CN203543300U - Device for manufacturing and detecting magnetic orientation master plate - Google Patents

Abstract

The utility model provides a device for manufacturing and detecting a magnetic orientation master plate. The device comprises a control mechanism, a transmission mechanism, a machining mechanism and a detection mechanism, wherein the machining mechanism and the detection mechanism are used for mounting in a mutual substitute mode; the control mechanism is used for receiving movement instructions and controlling the transmission mechanism according to the movement instructions to drive the machining mechanism and a magnetic orientation master plate to make relative movement, so that magnetic orientation patterns are machined on a magnetic orientation block by using the machining mechanism, or the control mechanism controls the transmission mechanism according to the movement instructions to drive the detection mechanism and the magnetic orientation master plate to make relative movement to detect the magnetic orientation patterns on the magnetic orientation block. Based on the mode, the magnetic orientation master plate can be manufactured and detected by the same device, the manufacture process of the master plate is simplified, the automation degree is high, and the production cost is reduced.

Description

A kind of manufacture of magnetic orientation mother matrix and checkout gear

Technical field

The utility model relates to magnetic orientation printing technology, particularly relates to a kind of manufacture and checkout gear of magnetic orientation mother matrix.

Background technology

At present, magnetic optically variable pigments is widely used in various false proof fields, and magnetic optically variable pigments becomes effect except having the light of traditional optically variable pigments, can also carry out along magnetic field magnetic orientation.The magnetic orientation of magnetic optically variable pigments is generally realized by magnetic orientation mother matrix (magnetic printing mother matrix), and magnetic orientation mother matrix need to have in different regions different magnetic directions, and then realizes magnetic optically variable pigments at the different magnetic orientations of zones of different.

In prior art, generally on different magnetic orientation pieces (magnet), to process part magnetic orientation pattern by manufacturing installation, again by the magnetic orientation mother matrix with complete magnetic orientation pattern that is spliced to form between a plurality of magnetic orientation pieces, then complete the detection to the magnetic orientation pattern on each magnetic orientation piece by checkout gear.Yet the manufacture of aforesaid way and testing process are relied on independent manufacturing installation and checkout gear, production cost is too high, and automaticity is not high.

Therefore, be necessary to provide a kind of manufacture and checkout gear of magnetic orientation mother matrix, to solve the problems of the technologies described above.

Utility model content

The technical problem that the utility model mainly solves is to provide a kind of manufacture and checkout gear of magnetic orientation mother matrix, can make the manufacture of magnetic orientation mother matrix and detect share same device, simplifies mother matrix processing procedure, and automaticity is higher and save production cost.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: manufacture and checkout gear that a kind of magnetic orientation mother matrix is provided, magnetic orientation mother matrix comprises mother matrix main body and is arranged at the magnetic orientation piece in mother matrix main body, this device comprises controlling organization, transmission mechanism and the organisation of working of installing with mutual substitute mode and testing agency, wherein controlling organization is used for receiving movement instruction, and relatively move according to movement instruction control transmission mechanism transmission organisation of working and magnetic orientation mother matrix, to utilize organisation of working to process magnetic orientation pattern on magnetic orientation piece, or relatively move according to movement instruction control transmission mechanism transmission testing agency and magnetic orientation mother matrix, with the magnetic orientation pattern on magnetic orientation piece, detect.

Wherein, transmission mechanism comprises the first transmission mechanism, and the first transmission mechanism is for the first surperficial power transmission shaft translation organisation of working or the testing agency along perpendicular to magnetic orientation piece.

Wherein, transmission mechanism comprises the second transmission mechanism, and the second transmission mechanism is used for along the second driving shaft translation magnetic orientation mother matrix in the plane of vertical the first power transmission shaft.

Wherein, transmission mechanism comprises the 3rd transmission mechanism, and the 3rd transmission mechanism is used for along the three power transmission shaft translation magnetic orientation mother matrix vertical with second driving shaft in plane.

Wherein, transmission mechanism comprises the 4th transmission mechanism, and the 4th transmission mechanism rotates magnetic orientation mother matrix for the 4th power transmission shaft along perpendicular to the first power transmission shaft.

Wherein, organisation of working is machining mechanism, for process the concaveconvex structure corresponding with magnetic orientation pattern on magnetic orientation piece.

Wherein, organisation of working comprises rotating shaft and be fixed on the cutter head on rotating shaft, and transmission mechanism further comprises the 5th transmission mechanism, and the 5th transmission mechanism rotates around the 5th surperficial power transmission shaft perpendicular to magnetic orientation piece for transmission rotational axis.

Wherein, magnetic orientation piece comprises a magnet, and organisation of working comprises heat radiation device, and heat radiation device, for generation of heat radiation bundle, heats with the regional area to magnet, with the self-mode of magnetization by magnet, at regional area, forms new domain structure.

Wherein, magnetic orientation piece comprises a magnetisable material layer, organisation of working comprises magnetizing assembly and heat radiation device, magnetizing assembly is for generation of the first magnetic field, magnetisable material layer is magnetized along first direction of magnetization, heat radiation device is for generation of heat radiation bundle, to utilize heat radiation bundle to add thermal demagnetization to the regional area of magnetisable material layer, magnetizing assembly further produces the second magnetic field, and the regional area of the magnetisable material layer with second direction of magnetization along being different from first direction of magnetization after to degaussing magnetizes.

Wherein, testing agency comprise bracing or strutting arrangement, be arranged on bracing or strutting arrangement can along the magnetic direction of magnetic orientation mother matrix, carry out directed magnetic piece and for taking the vision inspection apparatus of the magnetic piece after orientation.

The beneficial effects of the utility model are: the situation that is different from prior art, the utility model design apparatus comprises controlling organization, transmission mechanism and the organisation of working of installing with mutual substitute mode and testing agency, by controlling organization, receive movement instruction and control accordingly transmission mechanism transmission organisation of working and magnetic orientation mother matrix relatively moves, to utilize organisation of working to process magnetic orientation pattern on magnetic orientation piece, or controlling transmission mechanism transmission testing agency and magnetic orientation mother matrix relatively moves, with the magnetic orientation pattern on magnetic orientation piece, detect, thereby make the manufacture of magnetic orientation mother matrix and detect and can share same device, simplified processing procedure, and saved production cost.

Accompanying drawing explanation

Fig. 1 is the manufacture of magnetic orientation mother matrix and the structure front view of checkout gear of the utility model the first embodiment;

Fig. 2 is the manufacture of the mother matrix of magnetic orientation shown in Fig. 1 and the side view of checkout gear;

Fig. 3 is the structural representation of the organisation of working shown in Fig. 1;

Fig. 4 is the manufacture of magnetic orientation mother matrix of the utility model the second embodiment and the structural representation of the organisation of working of checkout gear;

Fig. 5 is the structural representation of the first embodiment of testing agency shown in Fig. 1.

The specific embodiment

Below in conjunction with accompanying drawing 1～5 and embodiment, the utility model is elaborated.

Fig. 1 is the manufacture of magnetic orientation mother matrix and the structure front view of checkout gear of the utility model the first embodiment, and Fig. 2 is the manufacture of the mother matrix of magnetic orientation shown in Fig. 1 and the side view of checkout gear, and wherein Fig. 2 is that Fig. 1 is from the side view of A end.Shown in Fig. 1 and Fig. 2, the manufacture of the present embodiment and checkout gear 100 mainly comprise: operating platform 150 and be arranged at controlling organization 110, transmission mechanism 120, organisation of working 130 and the testing agency 140 on operating platform 150.

In the present embodiment, magnetic orientation mother matrix 200 comprises mother matrix main body 210 and is arranged at a plurality of magnetic orientation pieces 220 in mother matrix main body 210, and magnetic orientation mother matrix 200 is movably arranged on operating platform 150 by mobile platform 230.Organisation of working 130He testing agency 140 can be installed on transmission mechanism 120 by the extension 152 arranging on the first main part 151 with operating platform 150 in the mode of mutually replacing.

Particularly, when installing 100 pairs of magnetic orientation mother matrixs 200 and carry out the manufacture of magnetic orientation pattern, controlling organization 110 is for receiving the working motion instruction according to magnetic orientation pattern generating, and control accordingly transmission mechanism 120 transmission organisation of workings 130 and relatively move with magnetic orientation mother matrix 200, to utilize organisation of working 130 to process magnetic orientation pattern on each magnetic orientation piece 220.When installing 100 pairs of magnetic orientation mother matrixs 200 and carry out the detection of magnetic orientation pattern, controlling organization 110 is for receiving the detection movement instruction according to magnetic orientation pattern generating, and control accordingly transmission mechanism 120 transmission testing agencies 140 and relatively move with magnetic orientation mother matrix 200, with the magnetic orientation pattern on each magnetic orientation piece 220, detect.Wherein, according to the working motion instruction of magnetic orientation pattern generating and detection movement instruction, also can be combined in same movement instruction.

Again consult Fig. 1 and Fig. 2, the transmission mechanism 120 of the present embodiment comprises the first transmission mechanism 121, the second transmission mechanism 122, the 3rd transmission mechanism 123 and the 4th transmission mechanism 125.

Wherein, the first transmission mechanism 121 is arranged on the first main part 151 of operating platform 150, for the first power transmission shaft O1 upper and lower translation organisation of working 130Huo testing agency 140 on the surface (that is, the surface of magnetic orientation mother matrix 200) along perpendicular to magnetic orientation piece 220.

The second transmission mechanism 122 and the vertical setting of the first main part 151, for the second driving shaft O2 translation magnetic orientation mother matrix 200 in the plane along vertical the first power transmission shaft O1.

The 3rd transmission mechanism 123 is connected with the mobile platform 230 of carrying magnetic orientation mother matrix 200, for the three power transmission shaft O3 translation magnetic orientation mother matrix 200 vertical with second driving shaft O2 along in the residing plane of operating platform 150.

The 4th transmission mechanism 124 is fixedly installed with magnetic orientation mother matrix 200, for the 4th power transmission shaft O4 along perpendicular to the first power transmission shaft O1, rotates magnetic orientation mother matrix 200.

By the cooperation of above-mentioned four transmission mechanisms 121,122,123,124, organisation of working 130Huo testing agency 140 and magnetic orientation mother matrix 200 can be relatively moved in each power transmission shaft place direction, to form or to detect magnetic orientation pattern on magnetic orientation mother matrix 200.

In the present embodiment, because organisation of working 130He testing agency 140 can install in the mode of mutually replacing, based on introducing in detail the manufacture of device 100 of the present utility model and the operation principle of detection and process below this:

Further consult Fig. 3, Fig. 3 is the structural representation of the organisation of working shown in Fig. 1.As shown in Figure 3, the organisation of working 130Wei machining mechanism 330 of the present embodiment, mainly comprises rotating shaft 331 and is fixed on the cutter head 332 on rotating shaft 331.The transmission mechanism 120 of the present embodiment further comprises the 5th transmission mechanism 125 being connected with machining mechanism 330.

Magnetic orientation mother matrix 200 magnetic orientation piece 220 is being carried out to the first being processed of magnetic orientation pattern, controlling organization 110 receives movement instruction, and control accordingly the first transmission mechanism 121 gearing organisation of workings 330, control the second transmission mechanism 122 and the 3rd transmission mechanism 122 translation magnetic orientation mother matrixs 200, until the surface of cutter head 332 and this magnetic orientation piece 220 contacts simultaneously.

Starting to process in magnetic orientation pattern and process, the 5th transmission mechanism 125 transmission rotational axis 331 rotate around the 5th surperficial power transmission shaft O5 perpendicular to magnetic orientation piece 220, to process the concaveconvex structure corresponding with magnetic orientation pattern on magnetic orientation piece 220.Meanwhile, the first transmission mechanism 121 gearing organisation of workings 330, and the second transmission mechanism 122 and 200, four transmission mechanisms of the 3rd transmission mechanism 123 translation magnetic orientation mother matrixs 121,122,123,124 have cooperatively interacted the processing of the magnetic orientation pattern on magnetic orientation piece 220.

When carrying out the man-hour that adds of magnetic orientation pattern another magnetic orientation piece 220, the first transmission mechanism 121 gearing organisation of workings 330, so that the surface of cutter head 332 and magnetic orientation piece 220 separately.The 4th transmission mechanism 124 rotates magnetic orientation mother matrixs 200 so that magnetic orientation piece 220 be positioned at cutter head 332 under.The first transmission mechanism 121 is gearing organisation of working 330 again, so that the surface of cutter head 332 and magnetic orientation piece 220 contacts, then with reference to above-mentioned process, completes the processing of the magnetic orientation pattern on this magnetic orientation piece 220.

It should be noted that, in actual process, the first transmission mechanism 121, the second transmission mechanism 122, the 3rd transmission mechanism 123 and the 4th transmission mechanism 124 might not all be worked, can select according to actual needs any combination wherein to carry out transmission, only need organisation of working 130 and magnetic orientation mother matrix 200 to relatively move, and each transmission mechanism can adopt transmission device of the prior art, such as electromechanical motor etc.In addition, in order to monitor more accurately the transmission accuracy of each transmission mechanism, the present embodiment preferably arranges corresponding position of rotation tracing system in each transmission mechanism, built-in photoelectric encoder 124a in the 4th transmission mechanism 124 for example, and the photoelectric encoder 125a of the 5th transmission mechanism 125 electrical connections, original point position sensor 200a is set, to determine accurately organisation of working 130 and the precalculated position of magnetic orientation piece 200 when magnetic orientation pattern is manufactured on magnetic orientation mother matrix 200.

Fig. 4 is the manufacture of magnetic orientation mother matrix of the utility model the second embodiment and the structural representation of the organisation of working of checkout gear.As shown in Figure 4, the organisation of working 130 of the present embodiment is in the process of processing magnetic orientation pattern, and cooperatively interacting of each transmission mechanism is same as the previously described embodiments, and the difference of two embodiment is:

The organisation of working 130 of the present embodiment is stealthy processing head 430, mainly comprises heat radiation device 431 and rotating shaft 331, and each magnetic orientation piece 220 of the present embodiment comprises a magnet.And, because the organisation of working 130 in the present embodiment is not machining mechanism 330, therefore preferably do not need to arrange the 5th transmission mechanism 125 and the corresponding photoelectric encoder 125a being electrically connected to.

When processing magnetic orientation pattern, heat radiation device 431, for generation of heat radiation bundle, heats with the regional area to magnet, and the self-mode of magnetization by magnet forms new domain structure at regional area, thereby changes the Distribution of Magnetic Field of this regional area.

Wherein, heat radiation bundle can be laser beam, infrared emanation bundle or ultrasonic heat radiation beam.Specifically, when utilizing heat radiation bundle to heat the regional area of this magnet, the thermal agitation meeting that heat radiation bundle produces at this regional area exerts an influence to the Distribution of Magnetic Field of this regional area, make magnet at this regional area, form new domain structure with the self-mode of magnetization, and then in magnet, produce specifically, not reproducible magnetic orientation pattern, and this magnetic orientation pattern can carry abundant pattern-information.It should be noted that the surface characteristics of magnet can not change after the thermal agitation of heat radiation bundle, and through the temperature of the regional area of heat radiation Shu Jiare, do not need to reach the Curie temperature of this magnet, preferably lower than the Curie temperature of this magnet.

Should be understood that in other embodiments, each magnetic orientation piece 220 comprises can not arrange magnet, and changes magnetisable material layer into, and now stealthy processing head 430 comprises heat radiation device 431 and magnetizing assembly 432.

Specifically, when processing magnetic orientation pattern, magnetizing assembly 432 is for generation of the first magnetic field, magnetisable material layer is magnetized along first direction of magnetization.Then heat radiation device 431 produces heat radiation bundles, to utilize more than heat radiation bundle is heated to the Curie temperature of magnetisable material layer by the regional area of magnetisable material layer, thus the regional area of magnetisable material layer is carried out to degaussing.

When utilizing heat radiation bundle that the temperature of the regional area of magnetisable material layer is remained on more than Curie temperature, the second magnetic field that utilizes magnetizing assembly 432 to produce acts on the regional area of magnetisable material layer along second direction of magnetization.Subsequently, when keeping the second magnetic field, remove heat radiation bundle, so that the temperature of the regional area of magnetisable material layer is reduced to below Curie temperature, and then form and second direction of magnetization magnetic field in the same way in the regional area of magnetisable material layer.Wherein, second direction of magnetization and first direction of magnetization are not identical.

The present embodiment can make the final magnetic direction in a plurality of regional areas of magnetic orientation mother matrix 200 different, and then can produce in a plurality of regions of printed matter light complicated and changeable and become effect.

Fig. 5 is the structural representation of the first embodiment of testing agency shown in Fig. 1.As shown in Figure 5, the testing agency 140 of the present embodiment comprises bracing or strutting arrangement 141, magnetic piece 142 and vision inspection apparatus 143.Wherein, magnetic piece 142 is arranged on bracing or strutting arrangement 141 and when detecting and closes on 200 settings of magnetic orientation mother matrix, and vision inspection apparatus 143 is arranged in the space of bracing or strutting arrangement 141 definition, and arranges with magnetic piece 142 intervals.

When organisation of working 130 or the non-magnetic orientation pattern that it processes are detected, the detailed process that the first transmission mechanism 121, the second transmission mechanism 122, the 3rd transmission mechanism 123 and the 4th transmission mechanism 124 cooperatively interact with transmission testing agency 140 and magnetic orientation mother matrix 200 can, with reference to foregoing description, repeat no more herein.In transmission process, magnetic piece 142 be positioned at magnetic orientation mother matrix 200(or, during top magnetic orientation piece 220), its magnetic material comprising can carry out magnetic orientation along the magnetic direction of magnetic orientation mother matrix 200, the magnetic orientation pattern of taking on magnetic piece 142 by vision inspection apparatus 143, can judge whether the magnetic orientation pattern processing on magnetic orientation mother matrix 200 meets designing requirement.

In sum, the utility model design comprises controlling organization, the device of transmission mechanism and the organisation of working of installing with mutual substitute mode and testing agency, by controlling organization, receive movement instruction and control accordingly transmission mechanism transmission organisation of working and magnetic orientation mother matrix relatively moves, to utilize organisation of working to process magnetic orientation pattern on magnetic orientation piece, or controlling transmission mechanism transmission testing agency and magnetic orientation mother matrix relatively moves, with the magnetic orientation pattern on magnetic orientation piece, detect, thereby make the manufacture of magnetic orientation mother matrix and detect and can share same device, simplified processing procedure, and saved production cost.

The foregoing is only embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. the manufacture of a magnetic orientation mother matrix and checkout gear, described magnetic orientation mother matrix comprises mother matrix main body and is arranged at the magnetic orientation piece in described mother matrix main body, it is characterized in that, described device comprises controlling organization, transmission mechanism and the organisation of working of installing with mutual substitute mode and testing agency, wherein said controlling organization is used for receiving movement instruction, and according to described movement instruction, control organisation of working and described magnetic orientation mother matrix described in described transmission mechanism transmission and relatively move, to utilize described organisation of working to process magnetic orientation pattern on described magnetic orientation piece, or according to described movement instruction, controlling testing agency and described magnetic orientation mother matrix described in described transmission mechanism transmission relatively moves, with the described magnetic orientation pattern on described magnetic orientation piece, detect.

2. device according to claim 1, is characterized in that, described transmission mechanism comprises the first transmission mechanism, and described the first transmission mechanism is used for edge perpendicular to organisation of working or described testing agency described in the first surperficial power transmission shaft translation of described magnetic orientation piece.

3. device according to claim 2, is characterized in that, described transmission mechanism comprises the second transmission mechanism, and described the second transmission mechanism is for magnetic orientation mother matrix described in the second driving shaft translation in the plane along vertical described the first power transmission shaft.

4. device according to claim 3, is characterized in that, described transmission mechanism comprises the 3rd transmission mechanism, and described the 3rd transmission mechanism is used for along magnetic orientation mother matrix described in the 3rd power transmission shaft translation vertical with described second driving shaft in described plane.

5. device according to claim 4, is characterized in that, described transmission mechanism comprises the 4th transmission mechanism, and described the 4th transmission mechanism rotates described magnetic orientation mother matrix for the 4th power transmission shaft along perpendicular to described the first power transmission shaft.

6. according to the device described in claim 1-5 any one, it is characterized in that, described organisation of working is machining mechanism, for process the concaveconvex structure corresponding with described magnetic orientation pattern on described magnetic orientation piece.

7. device according to claim 6, it is characterized in that, described organisation of working comprises rotating shaft and is fixed on the cutter head on described rotating shaft, described transmission mechanism further comprises the 5th transmission mechanism, and described the 5th transmission mechanism rotates around the 5th surperficial power transmission shaft perpendicular to described magnetic orientation piece for rotating shaft described in transmission.

8. according to the device described in claim 1-5 any one, it is characterized in that, described magnetic orientation piece comprises a magnet, described organisation of working comprises heat radiation device, described heat radiation device is for generation of heat radiation bundle, with the regional area to described magnet, heat, with the self-mode of magnetization by described magnet, at described regional area, form new domain structure.

9. according to the device described in claim 1-5 any one, it is characterized in that, described magnetic orientation piece comprises a magnetisable material layer, described organisation of working comprises magnetizing assembly and heat radiation device, described magnetizing assembly is for generation of the first magnetic field, described magnetisable material layer is magnetized along first direction of magnetization, described heat radiation device is for generation of heat radiation bundle, to utilize described heat radiation bundle to add thermal demagnetization to the regional area of described magnetisable material layer, described magnetizing assembly further produces the second magnetic field, the described regional area of the described magnetisable material layer with second direction of magnetization along being different from described first direction of magnetization after to degaussing magnetizes.

10. device according to claim 1, it is characterized in that, described testing agency comprises bracing or strutting arrangement, be arranged on described bracing or strutting arrangement can along the magnetic direction of described magnetic orientation mother matrix, carry out directed magnetic piece and for taking the vision inspection apparatus of the described magnetic piece after orientation.

Images