CN214933058U - Single-power double-layer conveying system - Google Patents
Single-power double-layer conveying system Download PDFInfo
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- CN214933058U CN214933058U CN202120920026.3U CN202120920026U CN214933058U CN 214933058 U CN214933058 U CN 214933058U CN 202120920026 U CN202120920026 U CN 202120920026U CN 214933058 U CN214933058 U CN 214933058U
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Abstract
The utility model relates to the technical field of article conveying, in particular to a single-power double-layer conveying system, which comprises a frame, two parallel flat plates arranged on the frame, two annular belts arranged on the two flat plates and a first driving piece for driving the annular belts to rotate, wherein the two annular belts are respectively used for bearing two ends of an article; the jacking unit is provided with a second driving piece accommodated in the accommodating hole and a supporting plate connected with the output end of the second driving piece; during the in-service use, the layer board of two jacking units is used for conflicting the both ends that support the article that two endless belts bore, and second driving piece drive layer board rises the article from the endless belt and separates with the endless belt to make the endless belt of layer board below continuously carry the article, realize the double-deck automatic transport of article, promote article conveying efficiency, and then promote article manufacturing efficiency.
Description
Technical Field
The utility model relates to a technical field is carried to the article, especially discloses a single power double-deck conveying system.
Background
In the use of material, often need carry out multiple technology processing to the material, in order to promote processing treatment efficiency, often need carry the material automation, in the automatic handling process of material, often need carry out the processing to the article, just need the article to stop moving this moment, because the design of carrying the structure among the prior art is unreasonable, when needing an article to stop moving, whole transfer chain all need stop, lead to the conveying efficiency of article low, the same manufacturing efficiency who also leads to the article is low.
SUMMERY OF THE UTILITY MODEL
In order to overcome the shortcoming and the not enough that exist among the prior art, the utility model aims to provide a single action power double-deck conveying system, the layer board of two jacking units is used for contradicting the both ends that support the article that two endless belts bore, and second driving piece drive layer board rises the article from the endless belt and takes the separation with the endless belt to make the endless belt of layer board below continuously carry the article, realize the double-deck automatic transport of article, promote article conveying efficiency, and then promote article manufacturing efficiency.
In order to achieve the above object, the present invention provides a single-power double-layer conveying system, which comprises a frame, two parallel flat plate members arranged in the frame, two annular belts respectively rotatably arranged on the two flat plate members, and a first driving member for driving the annular belts to rotate, wherein the two annular belts respectively bear two ends of an object, and the rotated annular belts drive the borne object to automatically move; the jacking unit is provided with a second driving piece accommodated in the accommodating hole and a supporting plate connected with the output end of the second driving piece; the supporting plates of the two jacking units are used for supporting two ends of an object borne by the two annular belts in an abutting mode; the second drive drives the pallets to lift the articles off the endless belt and separate them from the endless belt so that the endless belt beneath the pallets continues to convey the articles.
The driving device comprises two flat plate pieces, wherein the flat plate pieces are provided with rotating driving wheels, the annular belts are sleeved on the outer sides of the driving wheels, the driving wheels of the two flat plate pieces are sleeved on the outer sides of the driving shafts, the driving shafts are provided with clamping grooves extending in the axial direction, the driving wheels are provided with clamping protrusions protruding into the clamping grooves, and the first driving piece is used for driving the driving shafts to rotate.
Wherein, the annular area is formed with two horizontal parts, and two horizontal parts collineation set up, and two annular areas are located between the first driving piece of two jacking units, and the layer board is located between two horizontal parts.
The flat plate piece is provided with a supporting strip parallel to the horizontal part, and the supporting strip supports the lower part of the horizontal part in an abutting mode; the flat plate part is provided with a plurality of rotating guide wheels, the rotating axes of the guide wheels are arranged in parallel, the guide wheels are provided with two parallel convex rings, the annular belt is positioned between the two convex rings, the two convex rings respectively block and limit two sides of the annular belt, and the horizontal part is positioned between the two adjacent guide wheels.
The first driving part comprises a cylinder body and a piston rod, the cylinder body is accommodated in the accommodating hole, the piston rod is arranged on the cylinder body in a telescopic mode, the cylinder body drives the piston rod to move up and down along the vertical direction, and the supporting plate is fixedly arranged on the piston rod.
The cylinder body is an air cylinder, the flat plate pieces are detachably connected with air pipe joints, the air pipe joints are located between the two flat plate pieces, and an external air compressor is communicated with the cylinder body through the air pipe joints.
The utility model has the advantages that: during the in-service use, the layer board of two jacking units is used for conflicting the both ends that support the article that two endless belts bore, and second driving piece drive layer board rises the article from the endless belt and separates with the endless belt to make the endless belt of layer board below continuously carry the article, realize the double-deck automatic transport of article, promote article conveying efficiency, and then promote article manufacturing efficiency.
Drawings
Fig. 1 is a schematic perspective view of the present invention;
FIG. 2 is a schematic view of the exploded structure of the present invention;
fig. 3 is a partially enlarged structural view of a portion a in fig. 2.
The reference numerals include:
1-frame 2-plate 3-endless belt
4-first driving piece 5-jacking unit 6-containing hole
7-second driving member 8-supporting plate 9-driving shaft
11-driving wheel 12-horizontal part 13-supporting strip
14-guide wheel 15-protruding ring 16-slide hole
17-air pipe joint.
Detailed Description
In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and accompanying drawings, which are not intended to limit the present invention.
Referring to fig. 1 to 3, the present invention provides a single-power double-layer conveying system, which comprises a frame 1, two parallel flat plates 2 mounted on the frame 1, two endless belts 3 respectively rotatably mounted on the two flat plates 2 for driving the endless belts 3 to rotate, a first driving member 4 disposed on the first driving member, the flat plates 2 being disposed along a vertical direction, the two endless belts 3 respectively supporting the left and right ends of an object, and the endless belts 3 driving the supported object to move automatically.
The lifting device further comprises two lifting units 5 which are respectively arranged on the two flat plate members 2, the flat plate members 2 are provided with accommodating holes 6, the lifting units 5 are provided with second driving members 7 which are accommodated in the accommodating holes 6, and supporting plates 8 which are connected with output ends of the second driving members 7. The first driving piece 4 is arranged in the containing hole 6 of the flat plate piece 2, so that the thickness of the single-power double-layer conveying system is reduced, the structural design is simplified, and the miniaturization development trend of the single-power double-layer conveying system is met.
The supporting plates 8 of the two jacking units 5 are used for supporting the left end and the right end of an object carried by the two annular belts 3 in an abutting mode; the second drive 7 drives the pallets 8 to lift the articles off the endless belt 3 away from the endless belt 3 so that the endless belt 3 beneath the pallets 8 continues to convey the articles.
During the in-service use, layer board 8 of two jacking units 5 is used for conflicting the both ends that support the article that two endless belts 3 bore, and second driving piece 7 drive layer board 8 rises the article from endless belt 3 and separates with endless belt 3 to make endless belt 3 below layer board 8 continuously carry the article, realize the double-deck automatic transport of article, promote article conveying efficiency, and then promote article manufacturing efficiency.
The single-power double-layer conveying system further comprises a driving shaft 9, the flat plate pieces 2 are provided with rotating driving wheels 11, the annular belts 3 are sleeved on the outer sides of the driving wheels 11, the driving wheels 11 of the two flat plate pieces 2 are sleeved on the outer sides of the driving shaft 9, the driving shaft 9 is provided with clamping grooves extending in the axial direction, the driving wheels 11 are provided with clamping protrusions protruding into the clamping grooves, and the first driving piece 4 is used for driving the driving shaft 9 to rotate. Preferably, the clamping groove penetrates through the driving shaft 9, and the driving shaft 9 is inserted into the driving wheel 11 during actual assembly.
In this embodiment, first driving piece 4 is the motor, and through the setting of driving shaft 9, only need a motor can drive two endless belts 3 and rotate, simplifies the configuration design on the one hand, and on the other hand simplifies the control of single power double-deck conveying system, promotes the simplicity of operation. The side surface of the inner groove of the clamping groove is utilized to stop the abutting clamping protrusion, so that when the driving shaft 9 drives the driving wheel 11 to rotate, the driving shaft 9 and the driving wheel 11 are prevented from rotating relatively and being badly used. Preferably, the motor is fixedly installed on the frame 1 and located between the two plate members 2, the motor includes a main body movement fixed on the frame 1, and a central shaft rotatably installed on the main body movement and penetrating through the main body movement, and two ends of the central shaft respectively protrude out of the main body movement and are installed on the two driving wheels 11.
The endless belt 3 is formed with two horizontal portions 12, and the article is pressed against the horizontal portions 12, and the article is prevented from falling off the horizontal portions 12 by the arrangement of the horizontal portions 12. The two horizontal portions 12 are arranged in line, the two endless belts 3 are located between the first driving members 4 of the two jacking units 5, and the pallet 8 is located between the two horizontal portions 12.
In actual use, the supporting plate 8 is positioned below the top surface of the horizontal part 12, and in normal use, the first driving part 4 drives the annular belt 3 to rotate, and the horizontal part 12 of the rotating annular belt 3 drives an object to automatically move; when a double-deck transport of articles is required, the second drive member 7 drives the pallet 8 to lift from between the two horizontal portions 12, separating the articles from the horizontal portions 12 of the endless belt 3 until the articles are lifted to the desired position.
The flat plate member 2 is provided with a supporting strip 13 parallel to the horizontal part 12, and the supporting strip 13 supports the lower part of the horizontal part 12 in an abutting mode; after the articles are pressed on the horizontal part 12, the horizontal part 12 is supported by the supporting bars 13, so that the horizontal part 12 is prevented from being bent and deformed by the articles to cause poor conveying of the articles.
Preferably, the plate member 2 is provided with a sliding hole 16, the sliding hole 16 extends in a vertical direction, the second driving member 7 drives the supporting plate 8 to move up and down in the sliding hole 16, and the inner side surfaces of the upper end and the lower end of the sliding hole 16 are respectively blocked and abutted against the supporting plate 8, so that the supporting plate 8 is prevented from being excessively moved and badly used.
The plate member 2 is provided with a plurality of guide wheels 14 which rotate, the rotation axes of the plurality of guide wheels 14 are arranged in parallel, the guide wheels 14 are provided with two parallel protruding rings 15, the annular belt 3 is positioned between the two protruding rings 15, the two protruding rings 15 respectively stop and limit two sides of the annular belt 3, and the horizontal part 12 is positioned between two adjacent guide wheels 14. The annular belt 3 is stopped and limited by the two protruding rings 15 of the guide wheel 14, so that the annular belt 3 is prevented from falling off the guide wheel 14, and the use stability of the annular belt 3 is ensured.
The first driving part 4 comprises a cylinder body accommodated in the accommodating hole 6 and a piston rod telescopically arranged on the cylinder body, the cylinder body drives the piston rod to move up and down along the vertical direction, and the supporting plate 8 is fixedly arranged on the piston rod. When the lifting device is actually used, the cylinder body drives the piston rod to ascend or descend, and then drives the supporting plate 8 to ascend or descend, so that an object is lifted or fallen.
The cylinder body is an air cylinder, the flat plate pieces 2 are detachably connected with an air pipe connector 17, the air pipe connector 17 is located between the two flat plate pieces 2, and an external air compressor is communicated with the cylinder body through the air pipe connector 17. Of course, the cylinder may also be an electric cylinder.
The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.
Claims (6)
1. A single-power double-layer conveying system comprises a rack, two parallel flat plate pieces arranged on the rack, two annular belts respectively rotatably arranged on the two flat plate pieces, and a first driving piece for driving the annular belts to rotate, wherein the two annular belts respectively bear two ends of an object, and the rotating annular belts drive the borne object to automatically move; the method is characterized in that: the jacking unit is provided with a second driving piece accommodated in the accommodating hole and a supporting plate connected with the output end of the second driving piece; the supporting plates of the two jacking units are used for supporting two ends of an object borne by the two annular belts in an abutting mode; the second drive drives the pallets to lift the articles off the endless belt and separate them from the endless belt so that the endless belt beneath the pallets continues to convey the articles.
2. The single-power, double-deck delivery system of claim 1, wherein: the flat plate part driving device comprises two flat plate parts, and is characterized by further comprising driving shafts, wherein the flat plate parts are provided with rotating driving wheels, the annular belts are sleeved on the outer sides of the driving wheels, the driving wheels of the two flat plate parts are sleeved on the outer sides of the driving shafts, the driving shafts are provided with clamping grooves extending in the axial direction, the driving wheels are provided with clamping protrusions protruding into the clamping grooves, and the first driving parts are used for driving the driving shafts to rotate.
3. The single-power, double-deck delivery system of claim 1, wherein: the annular area is formed with two horizontal parts, and two horizontal parts collineation set up, and two annular areas are located between the first driving piece of two jacking units, and the layer board is located between two horizontal parts.
4. The single-power, double-deck delivery system of claim 3, wherein: the flat plate piece is provided with a supporting strip parallel to the horizontal part, and the supporting strip supports the lower part of the horizontal part in an abutting mode; the flat plate part is provided with a plurality of rotating guide wheels, the rotating axes of the guide wheels are arranged in parallel, the guide wheels are provided with two parallel convex rings, the annular belt is positioned between the two convex rings, the two convex rings respectively block and limit two sides of the annular belt, and the horizontal part is positioned between the two adjacent guide wheels.
5. The single-power, double-deck delivery system of claim 1, wherein: the first driving part comprises a cylinder body and a piston rod, the cylinder body is accommodated in the accommodating hole, the piston rod is arranged on the cylinder body in a telescopic mode, the cylinder body drives the piston rod to move up and down along the vertical direction, and the supporting plate is fixedly arranged on the piston rod.
6. The single-power, double-deck delivery system of claim 5, wherein: the cylinder body is an air cylinder, the flat plate pieces are detachably connected with an air pipe connector, the air pipe connector is located between the two flat plate pieces, and an external air compressor is communicated with the cylinder body through the air pipe connector.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202120920026.3U CN214933058U (en) | 2021-04-29 | 2021-04-29 | Single-power double-layer conveying system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120920026.3U CN214933058U (en) | 2021-04-29 | 2021-04-29 | Single-power double-layer conveying system |
Publications (1)
Publication Number | Publication Date |
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CN214933058U true CN214933058U (en) | 2021-11-30 |
Family
ID=79065556
Family Applications (1)
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CN202120920026.3U Active CN214933058U (en) | 2021-04-29 | 2021-04-29 | Single-power double-layer conveying system |
Country Status (1)
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CN (1) | CN214933058U (en) |
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2021
- 2021-04-29 CN CN202120920026.3U patent/CN214933058U/en active Active
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