CN107336083A - A kind of communicator engraving equipment for improving operating efficiency - Google Patents

Abstract

The invention discloses a kind of communicator engraving equipment for improving operating efficiency, the first cross bar and the second cross bar be arranged in parallel；The second positioning seat is set on the face of second cutter the first cutter of direction；Infrared emission array is set on the second positioning seat, and the infrared ray of infrared emission array emitter is perpendicular to the face of the second positioning seat the first cutter of direction；The first positioning seat is set on the face of first cutter the second cutter of direction；Infrared receiver array is set on the first positioning seat, and the shape of infrared receiver array, size and array are same as infrared emission array.A kind of communicator engraving equipment for improving operating efficiency of the present invention, the first cutter and the second cutter are positioned by infrared emission array and infrared receiver array, it ensure that the first cutter and the second cutter can accurately complete the docking at abutment, when using two cutters so as to ensure that, the processing to microwave device can also be completed, process velocity improves, so as to improve operating efficiency.

Description

A kind of communicator engraving equipment for improving operating efficiency

Technical field

The present invention relates to field of microwave communication, and in particular to a kind of communicator engraving equipment for improving operating efficiency.

Background technology

It is operated in the device of microwave band (frequency is 300~300000 megahertzs), referred to as microwave device.Microwave device presses it Function can be divided into microwave oscillator (microwave source), power amplifier, frequency mixer, wave detector, microwave antenna, microwave transmission line etc.. , can be by these combination of devices into the various microwave circuits for having specific function, for example, being assembled using these devices by circuit design Into emitter, receiver, antenna system, display etc., for electronics such as radar, electronic warfare system and communication systems.

With the rising of working frequency, the required precision of microwave device also more and more higher, so microwave device is many now It is processed using Digit Control Machine Tool, but existing Digit Control Machine Tool only has a cutter head, process velocity is slower, and operating efficiency is low.

The content of the invention

The technical problems to be solved by the invention are that existing Digit Control Machine Tool only has a cutter head, and process velocity is slower, work Make efficiency it is low, and it is an object of the present invention to provide it is a kind of improve operating efficiency communicator engraving equipment, solve the above problems.

The present invention is achieved through the following technical solutions：

It is a kind of to improve the communicator engraving equipment of operating efficiency, including it is installed on the first cutter and the installation of the first cross bar In the second cutter of the second cross bar；First cross bar and the second cross bar be arranged in parallel；The first cutter of the second cutter direction Face on the second positioning seat is set；Infrared emission array is set on second positioning seat, and infrared emission array emitter is red Outside line is perpendicular to the face of the second positioning seat the first cutter of direction；First cutter is fixed towards setting first on the face of the second cutter Position seat；On first positioning seat set infrared receiver array, and the shape of infrared receiver array, size and array be same as it is red Outer emission array.

In the prior art, Digit Control Machine Tool only has a cutter head, and process velocity is slower, and operating efficiency is low.During present invention application, When needing to process microwave device, the first cutter is arranged on the first cross bar, and the second cutter is arranged on the second cross bar, and first Cutter and the second cutter are processed to microwave device jointly, when the first cutter and the second cutter are soon worked into abutment, The first cutter and the second cutter are positioned by infrared emission array and infrared receiver array, ensure that the first cutter and Two cutters can accurately complete the docking at abutment, when using two cutters so as to ensure that, can also complete to microwave device The processing of part, process velocity improves, so as to improve operating efficiency.

Further, first cutter also include the first motion, the first transmission mechanism, the first rough grade motor, First control device and high-precision motor；The first rough grade motor and high-precision motor drive the by the first transmission mechanism The horizontal movement on the first cross bar of one motion；The first control device is used to control the first rough grade motor driven first Motion motion is up to infrared receiver array received to infrared signal；The first control device is additionally operable to control high precision electro Machine drives the motion of the first motion until the infrared signal that all infrared sensors receive on infrared receiver array.

Further, second cutter also include the second motion, the second transmission mechanism, the second rough grade motor and Second control device；The second rough grade motor drives the second motion water on the second cross bar by the second transmission mechanism Flat motion；The second control device is used to control infrared emission array emitter infrared ray.

During present invention application, because the price of stepper motor greatly improves with the raising of precision, so the present invention adopts The motion of first the first motion of rough grade motor driven is controlled with first control device until infrared receiver array received is to red During external signal, then high-precision motor is controlled to drive the motion of the first motion up to all infrared sensors on infrared receiver array The infrared signal received, so as to only need to set high-precision motor on the first cutter, without being set with the second cutter High-precision motor is put, reduces overall cost.

Further, first cutter also includes the first cutter head for being arranged at the first cutter bottom.

Further, second cutter also includes the second cutter head for being arranged at the second cutter bottom.

The present invention compared with prior art, has the following advantages and advantages：

1st, a kind of communicator engraving equipment for improving operating efficiency of the present invention, passes through infrared emission array and infrared receiver Array positions to the first cutter and the second cutter, ensure that the first cutter and the second cutter can accurately complete abutment Docking, when using two cutters so as to ensure that, the processing to microwave device can also be completed, process velocity improves, so as to Improve operating efficiency；

2nd, a kind of communicator engraving equipment for improving operating efficiency of the present invention, it is only necessary to set on the first cutter high-precision Motor is spent, without setting high-precision motor with the second cutter, reduces overall cost.

Brief description of the drawings

Accompanying drawing described herein is used for providing further understanding the embodiment of the present invention, forms one of the application Point, do not form the restriction to the embodiment of the present invention.In the accompanying drawings：

Fig. 1 is schematic structural view of the invention；

Fig. 2 is infrared receiver array schematic diagram of the present invention.

Mark and corresponding parts title in accompanying drawing：

The cross bars of 1- first, the cross bars of 2- second, the cutters of 3- first, the second cutters of 4- 4, the positioning seats of 31- first, 32- first are transported Motivation structure, the transmission mechanisms of 33- first, 34- the first rough grade motors, 35- first control devices, 36- high-precision motors, 37- One cutter head, the positioning seats of 41- second, the motions of 42- second, the transmission mechanisms of 43- second, 44- the second rough grade motors, 45- Two control devices, the cutter heads of 46- second, 311- infrared receiver arrays, 411- infrared emission arrays.

Embodiment

For the object, technical solutions and advantages of the present invention are more clearly understood, with reference to embodiment and accompanying drawing, to this Invention is described in further detail, and exemplary embodiment of the invention and its explanation are only used for explaining the present invention, do not make For limitation of the invention.

Embodiment

As depicted in figs. 1 and 2, the present invention is a kind of improves the communicator engraving equipment of operating efficiency, including is installed on the First cutter 3 of one cross bar 1 and the second cutter 4 for being installed on the second cross bar 2；First cross bar 1 is parallel with the second cross bar 2 to be set Put；Second cutter 4 is towards setting the second positioning seat 41 on the face of the first cutter 3；Set on second positioning seat 41 red Outer emission array 411, and the infrared ray launched of infrared emission array 411 perpendicular to the second positioning seat 41 towards the first cutter 3 Face；First cutter 3 is towards setting the first positioning seat 31 on the face of the second cutter 4；Set on first positioning seat 31 red Outer receiving array 311, and the shape of infrared receiver array 311, size and array are same as infrared emission array 411.Described One cutter 3 also includes the first motion 32, the first transmission mechanism 33, the first rough grade motor 34, the and of first control device 35 High-precision motor 36；The first rough grade motor 34 and high-precision motor 36 drive the first motion by the first transmission mechanism 33 The horizontal movement on the first cross bar 1 of mechanism 32；The first control device 35 is used to control the first rough grade motor 34 to drive the The motion of one motion 32 is until infrared receiver array 311 receives infrared signal；The first control device 35 is additionally operable to control High-precision motor 36 processed drives the motion of the first motion 32 until all infrared sensors receive on infrared receiver array 311 The infrared signal arrived.Second cutter 4 also includes the second motion 42, the second transmission mechanism 43, the second rough grade motor 44 and second control device 45；The second rough grade motor 44 drives the second motion 42 to exist by the second transmission mechanism 43 Horizontal movement on second cross bar 2；The second control device 45 is used to control infrared emission array 411 to launch infrared ray.It is described First cutter 3 also includes the first cutter head 37 for being arranged at the bottom of the first cutter 3.Second cutter 4 also includes being arranged at second Second cutter head 46 of the bottom of cutter 4.

When the present embodiment is implemented, when needing to process microwave device, the first cutter 3 is arranged on the first cross bar 1, and second Cutter 4 is arranged on the second cross bar 2, and the first cutter 3 and the second cutter 4 are processed to microwave device jointly, when the first cutter 3 When being soon worked into abutment with the second cutter 4, by infrared emission array 411 and infrared receiver array 311 to the first cutter 3 Positioned with the second cutter 4, ensure that the first cutter 3 and the second cutter 4 can accurately complete the docking at abutment, so as to It ensure that when using two cutters, can also complete the processing to microwave device, process velocity improves, so as to improve work effect Rate.Because the price of stepper motor greatly improves with the raising of precision, so the present invention is controlled using first control device 35 Make the first rough grade motor 34 and drive the motion of the first motion 33 when infrared receiver array 311 receives infrared signal, High-precision motor 36 is controlled to drive the motion of the first motion 33 until all infrared sensors are equal on infrared receiver array 311 again The infrared signal received, so as to only need to set high-precision motor 36 on the first cutter 3, without with the second cutter 4 High-precision motor 36 is set, reduces overall cost.

Above-described embodiment, the purpose of the present invention, technical scheme and beneficial effect are carried out further Describe in detail, should be understood that the embodiment that the foregoing is only the present invention, be not intended to limit the present invention Protection domain, within the spirit and principles of the invention, any modification, equivalent substitution and improvements done etc., all should include Within protection scope of the present invention.

Claims (5)

1. a kind of communicator engraving equipment for improving operating efficiency, it is characterised in that the including being installed on the first cross bar (1) One cutter (3) and the second cutter (4) for being installed on the second cross bar (2)；First cross bar (1) is parallel with the second cross bar (2) to be set Put；The second positioning seat (41) is set on the face of second cutter (4), first cutter of direction (3)；Second positioning seat (41) Upper setting infrared emission array (411), and the infrared ray of infrared emission array (411) transmitting is perpendicular to the second positioning seat (41) court To the face of the first cutter (3)；The first positioning seat (31) is set on the face of first cutter (3), second cutter of direction (4)；It is described Infrared receiver array (311), and the shape of infrared receiver array (311), size and array phase are set on the first positioning seat (31) It is same as infrared emission array (411).

2. a kind of communicator engraving equipment for improving operating efficiency according to claim 1, it is characterised in that described the One cutter (3) also includes the first motion (32), the first transmission mechanism (33), the first rough grade motor (34), the first control Device (35) and high-precision motor (36)；The first rough grade motor (34) and high-precision motor (36) pass through the first driver Structure (33) drives the first motion (32) horizontal movement on the first cross bar (1)；The first control device (35) is used to control Make the first rough grade motor (34) and drive the first motion (32) motion until infrared receiver array (311) receives infrared letter Number；The first control device (35) is additionally operable to control high-precision motor (36) to drive the first motion (32) motion until red The infrared signal that all infrared sensors receive on outer receiving array (311).

3. a kind of communicator engraving equipment for improving operating efficiency according to claim 1, it is characterised in that described the Two cutters (4) also include the second motion (42), the second transmission mechanism (43), the second rough grade motor (44) and the second control Device (45)；The second rough grade motor (44) drives the second motion (42) second by the second transmission mechanism (43) Horizontal movement on cross bar (2)；The second control device (45) is used to control infrared emission array (411) to launch infrared ray.

4. a kind of communicator engraving equipment for improving operating efficiency according to claim 1, it is characterised in that described the One cutter (3) also includes the first cutter head (37) for being arranged at the first cutter (3) bottom.

5. a kind of communicator engraving equipment for improving operating efficiency according to claim 1, it is characterised in that described the Two cutters (4) also include the second cutter head (46) for being arranged at the second cutter (4) bottom.