CN212449191U - Conveying mechanism of blanking machine - Google Patents

Abstract

A conveying mechanism of a blanking machine comprises a driving wheel set, a driven wheel set, a first driving assembly and a second driving assembly; a first driver of the first driving assembly outputs rotary motion, a rotary output end of the first driver is connected with the driving wheel set to drive the driving wheel set to realize rotary conveying motion, the driven wheel set is matched with the driving wheel set, and a material conveying channel is formed between the driving wheel set and the driven wheel set; the second driving assembly comprises a second driver and an adjusting structure, the second driver outputs linear motion, and the second driver drives the adjusting structure to change the size of the material conveying channel so as to realize the conveying of the materials. The conveying mechanism of the blanking machine can convey materials quickly and stably.

Description

Conveying mechanism of blanking machine

Technical Field

The utility model relates to a long pipe unloading technical field specifically says and indicates a conveying mechanism of blanking machine.

Background

The long circular tube blanking machine generally comprises a material supporting mechanism, a material conveying mechanism, a material clamping mechanism, a material in-place conveying limiting mechanism and a material cutting mechanism, wherein the mechanisms are matched with each other to complete the supporting, conveying, clamping, in-place conveying limiting and cutting blanking of materials.

Wherein, the conveying of the materials is mainly realized by a material conveying mechanism. At present, for a material conveying mechanism, the material conveying mechanism is mainly based on a driving motor and a supporting piece. When feeding, the driving motor is started to drive the supporting piece connected with the driving motor to move, so that the supported material can advance and is fed into the material clamping mechanism for clamping, and subsequent cutting and blanking are carried out.

Although the more conventional material conveying mechanism can also realize the conveying of materials, for a batch production workshop, how to improve the production efficiency and the quality, especially, the conveying speed is obviously improved, and meanwhile, the stable feeding can be realized, so that the cutting and blanking speed and the quality are improved, and the continuous research, improvement and innovation of technical staff in the industry are always needed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: a conveying mechanism of a blanking machine is provided which can at least partially solve the technical problems mentioned above.

The technical scheme adopted by the utility model for solving the technical problems is to provide a conveying mechanism of a blanking machine, which comprises a driving wheel set, a driven wheel set, a first driving component and a second driving component;

a first driver of the first driving assembly outputs rotary motion, a rotary output end of the first driver is connected with the driving wheel set to drive the driving wheel set to realize rotary conveying motion, the driven wheel set is matched with the driving wheel set, and a material conveying channel is formed between the driving wheel set and the driven wheel set;

the second driving assembly comprises a second driver and an adjusting structure, the second driver outputs linear motion, and the second driver drives the adjusting structure to change the size of the material conveying channel so as to realize the conveying of the materials.

In some embodiments, the pair of guide wheel sets are further arranged at the conveying front ends of the paired driving wheel set and the paired driven wheel set, and after the guide wheel sets are arranged, materials can be guided, so that the materials can smoothly enter a material conveying channel, and the materials can be promoted to be stably and quickly conveyed.

In some embodiments, the rotary output end of the first driver is connected with the driving wheel set through belt transmission to realize the rotary motion of the driving wheel set, so that the driving wheel set has the characteristics of simple structure, smooth transmission, low manufacturing cost, no need of lubrication, easy maintenance and the like.

In some embodiments, the drive wheel set includes one or two or more drive wheels disposed along the material conveying path.

Furthermore, a first belt wheel is installed at the rotating output end of the first driver, a second belt wheel is coaxially installed on each driving wheel, and the first belt wheels and all the second belt wheels are in transmission connection through the same conveying belt, so that the number of parts is effectively reduced under the condition of conveying through the same conveying belt, the structure is simpler, and the integral compactness is further improved.

In some embodiments, the driving wheel set, the first driving assembly and the guiding wheel set located on the same side are all disposed on the first assembling plate, and the driven wheel set and the guiding wheel set located on the other same side are all disposed on the second assembling plate. The side-by-side arrangement is convenient for adjusting the size of the material conveying channel.

Furthermore, the adjusting structure comprises an adjusting gear, a first rack which is arranged at the bottom of the first assembling plate and is consistent with the width direction of the material conveying channel, and a second rack which is arranged on the second assembling plate and is consistent with the width direction of the material conveying channel, wherein the adjusting gear is positioned between the first rack and the second rack and is in tooth meshing connection with the first rack and the second rack. Therefore, the first rack and the second rack which are respectively arranged at two sides of the adjusting gear can always keep reverse operation (including opposite and relative operation) in the meshing transmission process with the adjusting gear, so that the first assembling plate and the second assembling plate are driven to reversely operate (including opposite and relative operation), and the width of the material conveying channel is finally adjusted.

Further, the second driving assembly further comprises a sliding rail and a sliding block which are assembled in a sliding mode, the sliding block comprises a first sliding block connected with the first assembling plate and a second sliding block connected with the second assembling plate, and the linear output end of the second driver drives the sliding block to move along the sliding rail.

Furthermore, the linear output end of the second driver is connected with the second assembling plate, and a configuration space can be reserved for the setting of the second driver because the number of the bearing parts on the second assembling plate is small.

The utility model discloses conveying mechanism of blanking machine, overall structure is compact, lay rationally, and spare part quantity obtains optimizing, and overall structure is succinct.

The utility model discloses the conveying mechanism of blanking machine passes through the comprehensive setting of initiative wheelset, driven wheelset, first drive assembly, second drive assembly, can realize that the material is carried steadily, fast between the wheelset that pairs, can satisfy the demand in batch production workshop.

Simultaneously still through the setting of adjusting the structure, can effectively adjust material transfer passage's size, width size promptly to the adaptation carries different materials, the commonality obtains promoting.

Drawings

Embodiments of the present invention will now be described in more detail and by way of non-limiting examples with reference to the accompanying drawings in order to provide a thorough understanding of the principles and spirit of the invention. It should be noted that the features and structures shown in the various figures do not necessarily represent actual shapes and sizes of the corresponding parts and elements, but are merely used to explain the principles of the embodiments of the present invention.

Fig. 1 is a schematic structural diagram of the conveying mechanism of the blanking machine of the present invention.

Fig. 2 is a schematic view of the overlooking structure of the conveying mechanism of the blanking machine of the present invention.

Fig. 3 is a schematic view of a driving connection structure between the first driving component and the driving wheel set of the conveying mechanism of the blanking machine of the present invention.

Fig. 4 is a schematic structural diagram of the bottom of the second driving assembly of the conveying mechanism of the blanking machine according to the present invention.

The automatic material conveying device comprises a first driver, a material conveying channel, a second driver, a driving wheel, a driven wheel, a guide wheel, a first belt wheel, a second belt wheel, a conveying belt, a first assembling plate, a second assembling plate, a regulating gear, a first rack, a second rack, a sliding rail, a sliding block and a rack seat, wherein the first driver is 1, the material conveying channel is 2, the second driver is 3, the driving wheel is 4, the driven wheel is 5, the guide wheel is 6, the first belt wheel is 7.

Detailed Description

Specific embodiments of the present invention will be described in detail below by way of examples.

It should be understood that the figures are merely schematic and are not drawn to scale. It should also be understood that the same reference numerals are used throughout the figures to indicate the same or similar parts.

It is to be understood that the embodiments of the present invention are not limited to the examples set forth below, and that modifications and variations may be made to the described embodiments by those skilled in the art using the principles and spirit of the present invention to obtain other embodiments of different forms, all of which are apparent to those of skill in the art and fall within the scope of the claimed invention.

Furthermore, it should be noted that the drawings referred to herein are for the purpose of illustrating and explaining embodiments of the present invention, and the shapes and sizes of each component and the connections between the different components shown in the drawings are merely used for schematically illustrating the embodiments of the present invention, and do not constitute limitations on the scope of the present invention.

The following describes in detail a specific embodiment of the conveying mechanism of the blanking machine according to the present invention in an embodiment with reference to fig. 1 to 4.

In the embodiment shown in fig. 1-4, the conveying mechanism of the blanking machine comprises a driving wheel set, a driven wheel set, a first driving assembly and a second driving assembly.

The first driver 1 of the first driving assembly outputs rotary motion, and the rotary output end of the first driver 1 is connected with the driving wheel set so as to drive the driving wheel set to realize rotary conveying motion. The driven wheel set is matched with the driving wheel set, and a material conveying channel 2 is formed between the driving wheel set and the driven wheel set.

The second driving assembly comprises a second driver 3 and an adjusting structure, the second driver 3 outputs linear motion, and the second driver 3 drives the adjusting structure to change the size of the material conveying channel 2 to realize the conveying of the materials.

In this embodiment, the first driver 1 is a driving motor, and can rotate forward and backward, but may be another driver outputting rotational motion. The second actuator 3 is a cylinder, but an actuator that outputs linear motion, such as an oil cylinder, may be used.

The driving wheel set comprises two driving wheels 4 arranged along the material conveying channel, and two driven wheels 5 paired with the two driving wheels 4 one by one are arranged at the same time. The two driving wheels 4 and the two driven wheels form a material conveying channel 2.

The first drive 1, i.e. the rotary output of the drive motor, is provided with a first pulley 7. Each driving wheel 4 is coaxially provided with a second belt wheel 8, and the first belt wheel 7 and all the second belt wheels 8 are in transmission connection through the same conveying belt 9. Whereby rotation of each second pulley 8 causes rotation of the respective coaxially connected drive pulley 4. Because of action wheel 4 rotates, the material that is arranged in material transfer passage has the trend of being driven the forward by the action wheel, and it is rotatory also driven by the material in the twinkling of an eye that the material has the trend of advancing simultaneously from the driving wheel, and final action wheel and driven wheel form the powerful power of carrying to the material from this, have guaranteed the steady and quick of material transport.

In order to guide the materials, the conveying front ends of the paired driving wheel set and the paired driven wheel set are also provided with paired guide wheel sets. The guide wheel set comprises two guide wheels 6, and the two guide wheels 6 are positioned at the rear end of the material conveying channel. The driving wheel, the driven wheel and the guide wheel are 6 wheels, and two rows of left and right rows are formed along the material conveying channel, and each row is three and is correspondingly arranged. This transport structure that many rounds of constitutions possesses the advantage of carrying steadily, reliably, smoothly, and can guarantee that the material is carried fast.

In order to realize the adjustment of the size of the material conveying channel, the width of the material conveying channel is actually mainly adjusted to adapt to conveying long round tubes with different diameters, the driving wheel set, the first driving assembly and the guide wheel set which are positioned on the same side are arranged on the first assembling plate 10, and the driven wheel set and the guide wheel set which are positioned on the same side are arranged on the second assembling plate 11. That is, the left-hand wheel and the first driving assembly are mounted on the first mounting plate 10, and the right-hand wheel is mounted on the second mounting plate 11, so that the width of the material conveying path can be adjusted by separately mounting the wheels and the first driving assembly.

The adjusting structure comprises an adjusting gear 12, a first rack 13 which is arranged at the bottom of the first assembling plate 10 and is consistent with the width direction of the material conveying channel 2, and a second rack 14 which is arranged on the second assembling plate 11 and is consistent with the width direction of the material conveying channel 2. The adjusting gear 12 is located between the first rack 13 and the second rack 14 and is in toothed engagement with the first rack 13 and the second rack 14.

The second driving assembly further comprises a sliding rail 15 and a sliding block which are slidably assembled, the sliding block comprises a first sliding block 16 connected with the first assembling plate 10 and a second sliding block 17 connected with the second assembling plate 11, and the linear output end of the second driver 3 is connected with the second assembling plate 11.

When the conveying mechanism is arranged on the blanking machine, the slide rail 15, the adjusting gear 12 and the second driver 3 are all mounted on the frame base 18.

When the width of the material conveying channel needs to be adjusted, the second driver 3 is started, namely the linear output end of the air cylinder advances to drive the second assembling plate 11 to move towards the left side, and at the moment, the second rack 14 moves towards the left side to drive the adjusting gear 12 to rotate anticlockwise. With the counterclockwise rotation of the adjustment gear 12, the first rack 13 moves rightward, which brings the first fitting plate 10 to move rightward. The distance between the wheel on the left side and the wheel on the right side is reduced, the size of the material conveying channel is reduced, and therefore the long round pipe in the material conveying channel can be clamped relatively, the clamping is not dead clamping, and the long round pipe can be smoothly conveyed out rapidly and stably under the boosting of the driving wheel and the driven wheel in the material conveying channel.

The left-right orientation in the above embodiment may be referred to as the left-right orientation in fig. 2.

Embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but it should be noted that the above-mentioned embodiments illustrate rather than limit the invention, and that those skilled in the art will be able to design many alternative embodiments without departing from the scope of the appended claims. In the claims, the word "comprising" does not exclude the presence of elements or steps other than those listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The mere fact that certain features are recited in mutually different dependent claims does not indicate that a combination of these features cannot be used to advantage.

Claims (9)

1. The utility model provides a conveying mechanism of blanking machine which characterized in that: comprises a driving wheel set, a driven wheel set, a first driving component and a second driving component;

a first driver of the first driving assembly outputs rotary motion, a rotary output end of the first driver is connected with the driving wheel set to drive the driving wheel set to realize rotary conveying motion, the driven wheel set is matched with the driving wheel set, and a material conveying channel is formed between the driving wheel set and the driven wheel set;

the second driving assembly comprises a second driver and an adjusting structure, the second driver outputs linear motion, and the second driver drives the adjusting structure to change the size of the material conveying channel so as to realize the conveying of the materials.

2. The conveying mechanism of the blanking machine as claimed in claim 1, wherein: the conveying front ends of the paired driving wheel set and the paired driven wheel set are also provided with paired guide wheel sets.

3. The conveying mechanism of the blanking machine as claimed in claim 1, wherein: the rotary output end of the first driver is connected with the driving wheel set through belt transmission to realize the rotary motion of the driving wheel set.

4. The conveying mechanism of the blanking machine as claimed in claim 3, wherein: the driving wheel set comprises one or more driving wheels distributed along the material conveying channel.

5. The conveying mechanism of the blanking machine as claimed in claim 4, wherein: the rotary output end of the first driver is provided with a first belt wheel, each driving wheel is provided with a second belt wheel coaxially, and the first belt wheel and all the second belt wheels are in transmission connection through the same conveying belt.

6. The conveying mechanism of the blanking machine as claimed in claim 1, wherein: the driving wheel set, the first driving component and the guiding wheel set which are positioned on the same side are arranged on the first assembling plate, and the driven wheel set and the guiding wheel set which are positioned on the other same side are arranged on the second assembling plate.

7. The conveying mechanism of the blanking machine as claimed in claim 6, wherein: the adjusting structure comprises an adjusting gear, a first rack arranged at the bottom of the first assembling plate and consistent with the width direction of the material conveying channel, and a second rack arranged on the second assembling plate and consistent with the width direction of the material conveying channel, wherein the adjusting gear is positioned between the first rack and the second rack and is in tooth meshing connection with the first rack and the second rack.

8. The conveying mechanism of the blanking machine as claimed in claim 7, wherein: the second driving assembly further comprises a sliding rail and a sliding block which are assembled in a sliding mode, the sliding block comprises a first sliding block connected with the first assembling plate and a second sliding block connected with the second assembling plate, and the linear output end of the second driver drives the sliding block to move along the sliding rail.

9. The conveying mechanism of the blanking machine as claimed in claim 8, wherein: and the linear output end of the second driver is connected with the second assembling plate.

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