CN210576988U - Multimode laser - Google Patents

Abstract

The utility model provides a multimode laser, which comprises a peripheral metal plate box body, a light path module and a circuit module; the circuit module comprises a power supply submodule, a main control submodule and an auxiliary control submodule; the light path module and the power supply sub-module are arranged inside the peripheral metal plate box body; the peripheral metal plate box body comprises a metal plate main body frame, a front door part, a left door, a right door, a rear door and a top cover; a main electric control box body and an auxiliary electric control box body are also arranged in the peripheral metal plate box body; the main control box body is arranged on the inner side of the left side door of the peripheral metal plate box body, and the main control sub-module is arranged in the main control box body; the auxiliary electric control box body is arranged on the inner side of the rear door, and the auxiliary control submodule is arranged in the auxiliary electric control box body.

Description

Multimode laser

Technical Field

The utility model belongs to the technical field of laser equipment, concretely relates to multimode laser ware.

Background

The circuit modules of the existing multimode laser are directly arranged in a sheet metal box body, although the sheet metal of the laser box body is subjected to dustproof treatment, the actual sealing effect is poor, and internal circuit signals are easily interfered by the outside; secondly, dividing a strong current part and a weak current part in the multimode laser, wherein the strong current voltage is 380V, and the strong current voltage mainly supplies power for a power supply sub-module and a 380V-to-24V direct current switch power supply module in the multimode laser; the weak current is the following DC voltage of 24V, mainly is module power supplies such as PD module subassembly, main control panel, auxiliary control board, relay subassembly and three-colour alarm lamp, and the forceful electric power circuit part and the equal direct mount of weak current circuit part of common multimode laser are inside the panel beating, and the forceful electric power circuit can be disturbed weak current circuit production, and the electrical property is influenced, and then influences the wholeness ability of laser instrument.

This is a disadvantage of the prior art, and therefore, it is very necessary to provide a multimode laser for the above-mentioned defects of the prior art.

Disclosure of Invention

The equal direct mount of circuit module to the above-mentioned multimode laser of prior art is in the panel beating box, and the actual sealed effect is poor, and the internal circuit signal receives external disturbance's defect easily, the utility model provides a multimode laser to solve above-mentioned technical problem.

The utility model provides a multimode laser, which comprises a peripheral metal plate box body, a light path module and a circuit module;

the circuit module comprises a power supply submodule, a main control submodule and an auxiliary control submodule;

the light path module and the power supply sub-module are arranged inside the peripheral metal plate box body;

the peripheral metal plate box body comprises a metal plate main body frame, a front door part, a left door, a right door, a rear door and a top cover;

a main electric control box body and an auxiliary electric control box body are also arranged in the peripheral metal plate box body;

the main control box body is arranged on the inner side of the left side door of the peripheral metal plate box body, and the main control sub-module is arranged in the main control box body;

the auxiliary electric control box body is arranged on the inner side of the back door of the peripheral metal plate box body, and the auxiliary control submodule is arranged in the auxiliary electric control box body.

Further, the front door part comprises a front door and a decorative door, and a switch button is arranged on the decorative door. When the front door is opened, the light path module and the power supply submodule can be assembled, the decorative door is connected with the metal plate main body frame in a hinged mode, the decorative door can be opened when necessary, and the switch button on the decorative door is used for controlling the laser.

Furthermore, the optical path module comprises a beam combiner sub-module and a plurality of optical path sub-modules;

the beam combiner sub-module, the light path sub-module and the power supply sub-module are arranged in the peripheral metal plate box body from top to bottom. The modular design of the light path module is convenient for installation, disassembly and maintenance, and the working efficiency is improved.

Further, the main control sub-module comprises a main control board, a relay assembly and a PD working unit;

the number of the PD working units is two, the PD working units comprise a first PD working unit and a second PD working unit, and each PD working unit comprises a PD module component, a driving cooling disc and a power plate;

the main control board and the relay assembly are arranged on the lower portion of the main control box body, the main control board is arranged on one side of the rear door, the relay assembly is arranged on one side of the front door, the first PD working unit is arranged on the upper sides of the main control board and the relay assembly, and the second PD working unit is arranged on the upper side of the first PD working unit. The main control sub-module is an electrically controlled weak current part and is independently arranged in the main electric control box body, so that the interference of the external environment to the weak current part is reduced.

Further, the first PD operating unit includes a driving cooling tray, six PD module assemblies, and three power boards;

the six PD module components are arranged longitudinally and arranged on one side of the rear door;

the drive cooling plate is arranged at a position between the PD module assembly and the front door part;

the three power plates are transversely arranged and arranged on the driving cooling disc;

the second PD working unit has the same structure as the first PD working unit. The number of PD module assemblies and power boards in each PD working unit is not limited to the above-mentioned limit.

Further, the auxiliary control sub-module comprises a PD auxiliary control board, a filter and a terminal block;

the number of the PD auxiliary control panels is two, and the two PD auxiliary control panels are arranged at the upper part of the auxiliary electric control box body;

the filter is arranged at the lower part of the auxiliary electric control box body and is arranged at one side of the left side door;

the power supply sub-module penetrates through the auxiliary electric control box body and is arranged on one side of the right side door at the lower part of the auxiliary electric control box body;

the terminal block is arranged between the power supply submodule and the filter. The auxiliary control submodule is an electric control strong current part and is independently arranged in the auxiliary electric control box body, so that the interference of the external environment on the strong current part is reduced. The auxiliary control submodule is used for PD data processing control and communicates with the main control board, the auxiliary control submodule monitors the state of the PD module assembly in real time, when the state of the PD module assembly changes, the PD auxiliary control board sends the signal to the main control board, and the main control board further processes the signal. The auxiliary control sub-module adopts weak current power supply; the filters and the terminal blocks pass strong electricity.

Further, evenly be provided with a plurality of fine frocks of dish on the top cap. The fiber coiling tool can realize fiber coiling, avoid the disorder of optical fibers and ensure reasonable layout.

Furthermore, the number of the fiber coiling tools is four, and the four fiber coiling tools are arranged at four corners of the top cover;

each coiling fiber tool comprises a first coiling fiber welding part and a second coiling fiber welding part;

the first coiled fiber welding part comprises a first bending part, a first middle connecting part and a second bending part; the first middle connecting part is perpendicular to the second bending part, the first bending part and the second bending part are arranged on the same side of the first middle connecting part, and the included angle between the first middle connecting part and the first bending part is larger than 90 degrees; the second bending part is provided with a first welding surface;

the second coiled fiber welding piece comprises a third bending part, a second middle connecting part and a fourth bending part; the second middle connecting part is vertical to the fourth bending part, the third bending part and the fourth bending part are arranged on the same side of the second middle connecting part, and the angle between the second middle connecting part and the third bending part is smaller than 90 degrees; a second welding surface is arranged on the fourth bending part;

the first welding surface is connected with the second welding surface in a welding mode, and the first bending portion, the first middle connecting portion, the second bending portion, the fourth bending portion, the second middle connecting portion and the third bending portion form an optical fiber accommodating cavity;

the second bending part and the fourth bending part are both provided with screw holes, and the second bending part and the fourth bending part are fixedly arranged on the top cover through screws;

and the screw hole on the second bending part or the fourth bending part is a waist-shaped hole. The quantity of the fiber coiling tool is not limited to the limit, the fiber coiling tool is formed by bending and welding two welding parts, the machining process of the fiber coiling tool is simplified, the production cost is reduced, and the situation that workpieces cannot be installed due to welding deformation can be avoided due to the fact that waist-shaped holes are formed in one welding part.

Furthermore, a temperature and humidity adjusting air conditioner is arranged on the outer side of the right side door of the peripheral metal plate box body. The temperature and humidity air conditioner provides proper working temperature for the multimode laser.

Further, be provided with the three-colour alarm lamp on the panel beating main body frame of peripheral panel beating box and top cap coplanar, and the three-colour alarm lamp sets up in left side door and back contained angle department.

The utility model has the advantages that,

the utility model provides a multimode laser, will be as automatically controlled main control submodule piece and auxiliary control submodule piece place respectively in main electric control box and the auxiliary electric control box in the peripheral panel beating box, dustproof effectual, reduce the interference of external environment to the internal circuit; the electronic control is divided into a main control submodule part and an auxiliary control submodule part, so that the basic separation of strong current and weak current is realized, and the signal interference of the strong current on the weak current is reduced; the multimode laser is integrally designed in a modularized mode, and the light path module and the circuit module are independently installed, detached and maintained, so that the working efficiency is greatly improved.

Furthermore, the utility model relates to a principle is reliable, and simple structure has very extensive application prospect.

Therefore, compared with the prior art, the utility model has the substantive characteristics and the progress, and the beneficial effects of the implementation are also obvious.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of an overall front-side assembly of a multimode laser;

FIG. 2 is a schematic diagram of the overall back side assembly of a multimode laser;

FIG. 3 is a schematic diagram of a master control sub-module;

FIG. 4 is a schematic diagram of an auxiliary control sub-module;

FIG. 5 is a schematic structural view of a fiber coiling tool;

in the figure, 1-a sheet metal main body frame; 2-left side door; 3-right side door; 4-a rear door; 5-a top cover; 6-main electric control box body; 7-auxiliary electric control box body; 8-front door; 9-a decorative door; 10-a beam combiner sub-module; 11-optical path splitting module; 12-a main control board; 13-PD module components; 14-driving the cooling plate; 15-power board; 16-a relay assembly; 17-an auxiliary control panel; 18-a filter; 19-terminal row; 20-coiling fiber tooling; 20.1-a first coiled fiber weldment; 20.11 — first bend; 20.12 — second bend; 20.13 — a first intermediate connection; 20.2-a second coiled fiber weldment; 20.21-third bend; 20.22-fourth bend; 20.23-a second intermediate connection; 21-temperature and humidity adjusting air conditioner; 22-a three-color warning light; 23-power supply submodule.

Detailed Description

In order to make the technical solutions in the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

Example 1:

as shown in fig. 1 and 2, the utility model provides a multimode laser, which comprises a peripheral metal plate box body, a light path module and a circuit module;

the circuit module comprises a power supply submodule 23, a main control submodule and an auxiliary control submodule;

the light path module and the power supply sub-module 23 are arranged inside the peripheral metal plate box body;

the peripheral metal plate box body comprises a metal plate main body frame 1, a front door part, a left side door 2, a right side door 3, a rear door 4 and a top cover 5; the front door part comprises a front door 8 and a decorative door 9, and the decorative door 9 is provided with a switch button; a temperature and humidity adjusting air conditioner 21 is arranged on the outer side of the right door 3 of the peripheral sheet metal box body; a three-color alarm lamp 22 is arranged on the metal plate main body frame of the peripheral metal plate box body and the top cover 5 on the same plane, and the three-color alarm lamp 22 is arranged at the included angle between the left side door 2 and the rear door 4;

a main electric control box body 6 and an auxiliary electric control box body 7 are also arranged in the peripheral metal plate box body;

the main control box body 6 is arranged on the inner side of the left door 2 of the peripheral metal plate box body, and the main control sub-module is arranged in the main control box body 6;

the auxiliary electric control box body 7 is arranged on the inner side of the rear door 4 of the peripheral sheet metal box body, and the auxiliary control submodule is arranged in the auxiliary electric control box body 7;

the optical path module comprises a beam combiner sub-module 10 and four optical path sub-modules 11;

the beam combiner sub-module 10, the four optical path sub-modules 11 and the power supply sub-module 23 are arranged in the peripheral metal plate box body from top to bottom;

as shown in fig. 3, the main control sub-module includes a main control board 12, a relay assembly 16 and a PD operating unit;

the number of the PD working units is two, and the PD working units comprise a first PD working unit and a second PD working unit, and each PD working unit comprises a PD module assembly 13, a driving cooling disc 14 and a power plate 15;

the main control board 12 and the relay assembly 16 are arranged at the lower part of the main control box body 6, the main control board 12 is arranged at one side of the rear door 4, the relay assembly 16 is arranged at one side of the front door part, the first PD working unit is arranged at the upper sides of the main control board 12 and the relay assembly 16, and the second PD working unit is arranged at the upper side of the first PD working unit;

the first PD operating unit includes a driving cooling tray 14, six PD module assemblies 13, and three power boards 15;

the six PD module assemblies 13 are arranged longitudinally and are arranged on one side of the rear door 4;

the drive cooling tray 14 is disposed at a position between the PD module assembly 13 and the front door portion;

the three power plates 15 are transversely arranged and arranged on the driving cooling disc 14;

the second PD working unit has the same structure as the first PD working unit;

as shown in fig. 4, the auxiliary control sub-module includes a PD auxiliary control board 17, a filter 18, and a terminal block 19;

the number of the PD auxiliary control boards 17 is two, and the two PD auxiliary control boards 17 are arranged at the upper part of the auxiliary electric control box body 7;

the filter 18 is arranged at the lower part of the auxiliary electric control box body 7 and is arranged at one side of the left side door 2;

the power supply sub-module 23 penetrates through the auxiliary electric control box body 7 and is arranged on one side of the right side door 3 at the lower part of the auxiliary electric control box body 7;

the terminal block 19 is arranged at a position between the power supply submodule 23 and the filter 18;

a plurality of fiber coiling tools 20 are uniformly arranged on the top cover 5;

the number of the fiber coiling tools 20 is four, and the four fiber coiling tools 20 are arranged at four corners of the top cover 5.

Example 2:

as shown in fig. 5, the difference from the above embodiment 1 is: each coiling fiber tool 20 comprises a first coiling fiber weldment 20.1 and a second coiling fiber weldment 20.2;

the first coiled fiber weldment 20.1 comprises a first bent portion 20.11, a first intermediate connecting portion 20.13 and a second bent portion 20.12; the first middle connecting part 20.13 is perpendicular to the second bending part 20.12, the first bending part 20.11 and the second bending part 20.12 are arranged on the same side of the first middle connecting part 20.13, and the included angle between the first middle connecting part 20.13 and the first bending part 20.11 is larger than 90 degrees; the second bending part 20.12 is provided with a first welding surface;

the second coiled fiber weldment 20.2 comprises a third bend 20.21, a second intermediate joint 20.23 and a fourth bend 20.22; the second middle connecting part 20.23 is perpendicular to the fourth bending part 20.22, the third bending part 20.21 and the fourth bending part 20.22 are arranged on the same side of the second middle connecting part 20.23, and the angle between the second middle connecting part 20.23 and the third bending part 20.21 is smaller than 90 degrees; a second welding surface is arranged on the fourth bending part 20.22;

the first welding surface is connected with the second welding surface through welding, and the first bending part 20.11, the first middle connecting part 20.13, the second bending part 20.12, the fourth bending part 20.22, the second middle connecting part 20.23 and the third bending part 20.21 form an optical fiber accommodating cavity;

the second bending part 20.12 and the fourth bending part 20.22 are both provided with screw holes, and the second bending part 20.12 and the fourth bending part 20.22 are fixedly arranged on the top cover 5 through screws;

the screw holes of the second bending part 20.13 or the fourth bending part 20.23 are waist-shaped holes.

Although the present invention has been described in detail by referring to the drawings in conjunction with the preferred embodiments, the present invention is not limited thereto. Various equivalent modifications or substitutions can be made on the embodiments of the present invention by those skilled in the art without departing from the spirit and substance of the present invention, and these modifications or substitutions are intended to be within the scope of the present invention/any person skilled in the art can easily conceive of changes or substitutions within the technical scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A multimode laser is characterized by comprising a peripheral metal plate box body, an optical path module and a circuit module;

the circuit module comprises a power supply submodule (23), a main control submodule and an auxiliary control submodule;

the light path module and the power supply sub-module (23) are arranged inside the peripheral metal plate box body;

the peripheral sheet metal box body comprises a sheet metal main body frame (1), a front door part, a left side door (2), a right side door (3), a rear door (4) and a top cover (5);

a main electric control box body (6) and an auxiliary electric control box body (7) are also arranged in the peripheral sheet metal box body;

the main electric control box body (6) is arranged on the inner side of the left side door (2) of the peripheral metal plate box body, and the main control sub-module is arranged in the main electric control box body (6);

the auxiliary electric control box body (7) is arranged on the inner side of the rear door (4) of the peripheral sheet metal box body, and the auxiliary control submodule is arranged in the auxiliary electric control box body (7).

2. The multimode laser according to claim 1, characterized in that the front door portion comprises a front door (8) and a decorative door (9), the decorative door (9) being provided with a switch button.

3. The multimode laser of claim 1, wherein the optical path module comprises a beam combiner sub-module (10) and a plurality of optical path sub-modules (11);

the beam combiner sub-module (10), the light path sub-module (11) and the power supply sub-module (23) are arranged in the peripheral metal plate box body from top to bottom.

4. The multimode laser of claim 1, wherein the main control sub-module comprises a main control board (12), a relay assembly (16), and a PD operating unit;

the number of the PD working units is two, the PD working units comprise a first PD working unit and a second PD working unit, and each PD working unit comprises a PD module component (13), a driving cooling disc (14) and a power plate (15);

the main control board (12) and the relay assembly (16) are arranged on the lower portion of the main control box body (6), the main control board (12) is arranged on one side of the rear door (4), the relay assembly (16) is arranged on one side of the front door portion, the first PD working unit is arranged on the upper sides of the main control board (12) and the relay assembly (16), and the second PD working unit is arranged on the upper side of the first PD working unit.

5. The multimode laser of claim 4, wherein the first PD operating unit includes a drive cooling disk (14), six PD module assemblies (13), and three power boards (15);

the six PD module components (13) are arranged longitudinally and arranged on one side of the rear door (4);

a drive cooling tray (14) is provided at a position between the PD module assembly (13) and the front door section;

the three power plates (15) are transversely arranged and arranged on the driving cooling disc (14);

the second PD working unit has the same structure as the first PD working unit.

6. A multimode laser according to claim 1, characterized in that the auxiliary control submodule comprises a PD auxiliary control board (17), a filter (18) and a terminal block (19);

the number of the PD auxiliary control boards (17) is two, and the two PD auxiliary control boards (17) are arranged at the upper part of the auxiliary electric control box body (7);

the filter (18) is arranged at the lower part of the auxiliary electric control box body (7) and is arranged at one side of the left side door (2);

the power supply sub-module (23) penetrates through the auxiliary electric control box body (7) and is arranged on one side of the right side door (3) at the lower part of the auxiliary electric control box body (7);

the terminal block (19) is disposed at a position between the power supply sub-module (23) and the filter (18).

7. The multimode laser of claim 1, wherein a plurality of fiber coiling tools (20) are uniformly arranged on the top cover (5).

8. The multimode laser of claim 7, wherein the number of the fiber coiling tools (20) is four, and four fiber coiling tools (20) are arranged at four corners of the top cover (5);

each coiling fiber tool (20) comprises a first coiling fiber welding part (20.1) and a second coiling fiber welding part (20.2);

the first coiled fiber welding piece (20.1) comprises a first bending part (20.11), a first middle connecting part (20.13) and a second bending part (20.12); the first middle connecting part (20.13) is perpendicular to the second bending part (20.12), the first bending part (20.11) and the second bending part (20.12) are arranged on the same side of the first middle connecting part (20.13), and the included angle between the first middle connecting part (20.13) and the first bending part (20.11) is larger than 90 degrees; a first welding surface is arranged on the second bending part (20.12);

the second coiled fiber welding piece (20.2) comprises a third bending part (20.21), a second middle connecting part (20.23) and a fourth bending part (20.22); the second middle connecting part (20.23) is vertical to the fourth bending part (20.22), the third bending part (20.21) and the fourth bending part (20.22) are arranged on the same side of the second middle connecting part (20.23), and the angle between the second middle connecting part (20.23) and the third bending part (20.21) is smaller than 90 degrees; a second welding surface is arranged on the fourth bending part (20.22);

the first welding surface is connected with the second welding surface through welding, and the first bending part (20.11), the first middle connecting part (20.13), the second bending part (20.12), the fourth bending part (20.22), the second middle connecting part (20.23) and the third bending part (20.21) form an optical fiber accommodating cavity;

the second bending part (20.12) and the fourth bending part (20.22) are both provided with screw holes, and the second bending part (20.12) and the fourth bending part (20.22) are fixedly arranged on the top cover (5) through screws;

the screw holes on the second bending part (20.13) or the fourth bending part (20.23) are waist-shaped holes.

9. The multimode laser of claim 1, characterized in that the outside of the right side door (3) of the peripheral sheet metal box is provided with a temperature and humidity regulating air conditioner (21).

10. The multimode laser of claim 1, wherein a three-color alarm lamp (22) is disposed on the metal plate main frame of the peripheral metal plate box body and the top cover (5) on the same plane, and the three-color alarm lamp (22) is disposed at an included angle between the left door (2) and the rear door (4).

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