CN210996227U - Equidistance conveying and processingequipment - Google Patents

Abstract

The utility model relates to an equidistance conveying and processing device, which comprises an irregularly-shaped driving wheel, a connecting rod device, a driven rack, a driven gear, a fixing device, a processing device board and an additional gear, wherein the connecting rod device comprises a lever hinged on the fixing device, one end of the lever is fixed with a roller which is jointed with the driving wheel and is in rolling friction with the roller, the other end of the lever is fixed with the processing device board, and the other end of the driving wheel is connected with an engine; the machining device plate is provided with a sliding block which slides in a guide rail groove arranged on the driven rack, one end of the driven rack is connected with the driving wheel, the other end of the driven rack is controlled to be meshed with and separated from the driven gear through the sliding block, and a gear clamping point is further arranged on the machining device plate to prevent the gear from rotating unnecessarily. The utility model discloses can realize the equidistance conveying and the processing of material, the error is little and labour saving and time saving.

Description

Equidistance conveying and processingequipment

Technical Field

The utility model belongs to the technical field of multiple flow process equipment, especially, relate to an equidistance conveying and processingequipment.

Background

During processing, it is often desirable to transport the materials equidistantly by controlling the distance between the materials for processing. If the material interval is controlled by adopting a manual operation mode, the defects of inaccurate interval control and large workload exist, the material jam or the vacancy distance is easily caused to be overlarge, the normal processing is not facilitated, and the processing efficiency is reduced. Therefore, an isometric conveying and processing device is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model provides an equidistance conveying and processingequipment can realize the equidistance conveying and the processing of material, and the error is little and labour saving and time saving.

The utility model discloses a following technical scheme realizes:

an equidistant conveying and processing device comprises a driving wheel with an irregular shape, a connecting rod device, a driven rack, a driven gear, a fixing device, a processing device plate and an additional gear, wherein the connecting rod device comprises a lever hinged on the fixing device; the machining device plate is provided with a sliding block which slides in a guide rail groove arranged on the driven rack, one end of the driven rack is connected with the driving wheel, the other end of the driven rack is controlled to be meshed with and separated from the driven gear through the sliding block, and a gear clamping point is further arranged on the machining device plate to prevent the gear from rotating unnecessarily.

The guide rail groove on the driven rack enables the sliding block to move axially along the driven rack all the time, and meshing transmission of the driven rack and the driven gear in the equidistant transmission process is guaranteed.

The processing device plate is provided with a cylindrical hollow part which can provide space for the connection of the driven gear and the additional gear with devices of different transmission forms and can ensure that the processing device plate moves up and down along with the rotation of the lever.

The additional gear is coaxial with the driven gear, and the transmission distance can be changed by changing the radius of the additional gear.

The utility model has the advantages that: the utility model realizes equidistant transmission in the production and processing process of products through the design of the irregular driving wheel and the meshing transmission of the driven gear and the driven rack, and can finish the field processing between two times of transmission, replaces the manual keeping of the distance between two products, reduces the error caused by the manual operation, and saves time and labor; meanwhile, the distance of single transmission can be changed by changing the radius of the additional gear, and the transmission mechanism is suitable for different transmission forms including belt transmission and chain transmission, can realize a form of one-motion-one-processing no matter shearing or filling, and has strong popularization.

Drawings

Fig. 1 is a schematic view of an overall structure of an isometric conveying and processing device of the present invention;

FIG. 2 is a schematic diagram of the state of the equidistant transmission process in the present invention;

FIG. 3 is a schematic diagram of the state of the equidistant processing process in the present invention;

FIG. 4 is an enlarged view of the driven rack portion of the device of the present invention;

FIG. 5 is a schematic view of the working process of the present invention;

wherein the content of the first and second substances,

the device comprises a driving wheel 1, a roller 2, a lever 3, a fixing device 4, a driven rack 5, a guide rail groove 6, a driven gear 7, a gear clamping point 8, a processing device plate 9 and an additional gear 10.

Detailed Description

For better explanation of the present invention, the following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings for better understanding.

Example 1

As shown in fig. 1, the equidistant conveying and processing device comprises a driving wheel 1 with an irregular shape, a connecting rod device, a driven rack 5, a driven gear 7, a fixing device 4, a processing device plate 9 and an additional gear 10, wherein the connecting rod device comprises a lever 3 hinged on the fixing device, one end of the lever 3 is fixedly provided with a roller 2 which is meshed with the driving wheel 1, the other end of the lever is fixed with the processing device plate 9, and the other end of the driving wheel 1 is connected with an engine.

As shown in fig. 4, a slide block is arranged on a processing device plate 9 and slides in a guide rail groove structure 6 arranged on a driven rack 5, the slide block controls the engagement and separation of the driven rack and a driven gear 7 along with the movement of the processing device plate, the slide block always moves along the axial direction of the driven rack by the guide rail groove structure, and the engagement transmission of the driven rack and the driven gear in the equidistant transmission process is ensured; the other end of the driven rack 5 is connected with the driving wheel 1.

A gear clamping point 8 is also arranged on the processing device plate 9 to prevent the gear from rotating unnecessarily; the processing device plate is provided with a cylindrical hollow part, the driven gear and the additional gear are connected with devices of different transmission forms through the cylindrical hollow part, and the processing device plate can be guaranteed to move up and down along with the rotation of the lever.

The additional gear 10 is coaxial with the driven gear 7, and the difference of the transmission distance can be realized by changing the radius size of the additional gear. The conveying mode can be selected from belt wheel conveying, roller conveying and chain wheel conveying, and can be replaced according to the required processed article.

Fig. 5 shows a process of the equidistant transmission and processing device, the device is used for shearing reinforcing steel bars with equal length, a cutter (not shown in the figure) is installed on a processing device plate 9, the reinforcing steel bars are transmitted by a belt wheel, and the specific method is as follows:

as shown in fig. 2, an engine connected with a driving wheel 1 is started to drive the driving wheel 1 to rotate, when the large radius of the driving wheel 1 is contacted with a roller 2, the roller 2 is driven to move upwards, at the moment, a lever 3 is high at the left and low at the right, a processing device plate 9 moves downwards along with the right end of the lever 3, a gear clamping point 8 is far away from a driven gear, and meanwhile, along with the rotation of the driving wheel 1, a driven rack 5 is driven to move, and a driven gear 7 and an additional gear 10 which are meshed with the driven rack are driven to rotate, so; the reinforcing steel bars with different lengths can be obtained by changing the size of the additional gear.

As shown in fig. 3, when the driving wheel 1 rotates to a small radius to contact with the roller 2, the roller 2 moves downward along with the rotation of the driving wheel 1, the lever 3 is low at the left and high at the right, the processing device plate 9 moves upward along with the right end of the lever 3, the slider in the guide rail groove drives the driven rack 5 to separate from the driven gear 7, the gear clamping point 8 on the processing device plate 9 clamps the driven gear, the transmission stops, and simultaneously, the cutter moves upward along with the rising process of the processing device plate to shear the steel bars transmitted at the last time. And the next section of reinforcing steel bar is conveyed and sheared along with the rotation of the driving wheel.

Example 2

Adopt in this embodiment the utility model provides an equidistance conveying carries out the assembly line preparation of cup cake with processingequipment, and the difference on the device with embodiment 1 lies in, does not install the cutter on the processingequipment board 9, but installs crowded cream device (not shown in the figure).

The specific method for the production line production of the cupcake by adopting the device is as follows:

as shown in fig. 2, an engine connected with a driving wheel 1 is started to drive the driving wheel 1 to rotate, when the large radius of the driving wheel 1 is contacted with a roller 2, the roller 2 is driven to move upwards, at the moment, a lever 3 is high at the left and low at the right, a processing device plate 9 moves downwards along with the right end of the lever 3, a gear clamping point 8 is far away from a driven gear, and meanwhile, along with the rotation of the driving wheel 1, a driven rack 5 is driven to move, and a driven gear 7 and an additional gear 10 which are meshed with the driven rack are driven to rotate, so;

as shown in figure 3, when the driving wheel 1 rotates to a small radius to be in contact with the roller 2, the roller 2 moves downwards along with the rotation of the driving wheel 1, the lever 3 is low at the left and high at the right, the processing device plate 9 moves upwards along with the right end of the lever 3, the slide block in the guide rail groove drives the driven rack 5 to be separated from the driven gear 7 at the moment, the driven gear is clamped by the gear clamping point 8 on the processing device plate 9, the transmission is stopped, and simultaneously cream is extruded into a cup by the milking oil device along with the rising process of the processing device plate. And carrying out next transmission and processing along with the rotation of the driving wheel.

Claims (4)

1. The utility model provides an equidistance conveying and processingequipment which characterized in that: the device comprises a driving wheel with an irregular shape, a connecting rod device, a driven rack, a driven gear, a fixing device, a processing device plate and an additional gear, wherein the connecting rod device comprises a lever hinged on the fixing device, one end of the lever is fixedly provided with a roller which is jointed with the driving wheel and is in rolling friction with the roller, the other end of the lever is fixed with the processing device plate, and the other end of the driving wheel is connected with an engine; the machining device plate is provided with a sliding block which slides in a guide rail groove arranged on the driven rack, one end of the driven rack is connected with the driving wheel, the other end of the driven rack is controlled to be meshed with and separated from the driven gear through the sliding block, and a gear clamping point is further arranged on the machining device plate to prevent the gear from rotating unnecessarily.

2. An isometric transfer and processing apparatus according to claim 1, wherein: the guide rail groove on the driven rack enables the sliding block to move axially along the driven rack all the time, and meshing transmission of the driven rack and the driven gear in the equidistant transmission process is guaranteed.

3. An isometric transfer and processing apparatus according to claim 1, wherein: the processing device plate is provided with a cylindrical hollow part which can provide space for the connection of the driven gear and the additional gear with devices of different transmission forms and can ensure that the processing device plate moves up and down along with the rotation of the lever.

4. An isometric transfer and processing apparatus according to claim 1, wherein: the additional gear is coaxial with the driven gear, and the transmission distance can be changed by changing the radius of the additional gear.

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