CN213921709U - Material arranging and conveying device for bulk materials - Google Patents

Abstract

The utility model relates to the technical field of packaging machinery, in particular to a material arranging and conveying device for bulk materials, which comprises at least one group of material arranging and conveying mechanisms which are sequentially communicated with one another, each group of material arranging and conveying mechanisms comprises a slideway and a group of horizontal material conveying belts which are communicated with one another, the rear end of the slideway is inclined and arranged downwards, two side walls of the slideway are inclined planes or curved surfaces which expand outwards, the bottom of the slideway is also provided with a guide groove along the length direction of the slideway, the width of the guide groove is equal to or slightly larger than the width of a single material, so that the material in the slideway can slide into the guide groove and slide onto the horizontal material conveying belts along the guide groove; the utility model is used for bulk material's reason material conveyor can make bulk material put neatly in transportation process is automatic to accomplish reason material process, need not set up special reason material device in addition, and simple structure is practical, and makes and the maintenance cost is low.

Description

Material arranging and conveying device for bulk materials

Technical Field

The utility model relates to the technical field of packaging machinery, specifically a reason material conveyor for bulk material.

Background

The packing box type packing machine is a machine for automatically packing bulk materials by using packing boxes, and in the whole packing process, the bulk materials are firstly placed on a conveying belt, the conveying belt continuously conveys the bulk materials to a material ejecting position, and the bulk materials are ejected into a packing structure by an ejecting mechanism for packing. For strip-shaped and rectangular bulk materials (such as small-bag biscuits, small-bag candies, snacks and the like), the bulk materials are required to be orderly placed in a packaging box, if the bulk materials on a conveying belt are placed disorderly, the packaging machine is not favorable for directly packaging the bulk materials, so the bulk materials are generally required to be manually packaged, the efficiency is low, the labor cost is overhigh, and although some packaging machines are additionally provided with a material arranging device on a material conveying line for arranging the bulk materials so as to arrange the bulk materials orderly, the general structure is more complicated, and the manufacturing and maintenance costs are higher.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect that exists among the prior art, the utility model discloses a task is to provide a reason material conveyor for bulk material, can make bulk material put in transportation process is automatic neatly to accomplish reason material process, need not set up special reason material device in addition, and simple structure is practical, and makes and the maintenance cost is low.

The utility model discloses the task is realized through following technical scheme:

the material arranging and conveying device for the bulk materials comprises at least one group of material arranging and conveying mechanisms which are sequentially communicated with one another, each group of material arranging and conveying mechanisms comprises a slide way and a group of horizontal material conveying belts which are communicated with one another from front to back, the rear end of the slide way is obliquely and downwards arranged, two side walls of the slide way are inclined planes or curved surfaces which expand outwards, a guide groove is further arranged at the bottom of the slide way along the length direction of the slide way, and the width of the guide groove is equal to or slightly larger than the width of a single material, so that the bulk materials in the slide way can automatically slide into the guide groove, can be uniformly corrected in direction under the guiding action of the guide groove, and can slide onto the corresponding horizontal material conveying belts along the guide groove.

Preferably, every group horizontal material conveyer belt is linked together and direction of delivery is preceding conveyer belt and back conveyer belt after to in the past including around, and the conveying speed of preceding conveyer belt is less than the conveying speed of back conveyer belt to make preceding conveyer belt can carry material to back conveyer belt and pull open the interval around of adjacent material through back conveyer belt.

Preferably, the material arranging and conveying device for bulk materials further comprises a material stacking and removing mechanism, the material stacking and removing mechanism comprises an inclined material conveying belt, the inclined material conveying belt is arranged behind the last group of horizontal material conveying belt and communicated with the front part and the back part, the conveying direction of the inclined material conveying belt is from the front part to the back part, so that materials on the horizontal material conveying belt can be conveyed to the inclined material conveying belt and are continuously conveyed from the front part to the back part through the inclined material conveying belt, and one side of the inclined material conveying belt is inclined downwards so that the materials stacked on the lowest layer of materials can slide downwards.

Preferably, the inclination angle of the inclined material conveying belt is adjustable.

Preferably, the first baffle that is used for preventing the landing of lower floor's material is still equipped with at one side border of slope material conveyer belt downward sloping, first baffle is including the anterior segment baffle and the back end baffle that are linked together from beginning to end, and wherein the height of anterior segment baffle is greater than the thickness sum of two stack materials, and the height of back end baffle equals or is less than the thickness of a material.

Preferably, the material arranging and conveying device for the bulk materials further comprises a material supplying mechanism, and the material supplying mechanism is used for supplying the bulk materials into the foremost slide way.

Preferably, the material supply mechanism comprises a climbing material conveying belt and a hopper, the hopper is positioned above the lower end of the climbing material conveying belt and communicated with the object carrying surface of the climbing material conveying belt, the conveying direction of the climbing material conveying belt is climbing from bottom to top, and the upper end of the climbing material conveying belt extends to the top of the foremost slide way so as to convey bulk materials in the hopper to the slide way.

Preferably, the two side edges of the climbing material conveying belt are provided with second baffle plates for placing materials to slide down.

Preferably, a reason material conveyor for bulk material still includes material backflow mechanism, material backflow mechanism includes a backward flow material conveyer belt and a transition slide, and one side tilt up and intercommunication of transition slide a side of slope material conveyer belt downward sloping, the opposite side downward sloping of transition slide and the one side of intercommunication backward flow material conveyer belt, the discharge end intercommunication of backward flow material conveyer belt the feed inlet of hopper to can carry the material backward flow of landing extremely in the hopper from the slope material conveyer belt.

Preferably, a third baffle plate for preventing the materials from sliding down is further arranged on the edge of one side of the backflow material conveying belt, the third baffle plate is located on the other side opposite to the transition sliding plate, and a fourth baffle plate for preventing the materials from sliding down is further arranged on the edge of the rear end of the transition sliding plate.

Compared with the prior art, the utility model is used for bulk material's reason material conveyor has following advantage: the method comprises the following steps that firstly, the two side walls of a slide way and guide grooves at the bottom are inclined, so that disordered bulk materials supplied into the slide way can automatically slide into the guide grooves, the directions of the disordered bulk materials are uniformly corrected under the guiding action of the guide grooves and the disordered bulk materials slide along the guide grooves to corresponding horizontal material conveying belts, the disordered bulk materials are automatically and quickly corrected into regular materials which are uniformly arranged in the same straight line in the directions, and the bulk materials are automatically and neatly placed in the conveying process to finish the material arranging process; moreover, the utility model discloses a reason material conveyor for bulk material can only set up a set of reason material conveying mechanism, also can set up the reason material conveying mechanism that multiunit is linked together around in proper order according to actual conditions, makes behind reason material conveying mechanism go on further arrange in order to the material after the reason material conveying mechanism arranges in order in the front, the material carries out multistage arrangement through multiunit reason material conveying mechanism in proper order to can further improve the reason material effect of material; secondly, the horizontal material conveying belt is composed of a front conveying belt and a rear conveying belt which are in the same direction and have different conveying speeds, so that the distance between the front and rear adjacent materials can be increased, the materials on the conveying belts are arranged regularly and at intervals, and the material arranging effect is further improved; the materials which are arranged by the material arranging and conveying mechanism are regularly arranged at intervals, but a plurality of materials can still be stacked up and down, by arranging the inclined material conveying belt, when the materials which are stacked up and down pass through the inclined material conveying belt, the materials at the lowest layer are directly contacted with the surface of the inclined material conveying belt, the friction force is large, and therefore the materials cannot slide downwards relative to the surface of the material conveying belt, but other materials stacked on the materials at the lowest layer can slide out from one side of the inclined material conveying belt due to the generally small friction force among the materials, so that the stacked materials are removed, the materials on the inclined material conveying belt are regularly arranged at intervals and in a single layer, and then are conveyed to the next process of a packaging machine directly or through other conveying belts, thereby further improving the material arranging effect; the stacked material removing mechanism can remove stacked materials only by one inclined material conveying belt, and is simple in structure, convenient and practical; in practical application, the inclination angle of the inclined material conveying belt can be adjusted according to practical conditions (such as the friction coefficient between the outer package of the bulk material and the surface of the inclined material conveying belt, the material conveying speed, the material weight and the like) so as to adjust the material removing effect; the first baffle is arranged and divided into a front section baffle and a rear section baffle, the front end baffle is close to the feeding end of the inclined material conveying belt, materials are conveyed to the inclined material conveying belt from the rear conveying belt at a certain speed and inertia and easily slide relative to the inclined material conveying belt, the front section baffle is arranged to block and limit the materials, and when the materials are stabilized on the inclined material conveying belt, the materials at the lowest layer are blocked by the rear section baffle, and other materials stacked on the materials at the lowest layer cannot be blocked from sliding; the material supply mechanism can continuously convey the bulk materials in the hopper into the slideway, and the bulk materials can be conveniently supplemented into the hopper, so that the structure is simple, convenient and practical; and the materials rejected by the stacked material rejecting mechanism can be conveyed back into the hopper by arranging the material backflow mechanism, so that the rejected materials are directly recycled and recycled, and the material recycling device is convenient and practical.

The conception, the specific structure and the effects of the present invention will be further described with reference to the accompanying drawings, so as to fully understand the objects, the features and the effects of the present invention.

Drawings

Fig. 1 is a schematic structural view of the material arranging and conveying device for bulk materials of the present invention;

fig. 2 is a schematic structural view of the slide of fig. 1.

Wherein: the material feeding mechanism 1, the climbing material conveying belt 11, the hopper 12, the second baffle 13, the material arranging and conveying mechanism 2, the slide rail 21, the side wall 211, the guide groove 212, the horizontal material conveying belt 22, the front conveying belt 221, the rear conveying belt 222, the stacked material removing mechanism 3, the inclined material conveying belt 31, the first baffle 32, the front baffle 321, the rear baffle 322, the material backflow mechanism 4, the backflow material conveying belt 41, the transition sliding plate 42, the third baffle 43 and the fourth baffle 44.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the description of the specific embodiments is intended to be illustrative only and is not intended to be limiting.

It is noted that as used herein, the term "communicate" between one element and another element means that the two elements form a passageway that communicates with one another to allow material to pass therethrough, i.e., material may be transferred from one element to the other, and does not mean that the two elements are directly connected or in direct contact. Furthermore, the terms "front," "back," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

As shown in fig. 1-2, the material arranging and conveying device for bulk materials of the present invention comprises a material supplying mechanism 1, two sets of material arranging and conveying mechanisms 2 communicated with each other from front to back, a stacked material removing mechanism 3 and a material returning mechanism 4, each set of material arranging and conveying mechanism 2 comprises a slideway 21 and a set of horizontal material conveying belts 22 communicated with each other from front to back, the rear end of the slideway 21 is arranged obliquely and downwards, two side walls 211 of the slideway 21 are inclined planes or curved surfaces expanding outwards, the bottom of the slideway 21 is further provided with a guide groove 212 along the length direction thereof, the width of the guide groove 212 is equal to or slightly larger than the width of a single material, so that bulk materials in the slideway 21 can automatically slide into the guide groove 212 and uniformly correct the direction under the guiding action of the guide groove 212 and slide down to the corresponding horizontal material conveying belt 22 along the guide groove 212, each set of horizontal material conveying belts 22 comprises a front conveying belt 221 and a rear conveying belt 222 communicated from front to back and conveying directions of front to back, and the conveying speed of the front conveyor belt 221 is less than the conveying speed of the rear conveyor belt 222, so that the front conveyor belt 221 can convey the materials to the rear conveyor belt 222 and pull apart the front-rear spacing of the adjacent materials through the rear conveyor belt 222. When the material feeding mechanism 1 is used, bulk materials in the hopper are continuously conveyed into the foremost slide way 21 through the material feeding mechanism 1, and the bulk materials which are randomly arranged and are fed into the slide way 21 can automatically slide into the guide groove 212, uniformly correct the directions under the guiding action of the guide groove 212 and slide to the corresponding horizontal material conveying belt 22 along the guide groove 212, so that the randomly arranged bulk materials can be automatically and quickly corrected into tidy materials which are uniformly and linearly arranged along the same direction, and the front conveying belt 221 and the rear conveying belt 222 which are in the same direction and have different conveying speeds are used for pulling the distance between the front and the rear adjacent materials, so that the materials on the conveying belts are regularly arranged at intervals, and the bulk materials are automatically and regularly placed in the conveying process to finish the material arranging process; furthermore, the utility model discloses a reason material conveyor for bulk material can only set up a set of reason material conveying mechanism 2, also can set up the reason material conveying mechanism 2 that the multiunit is linked together around in proper order according to actual conditions, makes after reason material conveying mechanism 2 further arrange in order the material after 2 arrangements of reason material conveying mechanism in the front, and the material carries out multistage arrangement through multiunit reason material conveying mechanism 2 in proper order to can further improve the reason material effect of material.

In a preferred embodiment, the stacked material removing mechanism 3 includes an inclined material conveying belt 31, the inclined material conveying belt 31 is disposed behind the last group of the horizontal material conveying belts 22 and is communicated with the front and the back, the conveying direction of the inclined material conveying belt 31 is from the front to the back, so that the materials on the horizontal material conveying belts 22 can be conveyed to the inclined material conveying belt 31 and conveyed from the front to the back continuously through the inclined material conveying belt 31, and one side of the inclined material conveying belt 31 is inclined and arranged downwards to enable the materials stacked on the lowest layer of materials to slide downwards. When the material arranging and conveying mechanism 2 is used, although the materials are arranged at regular intervals, a plurality of materials can be stacked up and down, the inclined material conveying belt 31 is arranged, when the materials stacked up and down pass through the inclined material conveying belt 31, the lowest layer of the materials directly contact with the surface of the inclined material conveying belt 31, the friction force is large, and therefore the materials cannot slide downwards relative to the surface of the material conveying belt, but other materials stacked on the lowest layer of the materials generally have small friction force, and therefore the materials can slide out from the side, downwards inclined, of the material conveying belt due to relative sliding, so that the effect of removing the stacked materials is achieved, after removal, the materials on the inclined material conveying belt 31 are arranged at regular intervals and in a single layer, and then are conveyed to the next process of a packaging machine directly or through other conveying belts, thereby further improving the material arranging effect; and this stack material rejection mechanism 3 only needs an slope material conveyer belt 31 can accomplish the rejection work of stacking the material, simple structure, convenient and practical.

As a preferred embodiment, the inclination angle of the inclined material conveying belt 31 is adjustable, and a specific angle adjustment mode can be selected according to actual situations, for example, the height of the support frame on one side of the inclined material conveying belt 31 is increased, or the height of the support frame on the other side of the inclined material conveying belt 31 is reduced, so that the inclination angle of the inclined material conveying belt 31 can be adjusted. In practical application, the inclination angle of the inclined material conveying belt 31 can be adjusted according to practical conditions (such as the friction coefficient between the outer package of the bulk material and the surface of the inclined material conveying belt 31, the material conveying speed, the material weight and the like) so as to adjust the material removing effect.

In a preferred embodiment, a first baffle 32 for preventing the lowest layer of material from sliding down is further arranged at one side edge of the inclined material conveying belt 31, the first baffle 32 comprises a front baffle 321 and a rear baffle 322 which are communicated with each other in front and rear, wherein the height of the front baffle 321 is greater than the sum of the thicknesses of two stacked materials, and the height of the rear baffle 322 is equal to or less than the thickness of one material. Through setting up first baffle 32, and divide into anterior segment baffle 321 and back end baffle 322 with first baffle 32, the front end baffle is close to the feed end of slope material conveyer belt 31, because the material has certain speed and inertia when carrying to slope material conveyer belt 31 from back conveyer belt 222, slope material conveyer belt 31 slides relatively easily, it is spacing to set up anterior segment baffle 321 and can block whole materials, treat that the material has been stable on slope material conveyer belt 31, rethread back end baffle 322 blocks the lower floor's material, can not block simultaneously and stack other material landing on the lower floor's material.

In a preferred embodiment, the material supply mechanism 1 includes a climbing material conveyer belt 11 and a hopper 12, the hopper 12 is located above the lower end of the climbing material conveyer belt 11 and is communicated with the loading surface of the climbing material conveyer belt 11, the conveying direction of the climbing material conveyer belt 11 is from bottom to top, and the upper end of the climbing material conveyer belt 11 extends to above the foremost slideway 21 so as to convey the bulk materials in the hopper 12 to the foremost slideway 21. Preferably, the two side edges of the climbing material conveying belt 11 are provided with second baffles 13 for placing materials to slide down. The material supply mechanism 1 can continuously convey the bulk materials in the hopper 12 to the foremost slideway 21, and the bulk materials can be conveniently supplemented into the hopper 12, and the material supply mechanism is simple in structure, convenient and practical.

As a preferred embodiment, the material backflow mechanism 4 comprises a backflow material conveying belt 41 and a transition sliding plate 42, one side of the transition sliding plate 42 inclines upwards and is communicated with one side edge of the inclined material conveying belt 31 inclining downwards, the other side of the transition sliding plate 42 inclines downwards and is communicated with one side of the backflow material conveying belt 41, and the discharge end of the backflow material conveying belt 41 is communicated with the feed inlet of the hopper 12, so that the material falling off from the inclined material conveying belt 31 can be conveyed into the hopper 12 in a backflow mode. Preferably, one side border on the backward flow material conveyer belt 41 still is equipped with the third baffle 43 that is used for preventing the material landing, third baffle 43 be located with the opposite side that transition slide 42 is relative, the rear end border of transition slide 42 still is equipped with the fourth baffle 44 that is used for preventing the material landing, through setting up material backward flow mechanism 4, can reject the material that mechanism 3 rejected through stacking the material and carry backward flow again extremely in hopper 12, realize the direct recovery and the recycling of rejecting the material, convenient and practical, and utilize transition slide 42, can be so that from the material of the landing on the slope material conveyer belt 31 length direction, all can pass through transition slide 42 landing to backward flow material conveyer belt 41, the structure sets up simply, and material recovery efficiency is high.

In a preferred embodiment, the front conveyor belt 221, the rear conveyor belt 222, the inclined material conveyor belt 31, the climbing material conveyor belt 11 and the return material conveyor belt 41 are driven by separate drive devices, which are not illustrated in the drawings. The drive means preferably drives a motor.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be understood by those skilled in the art that the scope of the present invention is not limited to the specific combination of the above-mentioned features, but also covers other embodiments formed by any combination of the above-mentioned features or their equivalents without departing from the spirit of the present invention. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (10)

1. The material arranging and conveying device for the bulk materials is characterized by comprising at least one group of material arranging and conveying mechanisms which are sequentially communicated front and back, each group of material arranging and conveying mechanisms comprises a slideway and a group of horizontal material conveying belts which are communicated front and back, the rear end of the slideway is obliquely and downwards arranged, two side walls of the slideway are inclined planes or curved surfaces which are outwards expanded, a guide groove along the length direction of the slideway is further arranged at the bottom of the slideway, and the width of the guide groove is equal to or slightly larger than the width of a single material, so that the bulk materials in the slideway can automatically slide into the guide groove, can be uniformly corrected in direction under the guiding action of the guide groove, and can slide onto the corresponding horizontal material conveying belts along the guide groove.

2. A material arranging and conveying device for bulk materials according to claim 1, wherein each group of the horizontal material conveying belts comprises a front conveying belt and a rear conveying belt which are communicated with each other from front to back, and the conveying direction of the front conveying belt is from front to back, and the conveying speed of the front conveying belt is lower than that of the rear conveying belt, so that the front conveying belt can convey materials to the rear conveying belt and the front-back distance between adjacent materials is pulled through the rear conveying belt.

3. A material arranging and conveying device for bulk materials according to claim 1, further comprising a material arranging and conveying mechanism, wherein the material arranging and conveying mechanism comprises an inclined material conveying belt, the inclined material conveying belt is arranged behind the last group of horizontal material conveying belts and communicated with the front and the back of the last group of horizontal material conveying belts, the conveying direction of the inclined material conveying belts is from front to back, so that materials on the horizontal material conveying belts can be conveyed to the inclined material conveying belts and can be conveyed to the back of the last group of horizontal material conveying belts continuously through the inclined material conveying belts, and one side of the inclined material conveying belt is arranged obliquely downwards so that materials stacked on the lowest layer of materials can slide downwards.

4. The bulk material collating conveyor of claim 3 wherein the angle of inclination of the inclined material conveyor belt is adjustable.

5. The bulk material arranging and conveying device according to claim 3, wherein a first baffle plate for preventing the lowest layer of materials from sliding down is further arranged at one side edge of the inclined material conveying belt, the first baffle plate comprises a front baffle plate and a rear baffle plate which are communicated with each other in a front-rear mode, the height of the front baffle plate is larger than the sum of the thicknesses of two stacked materials, and the height of the rear baffle plate is equal to or smaller than the thickness of one material.

6. A bulk material handling conveyor according to claim 3 further comprising a material feed mechanism for feeding bulk material into the foremost one of said chutes.

7. The bulk material arranging and conveying device according to claim 6, wherein the material supplying mechanism comprises a climbing material conveying belt and a hopper, the hopper is positioned above the lower end of the climbing material conveying belt and is communicated with the carrying surface of the climbing material conveying belt, the conveying direction of the climbing material conveying belt is from bottom to top, and the upper end of the climbing material conveying belt extends to the upper part of the foremost slideway so as to convey the bulk materials in the hopper into the slideways.

8. The bulk material arranging and conveying device according to claim 7, wherein the climbing material conveying belt is provided with second baffles for preventing materials from sliding off at two sides.

9. A material arranging and conveying device for bulk materials according to claim 7, further comprising a material backflow mechanism, wherein the material backflow mechanism comprises a backflow material conveying belt and a transition sliding plate, one side of the transition sliding plate inclines upwards and is communicated with one side edge of the inclined material conveying belt, the other side of the transition sliding plate inclines downwards and is communicated with one side of the backflow material conveying belt, and the discharge end of the backflow material conveying belt is communicated with the feed inlet of the hopper, so that materials sliding down from the inclined material conveying belt can be conveyed into the hopper in a backflow mode.

10. The bulk material handling device of claim 9, wherein a third baffle is disposed at one side edge of the return material conveyor belt for preventing the material from sliding off, the third baffle is disposed at the other side opposite to the transition sliding plate, and a fourth baffle is disposed at the rear end edge of the transition sliding plate for preventing the material from sliding off.

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