CN210969038U - Automatic device of tailorring of pyrocondensation pipe - Google Patents
Automatic device of tailorring of pyrocondensation pipe Download PDFInfo
- Publication number
- CN210969038U CN210969038U CN201921784858.6U CN201921784858U CN210969038U CN 210969038 U CN210969038 U CN 210969038U CN 201921784858 U CN201921784858 U CN 201921784858U CN 210969038 U CN210969038 U CN 210969038U
- Authority
- CN
- China
- Prior art keywords
- stepping motor
- sliding table
- motor driver
- step motor
- guide wheel
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Images
Landscapes
- Yarns And Mechanical Finishing Of Yarns Or Ropes (AREA)
Abstract
An automatic cutting device for a heat shrinkable tube comprises two stepping motor drivers, two stepping motors, a feeding guide wheel, a lead screw sliding table and a plurality of cutting tools, wherein the two stepping motor drivers are a stepping motor driver and a b stepping motor driver; the CPU module is respectively connected with the power supply module and the human-computer interaction display screen, and is also respectively connected with the stepping motor driver a and the stepping motor driver b; the utility model discloses can tailor to the heat shrinkable tube of the different specifications of different materials, use this kind of pyrocondensation pipe cutter, can set for the procedure with the heat shrinkable tube of required various models in the production according to length, tailor into required length, satisfy in the production required various models pyrocondensation pipe specific length tailor.
Description
Technical Field
The utility model relates to an automatic device of tailorring of pyrocondensation pipe, more specifically the utility model relates to an electric control's pyrocondensation pipe tailors machine.
Background
The heat-shrinkable sleeve is an essential raw material in the cable manufacturing process and is mainly used for the protection of welding spots (umbrella connection, short-circuit doubling, welding of a lead and a connector), the end treatment of the lead, the protection of cable marks and the like during cable welding. Due to the diversity of cable products, the types of heat-shrinkable sleeves required by the prior elastic cable, the remote measuring cable and the barrel cable in a cable workshop can be more than 20, the complexity of each cable product is very high, the consumption of the heat-shrinkable sleeves is very high, the workload required by manual cutting of the sleeves is very large, and the traditional manual cutting consumes time and labor and easily generates waste products.
Disclosure of Invention
The utility model aims at designing an automatic device of tailorring of pyrocondensation pipe to the problem of tailorring is solved in the automation of required pyrocondensation pipe in process of production.
An automatic cutting device for a heat shrinkable tube comprises two stepping motor drivers, two stepping motors, a feeding guide wheel, a lead screw sliding table and a plurality of cutting tools, wherein the two stepping motor drivers are a stepping motor driver and a b stepping motor driver; the CPU module is respectively connected with the power supply module and the human-computer interaction display screen, and is also respectively connected with the stepping motor driver a and the stepping motor driver b;
a, a stepping motor driver is connected with a stepping motor a, and the stepping motor a is connected with a feeding guide wheel;
the step motor driver is connected with the step motor b; the lead screw sliding table comprises a lead screw and a sliding table, the lead screw and the sliding table are fixedly connected together, and the cutting tool is fixedly arranged on the sliding table; a lead screw of the lead screw sliding table is connected with a rotor of the stepping motor b through a coupler, and the sliding table of the lead screw sliding table b completes the action of moving up and down through the forward rotation and the reverse rotation of the stepping motor b and drives the cutting knife on the sliding table to move;
when the cutting device works, a user transmits an instruction to the CPU module through a human-computer interaction interface as required, the CPU module receives the corresponding instruction and sends the instruction to the step motor driver a and the step motor driver b, the step motor driver a forwards the instruction to the step motor a, the step motor a drives the feeding guide wheel to move according to the instruction requirement, and after the upper guide wheel and the lower guide wheel of the feeding guide wheel clamp the heat locking pipe to be cut, the step motor a rotates to drive the feeding guide wheel a to rotate to complete feeding; and b, a step motor driver sends an instruction to a step motor b, the step motor b drives a screw sliding table to move, and meanwhile, a cutting tool on the sliding table is driven to move, so that the heat-locking pipe to be cut is cut.
A plurality of cutting tools are mounted on the sliding table of the screw rod sliding table.
The utility model discloses can tailor into required length with the pyrocondensation pipe of required various models in the production, satisfy in the production required various models pyrocondensation pipe specific length tailor. The utility model discloses practice thrift manufacturing cost, liberated the labour, improved production efficiency.
The utility model discloses can carry out the automation to the heat shrinkable tube of the different specifications of different materials and tailor, do not need the workman to carry and tailor the pyrocondensation pipe, can use the utility model discloses the heat shrinkable tube of required various models in will producing sets for the procedure according to length, cuts out into required length automatically, satisfies completely in the production required various model pyrocondensation pipe specific length tailor.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Wherein, 1 is the mutual display screen of human-computer, 2 is power module, 3 is the CPU module, 4 are a step motor driver, 5 are a step motor, 6 are the pay-off guide pulley, 7 are b step motor driver, 8 are b step motor, 9 are the lead screw slip table, 10 are for cutting out the cutting tool
Detailed Description
An automatic cutting device for a heat shrinkable tube comprises two stepping motor drivers, two stepping motors, a feeding guide wheel, a lead screw sliding table and a plurality of cutting tools, wherein the two stepping motor drivers are a stepping motor driver and a b stepping motor driver; the CPU module is respectively connected with the power supply module and the human-computer interaction display screen, and is also respectively connected with the stepping motor driver a and the stepping motor driver b;
a, a stepping motor driver is connected with a stepping motor a, and the stepping motor a is connected with a feeding guide wheel;
the step motor driver is connected with the step motor b; the lead screw sliding table comprises a lead screw and a sliding table, the lead screw and the sliding table are fixedly connected together, and the cutting tool is fixedly arranged on the sliding table; a lead screw of the lead screw sliding table is connected with a rotor of the stepping motor b through a coupler, and the sliding table of the lead screw sliding table b completes the action of moving up and down through the forward rotation and the reverse rotation of the stepping motor b and drives the cutting knife on the sliding table to move;
when the cutting device works, a user transmits an instruction to the CPU module through a human-computer interaction interface as required, the CPU module receives the corresponding instruction and sends the instruction to the step motor driver a and the step motor driver b, the step motor driver a forwards the instruction to the step motor a, the step motor a drives the feeding guide wheel to move according to the instruction requirement, and after the upper guide wheel and the lower guide wheel of the feeding guide wheel clamp the heat locking pipe to be cut, the step motor a rotates to drive the feeding guide wheel a to rotate to complete feeding; and b, a step motor driver sends an instruction to a step motor b, the step motor b drives a screw sliding table to move, and meanwhile, a cutting tool on the sliding table is driven to move, so that the heat-locking pipe to be cut is cut.
A plurality of cutting tools are mounted on the sliding table of the screw rod sliding table.
The specific design scheme is as follows:
an automatic cutting device for an electrically-controlled human heat shrinkable tube comprises a power supply module, a CPU module, a stepping motor driver, a stepping motor, a human-computer interaction display screen, a feeding guide wheel, a screw sliding table and a cutting tool.
A power supply module: the power module inputs 220V alternating current and outputs 24V switching power supply to supply power for the electric control system of the automatic heat-shrinkable tube cutting machine.
A CPU module: the CPU module is a control core of an electrical control system of the automatic heat-shrinkable tube cutting machine, and controls an output end to output a specific pulse signal to drive the stepping motor to realize feeding and cutting.
A stepping motor driver: the step motor driver a, the step motor driver b and the CPU module are connected through electric connecting wires, and the step motor driver a and the step motor driver b receive the instruction signals of the CPU module.
A stepping motor: the two stepping motors are connected with the stepping motor driver through electric connecting wires, the CPU module sends control signals to the stepping motor driver, and the stepping motor driver sends control signals to the stepping motors. The stepping motor executes the control instructions of cutting and feeding.
A human-computer interaction display screen: the man-machine interaction display screen comprises a hardware display screen and a man-machine interaction operation interface, the man-machine interaction hardware display screen is connected with the pin of the CPU module through an electric connecting line, the man-machine interaction operation interface is simple and easy to understand and friendly, a secondary operation menu is arranged, and the cutting or feeding process can be started through the button of the man-machine interaction operation interface according to the sleeve material and the specification key during operation.
A feeding guide wheel: the feeding guide wheel is connected with a rotor of the stepping motor a through a coupler, the feeding guide wheel is divided into an upper part and a lower part, and after the heat locking pipe is clamped, the feeding guide wheel is driven to rotate through the rotation of the stepping motor a to complete feeding.
A screw rod sliding table: and a lead screw of the lead screw sliding table is connected with a rotor of the b stepping motor through a coupler, and the sliding table of the lead screw sliding table completes the up-and-down movement through the forward rotation and the reverse rotation of the b stepping motor.
Cutting tools: the cutting tools are arranged on the sliding table of the screw rod sliding table through fastening screws, the cutting tools are four groups, four heat-shrinkable tubes can be cut simultaneously, and when the sliding table of the screw rod sliding table moves up and down, the upper four groups of the cutting tools are driven to move to the lower four groups of the cutting tools, so that the cutting of the heat-shrinkable tubes fed by the feeding guide wheels is completed.
The operation process is as follows: a user selects a key on a human-computer interaction interface as required, after the key is selected, the CPU module receives a corresponding instruction and sends a control instruction to the stepping motor driver, the stepping motor driver sends an instruction to the stepping motor, and the stepping motor executes the corresponding instruction to drive the feeding guide wheel and the cutting tool to perform heat-shrinkable tube cutting.
The specific design scheme is as follows:
a power supply module: the power module inputs 220V alternating current and outputs 24V switching power supply to supply power for the electric control system of the automatic heat-shrinkable tube cutting machine.
A CPU module: the CPU module is a control core of an electrical control system of the automatic heat-shrinkable tube cutting machine, and controls an output end to output a specific pulse signal to drive the stepping motor to realize feeding and cutting.
A stepping motor driver: the step motor driver a, the step motor driver b and the CPU module are connected through electric connecting wires, and the step motor driver a and the step motor driver b receive the instruction signals of the CPU module.
A stepping motor: the two stepping motors are connected with the stepping motor driver through electric connecting wires, the CPU module sends control signals to the stepping motor driver, and the stepping motor driver sends control signals to the stepping motors. The stepping motor executes the control instructions of cutting and feeding.
A human-computer interaction display screen: the man-machine interaction display screen comprises a hardware display screen and a man-machine interaction operation interface, the man-machine interaction hardware display screen is connected with the pin of the CPU module through an electric connecting line, the man-machine interaction operation interface is simple and easy to understand and friendly, a secondary operation menu is arranged, and the cutting or feeding process can be started through the button of the man-machine interaction operation interface according to the sleeve material and the specification key during operation.
A feeding guide wheel: the feeding guide wheel is connected with a rotor of the stepping motor a through a coupler, the feeding guide wheel is divided into an upper part and a lower part, and after the heat locking pipe is clamped, the feeding guide wheel is driven to rotate through the rotation of the stepping motor a to complete feeding.
A screw rod sliding table: and a lead screw of the lead screw sliding table is connected with a rotor of the stepping motor b through a coupler, and the sliding table of the lead screw sliding table completes the up-and-down movement through the forward rotation and the reverse rotation of the stepping motor b.
Cutting tools: the cutting scissors are arranged on the sliding table of the screw rod sliding table through fastening screws, the cutting scissors are four groups, four heat-shrinkable tubes can be cut simultaneously, when the sliding table of the screw rod sliding table moves up and down, the four groups on the upper part of the cutting scissors are driven to move the four groups on the lower part of the cutting scissors, and the cutting of the heat-shrinkable tubes fed by the feeding guide wheel a is completed.
Therefore, an automatic cutting electrical control system with high control precision and high stability is needed.
Claims (2)
1. An automatic cutting device for a heat shrinkable tube comprises two stepping motor drivers, two stepping motors, a feeding guide wheel, a lead screw sliding table and a plurality of cutting tools, wherein the two stepping motor drivers are a stepping motor driver and a b stepping motor driver; the CPU module is respectively connected with the power supply module and the human-computer interaction display screen, and is also respectively connected with the stepping motor driver a and the stepping motor driver b;
a, a stepping motor driver is connected with a stepping motor a, and the stepping motor a is connected with a feeding guide wheel;
the step motor driver is connected with the step motor b; the lead screw sliding table comprises a lead screw and a sliding table, the lead screw and the sliding table are fixedly connected together, and the cutting tool is fixedly arranged on the sliding table; a lead screw of the lead screw sliding table is connected with a rotor of the stepping motor b through a coupler, and the sliding table of the lead screw sliding table b completes the action of moving up and down through the forward rotation and the reverse rotation of the stepping motor b and drives the cutting knife on the sliding table to move;
when the cutting device works, a user transmits an instruction to the CPU module through a human-computer interaction interface as required, the CPU module receives the corresponding instruction and sends the instruction to the step motor driver a and the step motor driver b, the step motor driver a forwards the instruction to the step motor a, the step motor a drives the feeding guide wheel to move according to the instruction requirement, and after the upper guide wheel and the lower guide wheel of the feeding guide wheel clamp the heat locking pipe to be cut, the step motor a rotates to drive the feeding guide wheel a to rotate to complete feeding; and b, a step motor driver sends an instruction to a step motor b, the step motor b drives a screw sliding table to move, and meanwhile, a cutting tool on the sliding table is driven to move, so that the heat-locking pipe to be cut is cut.
2. The automatic cutting device for the heat shrinkable tube according to claim 1, wherein a plurality of cutting tools are mounted on the sliding table of the screw sliding table.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921784858.6U CN210969038U (en) | 2019-10-22 | 2019-10-22 | Automatic device of tailorring of pyrocondensation pipe |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921784858.6U CN210969038U (en) | 2019-10-22 | 2019-10-22 | Automatic device of tailorring of pyrocondensation pipe |
Publications (1)
Publication Number | Publication Date |
---|---|
CN210969038U true CN210969038U (en) | 2020-07-10 |
Family
ID=71459196
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201921784858.6U Active CN210969038U (en) | 2019-10-22 | 2019-10-22 | Automatic device of tailorring of pyrocondensation pipe |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN210969038U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110815320A (en) * | 2019-10-22 | 2020-02-21 | 北京航天新风机械设备有限责任公司 | Automatic device of tailorring of pyrocondensation pipe |
-
2019
- 2019-10-22 CN CN201921784858.6U patent/CN210969038U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110815320A (en) * | 2019-10-22 | 2020-02-21 | 北京航天新风机械设备有限责任公司 | Automatic device of tailorring of pyrocondensation pipe |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN203448770U (en) | Full-automatic numerical control pipe fitting cutting machine | |
CN203504079U (en) | Cable stripping machine | |
CN204108195U (en) | Numerical control bag-spring machine | |
CN210969038U (en) | Automatic device of tailorring of pyrocondensation pipe | |
CN204603411U (en) | The full-automatic milling attachment of a kind of steel tube end part | |
CN203301316U (en) | Cutting/drawing device suitable for motor stator/rotor winding disassembly | |
CN102931780A (en) | Cutting and pull device and method suitable for motor stator/rotor winding removal | |
CN202895326U (en) | Automatic pipe cutter for nylon braided pipes | |
CN201950292U (en) | Cylinder body deburring tool equipment | |
CN202395298U (en) | Full-automatic numerical control pneumatic wire cutting machine | |
CN102343595A (en) | Pipe cutter with sliding-type blade | |
CN110815320A (en) | Automatic device of tailorring of pyrocondensation pipe | |
CN116388073B (en) | Be applied to assembled transformer substation component processingequipment in job site | |
CN107876667B (en) | Traction cutter controller for shaping and processing lead wire of transformer | |
CN208961155U (en) | A kind of full-automation all-in-one machine reinforced bar straight thread die head threading machine | |
CN104007125A (en) | Full automatic detection method of enamelled copper wire pinhole and equipment applying same | |
CN110137862A (en) | A kind of semi-automatic harness peeling machine | |
CN206578239U (en) | A kind of extension line of medical doubling wire rod | |
CN104242783A (en) | Device and method for frequency conversion control of stone cutting motor | |
CN205212160U (en) | A novel device that bursts at seams for car wiring harness production | |
CN203817100U (en) | Device of automatic unfolding, straightening and discharging | |
CN208628329U (en) | A kind of cutter device for electric wire | |
CN207924476U (en) | Rivet driver PLC control system | |
CN208444194U (en) | Steel door frame gate hinge hole numerical control positioning optical control device | |
CN202498178U (en) | Reinforcing steel bar cutting machine |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |