CN215477901U - Glass residue conveying device with guide cylinder - Google Patents

Abstract

The utility model relates to a glass slag conveying device with a material guide cylinder, which is characterized by comprising a conveying belt, an oblique material guide cylinder and a rough sweeping roller, wherein the oblique material guide cylinder is of an oblique structure with one high end and the other low end, a material guide inclined hole is formed in the oblique material guide cylinder, a material guide chute is arranged on the upper surface of the oblique material guide cylinder, the material guide chute is consistent with the oblique direction of the material guide inclined hole, the rough sweeping roller is arranged in an upper orifice of the material guide inclined hole, the output end of the conveying belt is arranged in or right above the material guide chute, and the lower half section of the conveying belt is pressed on the circumferential surface of the rough sweeping roller. The glass slag conveying device can automatically strip glass slag stabbed on the conveying belt and automatically complete recovery, and can avoid the occurrence of glass slag below the glass slag conveying device, so that workers do not need to clean the glass slag below the glass slag conveying device, the labor intensity of the workers is further reduced, and the glass slag conveying device has the advantages of simple structure, high reliability, strong applicability and the like.

Description

Glass residue conveying device with guide cylinder

Technical Field

The utility model relates to the technical field of glass slag recycling, in particular to a glass slag conveying device.

Background

At present, most of the glass slag is changed into small glass slag with the length and width less than 25mm after being crushed. In order to convey the small glass slag, a rubber conveying belt is mostly adopted for conveying so as to prevent the small glass slag from leaking below the conveying belt. Because the edges and corners of the glass slag are generally sharp, and the pressure of the glass slag, small glass slag on the lower layer of the glass slag pile is easy to prick on the conveying belt. In the running process of the conveyer belt, small glass slag which is firmly pricked is easy to be driven to the lower half section of the conveyer belt along with the transmission of the conveyer belt. Because the conveyer belt in the operation process had both had the surrounding movement, had vibrations again, in addition the glass sediment can receive the effect of gravity. The condition that the glass slag driven to the lower half section of the conveyer belt easily falls off can be realized, so that the glass slag can fall on the ground below the conveyer belt, and the workshop environment can be influenced. Wherein, when the clearance drops the glass sediment in the conveyer belt below, easily receive the support frame that supports the conveyer belt and block, this brings not few inconvenience for the clearance of glass sediment, and can lead to workman's intensity of labour increase. Therefore, it is necessary to redesign the structure of the glass-slag conveying device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and the defects and provides a glass slag conveying device with a guide cylinder, which can automatically strip glass slag stabbed on a conveying belt and automatically complete recovery, so that the glass slag can be prevented from appearing below the glass slag conveying device, workers do not need to clean the glass slag below the glass slag conveying device, and the labor intensity of the workers is reduced.

The technical scheme of the utility model is realized as follows:

the utility model provides a glass sediment conveyor with guide cylinder, its characteristics are swept the roller including conveyer belt, oblique guide cylinder, hair, and wherein oblique guide cylinder is the slope structure that one end is high, the other end is low, oblique guide cylinder one end terminal surface is seted up and is run through to the guide inclined hole on the oblique guide cylinder other end terminal surface, be equipped with the guide chute on the upper surface of oblique guide cylinder to make the guide chute unanimous with the incline direction of guide inclined hole, the hair is swept the roller and is set up in the last drill way of guide inclined hole, the output of conveyer belt is arranged in the guide chute or directly over to make the lower half section of conveyer belt press on the circumferential surface that the roller was swept to the hair.

Preferably, the inclined material guiding cylinder is inclined at the upper right side and the other left side, striker plates extending along the length direction of the inclined material guiding cylinder are respectively arranged on the front side edge and the rear side edge of the upper surface of the inclined material guiding cylinder, and the two striker plates and the upper surface of the inclined material guiding cylinder jointly enclose to form a material guiding chute.

Preferably, the front side and the rear side of the upper end face of the inclined material guiding cylinder are respectively provided with an upper baffle plate, the front upper baffle plate and the rear upper baffle plate are respectively connected with the front striker plate and the rear striker plate, and the output end of the conveying belt is arranged between the two upper baffle plates.

Preferably, the glass slag conveying device with the material guide cylinder further comprises a rotating shaft, a front positioning cover plate and a rear positioning cover plate, wherein a loading and unloading hole which penetrates longitudinally is formed in the upper end of the inclined material guide cylinder, the loading and unloading hole penetrates longitudinally through the material guide inclined hole, the rotating shaft is longitudinally arranged in the material guide inclined hole, the brush roller is detachably sleeved on the rotating shaft, the front positioning cover plate is detachably covered on a front orifice of the loading and unloading hole and is detachably connected with the front end of the rotating shaft, and the rear positioning cover plate is detachably covered on a rear orifice of the loading and unloading hole and is detachably connected with the rear end of the rotating shaft.

Preferably, a limiting convex ring is arranged at the front end of the rotating shaft and is positioned in the material guide inclined hole, the end face of the front end of the hair sweeping roller is pressed on the limiting convex ring, a limiting shaft sleeve is arranged on the front wall of the rear positioning cover plate and is sleeved on the rear end of the rotating shaft, and the limiting shaft sleeve is pressed on the end face of the rear end of the hair sweeping roller.

Preferably, the front wall of the slant guide cylinder is provided with a plurality of longitudinally arranged front positioning screws, the front positioning cover plate is sleeved on each front positioning screw, each front positioning screw is respectively screwed with a front nut, and each front nut is respectively pressed on the front wall of the front positioning cover plate.

Preferably, the rear wall of the slant guide cylinder is provided with a plurality of rear positioning screws which are longitudinally arranged, the rear positioning cover plate is sleeved on each rear positioning screw, each rear positioning screw is respectively screwed with a rear nut, and each rear nut is respectively pressed on the rear wall of the rear positioning cover plate.

Preferably, the vertical distance from the edge of the upper orifice of the material guide inclined hole to the conveying belt is less than 15mm and more than 5 mm.

The utility model has the beneficial effects that: in the glass-slag conveying device of the utility model, the lower half section of the conveying belt is pressed on the circumferential surface of the brush roller. Therefore, when the brush sweeping roller works, the lower half section of the conveying belt is swept, so that the purpose of sweeping the glass slag stabbed on the conveying belt can be achieved.

The brush roller is arranged in the upper hole of the material guiding inclined hole. The roller is swept to the hair like this and the glass sediment that falls can receive blockking and the guide of guide inclined hole, and this can not only avoid the glass sediment to drop in the below of conveyer belt, can also collect, guide the glass sediment that falls well and walk to and can avoid sweeping the glass sediment that falls and splash out, thereby can avoid the workman consequently be injured, this glass sediment conveyor's reliability and security are very good.

This glass sediment conveyor can peel off the glass sediment of thorn on the conveyer belt automatically to can accomplish the recovery automatically, this can avoid glass sediment conveyor's below to appear the glass sediment, thereby does not need the workman to clear up the operation of glass sediment in glass sediment conveyor's below, and then helps reducing workman's intensity of labour, this glass sediment conveyor is very reliable, and its suitability is also very strong.

The upper surface of the inclined material guide cylinder is provided with the material guide chute, so that the material guide chute is closer to the conveying belt relative to the material guide inclined hole. The distance that the glass sediment falls to the guide chute from the conveyer belt can be reduced like this to can reach the effect that reduces the glass sediment height of splashing, with avoid the glass sediment to fly to spill the guide chute and reduce the raise dust, this accuracy and the stability that can not only improve the glass sediment and carry can also reduce the cleaning volume of workman to the workshop, thereby also help reducing workman's intensity of labour, it can also reduce the influence of raise dust to workman's health.

And a material guiding chute is arranged on the upper surface of the inclined material guiding cylinder. The glass slag conveying device can not only well meet the requirements of actual use, but also ensure that the inclined guide cylinder has a simple and reliable structure, so that the glass slag conveying device has a simple and reliable structure, and the applicability of the glass slag conveying device is improved.

The inclined directions of the material guide chute and the material guide inclined hole are consistent. Therefore, the glass slag guided by the glass slag conveying device can be conveyed towards one direction, the convenience of collecting and managing the glass slag can be improved, and the glass slag conveying device is very convenient to use.

Drawings

FIG. 1 is a schematic structural view of a glass slag conveyor according to the present invention in a front view direction.

FIG. 2 is a schematic view of a left-side view of a glass-slag conveyor according to the present invention.

Fig. 3 is an enlarged schematic view of a portion a of fig. 2 according to the present invention.

Fig. 4 is an enlarged schematic structural view of a portion B in fig. 2 according to the present invention.

It is worth noting that: the drawings provided by the present invention are only schematic structural diagrams, and are not drawn according to processing dimensions and proportions, so the sizes of the components and the relationships with other components should not be limited by the displays in the drawings, and the technical scheme of the present invention is understood by the description of the specification and the common technical knowledge in the field.

Detailed Description

As shown in fig. 1, the glass slag conveyor with a material guide cylinder according to the present invention includes a conveyor belt 1, an inclined material guide cylinder 2, and a sweeping roller 3, wherein the inclined material guide cylinder 2 has an inclined structure with a high end and a low end, an inclined material guide hole 21 penetrating through the inclined material guide cylinder 2 is formed on an end surface of one end of the inclined material guide cylinder 2, a material guide chute 22 is formed on an upper surface of the inclined material guide cylinder 2, the inclined direction of the material guide chute 22 is the same as the inclined direction of the material guide hole 21, the sweeping roller 3 is disposed in an upper orifice of the material guide inclined hole 21, an output end of the conveyor belt 1 is disposed in or over the material guide chute 22, and a lower half section of the conveyor belt 1 is pressed on a circumferential surface of the sweeping roller 3.

In the glass-slag conveying device of the present invention, the lower half of the conveying belt 1 is pressed against the circumferential surface of the wiping roller 3. Therefore, when the brush sweeping roller 3 works, the lower half section of the conveying belt 1 can be swept, so that the purpose of sweeping the glass slag on the conveying belt 1 can be achieved.

The brush roller 3 is arranged in the upper hole of the material guiding inclined hole 21. The glass sediment that roller 3 swept down like this can receive stopping and the guide of guide inclined hole 21, and this can not only avoid the glass sediment to drop in the below of conveyer belt 1, can also collect, guide away the glass sediment that sweeps down well to and can avoid sweeping the glass sediment that falls down and splash out, thereby can avoid the workman consequently be injured, this glass sediment conveyor's reliability and security are very good.

This glass sediment conveyor can peel off the glass sediment of thorn on conveyer belt 1 automatically to can accomplish the recovery automatically, this can avoid glass sediment conveyor's below to appear the glass sediment, thereby does not need the workman to clear up the operation of glass sediment in glass sediment conveyor's below, and then helps reducing workman's intensity of labour, this glass sediment conveyor is very reliable, and its suitability is also very strong.

By forming the guide chute 22 on the upper surface of the slant guide cylinder 2, the guide chute 22 is closer to the conveyor belt 1 than the guide chute hole 21. Can reduce the glass sediment like this and fall the distance to guide chute 22 from conveyer belt 1 to can reach the effect that reduces the glass sediment height that splashes, with the guide chute 22 of avoiding the glass sediment to splash and reduce the raise dust, this accuracy and the stability that can not only improve the glass sediment and carry, can also reduce the cleaning volume of workman to the workshop, thereby also help reducing workman's intensity of labour, it can also reduce the influence of raise dust to workman health.

And a material guiding chute 22 is opened on the upper surface of the inclined material guiding cylinder 2. The requirements of actual use can be well met, and the inclined guide cylinder 2 can be ensured to have a simple and reliable structure, so that the glass slag conveying device can have a simple and reliable structure, and the applicability of the glass slag conveying device can be improved.

By aligning the guide chute 22 with the inclination direction of the guide chute hole 21. Therefore, the glass slag guided by the glass slag conveying device can be conveyed towards one direction, the convenience of collecting and managing the glass slag can be improved, and the glass slag conveying device is very convenient to use.

The conveyor belt 1 may be arranged obliquely. Thus, the purpose of inclined feeding can be met.

As shown in fig. 1, a conveyor belt 4 can be arranged below the slant guide cylinder 2, and can be directly connected with a glass slag processing device or a glass slag transferring device. In the actual production process, the method can be determined according to actual conditions.

As shown in fig. 1, the slant guiding cylinder 2 has one end inclined at the upper right side and the other end inclined at the lower left side, the front and rear sides of the upper surface of the slant guiding cylinder 2 are respectively provided with a baffle plate 23 extending along the length direction of the slant guiding cylinder 2, and the two baffle plates 23 and the upper surface of the slant guiding cylinder 2 together enclose to form a guiding chute 22. Thus, the guide chute 22 can be formed simply and reliably, so that the inclined guide cylinder 2 with the guide chute 22 can be manufactured conveniently, and the convenience and the reliability of manufacturing the glass slag conveying device can be further improved.

As shown in fig. 1, the front and rear sides of the upper end surface of the slant guiding cylinder 2 are respectively provided with an upper baffle 24, the front and rear upper baffles 24 are respectively connected with the front and rear striker plates 23, and the output end of the conveying belt 1 is disposed between the two upper baffles 24. Can play fine effect of sheltering from to the output of conveyer belt 1 like this to can play better effect of blockking to the glass sediment of conveyer belt 1 output, to prevent that the glass sediment of whereabouts from splashing out, this helps further improving this glass sediment conveyor's reliability.

As shown in fig. 1, in order to facilitate the installation and positioning of the driving roller 11 around which the conveyor belt 1 is wound, both ends of the driving roller 11 may be respectively connected to the two upper guards 24. Thus, the installation and the positioning of the conveying belt 1 can be facilitated.

As shown in fig. 1, in the actual manufacturing process, the slant guiding barrel 2 can be assembled by four strips 25, wherein two strips 25 are arranged in front and back, and the other two strips 25 are arranged in up and down, and the four strips 25 enclose the slant guiding barrel 2 and the guiding slant holes 21. The upper baffle plate 24 and the striker plate 23 on the rear side are also integrally formed with the laths 25 on the rear side of the chute guide 2, and the upper baffle plate 24 and the striker plate 23 on the front side are integrally formed with the laths 25 on the front side of the chute guide 2. Thus, the reliable slant guiding cylinder 2 can be conveniently manufactured, which contributes to the improvement of the convenience of manufacturing the slant guiding cylinder 2.

Each slat 25, each striker plate 23, and each top apron 24 are made of stainless steel. Therefore, the structural strength can be improved, the durability can be improved, and the service life of the glass slag conveying device can be prolonged.

As shown in fig. 1 to 4, the glass slag conveyor with a material guiding cylinder further includes a rotating shaft 5, a front positioning cover plate 6, and a rear positioning cover plate 7, wherein an upper end of the slant material guiding cylinder 2 is provided with a loading and unloading hole 26 penetrating in a longitudinal direction, the loading and unloading hole 26 penetrates through the material guiding slant hole 21 in the longitudinal direction, the rotating shaft 5 is arranged in the material guiding slant hole 21 in the longitudinal direction, the sweeping roller 3 is detachably fitted on the rotating shaft 5, the front positioning cover plate 6 is detachably fitted on a front opening of the loading and unloading hole 26, and the front positioning cover plate 6 is detachably connected to a front end of the rotating shaft 5, and the rear positioning cover plate 7 is detachably fitted on a rear opening of the loading and unloading hole 26, and the rear positioning cover plate 7 is detachably connected to a rear end of the rotating shaft 5. The installation positioning and rotation requirements of the brush roller 3 can be well met through the arrangement of the rotating shaft 5. Through the setting of preceding location apron 6, back location apron 7, can not only play fine positioning action to axis of rotation 5, can also play fine covering effect to the front and back drill way of loading and unloading hole 26 to avoid the glass sediment to splash out from loading and unloading hole 26. The opening of the attachment/detachment hole 26 contributes to improvement in convenience in detachment and maintenance of the brush roller 3. This helps to further improve the reliability and applicability of the glass slag conveying device.

As shown in fig. 2 to 4, a limiting convex ring 51 is disposed at the front end of the rotating shaft 5, the limiting convex ring 51 is located in the material guiding inclined hole 21, the front end surface of the sweeping roller 3 presses on the limiting convex ring 51, a limiting shaft sleeve 71 is disposed on the front wall of the rear positioning cover plate 7, and the limiting shaft sleeve 71 is sleeved on the rear end of the rotating shaft 5 and presses the limiting shaft sleeve 71 on the rear end surface of the sweeping roller 3. The brush broom roller 3 can be very conveniently and reliably limited to slide forwards by the limiting convex ring 51, and the limiting shaft sleeve 71 not only can play a good limiting and supporting role for the rotating shaft 5, but also can limit the brush broom roller 3 to slide backwards. The limiting convex ring 51 can stably limit the rotating shaft 5 of the brush roller 3 together with the limiting shaft sleeve 71, and the brush roller 3 can be easily detached from the rotating shaft 5 after the rear positioning cover plate 7 is detached, which helps to further improve the convenience of detaching and maintaining the brush roller 3.

As shown in fig. 2 to 4, when actually detaching the brush roller 3, the back positioning cover 7 is detached, and then the brush roller 3 is drawn out from the back opening of the attachment/detachment hole 26. When the hair sweeping roller 3 is installed, the hair sweeping roller 3 can be installed quickly only by sleeving the hair sweeping roller 3 on the rotating shaft 5. Thus, the fur broom 3 is very convenient to assemble and disassemble.

As shown in fig. 2 and 4, a driving motor 8 for driving the rotation shaft 5 may be directly provided on the front locating cover 6. This can well meet the installation requirements of the drive motor 8. The front end of the rotating shaft 5 is connected with a power output shaft of a driving motor 8. This allows the drive motor 8 to detachably connect the rotary shaft 5 to the front positioning cover 6.

As shown in fig. 2 and 4, the front wall of the slant guiding barrel 2 is provided with a plurality of front positioning screws 27 arranged longitudinally, the front positioning cover plate 6 is sleeved on each front positioning screw 27, each front positioning screw 27 is respectively screwed with a front nut 271, and each front nut 271 is respectively pressed on the front wall of the front positioning cover plate 6. Therefore, the front positioning cover plate 6 can be reliably positioned on the inclined guide cylinder 2, the disassembly requirement can be well met, and the reliability and the applicability of the glass slag conveying device can be further improved.

As shown in fig. 2 and fig. 3, a plurality of rear positioning screws 28 are longitudinally arranged on the rear wall of the slant guide cylinder 2, the rear positioning cover plate 7 is sleeved on each rear positioning screw 28, each rear positioning screw 28 is respectively screwed with a rear nut 281, and each rear nut 281 is respectively pressed on the rear wall of the rear positioning cover plate 7. Therefore, the rear positioning cover plate 7 can be reliably positioned on the inclined guide cylinder 2, the disassembly requirement can be well met, and the reliability and the applicability of the glass slag conveying device can be further improved.

As shown in fig. 1, the vertical distance from the upper orifice edge of the material guiding inclined hole 21 to the conveying belt 1 is less than 15mm and more than 5 mm. Therefore, the swept glass slag can be well prevented from splashing, the transmission of the conveying belt 1 can be well prevented from being influenced, and the reliability and the applicability of the glass slag conveying device can be further improved.

Claims (8)

1. The utility model provides a glass sediment conveyor with guide cylinder which characterized in that: sweep roller (3) including conveyer belt (1), oblique guide cylinder (2), hair, wherein oblique guide cylinder (2) is the slope structure that one end is high, the other end is low, guide inclined hole (21) that runs through to oblique guide cylinder (2) other end terminal surface is seted up to oblique guide cylinder (2) one end terminal surface, be equipped with guide chute (22) on the upper surface of oblique guide cylinder (2) to make the incline direction of guide chute (22) and guide inclined hole (21) unanimous, hair is swept roller (3) and is set up in the last orifice of guide inclined hole (21), the output of conveyer belt (1) is arranged in guide chute (22) or directly over to make the lower half section pressure of conveyer belt (1) sweep the circumference of roller (3) on the surface at the hair.

2. The glass slag conveying device with the guide cylinder as claimed in claim 1, wherein: oblique guide cylinder (2) are one end and incline in upper right side, the other end below the left side, be equipped with striker plate (23) that extend along oblique guide cylinder (2) length direction respectively on the front and back side of oblique guide cylinder (2) upper surface, two striker plates (23) enclose jointly with the upper surface of oblique guide cylinder (2) and have formed guide chute (22).

3. The glass slag conveying device with the guide cylinder as claimed in claim 2, wherein: the front side and the rear side of the upper end face of the inclined material guiding cylinder (2) are respectively provided with an upper baffle (24), the front upper baffle (24) and the rear upper baffle (24) are respectively connected with the front striker plate and the rear striker plate (23), and the output end of the conveying belt (1) is arranged between the two upper baffles (24).

4. The glass slag conveying device with the guide cylinder as claimed in claim 2, wherein: the device is characterized by further comprising a rotating shaft (5), a front positioning cover plate (6) and a rear positioning cover plate (7), wherein a longitudinally-penetrating assembling and disassembling hole (26) is formed in the upper end of the inclined guide cylinder (2), the assembling and disassembling hole (26) longitudinally penetrates through the guide inclined hole (21), the rotating shaft (5) is longitudinally arranged in the guide inclined hole (21), the brushing roller (3) can be detachably sleeved on the rotating shaft (5), the front positioning cover plate (6) can be detachably covered on a front orifice of the assembling and disassembling hole (26), the front positioning cover plate (6) is detachably connected with the front end of the rotating shaft (5), the rear positioning cover plate (7) can be detachably covered on a rear orifice of the assembling and disassembling hole (26), and the rear positioning cover plate (7) is detachably connected with the rear end of the rotating shaft (5).

5. The glass slag conveying device with the guide cylinder as claimed in claim 4, wherein: be equipped with spacing bulge loop (51) on the front end of axis of rotation (5) to make spacing bulge loop (51) be located guide inclined hole (21), the front end terminal surface of roller (3) is swept to the hair is pressed on spacing bulge loop (51), be equipped with spacing axle sleeve (71) on the antetheca of back location apron (7), spacing axle sleeve (71) suit is on the rear end of axis of rotation (5) to make spacing axle sleeve (71) press on the rear end terminal surface of roller (3) is swept to the hair.

6. The glass slag conveying device with the guide cylinder as claimed in claim 4 or 5, wherein: the front wall of the inclined guide cylinder (2) is provided with a plurality of front positioning screws (27) which are longitudinally arranged, the front positioning cover plate (6) is sleeved on each front positioning screw (27), each front positioning screw (27) is respectively screwed with a front nut (271), and each front nut (271) is respectively pressed on the front wall of the front positioning cover plate (6).

7. The glass slag conveying device with the guide cylinder as claimed in claim 4 or 5, wherein: the rear wall of the inclined guide cylinder (2) is provided with a plurality of rear positioning screws (28) which are longitudinally arranged, the rear positioning cover plate (7) is sleeved on each rear positioning screw (28), each rear positioning screw (28) is respectively screwed with a rear nut (281), and each rear nut (281) is respectively pressed on the rear wall of the rear positioning cover plate (7).

8. The glass slag conveying device with the guide cylinder as claimed in claim 1, wherein: the vertical distance from the edge of the upper orifice of the material guide inclined hole (21) to the conveyer belt (1) is less than 15mm and more than 5 mm.

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