CN205521980U - Thicknessing machine is strickleed off in numerical control - Google Patents

Abstract

The utility model discloses a thicknessing machine is strickleed off in numerical control, include support, programmable controller and set up hobbing cutter mechanism, the drive mechanism on the support and advance brick thickness detection instrument, hobbing cutter mechanism includes hobbing cutter servo driver, hobbing cutter servo motor and by hobbing cutter servo motor driven hobbing cutter, drive mechanism is located the below of the hobbing cutter of hobbing cutter mechanism, it is located the import department of ceramic tile and conveys the detected value of ceramic tile thickness to programmable controller to advance brick thickness detection instrument, the drive mechanism that feeds and control of the hobbing cutter of programmable logic controller control hobbing cutter mechanism conveys ceramic tile to hobbing cutter department. The utility model discloses a thicknessing machine is strickleed off in numerical control fuses numerical control, utilizes harmonious hobbing cutter mechanism of programmable controller and drive mechanism's action, has improved equipment operation precision, promotes automatic level by a wide margin, has alleviateed intensity of labour and has reduced the adverse effect of human factor to the equipment operation.

Description

A kind of numerical control Strickle thickness-fixing machine

Technical field

This utility model relates to building materials process equipment field, particularly relates to a kind of numerical control Strickle thickness-fixing machine.

Background technology

The ceramic tile made by construction materials such as ceramic material, glass material, marble material, artificial stone materials typically requires and strikes off Thicknessing machine is processed.Strickle thickness-fixing machine is one of the most frequently used equipment in ceramic tile production line, and Strickle thickness-fixing machine mainly uses at a high speed The Buddha's warrior attendant hobboing cutter rotated carries out machining to ceramic tile surface, such that it is able to obtain an even curface and consistent thickness.But It is that the automatization level of Strickle thickness-fixing machine for a long time has been at the lowest level, nowadays remains in simple switching value control The level of system, whole production process is required for artificial participation, owing to the technology of operator is uneven, different people's operations, The quality producing brick can be variant, either all can exist for ceramic tile processing quality, the loss of abrasive material and equipment energy consumption Many adverse effects.It addition, the hob cutter mechanism of existing Strickle thickness-fixing machine and drive mechanism often occur that nonsynchronous situation occurs, The i.e. cutting speed of hob cutter mechanism is the most inharmonious with the transmission ceramic tile speed of drive mechanism, and this results in the cutting output of some ceramic tile Deficiency, and the cutting output of other ceramic tiles is excessive, have impact on the quality of production of ceramic tile.

Utility model content

In order to overcome shortcoming and defect present in prior art, this utility model provides a kind of numerical control Strickle thickness-fixing machine.

This utility model is achieved through the following technical solutions: a kind of numerical control Strickle thickness-fixing machine, including bearing, PLC technology Device and the hob cutter mechanism being arranged on bearing, drive mechanism and enter brick thickness gauge；Described hob cutter mechanism includes hobboing cutter servo Driver, hobboing cutter servomotor and the hobboing cutter by hobboing cutter driven by servomotor；Described drive mechanism is positioned at the hobboing cutter of hob cutter mechanism Lower section；Described enter brick thickness gauge be positioned at the import department of ceramic tile and the detected value of tile thickness be sent to Programmable Logic Controller； The feeding of the hobboing cutter of described Controlled by Programmable Controller hob cutter mechanism and control drive mechanism and transmit ceramic tile at hobboing cutter.

Further, described drive mechanism includes transmission converter and the driving motor being connected with transmission converter, and described transmission becomes Frequently device is connected with Programmable Logic Controller.

Further, described drive mechanism includes the actuator servo motor of actuator servo driver and actuator servo driver drives, Described actuator servo driver is connected with Programmable Logic Controller.

Further, also including a hobboing cutter current transducer, described hobboing cutter current transducer is connected with hobboing cutter servomotor, described Hobboing cutter current transducer sends the loading condition of hobboing cutter servomotor to Programmable Logic Controller.

Further, also including a cutting thickness gauge, described thickness of cutting detector is between hobboing cutter, and described cutting is thick Degree detector is for detecting the cutting output of hobboing cutter and detected value being sent to Programmable Logic Controller.

Further, also include that human-machine operation unit, described human-machine operation unit are connected with Programmable Logic Controller.

Further, described human-machine operation unit is PC or mobile terminal.

Relative to prior art, numerical control Strickle thickness-fixing machine of the present utility model merges Numeric Control Technology, utilizes Programmable Logic Controller to coordinate Hob cutter mechanism and the action of drive mechanism, improve equipment running precision, automatization level be substantially improved, alleviate labor intensity And decrease the adverse effect that equipment is run by anthropic factor.Can be formed between equipment and operator by human-machine operation unit Mutual, such operator both can monitor equipment and run by existing Automatic Program, again can intervention in due course In links.Numerical control Strickle thickness-fixing machine simple in construction of the present utility model, practical, harmony good, automatization level Height, has the strongest promotion prospect.

In order to be more fully understood that and implement, describe this utility model below in conjunction with the accompanying drawings in detail.

Accompanying drawing explanation

Fig. 1 is the structural representation of numerical control Strickle thickness-fixing machine of the present utility model.

Fig. 2 is the control schematic diagram of numerical control Strickle thickness-fixing machine of the present utility model.

Fig. 3 is the control block diagram of embodiment one.

Fig. 4 is the control block diagram of embodiment two.

Detailed description of the invention

Embodiment one

Refer to Fig. 1-Fig. 3.Fig. 1 is the structural representation of numerical control Strickle thickness-fixing machine of the present utility model.Fig. 2 is that this practicality is new The control schematic diagram of the numerical control Strickle thickness-fixing machine of type.Fig. 3 is the control block diagram of embodiment one.

Numerical control Strickle thickness-fixing machine of the present utility model, including bearing 10, Programmable Logic Controller and be arranged on the rolling on bearing 10 Cutter mechanism 20, drive mechanism 30 and enter brick thickness gauge；Hob cutter mechanism 20 includes hobboing cutter servo-driver, hobboing cutter servo electricity Machine 21 and the hobboing cutter driven by hobboing cutter servomotor 21；Drive mechanism 30 is positioned at the lower section of the hobboing cutter of hob cutter mechanism 20；Enter Brick thickness gauge is positioned at the import department of ceramic tile and the detected value of tile thickness is sent to Programmable Logic Controller；Programmable Logic Controller Control the feeding of the hobboing cutter of hob cutter mechanism 20 and control drive mechanism 30 and transmit ceramic tile at hobboing cutter.Enter the inspection of brick thickness gauge Survey the thickness into brick, and detected value is sent to Programmable Logic Controller, each hobboing cutter of Controlled by Programmable Controller hob cutter mechanism 20 The transmission ceramic tile speed of the amount of feeding and drive mechanism 30.

Specifically, the drive mechanism 30 of the present embodiment includes transmission converter and the driving motor 31 being connected with transmission converter, Transmission converter is connected with Programmable Logic Controller.Controlled by Programmable Controller transmission converter thus drive driving motor 31 to work, And control the output speed of driving motor 31, and then control drive mechanism 30 and transmit the ceramic tile speed to hobboing cutter.In order to obtain rolling The value of cutter cutting output, and the value of cutting output is fed back to Programmable Logic Controller in time, can install a hobboing cutter current transducer or Thickness of cutting detector is installed between hobboing cutter.If using thickness of cutting detector, then thickness of cutting detector is installed on rolling Between cutter, thickness of cutting detector is for detecting the cutting output of hobboing cutter and detected value being sent to Programmable Logic Controller.The present embodiment Being to be mounted with a hobboing cutter current transducer, hobboing cutter current transducer is connected with hobboing cutter servomotor, and hobboing cutter current transducer is by hobboing cutter The loading condition of servomotor sends Programmable Logic Controller to, and the load feedback of hobboing cutter can be compiled by hobboing cutter current transducer in real time Range controller, thus monitor the Expenditure Levels of hobboing cutter abrasive material, to realize hobboing cutter abrasive material is compensated in time.Programmable Logic Controller also may be used To revise algorithm as required, the amount of feeding of coordination hobboing cutter and drive mechanism 30 transmit the relation between the speed of ceramic tile, thus reach Self adaptation to hob cutter mechanism 20 and drive mechanism 30 coordinates, and enhances the automatization of numerical control Strickle thickness-fixing machine of the present utility model Degree.

Furthermore it is also possible to arrange a human-machine operation unit, human-machine operation unit is connected with Programmable Logic Controller, can directly lead to Cross man-machine operating unit instruction to be inputted, systematic parameter is adjusted and equipment operation is finely adjusted.Human-machine operation unit can Think PC or mobile terminal.By human-machine operation unit can be formed between equipment and operator mutual, such operator both may be used Run by existing Automatic Program monitor equipment, again can the links in intervention in due course.

The specific works process of numerical control Strickle thickness-fixing machine of the present utility model is:

Enter brick thickness gauge and detect the thickness into brick, and detected value is sent to Programmable Logic Controller, Controlled by Programmable Controller The amount of feeding of each hobboing cutter of hob cutter mechanism 20, the position of hobboing cutter can also be carried out fixed by the encoder that hobboing cutter servomotor 21 carries Position, by can editing controller programming to hobboing cutter decline before position demarcate, when drive mechanism 30 stop, hobboing cutter stop or It is that hobboing cutter abrasive material can rise to when ruing out of demarcate position automatically, drops to work cutting position when resuming work again and cut.Rolling Cutter current transducer cutter current transducer in real time by the load feedback of hobboing cutter to Programmable Logic Controller, thus monitor hobboing cutter abrasive material Expenditure Levels, to realize compensating hobboing cutter abrasive material in time.The transmission ceramic tile speed of Controlled by Programmable Controller drive mechanism 30, with Make drive mechanism 30 mutually coordinated with hob cutter mechanism 20 action.

Embodiment two

Refer to Fig. 1, Fig. 2 and Fig. 4.

The structure of the present embodiment is roughly the same with the structure of embodiment one, and difference is, the drive mechanism 30 of the present embodiment wraps Include the actuator servo motor 31 of actuator servo driver and actuator servo driver drives, actuator servo driver and PLC technology Device connects.Controlled by Programmable Controller actuator servo driver thus drive driving motor 31 to work, by control actuator servo electricity The output speed of machine 31, so control drive mechanism 30 transmit the ceramic tile speed to hobboing cutter.Use actuator servo driver and biography Dynamic servomotor 31 can the precision of system operation and real-time further.It addition, the present embodiment does not use hobboing cutter electric current to become Sending device, but be mounted with thickness of cutting detector, thickness of cutting detector is between hobboing cutter, and thickness of cutting detector is used for examining Survey the cutting output of hobboing cutter and detected value is sent to Programmable Logic Controller.Thickness of cutting detector in real time by the cutting output of hobboing cutter, And cutting output detected value is passed to Programmable Logic Controller, thus monitor the Expenditure Levels of hobboing cutter abrasive material, realizing hobboing cutter abrasive material and Time compensate.

Relative to prior art, numerical control Strickle thickness-fixing machine of the present utility model merges Numeric Control Technology, utilizes Programmable Logic Controller to coordinate Hob cutter mechanism and the action of drive mechanism, improve equipment running precision, automatization level be substantially improved, alleviate labor intensity And decrease the adverse effect that equipment is run by anthropic factor.Can be formed between equipment and operator by human-machine operation unit Mutual, such operator both can monitor equipment and run by existing Automatic Program, again can intervention in due course In links.Numerical control Strickle thickness-fixing machine simple in construction of the present utility model, practical, harmony good, automatization level Height, has the strongest promotion prospect.

This utility model is not limited to above-mentioned embodiment, if to various changes of the present utility model or deformation without departing from this reality By novel spirit and scope, if within the scope of these changes and deformation belong to claim of the present utility model and equivalent technologies, Then this utility model is also intended to comprise these changes and deformation.

Claims (7)

1. a numerical control Strickle thickness-fixing machine, it is characterised in that: include bearing, Programmable Logic Controller and the hobboing cutter machine being arranged on bearing Structure, drive mechanism and enter brick thickness gauge；Described hob cutter mechanism include hobboing cutter servo-driver, hobboing cutter servomotor and Hobboing cutter by hobboing cutter driven by servomotor；Described drive mechanism is positioned at the lower section of the hobboing cutter of hob cutter mechanism；Described enter brick thickness inspection Survey instrument be positioned at the import department of ceramic tile and the detected value of tile thickness is sent to Programmable Logic Controller；Described Programmable Logic Controller control The feeding of the hobboing cutter of hob cutter mechanism processed and control drive mechanism and transmit ceramic tile at hobboing cutter.

Numerical control Strickle thickness-fixing machine the most according to claim 1, it is characterised in that: described drive mechanism include transmission converter and with The driving motor that transmission converter connects, described transmission converter is connected with Programmable Logic Controller.

Numerical control Strickle thickness-fixing machine the most according to claim 1, it is characterised in that: described drive mechanism includes actuator servo driver With the actuator servo motor of actuator servo driver drives, described actuator servo driver is connected with Programmable Logic Controller.

4. according to the numerical control Strickle thickness-fixing machine described in Claims 2 or 3, it is characterised in that: also include a hobboing cutter current transducer, institute Stating hobboing cutter current transducer to be connected with hobboing cutter servomotor, described hobboing cutter current transducer is by the loading condition of hobboing cutter servomotor Send Programmable Logic Controller to.

5. according to the numerical control Strickle thickness-fixing machine described in Claims 2 or 3, it is characterised in that: also include a cutting thickness gauge, institute Stating thickness of cutting detector between hobboing cutter, described thickness of cutting detector is for detecting the cutting output of hobboing cutter and by detected value It is sent to Programmable Logic Controller.

Numerical control Strickle thickness-fixing machine the most according to claim 1, it is characterised in that: also include human-machine operation unit, described man-machine behaviour Make unit to be connected with Programmable Logic Controller.

Numerical control Strickle thickness-fixing machine the most according to claim 6, it is characterised in that: described human-machine operation unit is that PC or mobile is whole End.