CN213386525U - Conveying device - Google Patents

Abstract

The utility model provides a conveying device belongs to material conveying equipment technical field. It has solved the inconvenient people of current material conveying equipment and has collected the material and the problem that material collection efficiency is low. The utility model relates to a conveyor includes casing, first feeding mechanism, second feeding mechanism, draws material mechanism and feed mechanism. Through the cooperation of the first feeding mechanism and the material guiding mechanism and the action of the second feeding mechanism, after people place materials on the conveying device at will, the conveying device can convey the materials to the material distributing mechanism through the second feeding mechanism all the time, so that the materials are convenient for people to collect, and the material collecting efficiency is improved; secondly, through the material distributing effect of the material distributing mechanism on the materials, people can conveniently pick up the materials on the second feeding mechanism, and therefore the collecting efficiency of the conveying device on the materials is improved.

Description

Conveying device

Technical Field

The utility model belongs to the technical field of material conveying equipment, a conveyor is related to.

Background

The industrial conveying device is an automatic device for conveying mechanical parts, and the conveying device effectively improves the conveying efficiency of materials, so that the demand of people on the conveying device is higher and higher, for example, a material conveying device mechanism for industrial electric automation equipment with the publication number of CN110271819A, which comprises a frame, a conveying belt and a baffle plate, wherein the conveying belt for conveying materials is erected on the frame, two adjusting mechanisms for synchronously adjusting the distance between the two baffle plates respectively corresponding to the conveying belt are installed in the middle of the frame, the baffle plate is detachably and fixedly installed on a mounting seat, although the scheme can realize that the material conveying device mechanism conveys materials, the material conveying device mechanism can only realize that the movement direction of the materials on the conveying device mechanism is a straight line in the material conveying process, and when the width that conveyor constructs is great or constitutes a conveyor by a plurality of conveyor when, lead to people when collecting the material, can only make a round trip to collect the material at conveyor's output, so, reduced the efficiency that people collected the material, also made things convenient for people's work.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to current technique, provided a make things convenient for people to collect the material and improve material collection efficiency's conveyor.

The purpose of the utility model can be realized by the following technical proposal: a delivery device, comprising:

a housing;

the first feeding mechanism is arranged on the shell;

and the second feeding mechanism is arranged on the shell, and a material guiding mechanism for guiding the material from the first feeding mechanism to the second feeding mechanism is arranged on the shell.

In the above conveying device, the material guiding mechanism includes a material guiding plate, and an inclined edge is disposed at an edge of the material guiding plate.

In the above-mentioned conveyor, the material guiding mechanism includes a support plate disposed on the casing and a material guiding table mounted on the support plate, a material guiding belt is mounted on a side surface of the material guiding table, and a material guiding motor for driving the material guiding belt to work is mounted on the material guiding table.

In the above conveying device, the first feeding mechanism includes a first rotating shaft and a driven shaft penetrating through the casing, and a plurality of first material belts are arranged between the first rotating shaft and the driven shaft.

In the above conveying device, the first rotating shaft is provided with a first rotating wheel for connecting with a corresponding first material belt, the driven shaft is provided with a first driven wheel corresponding to the first rotating wheel, and one side of the casing is provided with a first motor for driving the first rotating shaft to rotate.

In the above-mentioned conveying device, the second feeding mechanism includes a second rotating shaft penetrating through the casing, a second rotating wheel is installed on the second rotating shaft, a second driven wheel corresponding to the second rotating wheel is installed on the driven shaft, the second rotating wheel and the second driven wheel are connected through a second material belt, and a second motor for driving the second rotating shaft to rotate is arranged on one side of the casing.

In the above conveying device, the two sides of the casing are respectively provided with an adjusting component for adjusting the first feeding mechanism and the second feeding mechanism.

In foretell conveyor, every the adjusting part all includes the fixed plate that sets firmly in the casing side, wear to be equipped with the push rod in the fixed plate, the one end of push rod is equipped with the ejector pad, the casing is all passed at the both ends of driven shaft, the both ends of driven shaft are all installed and are moved the board, the ejector pad with it is connected to move the contact between the board.

In the above conveying device, the casing is provided with a through hole for penetrating the driven shaft, the moving plate is provided with at least two moving holes for connecting the casing, and a bearing is arranged between the moving plate and the driven shaft.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses in, through first feeding mechanism and the cooperation of drawing material mechanism and second feeding mechanism's effect for people place the material back on this conveyor at will, this conveyor can carry the material to feed mechanism department through second feeding mechanism all the time, so, makes things convenient for people to collect the material, thereby improves the collection efficiency to the material.

2. Through the material distributing effect of the material distributing mechanism on the materials, people can conveniently pick up the materials on the second feeding mechanism, and therefore the collecting efficiency of the conveying device on the materials is improved.

3. Through the effect of adjusting part, effectively adjust first feeding mechanism and second feeding mechanism's elasticity.

4. After the second feeding mechanism conveys the materials to the V-shaped groove, the third cylinder body drives the material taking block to move, so that the materials are pushed into the material collecting groove of the material collecting disc by the material taking block, and thus, the automatic collection of the materials by the conveying device can be realized.

5. When the material placed on the material collecting disc is detected to be unqualified by people, people only need to place the material again on the third feeding mechanism, and the third feeding mechanism can transport the material to the initial position again, so that people can process the material again, and the steps that people carry the material again are reduced.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention.

Fig. 2 is a combination view of the adjustment assembly and the housing.

Fig. 3 is a schematic diagram of the internal structure of the present invention.

Fig. 4 is a schematic structural view of the third feeding mechanism.

Fig. 5 is a side view of the chassis.

Fig. 6 is a schematic structural view of a support plate with a bevel edge according to a second embodiment.

FIG. 7 is a schematic structural view of a supporting plate having a lateral side according to a second embodiment.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

Example one

As shown in fig. 1-5, the conveying device of the present invention includes a casing 100, a first feeding mechanism 200, a second feeding mechanism 300, a material guiding mechanism 400, and a material distributing mechanism 500.

The utility model comprises at least one first feeding mechanism 200, each first feeding mechanism 200 is arranged on the casing 100, the second feeding mechanism 300 is arranged on the casing 100, the casing 100 is provided with a material guiding mechanism 400 for guiding the material from the first feeding mechanism 200 to the second feeding mechanism 300, one side of the casing 100 is provided with a material separating mechanism 500 for separating the material on the second feeding mechanism 300, when in work, people only need to place the material on the first feeding mechanism 200 or the second feeding mechanism 300, because the running speed of the second feeding mechanism 300 is higher than that of the first feeding mechanism 200, the material placed on the second feeding mechanism 300 can be quickly conveyed to the material separating mechanism 500 by the second feeding mechanism 300, the material placed on the first feeding mechanism 200 slowly moves towards the material guiding mechanism 400, when the material contacts the material guiding mechanism 400, the material guiding mechanism 400 guides the material to the first feeding mechanism 200, afterwards, first feeding mechanism 200 carries the material to feed mechanism 500 department, afterwards, feed mechanism 500 separates and carries away the material on the first feeding mechanism 200, so, alright realize this conveyor and carry the function of exporting to the material one by one, secondly, through first feeding mechanism 200 and the cooperation of drawing material mechanism 400 and second feeding mechanism 300's effect, make people place the material on this conveyor at will, in addition, through the feed mechanism 500 to the material divide the material effect, make things convenient for people to pick up the material on the second feeding mechanism 300, thereby accelerate this conveyor to the collection efficiency of material.

The guiding mechanism 400 includes a guiding plate 410, an inclined edge 411 is disposed at an edge of the guiding plate 410, when a material on the first feeding mechanism 200 contacts the inclined edge 411 of the guiding plate 410, an angle (not labeled in the figure) is formed between the inclined edge 411 and the first feeding mechanism 200, the angle is an acute angle, and the first feeding mechanism 200 is always in a running state, so that the inclined edge 411 can change a moving direction of the material, so that the material can be smoothly conveyed to the second feeding mechanism 300.

The material distributing mechanism 500 comprises a first cylinder 510 and a second cylinder 520 arranged on one side of the machine shell 100, the first cylinder 510 is provided with a first cylinder rod 511 for blocking the material on the second feeding mechanism 300 from moving, the second cylinder 520 is provided with a second cylinder rod 521 for blocking the material on the second feeding mechanism 300 from moving, the machine shell 100 is provided with a sensor 530 at the position of the material distributing mechanism 500, before the operation, the first cylinder 510 pushes out the first cylinder rod 511, the second cylinder 520 pushes out the second cylinder rod 521, when the material on the second feeding mechanism 300 is contacted with the first cylinder rod 511, the material is detected by the sensor 530, then the first cylinder 510 retracts the first cylinder rod 511, so that the material is continuously conveyed forwards by the second feeding mechanism 300 until the material is abutted against the second cylinder rod 521, and then the first cylinder 510 pushes out the first cylinder rod 511, thus the material is separated from the adjacent material, then, the second cylinder 520 retracts the second cylinder rod 521, so that the materials between the first cylinder rod 511 and the second cylinder rod 521 are continuously conveyed out by the second feeding mechanism 300, and thus, the successive separation of the plurality of materials by the conveying device can be completed.

A material collecting tray 110 is arranged at one side of the casing 100, a slide rail 111 is arranged at one edge of the material collecting tray 110, a material taking block 112 is mounted on the slide rail 111, a material collecting groove 113 for storing materials is formed in the material collecting tray 110, a V-shaped groove 112A for preventing the materials from moving in a dislocation manner is formed in the material taking block 112, the material taking block 112 can move relative to the slide rail 111, a third cylinder 120 for driving the material taking block 112 to move is arranged at one side of the material collecting tray 110, a third cylinder rod 121 for connecting the material taking block 112 is arranged on the third cylinder 120, when the materials on the second feeding mechanism 300 move to a predetermined position, that is, when the materials are conveyed to the V-shaped groove 112A by the second feeding mechanism 300, the third cylinder 120 retracts the third cylinder rod 121 due to the electrical connection of the detector and the third cylinder rod 121 with the material taking block 112, the material taking block 112 is movably mounted on the slide rail 111, so that the third cylinder rod drives the material taking block 112 to move along the track, so that the material is blocked in the V-shaped groove 112A until the material-taking block 112 is pushed into the material collecting groove 113 of the material collecting tray 110, and thus, the automatic collection of the material by the conveying device can be realized.

As shown in fig. 1 and 3, the first feeding mechanism 200 includes a first rotating shaft 210 and a driven shaft 220 penetrating through the casing 100, a plurality of first material belts 230 are disposed between the first rotating shaft 210 and the driven shaft 220, a first rotating wheel 240 for connecting to the first material belts 230 is mounted on the first rotating shaft 210, a first driven wheel 221 corresponding to the first rotating wheel 240 is mounted on the driven shaft 220, a first motor 250 for driving the first rotating shaft 210 to rotate is disposed on one side of the casing 100, during the material conveying process of the first feeding mechanism 200, the first motor 250 drives the first rotating shaft 210 to rotate, as the first rotating wheel 240 is mounted on the first rotating shaft 210, the first driven wheel 221 is mounted on the driven shaft 220, and the first rotating wheel 221 and the driven shaft 220 are connected through a bearing (not shown), the first material belts 230 are mounted between the corresponding first rotating wheel 240 and the first driven wheel 221, so that the first rotating shaft 210 drives the first rotating wheel 240 and the first material belts 230 to move synchronously, therefore, when the material is placed on the first tape 230, the first tape 230 will move the material to a designated direction.

The second feeding mechanism 300 includes a second rotating shaft 310 penetrating the casing 100, a second rotating wheel 320 is installed on the second rotating shaft 310, a second driven wheel 330 corresponding to the second rotating wheel 320 is installed on the driven shaft 220, the second rotating wheel 320 is connected to the second driven wheel 330 through a second material belt 340, a second motor 350 for driving the second rotating shaft 310 to rotate is installed on one side of the casing 100, during the process of conveying the material by the second feeding mechanism 300, the second motor 350 drives the second rotating shaft 310 to rotate, because the second rotating wheel 320 is installed on the second rotating shaft 310, the second driven wheel 330 is installed on the driven shaft 220, and the second driven wheel 330 is connected to the driven shaft 220 through a bearing (not labeled in the figure), and the second material belt 340 is installed between the corresponding second rotating wheel 320 and second driven wheel 330, so that the second rotating shaft 310 drives the second rotating wheel 320 and the second material belt 340 to move synchronously, when the material is placed on the second tape 340, the second tape 340 will drive the material to move in a specific direction.

The two sides of the casing 100 are respectively provided with an adjusting assembly 600 for adjusting the first feeding mechanism 200 and the second feeding mechanism 300, specifically, each adjusting assembly 600 includes a fixing plate 610 fixedly disposed on the side surface of the casing 100, a push rod 620 penetrates through the fixing plate 610, one end of the push rod 620 is provided with a push block 621, two ends of the driven shaft 220 penetrate through the casing 100, two ends of the driven shaft 220 are respectively provided with a moving plate 630, the push block 621 is connected with the moving plate 630 in a contact manner, two sides of the casing 100 are further provided with piston cylinders (not labeled in the figure) for driving the corresponding push rod 620 to move, each casing 100 is provided with a through hole 130 for penetrating through the driven shaft 220, the moving plate 630 is provided with at least two moving holes 631 for connecting the casing 100, a bearing (not labeled in the figure) is disposed between the moving plate 630 and the driven shaft 220, during installation, people need to pass through the corresponding through holes, the upper moving plates 630 are mounted at two ends of the driven shaft 220, and then the moving plates 630 are movably mounted on the casing 100 through the moving holes 631 on the moving plates 630, so that the driven shaft 220 can move relative to the casing 100, when the piston cylinder pushes out the corresponding push rod 620, because the push blocks 621 are fixedly mounted on the push rods 620, the moving plates 630 are in contact connection with the corresponding push blocks 621, two ends of the driven shaft 220 respectively penetrate through the corresponding moving plates 630, so that when the two push blocks 621 push the corresponding moving plates 630 to move along the corresponding moving holes 631, the driven shaft 220 also moves along the corresponding through holes 130, because the first rotating shaft 210 can only rotate on its own central axis, the second rotating shaft 310 can only rotate on its own central axis, so that the distance between the first rotating shaft 210 and the driven shaft 220 can be increased or decreased, and the tightness of the first material belt 230 can be adjusted, so that the first material belt 230 can normally convey materials, meanwhile, the distance between the second rotating shaft 310 and the driven shaft 220 can be increased or decreased, so that the tightness of the second material belt 340 can be adjusted, and the second material belt 340 can normally convey materials.

As shown in fig. 1 and 4, a third feeding mechanism 700 is disposed on one side of the casing 100, the feeding direction of the third feeding mechanism 700 is opposite to the feeding direction of the second feeding mechanism 300, when the material placed on the material collecting tray 110 is detected by a person to be unqualified, the person only needs to place the material on the third feeding mechanism 700 again, and the third feeding mechanism 700 will re-feed the material to the initial position, so that the person can process the material again.

Further, the third feeding mechanism 700 includes a material housing 710, a third material belt 720 is disposed on the material housing 710, a third motor 730 for driving the third material belt 720 to move is disposed in the material housing 710, a driving rod 740 and a driven rod 750 for mounting the third material belt 720 are disposed in the material housing 710, a main gear 760 is disposed on the third motor 730, a sub gear 770 is disposed on the driving rod 740, the main gear 760 and the sub gear 770 are connected by a belt 780, when the third feeding mechanism works, the third motor 730 drives the main gear 760 to work, because the sub gear 770 and the main gear 760 are connected by the belt 780, the sub gear 770 is fastened on the driving rod 740, the driving rod 740 movably penetrates through the material housing 710, and the driven rod 750 also movably penetrates through the material housing 710, so that the driving rod 740 also rotates the sub gear 770, thereby driving the third material belt 720 to run, and thus the material can be transported in the opposite direction.

Example two

As shown in fig. 6 to 7, the present embodiment is different from the first embodiment in that the present embodiment changes the structure of the beverage mechanism.

Specifically, the material guiding mechanism 400 includes a supporting plate 420 disposed on the casing 100 and a material guiding table 430 mounted on the supporting plate 420, a material guiding belt 431 is mounted on a side surface of the material guiding table 430, a material guiding motor 432 for driving the material guiding belt 431 to work is mounted on the material guiding table 430, when the material guiding motor 432 works, the material guiding belt 431 is driven by the material guiding motor 432, because the material guiding belt 431 is located on a side surface of the material guiding table 430, and the material guiding table 430 is located at an edge of the supporting plate 420, so that the first feeding mechanism 200 conveys the material to the material guiding mechanism 400, and when the material is in contact with the material guiding belt 431, the material guiding belt 431 drives the material to move towards the second feeding mechanism 300, so that the material on the first feeding mechanism 200 can be smoothly conveyed to the second feeding mechanism 300, and is conveyed to the material distributing mechanism 500 by the second feeding mechanism 300.

Furthermore, a bevel edge or a transverse edge can be arranged on one side edge of the support plate located on the feeding table, specifically, when the side edge of the support plate located on the feeding table is arranged to be the transverse edge, the moving track of the material is changed, the material is pulled only by the feeding belt, so that the material moves from the first feeding mechanism to the second feeding mechanism, but compared with the support plate with the bevel edge, the area of the support plate with the transverse edge is smaller than that of the support plate with the bevel edge, so that more materials can be conveyed on the first feeding mechanism at one time, and the manufacturing cost of the device is reduced; when the backup pad was located one side setting of material platform and is the hypotenuse, because of drawing the hypotenuse department of material mechanism setting in the backup pad for draw the material mechanism also to be the slope form, promptly, draw and have the angle between the movement track of material mechanism and material, so, through the mating reaction of drawing material mechanism and hypotenuse, further guarantee that the material that is located on first feeding mechanism can move smoothly to second feeding mechanism on.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (8)

1. A conveyor apparatus, comprising:

a housing;

the first feeding mechanism is arranged on the shell;

the second feeding mechanism is arranged on the shell, and a material guiding mechanism for guiding the material from the first feeding mechanism to the second feeding mechanism is arranged on the shell; and adjusting components for adjusting the first feeding mechanism and the second feeding mechanism are arranged on two sides of the shell.

2. The conveying device as claimed in claim 1, wherein the material guiding mechanism comprises a material guiding plate, and the edge of the material guiding plate is provided with a bevel edge.

3. The conveying device according to claim 1, wherein the material guiding mechanism comprises a supporting plate arranged on the casing and a material guiding table arranged on the supporting plate, a material guiding belt is arranged on a side surface of the material guiding table, and a material guiding motor for driving the material guiding belt to work is arranged on the material guiding table.

4. The conveying device as claimed in claim 1, wherein the first feeding mechanism includes a first rotating shaft and a driven shaft penetrating the casing, and a plurality of first material belts are disposed between the first rotating shaft and the driven shaft.

5. The conveying device as claimed in claim 4, wherein the first rotating shaft is provided with a first rotating wheel for connecting with the corresponding first material belt, the driven shaft is provided with a first driven wheel corresponding to the first rotating wheel, and one side of the casing is provided with a first motor for driving the first rotating shaft to rotate.

6. The conveying device according to claim 4, wherein the second feeding mechanism includes a second rotating shaft penetrating the casing, a second rotating wheel is mounted on the second rotating shaft, a second driven wheel corresponding to the second rotating wheel is mounted on the driven shaft, the second rotating wheel and the second driven wheel are connected through a second material belt, and a second motor for driving the second rotating shaft to rotate is disposed on one side of the casing.

7. The conveying device according to claim 4, wherein each adjusting assembly comprises a fixing plate fixedly arranged on the side surface of the casing, a push rod penetrates through the fixing plate, a push block is arranged at one end of the push rod, two ends of the driven shaft penetrate through the casing, moving plates are arranged at two ends of the driven shaft, and the push block is in contact connection with the moving plates.

8. The conveying device as claimed in claim 7, wherein the casing is provided with a through hole for passing the driven shaft, the moving plate is provided with at least two moving holes for connecting the casing, and a bearing is arranged between the moving plate and the driven shaft.

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