CN107186776B - Transfer wheel rapid displacement equipment and use method thereof - Google Patents

Abstract

The quick displacement equipment of the transfer wheel and a use method thereof comprise the transfer wheel, a tool rest assembly and a driving device, wherein the transfer wheel is arranged on the front surface of a wallboard and is provided with a gap with the tool rest assembly; the wallboard is also provided with a limiting mechanism for limiting the travel of the driving device on the guide rail mechanism. According to the invention, the distance between the tool rest assembly and the transfer wheel can be quickly adjusted, when the waste between the tool rest assembly and the transfer wheel is removed or the tool is re-ground, the driving device moves to the limit mechanism to stop, so that the distance between the tool rest assembly and the transfer wheel can be easily kept consistent without recalibration, the convenience of equipment operation is greatly improved, and the working efficiency is improved.

Description

Transfer wheel rapid displacement equipment and use method thereof

Technical Field

The invention relates to the field of production and manufacturing of adhesive bandages, in particular to a quick displacement device for a transfer wheel and a use method thereof.

Background

In the production process of the adhesive bandage, the finished product is required to be separated and transferred to cold seal paper for packaging and compounding, and the distance between a transfer roller and a cutter bottom roller in the separation and transfer processes is required to be adjustable.

The existing transfer wheel adjusting mechanism is fixed on a machine wallboard, the processes of stopping, adjusting, fixing and restarting are needed when the distance between a cutter bottom roller and a transfer wheel is adjusted, the operation is very inconvenient, the production efficiency is affected, particularly when the cutter needs to be re-ground, the transfer wheel and a cutter frame stand column are crossed on an operation surface, the cutter frame assembly cannot be directly disassembled, the transfer wheel and the adjusting mechanism must be separated and disassembled, the installation procedure is just reversed according to the original sequence after the re-grinding is completed, the distance between the cutter bottom roller and the transfer wheel is needed to be readjusted each time of cutter changing, the disassembly and the adjustment are not completed quickly and efficiently, the operation precision of equipment cannot be guaranteed, and the operation is inconvenient due to small operation space when the equipment is in fault treatment, so that the opening probability of the whole production line is affected.

Disclosure of Invention

The invention provides a rapid displacement device for a transfer wheel and a use method thereof, and mainly aims to overcome the defects that the distance between a cutter bottom roller and the transfer wheel is difficult to adjust, the machine is stopped for adjustment, the transfer wheel and an adjusting mechanism are required to be repeatedly disassembled when a cutter is regrind, and the operation is inconvenient in the process of separating and transferring finished products produced by adhesive tapes.

In order to solve the technical problems, the invention adopts the following technical scheme:

the quick displacement equipment for the transfer wheel comprises the transfer wheel, a tool rest assembly arranged on a wallboard and a driving device for driving the transfer wheel to rotate, wherein the transfer wheel is arranged on the front surface of the wallboard and is provided with a gap with the tool rest assembly, the driving device is arranged on the back surface of the wallboard and penetrates through the wallboard to be in transmission control connection with the transfer wheel, a guide rail mechanism is fixedly arranged on the back surface of the wallboard, the driving device is slidingly arranged on the guide rail mechanism, and the transfer wheel changes the gap with the tool rest assembly along with the movement of the driving device; the wallboard is also provided with a limiting mechanism for limiting the travel of the driving device on the guide rail mechanism.

Further, the guide rail mechanism comprises two mutually parallel linear guide rails, wherein the first ends of the two linear guide rails are close to the tool rest assembly, and the first ends are used as starting points and extend outwards from the tool rest assembly to the second ends.

Further, the driving device comprises a fixing seat and a driving motor arranged on the fixing seat, and the fixing seat is slidably clamped on the linear guide rail.

Further, the device also comprises a pushing device for driving the driving device to slide on the guide rail mechanism.

Further, the pushing device comprises a pushing air cylinder arranged at the second end of the linear guide rail, and a piston rod of the pushing air cylinder is fixedly connected with the driving device.

Further, the limiting mechanism comprises a fixed block arranged at the first end of the linear guide rail, and an adjusting bolt which can be abutted against the driving device is arranged on the fixed block.

The application method of the transfer wheel rapid displacement device comprises the following steps:

1) And (3) adjusting an initial state: the driving device which is arranged on the linear guide rail in a sliding way is pushed to move to a limit mechanism arranged at the first end of the linear guide rail to stop by the pushing device which is controlled to be positioned at the second end of the linear guide rail; adjusting the limiting mechanism and simultaneously controlling the pushing device to act so that the pushing device and the limiting mechanism always keep mutual abutting until the distance between the transfer wheel connected with the driving device and the tool rest assembly reaches the required distance;

2) Waste material removal: controlling the pushing device to drive the driving device to move towards the second end of the linear guide rail, so that a gap between the transfer wheel and the tool rest assembly is enlarged; cleaning the waste in the gap, and then controlling the pushing device to move towards the first end of the linear guide rail again to enable the pushing device to automatically move to the limiting mechanism to stop;

3) Regrinding the cutter: controlling the pushing device to drive the driving device to move towards the second end of the linear guide rail, so that a gap between the transfer wheel and the tool rest assembly is enlarged; and (3) disassembling the tool rest assembly, regrinding the tool in the tool rest assembly, reinstalling the tool rest assembly after regrinding, and controlling the pushing device to move towards the first end of the linear guide rail again to enable the pushing device to automatically move to the limit mechanism to stop.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention has simple structure and strong practicability, and the driving device can rapidly move back and forth on the guide rail mechanism by arranging the guide rail mechanism, so that the invention can rapidly displace to give up space when equipment fails, thereby being beneficial to removing waste materials between the tool rest assembly and the transfer wheel and regrinding the tool; in addition, the distance between the tool rest assembly and the transfer wheel can be quickly adjusted after the distance between the tool rest assembly and the transfer wheel is adjusted by arranging the limiting mechanism, and when the waste between the tool rest assembly and the transfer wheel is removed or the tool is re-ground, the driving device moves to the position of the limiting mechanism to stop, so that the distance between the tool rest assembly and the transfer wheel can be easily kept consistent without recalibration, the convenience of equipment operation is greatly improved, and the working efficiency is improved.

2. In the invention, the automation degree can be improved by arranging the pushing device, the moving speed of the driving device on the guide rail mechanism can be further improved, and the operation is more convenient.

3. The use method of the invention can not only quickly adjust the distance between the tool rest assembly and the transfer wheel, but also quickly displace to give up space when the equipment fails, thereby being beneficial to cleaning the waste between the tool rest assembly and the transfer wheel, and the cleaning can be completed to quickly reset and restore production; the tool rest assembly can be disassembled only by quickly moving the driving device during tool regrinding, and the tool rest assembly can be quickly reset when regrinding is finished, so that repeated disassembly and assembly are avoided, and the precision and the service life of equipment are ensured.

Drawings

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

Fig. 2 is a schematic structural diagram of the second embodiment of the present invention.

Fig. 3 is a schematic diagram of a third embodiment of the present invention.

Fig. 4 is a front view of fig. 3.

Fig. 5 is a top view of fig. 3.

Fig. 6 is a partial cross-sectional view of fig. 4.

Fig. 7 is a top cross-sectional view of fig. 1.

Fig. 8 is a partial cross-sectional view of fig. 5.

Detailed Description

Specific embodiments of the present invention will be described below with reference to the accompanying drawings.

Reference is made to fig. 1, 2, 3, 4, 5, 6, 7 and 8. The quick displacement equipment of transfer wheel includes transfer wheel 1, knife rest assembly 3 mounted on wallboard 2 and driving device 4 used for driving the transfer wheel 1 to rotate, transfer wheel 1 is mounted on the front of wallboard 2 and has a gap with knife rest assembly 3, driving device 4 locates the back of wallboard 2 and passes this wallboard 2 and is connected with transfer wheel 1 transmission control, the back of wallboard 2 is fixedly equipped with a guide rail mechanism 5, driving device 4 is slidingly mounted on the guide rail mechanism 5, transfer wheel 1 changes the gap size with its knife rest assembly 3 along with the movement of driving device 4; in addition, the wall plate 2 is also provided with a limiting mechanism 6 for limiting the travel of the driving device 4 on the guide rail mechanism 5. By arranging the guide rail mechanism 6, the driving device 4 can rapidly move back and forth on the guide rail mechanism 5, so that the invention can rapidly displace to give up space when equipment fails, and is beneficial to removing waste materials between the tool rest assembly 3 and the transfer wheel 1 and regrinding tools; in addition, the travel of the driving device 4 on the guide rail mechanism 5 can be limited and regulated by arranging the limiting mechanism 6, so that the distance between the tool rest assembly 3 and the transfer wheel 1 can be regulated rapidly after the limiting mechanism 6 is regulated, when the waste between the tool rest assembly 3 and the transfer wheel 1 is removed or the tool regrinding is finished, the driving device 4 moves to the limiting mechanism 6 to stop, the distance between the tool rest assembly 3 and the transfer wheel 1 is not required to be calibrated again, the front and back consistency can be easily maintained, the convenience of equipment operation is greatly improved, and the working efficiency is improved.

In particular, the method comprises the steps of,

reference is made to fig. 1, 2, 3, 4, 5, 6, 7 and 8. The cutter assembly 3 is provided with a cutter roller 31, and the distance between the cutter assembly 3 and the transfer wheel 1, specifically, the distance between the cutter roller 31 and the transfer wheel 1 is adjusted.

Reference is made to fig. 1, 2, 3, 4, 5, 6, 7 and 8. The guide rail mechanism 5 comprises two mutually parallel linear guide rails 51, and the two linear guide rails 51 can be locked on the back surface of the wallboard 2 through bolts. The first ends 511 of the two linear guide rails 51 are adjacent to the carriage assembly, and extend from the first ends 511 to the second ends 512 away from the carriage assembly 3.

Reference is made to fig. 1, 2, 3, 4, 5, 6, 7 and 8. The driving device 4 comprises a fixed seat 41 and a driving motor 42 arranged on the fixed seat 41, the driving motor 42 can be locked on the fixed seat 41 through bolts, and a transmission shaft 421 on the driving motor is used for controlling the rotation of the transfer wheel 1 through the wallboard 2; the fixed seat 41 is slidably clamped on the linear guide rail 51; the drive motor 42 may be a servo motor.

Reference is made to fig. 1, 2, 3, 4, 5, 6, 7 and 8. And a pushing device 7 for driving the driving device 4 to slide on the guide rail mechanism 5. The pushing device 7 comprises a pushing cylinder 71 arranged at the second end 512 of the linear guide rail and a fixing plate 72; wherein, the fixing plate 72 is locked and fixed on the back of the wallboard 2, and the position thereof can be adjusted according to the requirement; the action of the pushing cylinder 71 can be controlled by a servo motor; the piston rod 711 at one end of the pushing cylinder 71 is fixedly connected with the driving device 4 through a bolt, the outer side wall at the other end of the pushing cylinder 71 is fixedly connected with the fixed plate 72, and a user can adjust the maximum stroke of the driving device 4 on the guide rail mechanism 5 by adjusting the position of the fixed plate 72.

Reference is made to fig. 1, 2, 3, 4, 5, 6, 7 and 8. The limiting mechanism 6 comprises a fixed block 61 arranged at the first end 511 of the linear guide rail, the fixed block 61 is also locked and fixed on the back of the wallboard 2, and the position of the fixed block can be adjusted according to the requirement; the fixing block 61 is further provided with an adjusting bolt 62 which can be abutted against the driving device 4, and after the position of the fixing block 61 is adjusted and locked by a user, the adjusting bolt 62 can be finely adjusted, so that the distance between the cutter roller 31 and the transfer wheel 1 during operation can be accurately adjusted.

Reference is made to fig. 1, 2, 3, 4, 5, 6, 7 and 8. The air distribution plate is arranged on the transfer wheel 1, and the tension wheel 12 is in transmission connection with the transfer wheel 1 through a conveying belt 13.

Reference is made to fig. 1, 2, 3, 4, 5, 6, 7 and 8. The application method of the transfer wheel rapid displacement device comprises the following steps:

step one:

and (3) adjusting an initial state: controlling the pushing device 7 at the second end 512 of the linear guide rail to act, and pushing the driving device 4 which is slidably arranged on the linear guide rail 51 by the pushing device 7 to move to stop at the limit mechanism 6 arranged at the first end 511 of the linear guide rail; the limiting mechanism 6 is regulated, and the pushing device 7 is controlled to act so as to always keep mutual abutting with the limiting mechanism 6 until the distance between the transfer wheel 1 connected with the driving device 4 and the tool rest assembly 3 reaches the required distance.

The method comprises the following specific steps: the pushing cylinder 71 at the second end 512 of the linear guide rail is controlled to act, and the pushing cylinder 71 pushes the fixed seat 41 arranged on the linear guide rail 51 in a sliding manner to move towards the first end 511 of the linear guide rail until the fixed seat is abutted against the adjusting bolt 62 and then stops; the adjusting bolt 62 is adjusted, and the pushing cylinder 71 is controlled to act so as to always keep mutual contact with the adjusting bolt 62 until the distance between the transfer wheel 1 connected with the driving motor 42 on the fixed seat 41 and the cutter roller 31 reaches the required distance.

Step two:

waste material removal: the pushing device 7 is controlled to drive the driving device 4 to move towards the second end 512 of the linear guide rail, so that the gap between the transfer wheel 1 and the tool rest assembly 3 is enlarged; the scrap in the gap is cleaned, and then the pushing device 7 is controlled to move towards the first end 511 of the linear guide rail again, so that the pushing device automatically moves to the position of the limiting mechanism 6 to stop.

The method comprises the following specific steps: the pushing cylinder 71 is controlled to drive the fixed seat 41 to move towards the second end 512 of the linear guide rail, so that the gap between the transfer wheel 1 and the cutter roller 31 is enlarged; the scrap in the gap is cleaned, and then the pushing cylinder 71 is controlled again to move toward the first end 511 of the linear guide rail so that it automatically moves to stop at the adjusting bolt 62.

Step three:

regrinding the cutter: the pushing device 7 is controlled to drive the driving device 4 to move towards the second end 512 of the linear guide rail, so that the gap between the transfer wheel 1 and the tool rest assembly 3 is enlarged; the tool rest assembly 3 is disassembled, the tools in the tool rest assembly 3 are subjected to regrinding, the tool rest assembly 3 is reassembled after regrinding is finished, and then the pushing device 7 is controlled to move towards the first end 511 of the linear guide rail again, so that the pushing device automatically moves to the position of the limiting mechanism 6 to stop.

The method comprises the following specific steps: the pushing cylinder 71 is controlled to drive the fixed seat 41 to move towards the second end 512 of the linear guide rail, so that the gap between the transfer wheel 1 and the cutter roller 31 is enlarged; the tool rest assembly 3 is disassembled, the tools in the tool rest assembly 3 are subjected to regrinding, the tool rest assembly 3 is reassembled after regrinding is finished, and then the pushing cylinder 71 is controlled to move towards the first end 511 of the linear guide rail again, so that the tool rest assembly automatically moves to the position of the adjusting bolt 62 to stop.

The invention can not only rapidly adjust the distance between the tool rest assembly 3 and the transfer wheel 1, but also rapidly shift to give up space when the equipment fails, so as to be beneficial to cleaning the waste between the tool rest assembly 3 and the transfer wheel 1, and the cleaning can be completed to rapidly reset and restore production; the tool rest assembly 3 can be disassembled only by quickly moving the driving device 4 during tool regrinding, and can be quickly reset when regrinding is finished, so that repeated disassembly and assembly are avoided, and the precision and the service life of equipment are ensured.

The foregoing is merely illustrative of specific embodiments of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modification of the present invention by using the design concept shall fall within the scope of the present invention.

Claims (7)

1. The utility model provides a transfer wheel quick displacement equipment, includes transfer wheel, installs the knife rest assembly on the wallboard and is used for driving this transfer wheel pivoted drive arrangement, transfer wheel install in the front of wallboard and with have a clearance between the knife rest assembly, drive arrangement locates the wallboard back and pass this wallboard with transfer wheel transmission control is connected, its characterized in that: the back of the wallboard is fixedly provided with a guide rail mechanism, the driving device is arranged on the guide rail mechanism in a sliding way, and the gap between the transfer wheel and the tool rest assembly is changed along with the movement of the driving device; the wallboard is also provided with a limiting mechanism for limiting the travel of the driving device on the guide rail mechanism.

2. A transfer wheel rapid displacement apparatus as claimed in claim 1, wherein: the guide rail mechanism comprises two linear guide rails which are parallel to each other, wherein the first ends of the two linear guide rails are close to the tool rest assembly, and the first ends are used as starting points and extend outwards from the tool rest assembly to the second ends.

3. A transfer wheel rapid displacement apparatus as claimed in claim 2, wherein: the driving device comprises a fixing seat and a driving motor arranged on the fixing seat, and the fixing seat is slidably clamped on the linear guide rail.

4. A transfer wheel rapid displacement apparatus as claimed in claim 2, wherein: the device also comprises a pushing device for driving the driving device to slide on the guide rail mechanism.

5. A transfer wheel rapid displacement apparatus as claimed in claim 4, wherein: the pushing device comprises a pushing air cylinder arranged at the second end of the linear guide rail, and a piston rod of the pushing air cylinder is fixedly connected with the driving device.

6. A transfer wheel rapid displacement apparatus as claimed in claim 2, wherein: the limiting mechanism comprises a fixed block arranged at the first end of the linear guide rail, and an adjusting bolt which can be abutted against the driving device is arranged on the fixed block.

7. The application method of the transfer wheel rapid displacement device is characterized by comprising the following steps of:

1) And (3) adjusting an initial state: the driving device which is arranged on the linear guide rail in a sliding way is pushed to move to a limit mechanism arranged at the first end of the linear guide rail to stop by the pushing device which is controlled to be positioned at the second end of the linear guide rail; adjusting the limiting mechanism and simultaneously controlling the pushing device to act so that the pushing device and the limiting mechanism always keep mutual abutting until the distance between the transfer wheel connected with the driving device and the tool rest assembly reaches the required distance;

2) Waste material removal: controlling the pushing device to drive the driving device to move towards the second end of the linear guide rail, so that a gap between the transfer wheel and the tool rest assembly is enlarged; cleaning the waste in the gap, and then controlling the pushing device to move towards the first end of the linear guide rail again to enable the pushing device to automatically move to the limiting mechanism to stop;

3) Regrinding the cutter: controlling the pushing device to drive the driving device to move towards the second end of the linear guide rail, so that a gap between the transfer wheel and the tool rest assembly is enlarged; and (3) disassembling the tool rest assembly, regrinding the tool in the tool rest assembly, reinstalling the tool rest assembly after regrinding, and controlling the pushing device to move towards the first end of the linear guide rail again to enable the pushing device to automatically move to the limit mechanism to stop.

Images