CN210854466U - Workshop top layer sand distributing device - Google Patents

Abstract

The utility model belongs to the technical field of glass production facility, especially, relate to a workshop top layer sand distributor, including first transport mechanism, second transport mechanism, tipping bucket dolly and transfer guide rail, the output projection of first transport mechanism covers in second transport mechanism's input projection, second transport mechanism sets up in transfer guide rail's top, and second transport mechanism's output sets up corresponding to transfer guide rail's transfer path, the tipping bucket dolly sets up on transfer guide rail and can follow transfer guide rail's transfer path and remove, the tipping bucket dolly is used for accepting the silica sand that falls down from second transport mechanism's output, and spill the silica sand in the storage workshop. Therefore, the utility model discloses a workshop top layer cloth sand device can realize spilling the silica sand fast to the assigned position in storage workshop for the silica sand can pile up and form highly considerable material mountain, and then has realized the high-efficient utilization to the vertical storage space in storage workshop, has also promoted the flexibility that the silica sand spills the cloth.

Description

Workshop top layer sand distributing device

Technical Field

The utility model belongs to the technical field of glass production facility, especially, relate to a workshop top layer cloth sand device.

Background

Silica sand, also known as silica sand or quartz sand, is a particulate matter with quartz as a main mineral component, and is usually stored in a storage workshop as a main raw material for preparing glass, and during storage, the silica sand is mainly piled and shoveled and concentrated in the storage workshop by a tool such as a forklift.

Among the prior art, only concentrate the silica sand in the storage workshop through the forklift, the silica sand is piled up efficiency on the one hand and is comparatively low, and the material mountain that on the other hand silica sand piled up the formation is less, can't realize the high-efficient utilization to the vertical storage space in storage workshop.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a workshop top layer cloth sand device, when aiming at solving the silica sand among the prior art and piling up in the storage workshop, the unable high efficiency utilizes the technical problem of the storage space in the storage workshop.

In order to achieve the above object, the utility model adopts the following technical scheme: the utility model provides a workshop top layer cloth sand device, is applied to in the storage workshop, convey to including being used for the silica sand first transport mechanism, second transport mechanism, the tipping bucket dolly of storage workshop upper strata and set up in the conveying guide rail on storage workshop upper strata, in vertical direction, the projection of first transport mechanism's output cover in the projection of second transport mechanism's input, second transport mechanism set up in the top of conveying guide rail, just second transport mechanism's output correspond to the conveying path setting of conveying guide rail, the tipping bucket dolly set up in on the conveying guide rail and can follow the conveying path of conveying guide rail removes, the tipping bucket dolly be used for accepting certainly the silica sand that falls down of second transport mechanism's output, and will the silica sand spill cloth in the storage workshop.

Furthermore, the tipping wagon is provided with two loading hoppers, and the two loading tipping buckets are oppositely arranged and respectively positioned at two opposite sides of the conveying guide rail.

Furthermore, first transport mechanism with second transport mechanism is belt transmission mechanism, belt transmission mechanism is along its belt rotation direction's relative both ends be input and output respectively.

Further, belt transmission device includes actuating mechanism, drive mechanism and supporting mechanism, drive mechanism includes that belt, first roller and second roll the roller, first roll the roller with the second roll the roller rotate respectively set up in supporting mechanism length direction's relative both ends, actuating mechanism set up in on the supporting mechanism and with first roller transmission connection of rolling, the belt cover is located first roll the roller with the second rolls between the roller.

Furthermore, the transmission mechanism further comprises a plurality of positioning mechanisms, each positioning mechanism is distributed along the length direction of the supporting mechanism, each positioning mechanism comprises two inclined rollers which are oppositely arranged along the width direction of the supporting mechanism, the two inclined rollers are rotatably arranged on the supporting mechanism, the inclination angle of each inclined roller is adjustable, the belt is provided with a material carrying surface and a back side surface which are oppositely arranged, the two inclined rollers are respectively abutted against the two opposite sides of the back side surface in the width direction, and the belt is recessed along the length direction of the belt to form a material carrying concave cavity with adjustable depth.

Furthermore, the positioning mechanism further comprises two fixing assemblies, the two fixing assemblies comprise supporting rods and rotating frames, the supporting rods are fixed on two opposite sides of the supporting mechanism in the width direction respectively, the rotating frames correspond to the supporting rods, the supporting rods are rotatably connected and locked through locking bolts, and the inclined rollers are rotatably installed on the corresponding rotating frames.

Further, the supporting mechanism comprises a bearing frame body and a plurality of supporting assemblies, each supporting assembly is fixed below the bearing frame body along the length direction of the bearing frame body, the first rolling roller and the second rolling roller are respectively and rotatably arranged at two opposite ends of the bearing frame body in the length direction, and the two supporting rods are respectively fixed at two opposite sides of the bearing frame body in the width direction.

Further, each supporting component comprises two supporting columns and a reinforcing rod, the two supporting columns are respectively connected with two opposite sides of the width direction of the bearing frame body, and the reinforcing rods are connected between the two supporting columns.

Furthermore, the transmission mechanism further comprises a plurality of material pushing strips, and the material pushing strips are arranged on the material carrying surface along the length direction of the material carrying surface.

Further, push away the material strip including interconnect and be formed with two minutes strip sections of contained angle, two divide the strip section all set up in carry on the material face, and two the head end orientation of the contained angle that divides the strip section to form the direction of transfer of belt.

The utility model has the advantages that: the utility model discloses a workshop top layer sand distributing device, it is applied to in the storage workshop, the during operation, because the projection of first transport mechanism's output covers in the projection of second transport mechanism's input, first transport mechanism can transmit the silica sand to second transport mechanism like this, again by second transport mechanism with silica sand transmission to the tipping bucket dolly in, the tipping bucket dolly can bear the silica sand afterwards along the motion of conveying guide rail, and then spill the silica sand to the assigned position in storage workshop. Therefore, the utility model discloses a workshop top layer cloth sand device can realize spilling the silica sand fast to the assigned position in storage workshop for the silica sand can pile up and form highly considerable material mountain, and then has realized the high-efficient utilization to the vertical storage space in storage workshop, has also promoted the flexibility that the silica sand spills the cloth.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions 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 to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural diagram of a workshop top layer sand distribution device provided by an embodiment of the present invention;

fig. 2 is a schematic structural view of a second conveying mechanism and a skip car of the workshop top sand distribution device provided by the embodiment of the invention;

fig. 3 is another schematic structural diagram of a second conveying mechanism and a skip car of the workshop top-layer sand distribution device provided by the embodiment of the invention;

fig. 4 is a first schematic structural diagram of a belt conveying mechanism of a workshop top sand distribution device provided by the embodiment of the invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

fig. 6 is a schematic structural diagram of a belt conveying mechanism of a workshop top sand distribution device provided by the embodiment of the invention;

fig. 7 is a third schematic structural view of the belt conveying mechanism of the workshop top layer sand distribution device provided by the embodiment of the utility model.

Wherein, in the figures, the respective reference numerals:

10-first transfer mechanism 11-drive mechanism 12-transfer mechanism

13-supporting mechanism 14-positioning mechanism 20-second conveying mechanism

30-dump truck 31-loading hopper 40-conveying guide rail

41-vertical rod 121-belt 122-first roller

123-second roller 124-pushing strip 125-slitting segment

126-driven roller 127-material loading concave cavity 131-loading frame body

132-support assembly 133-support column 134-reinforcing rod

135-angular seat 141-inclined roller 142-fixing component

143, a support bar 144 and a rotating frame.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to fig. 1 to 7 are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1-3, the embodiment of the utility model provides a workshop top layer cloth sand device, be applied to in the storage workshop, including setting up in the conveying guide rail 40 on storage workshop upper strata, a transport mechanism 10 for inciting somebody to action silica sand conveying to the storage workshop upper strata, second transport mechanism 20 and tipping bucket dolly 30, in vertical direction, the projection of the output of first transport mechanism 10 covers the projection of the input of second transport mechanism 20, second transport mechanism 20 sets up in conveying guide rail 40's top, wherein, a plurality of pole settings 41 of conveying guide rail 40 accessible are fixed in the bottom or the top layer of storage workshop. The output end of the second conveying mechanism 20 is arranged corresponding to the conveying path of the conveying guide rail 40, the dump truck 30 is arranged on the conveying guide rail 40 and can move along the conveying path of the conveying guide rail 40, and the dump truck 30 is used for receiving silica sand falling from the output end of the second conveying mechanism 20 and distributing the silica sand to the storage workshop.

The following is right the embodiment of the utility model provides a workshop top layer cloth sand device does further explain: the embodiment of the utility model provides a workshop top layer sand distribution device, it is applied to in the storage workshop, in the during operation, because the projection of the output of first transport mechanism 10 covers in the projection of the input of second transport mechanism 20, first transport mechanism 10 can transmit the silica sand to second transport mechanism 20 like this, transmit the silica sand to tipping bucket dolly 30 in by second transport mechanism 20 again, tipping bucket dolly 30 can bear the silica sand along the motion of transfer rail 40 afterwards, and then spill the silica sand to the assigned position in storage workshop. Therefore, the embodiment of the utility model provides a workshop top layer cloth sand device can realize spilling the silica sand fast to the assigned position in storage workshop for the silica sand can pile up and form highly considerable material mountain, and then has realized the high-efficient utilization to the vertical storage space in storage workshop, has also promoted the flexibility that the silica sand spills the cloth.

In another embodiment of the invention, as shown in fig. 2 and 3, the dump car 30 has two loading hoppers 31, which are oppositely disposed and located on opposite sides of the transfer rail 40. Specifically, the dump truck 30 has two oppositely disposed loading hoppers 31, and the two loading hoppers 31 are respectively distributed on two sides of the conveying guide rail 40, so that the two loading hoppers 31 can spray silica sand along two opposite sides of the traveling track direction of the dump truck 30 when the dump truck 30 travels, and thus the distribution range of the dump truck 30 is wider.

In another embodiment of the present invention, as shown in fig. 4 to 6, the first conveying mechanism 10 and the second conveying mechanism 20 are both belt conveying mechanisms, and the belt conveying mechanisms are respectively an input end and an output end at the opposite ends along the rotation direction of the belt 121. Specifically, by setting both the first conveying mechanism 10 and the second conveying mechanism 20 as belt conveying mechanisms, parts of the first conveying mechanism 10 and the second conveying mechanism 20 can be exchanged conveniently, and quick maintenance of the first conveying mechanism 10 and the second conveying mechanism 20 is facilitated.

In another embodiment of the present invention, as shown in fig. 5 to 7, the belt transmission mechanism includes a driving mechanism 11, a transmission mechanism 12 and a supporting mechanism 13, the transmission mechanism 12 includes a belt 121, a first roller 122 and a second roller 123, the first roller 122 and the second roller 123 are respectively rotatably disposed at opposite ends of the supporting mechanism 13 in the length direction, the driving mechanism 11 is disposed on the supporting mechanism 13 and is in transmission connection with the first roller 122, and the belt 121 is sleeved between the first roller 122 and the second roller 123. Specifically, when the belt conveying mechanism works, the driving mechanism 11 can drive the first roller 122 of the transmission mechanism 12 to rotate, and the first roller 122 drives the second roller 123 and the belt 121 to rotate, so that the silica sand can be efficiently conveyed.

In another embodiment of the present invention, as shown in fig. 4 to 6, the transmission mechanism 12 further includes a plurality of positioning mechanisms 14, each positioning mechanism 14 is distributed along the length direction of the supporting mechanism 13, and each positioning mechanism 14 includes two inclined rollers 141 relatively arranged along the width direction of the supporting mechanism 13, the two inclined rollers 141 are all rotatably disposed on the supporting mechanism 13 and have adjustable inclination angles, the belt 121 has a material loading surface and a back side surface which are relatively arranged, the two inclined rollers 141 respectively abut against the two opposite sides of the back side surface in the width direction, and the belt 121 is formed with a material loading cavity 127 with adjustable depth along the length direction thereof. Specifically, when the amount of silica sand transferred needs to be adjusted, the inclined rollers 141 of the positioning mechanisms 14 abut against the back side of the belt 121 to form the carrier cavities 127 in the belt 121 along the length direction thereof, and the inclined angles of the inclined rollers 141 are adjustable, so that the depth of the carrier cavities 127 formed in the belt 121 is also adjustable, and thus the belt 121 can adjust the depth of the carrier cavities 127 according to the amount of silica sand transferred, and further the amount of silica sand transferred by the belt 121 can be matched with the amount of silica sand distributed.

In another embodiment of the present invention, as shown in fig. 4 to 6, the positioning mechanism 14 further includes two fixing assemblies 142, the two fixing assemblies 142 include supporting rods 143 and rotating frames 144, the two supporting rods 143 are respectively fixed on two opposite sides of the supporting mechanism 13 in the width direction, the rotating frames 144 and the corresponding supporting rods 143 are rotatably connected and locked by locking bolts, and the tilting rollers 141 are rotatably installed on the corresponding rotating frames 144. Specifically, the rotating frame 144 and the supporting rod 143 are rotatably connected and locked by the locking bolt, so that the rotating frame 144 can be rotatably adjusted with respect to the supporting rod 143, and further, the inclined roller 141 mounted on the rotating frame 144 can be rotatably adjusted with respect to the supporting mechanism 13. Meanwhile, after the angle of the rotating frame 144 relative to the supporting rod 143 is adjusted, the rotating frame can be locked on the supporting rod 143 through the locking bolt, and thus the assembling stability of the rotating frame and the supporting rod 143 is ensured.

In another embodiment of the present invention, as shown in fig. 6, the supporting mechanism 13 includes a frame body 131 and a plurality of supporting components 132, each supporting component 132 is fixed below the frame body 131 along the length direction of the frame body 131, the first rolling roller 122 and the second rolling roller 123 are respectively rotatably disposed at the two opposite ends of the frame body 131 along the length direction, and the two supporting rods 143 are respectively fixed at the two opposite sides of the frame body 131 along the width direction. Specifically, the lower part of supporting component 132 is installed on external base surface, and the upper part of supporting component 132 is fixed in the below of bearing the weight of support body 131, and through being fixed in the below of bearing the weight of support body 131 with supporting component 132, supporting component 132 can realize effective support to bearing the weight of support body 131 like this, and then has guaranteed silica sand conveyor's overall structure stability.

In another embodiment of the present invention, as shown in fig. 6, each supporting component 132 includes two supporting pillars 133 and a reinforcing rod 134, the two supporting pillars 133 are respectively connected to two opposite sides of the width direction of the supporting frame body 131, and the reinforcing rod 134 is connected between the two supporting pillars 133. Specifically, two support columns 133 of the support assembly 132 are respectively disposed on two opposite sides of the width direction of the support frame body 131, so that the balance of the support frame body 131 by the two support columns 133 is ensured, and further the support stability of the support frame body 131 is ensured, and meanwhile, the reinforcing rod 134 is connected between the two support columns 133, so that the fixed connection between the two support columns 133 is realized, and further the support stability of the two support columns 133 is further enhanced. Further, the lower end of each supporting column 133 is further provided with an angle seat 135, so that each supporting column 133 is more stably arranged on the external base surface.

In another embodiment of the present invention, as shown in fig. 4, the transmission mechanism 12 further includes a plurality of driven rollers 126, each driven roller 126 is rotatably disposed on the supporting frame 131 along the length direction of the supporting mechanism 13, and the driven roller 126 is located between two corresponding inclined rollers 141. Specifically, by providing a plurality of driven rollers 126 rotatably on the carrier body 131, each driven roller 126 can function to support the belt 121 together, thereby allowing the belt 121 to be effectively supported by each driven roller 126 when subjected to silica sand load.

In another embodiment of the present invention, as shown in fig. 7, the transmission mechanism 12 further includes a plurality of pushing bars 124, and each pushing bar 124 is disposed on the loading surface along the length direction of the loading surface. Specifically, through set up on year material surface and push away material strip 124, each pushes away material strip 124 like this and can play the effect of propelling movement silica sand material to increase the whole frictional force with belt 121 of silica sand material, promote the efficiency that belt 121 transported silica sand.

In another embodiment of the present invention, as shown in fig. 7, the material pushing bar 124 includes two bar sections 125 connected to each other and forming an included angle, the two bar sections 125 are all disposed on the material loading surface, and the head end of the included angle formed by the two bar sections 125 faces the conveying direction of the belt 121. Specifically, the material pushing strip 124 is subdivided into two segments forming an included angle, and the head end of the included angle faces the conveying direction of the belt 121, so that when the silica sand falls on the belt 121, the two segments 125 can push and divide the silica sand along the width direction of the belt 121, and then the silica sand falls on the belt 121 as uniformly as possible, thereby further improving the conveying efficiency of the belt 121.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a workshop top layer cloth sand device, is applied to in the storage workshop, its characterized in that: including being used for conveying the silica sand to first transport mechanism, second transport mechanism, tipping bucket dolly on storage workshop upper strata with set up in the conveying guide rail on storage workshop upper strata, in vertical direction, the projection of first transport mechanism's output cover in the projection of second transport mechanism's input, second transport mechanism set up in the top of conveying guide rail, just second transport mechanism's output corresponding to the conveying route setting of conveying guide rail, the tipping bucket dolly set up in can follow on the conveying guide rail the conveying route of conveying guide rail removes, the tipping bucket dolly be used for accepting from the silica sand that falls down of second transport mechanism's output, and will the silica sand spill cloth in the storage workshop.

2. The top floor sanding device for a workshop as claimed in claim 1, wherein: the tipping trolley is provided with two loading hoppers, and the two loading tipping buckets are oppositely arranged and are respectively positioned at two opposite sides of the conveying guide rail.

3. The top floor sanding device for a workshop as claimed in claim 1, wherein: the first conveying mechanism and the second conveying mechanism are both belt conveying mechanisms, and the two opposite ends of each belt conveying mechanism in the belt rotating direction are respectively an input end and an output end.

4. The top floor sanding device for a workshop as claimed in claim 3, wherein: belt transmission device includes actuating mechanism, drive mechanism and supporting mechanism, drive mechanism includes that belt, first roller and second roll the roller, first roll the roller with the second roll the roller rotate respectively set up in supporting mechanism length direction's relative both ends, actuating mechanism set up in on the supporting mechanism and with first roller transmission is connected, the belt cover is located first roll the roller with the second rolls between the roller.

5. The top floor sanding device for a workshop as claimed in claim 4, wherein: the transmission mechanism further comprises a plurality of positioning mechanisms, each positioning mechanism is distributed along the length direction of the supporting mechanism, each positioning mechanism comprises two inclined rollers which are oppositely arranged along the width direction of the supporting mechanism, the two inclined rollers are rotatably arranged on the supporting mechanism, the inclination angle of each inclined roller is adjustable, the belt is provided with a material carrying surface and a back side surface which are oppositely arranged, the two inclined rollers are respectively abutted to the two opposite sides of the width direction of the back side surface, and the belt is made to be sunken along the length direction to form a material carrying concave cavity with adjustable depth.

6. The top floor sanding device for a workshop as claimed in claim 5, wherein: the positioning mechanism further comprises two fixing assemblies, the two fixing assemblies comprise supporting rods and rotating frames, the supporting rods are fixed on the two opposite sides of the supporting mechanism in the width direction respectively, the rotating frames correspond to the supporting rods, the supporting rods are connected in a rotating mode and locked through locking bolts, and the inclined rollers are installed on the corresponding rotating frames in a rotating mode.

7. The top floor sanding device for a workshop as claimed in claim 6, wherein: the supporting mechanism comprises a bearing frame body and a plurality of supporting assemblies, each supporting assembly is fixed below the bearing frame body along the length direction of the bearing frame body, the first rolling roller and the second rolling roller are respectively and rotatably arranged at two opposite ends of the bearing frame body in the length direction, and the two supporting rods are respectively fixed at two opposite sides of the bearing frame body in the width direction.

8. The top floor sanding device for a workshop as claimed in claim 7, wherein: each the supporting component all includes two support columns and stiffener, two the support column respectively with bear the weight of the relative both sides of support body width direction and be connected, the stiffener is connected in two between the support column.

9. The top layer sand distribution device for the workshop according to any one of claims 5 to 8, characterized in that: the transmission mechanism further comprises a plurality of material pushing strips, and the material pushing strips are arranged on the material carrying surface along the length direction of the material carrying surface.

10. The top floor sanding device for a workshop as claimed in claim 9, wherein: the material pushing strip comprises two strip sections which are connected with each other and form included angles, and the two strip sections are arranged on the material loading surface and face the head end of the included angle formed by the strip sections towards the conveying direction of the belt.

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