above, according to the present invention, energy can be used more efficiently without reheating a high-temperature material, and an effect of reducing cost can be expected.

The technical idea of the present invention is exemplarily described above, and various modifications and variations can be made by those skilled in the art to which the present invention pertains within a scope not departing from the essential characteristics of the present invention. The embodiments disclosed in the specification and drawings are intended to describe the present invention and not to limit the technical idea of the present invention, and the scope of the technical idea of the present invention is not limited by the above-described embodiments. The scope of the invention is indicated in the appended claims, and all technical equivalents that fall within the range of equivalents fall within the range of the claims.

Claims (8)

1. A delivery device, comprising:

A conveyor belt having first teeth formed on an inner circumferential surface thereof;

A driving wheel, on the circumferential surface of which a second tooth meshed with the first tooth is formed, for driving the conveying belt; and

a set of support belts disposed within the conveyor belt to support the drive wheel.

2. The delivery device of claim 1, wherein:

A drive shaft connecting the pair of drive wheels is provided extending in a direction at right angles to the traveling direction of the conveyor belt,

The driving motor is connected to one side of the driving shaft.

3. The delivery device of claim 2, wherein:

The drive shaft is provided with a plurality of bearings at regular intervals along the length direction of the drive shaft.

4. a delivery device according to any one of claims 1 to 3, wherein:

The conveyor also includes a plurality of support wheelsets, the support wheelset includes: a pair of support wheels, the circumferential surface of which is formed with third teeth meshed with the first teeth, for supporting the conveying belt; the supporting shaft is used for connecting the supporting wheel; and a plurality of bearings disposed on the support shaft at certain intervals.

5. a delivery device according to any one of claims 1 to 3, wherein:

The support band group includes:

A support belt having fourth teeth formed on an outer circumferential surface thereof to be engaged with the second teeth and to support the driving wheel; and

At least one pair of driven wheels contacting an inner circumferential surface of the support belt, the support belt circulating around the driven wheels.

6. A delivery device according to any one of claims 1 to 3, wherein:

The conveyor belt includes a plurality of brackets formed on an outer circumferential surface of the conveyor belt to extend in a direction at right angles to a traveling direction of the conveyor belt, for supporting a conveying object.

7. The delivery device of claim 6, wherein:

And a sliding cushion block capable of contacting with the conveying object is formed on the bracket.

8. a delivery device according to any one of claims 1 to 3, wherein:

The conveyor also includes a shield that shields at least a portion of the top of the conveyor belt, the shield comprising a heat reflective material.