CN114243425B - Slab module integration system - Google Patents

Abstract

The invention discloses a strip module integrated system, and relates to the technical field of lasers. The lath module integrated system provided by the invention not only ensures the flexible and accurate positioning of the lath module, but also can realize the efficient cooling of the lath module, also meets the requirement of the lath module for releasing the low-temperature thermal stress, provides a stable working environment for the lath module integrated system, and ensures the normal work of a laser system.

Description

Slab module integration system

Technical Field

The invention relates to the technical field of lasers, in particular to a strip module integration system.

Background

In the laser system of the lath module integrated system, not only high-efficiency cooling and accurate positioning are needed for the lath module, but also the requirement of high-temperature and low-temperature thermal stress release of the lath module crystal is met, so that the working performance of the laser system is ensured.

The integration mode of the plate bar module in the existing plate bar module integration system is not reasonable, and the requirement of high-efficiency cooling of the plate bar module cannot be met; the lath module is positioned by adopting a rigid clamping mode, so that the positioning difficulty is high, the accuracy is low, and the crystal thermal stress of the lath module is easily damaged due to the fact that the crystal thermal stress of the lath module cannot be effectively released, so that the normal operation of a laser system is affected.

Disclosure of Invention

The invention aims at: in view of the above-mentioned problems, the present invention provides a strip module integration system,

the flexible accurate positioning of the lath module is guaranteed, the efficient cooling of the lath module is realized, the requirement of high-temperature low-temperature thermal stress release of the lath module is met, a stable working environment is provided for the lath module integrated system, and the normal working of the laser system is guaranteed.

The technical scheme adopted by the invention is as follows:

the lath module integrated system comprises a lath module, a first lath module rotating water seat, a second lath module rotating water seat and a lath base, wherein the lath module comprises two cooler sealing surfaces which are oppositely arranged, and the first lath module rotating water seat and the second lath module rotating water seat are respectively matched with the lath module through the two cooler sealing surfaces to form a cooling core component; a supporting unit is arranged on one side of the slat base, a flexible adjusting unit is arranged on the other side of the slat base, and the upper surface of the slat base is a mounting surface matched with the cooling core component; the flexible adjusting unit comprises an elastic compression positioning assembly; when the cooling core component is matched with the slat base, the elastic pressing positioning component acts on the water passing surface of the first slat module, and the water passing surface of the second slat module, which is turned to the water passing surface of the water passing seat, is abutted against the supporting unit.

By adopting the technical scheme, the supporting unit is used as a positioning and mounting reference of the slat module, the flexible adjusting unit acts on the slat module and realizes flexible fixation of the slat module, and compared with the rigid fixation mode in the prior art, the flexible positioning mode can improve the positioning precision of the slat module, effectively release the thermal stress of the slat module and prolong the service life of the slat module.

Further, the elastic compression positioning assembly comprises a compression positioning pin, a spring, a compression positioning seat and a compression nut; the first lath module is provided with a positioning pin hole matched with the pin head of the pressing positioning pin, and the flexible adjusting unit is provided with a connecting hole matched with the pin rod of the pressing positioning pin; the pressing positioning pin and the pressing positioning seat are respectively arranged at two sides of the connecting hole, an adjusting part matched with the connecting hole is outwards extended on the pressing positioning seat, and an adjusting through hole is formed in the adjusting part; the pin head of the compaction positioning pin is matched with the positioning pin hole, and the pin rod is sleeved with a spring and extends into the adjusting through hole to be matched with the compaction positioning seat; the other end of the compression nut self-adjusting through hole extends into and abuts against the spring and is in adjustable connection with the compression positioning seat; the elastic compression positioning assembly cooperates with the support unit to limit the cooling core component.

Due to the adoption of the technical scheme, the compression nut can compress the spring, so that the spring generates constant elastic compression force, and the compression positioning pin acts on the cooling core component to form flexible compression on the cooling core component, so that the positioning accuracy of the lath module is improved, and the structure is simple and the operation is convenient.

Further, the flexible adjustment unit includes a pillar connected to a side edge portion of the slat base and extending upward; the paired upright posts are oppositely arranged at the two end edges of the cooling core component; the connecting hole is arranged on the upright post, and the position of the connecting hole is matched with the middle part of the cooling core component.

By adopting the technical scheme, the connection reliability can be ensured and the whole batten module can be integrated and compacted in a flexible fastening mode at two ends.

Further, the water through parts extend outwards from the water through surfaces of the first slat module rotating water through seat and the second slat module rotating water through seat, and the water through parts are communicated with the slat base through the rotating water through seat; the water passing part at least comprises a water inlet unit and a water outlet unit, the switching water passing seat at least comprises a water inlet switching water passing seat and a water outlet switching water passing seat, one end of the water inlet switching water passing seat is matched with the water inlet unit, the other end of the water inlet switching water passing seat is matched with a water inlet on the strip base, one end of the water outlet switching water passing seat is matched with the water outlet unit, and the other end of the water outlet switching water passing seat is matched with a water outlet on the strip base; the water inlet is communicated with the water outlet through the water inlet switching water seat, the water inlet unit, the water outlet unit and the water outlet switching water seat in sequence.

By adopting the technical scheme, the first lath module switching water seat and the second lath module switching water seat can respectively form cooling channels at two sides of the lath module, so that efficient cooling of the lath module is realized.

Further, the water passing portion is provided with a downward water passing port, the water inlet and the water outlet are formed in the side wall of the strip base, one end of the switching water passing seat is sleeved outside the water passing portion, the other end of the switching water passing seat is matched with the water inlet or the water outlet of the strip base, a water passing cavity which is communicated with the strip base and the water passing portion is formed in the switching water passing seat, and the water passing cavity is of an L-shaped structure.

Due to the adoption of the technical scheme, the 90-degree flow passage steering is formed through the water passing cavity, so that the miniaturization and compact integration of the lath module integrated system are realized.

Further, the water through part is connected with the switching water through seat through a sealing component, and the sealing component comprises a sealing seat and a sealing plate; the sealing seat is of a hollow structure and is sleeved on the water passing part, one side of the sealing seat is abutted to the water passing surface, the other side of the sealing seat is connected with the sealing plate through a plurality of supporting legs, the switching water passing seat is arranged between the sealing seat and the sealing plate, and the sealing seat and the sealing plate are mutually matched to limit the switching water passing seat.

Due to the adoption of the technical scheme, the sealing seat and the sealing plate are matched with each other, so that a closed cooling liquid flow channel is formed among the water through part, the switching water through seat and the lath base.

Further, the sealing assembly further comprises a sealing ring, sealing grooves are respectively formed in two sides of the switching water through seat, which are matched with the sealing seat and the sealing plate, the shape of each sealing groove is matched with the outer wall of the water through part and arranged at two ends of the water through opening, and the sealing ring is arranged in the sealing grooves, so that a sealing cavity is formed between the switching water through seat and the water through part.

By adopting the technical scheme, the thermal expansion compensation of the lath module is realized by carrying out flexible sealing on the two ends of the water through hole.

Further, the water passing part is cylindrical, the water passing port is an arc-shaped opening on the side wall of the cylinder, and the projection of the water passing port on the horizontal plane is rectangular.

By adopting the technical scheme, the effective water-through section is maximized, and the cooling efficiency is ensured.

Further, a cooling water interface is arranged below the lath base and comprises a cooling water inlet communicated with the water inlet and a cooling water outlet communicated with the water outlet; the cooling water interface is a conical hole with a large outer part and a small inner part.

Due to the adoption of the technical scheme, the cooling water interface is convenient to connect, and the conical hole structure can realize the self-adaptive installation of the cooling water interface.

Further, the slat base is provided with a V-shaped groove for absorbing fluorescence of the slat module, and the V-shaped groove is matched with the slat module.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. the invention can improve the positioning precision of the lath module through flexible fixation, effectively release the thermal stress of the lath module and prolong the service life of the lath module.

2. The spring can generate constant elastic pressing force by adjusting the pressing nut, and the spring pressing device is simple in structure and convenient to operate.

3. The invention ensures the reliability of connection by means of flexible fastening at two ends.

4. The invention can realize the efficient cooling of the panel module.

5. The invention realizes the miniaturization and compact integration of the lath module integration system.

6. The invention realizes thermal expansion compensation of the lath module through flexible sealing.

7. The cooling water interface can realize self-adaptive installation.

8. The invention is provided with V-shaped grooves which can absorb the fluorescence of the slat modules.

Drawings

FIG. 1 is an exploded view of the slat module integrated system of the present invention;

FIG. 2 is a front view of the slat module integrated system of the present invention;

FIG. 3 is a cross-sectional view of the slat module integrated system of the present invention;

FIG. 4 is a schematic view of the structure of the elastic compression positioning assembly of the present invention;

FIG. 5 is an exploded view of the cooling core component of the present invention;

fig. 6 is a schematic view of the structure of the cooling water interface of the present invention.

The marks in the figure: 1-lath module, 2-first lath module turn-on water seat, 3-second lath module turn-on water seat, 4-lath base, 5-supporting unit, 6-flexible adjusting unit, 7-elastic compression positioning component, 8-water-on part, 9-water-on mouth, 10-sealing component, 11-V-shaped groove, 12-water-in turn-on water seat, 13-water-out turn-on water seat, 14-cooling water interface, 701-compression positioning pin, 702-spring, 703-compression positioning seat, 704-compression nut, 1001-sealing seat, 1002-sealing plate, 1003-sealing ring, 1004-sealing groove.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

1-5, a lath module integrated system comprises a lath module 1, a first lath module switching water seat 2, a second lath module switching water seat 3 and a lath base 4, wherein the lath module 1 comprises two cooler sealing surfaces which are oppositely arranged, the first lath module switching water seat 2 and the second lath module switching water seat 3 are respectively matched with the lath module 1 through the two cooler sealing surfaces to form a cooling core component, the first lath module switching water seat 2 and the second lath module switching water seat 3 are used as cooling conversion interfaces of the lath module 1, so that water holes distributed up and down in the two cooler sealing surfaces of the lath module 1 are converted into water holes distributed in two horizontal directions, and the cooling effect of the lath module 1 is ensured, and meanwhile, the miniaturization and the compact integration of the cooling core component is realized; a supporting unit 5 is arranged on one side of the lath base 4, a flexible adjusting unit 6 is arranged on the other side of the lath base 4, and the upper surface of the lath base 4 is a mounting surface matched with the cooling core component; the flexible adjusting unit 6 comprises an elastic compression positioning assembly 7; when the cooling core is matched with the strip base 4, the elastic pressing and positioning assembly 7 acts on the water passing surface of the first strip module rotating water passing seat 2 and pushes the water passing surface of the second strip module rotating water passing seat 3 against the supporting unit 5. Specifically, the supporting unit 5 is used as a positioning and mounting reference of the slat module 1, the flexible adjusting unit 6 acts on the slat module 1 and realizes flexible fixation of the slat module 1, and compared with the rigid fixation mode in the prior art, the flexible positioning mode can improve the positioning precision of the slat module 1, effectively release the thermal stress of the slat module 1 and prolong the service life of the slat module 1. Preferably, the support unit 5 and the flexible adjustment unit 6 may be fixedly connected to the slat base 4 by screws, improving maintainability.

The elastic compression positioning assembly 7 comprises a compression positioning pin 701, a spring 702, a compression positioning seat 703 and a compression nut 704; the first lath module 1 is provided with a positioning pin hole matched with the pin head of the pressing positioning pin 701, and the flexible adjusting unit 6 is provided with a connecting hole matched with the pin rod of the pressing positioning pin 701; the pressing positioning pin 701 and the pressing positioning seat 703 are respectively arranged at two sides of the connecting hole, an adjusting part matched with the connecting hole is outwards extended on the pressing positioning seat 703, and an adjusting through hole is arranged on the adjusting part; the pin head of the compaction positioning pin 701 is matched with the positioning pin hole, and the pin rod is sleeved with a spring 702 and extends into the adjusting through hole to be matched with the compaction positioning seat 703; the other end of the compression nut 704, which is self-adjusting, extends into and abuts against the spring 702 and is adjustably connected with the compression positioning seat 703; the elastic compression positioning assembly 7 cooperates with the supporting unit 5 to limit the cooling core component. Preferably, the compression nut 704 is provided with external threads, the adjusting through hole is internally provided with internal threads matched with the compression nut 704, when the cooling device is used, the compression nut 704 is screwed in by a torque wrench with constant rotation moment and the spring 702 is tightly propped against the compression nut, the spring 702 generates constant elastic compression force to act on the cooling core component through the compression positioning pin 701, so that flexible compression on the cooling core component is formed, and the positioning accuracy of the lath module 1 is improved.

The flexible adjusting unit 6 comprises a stand column which is connected to the side edge of the slat base 4 and extends upwards; the paired upright posts are oppositely arranged at the two end edges of the cooling core component; the connecting holes are arranged on the upright posts, and the positions of the connecting holes are matched with the middle part of the cooling core component; preferably, the connecting hole is a kidney-shaped hole to ensure assembly tolerance. Specifically, through the flexible fastening mode of both ends, both can guarantee the reliability of connection, can also make whole lath module integration compactification.

The first lath module rotating water through seat 2 and the second lath module rotating water through seat 3 are provided with water through parts 8 which extend outwards, and the water through parts 8 are communicated with the lath base 4 through the rotating water through seat; the water passing part 8 at least comprises a water inlet unit and a water outlet unit, the switching water passing seat at least comprises a water inlet switching water passing seat 12 and a water outlet switching water passing seat 13, one end of the water inlet switching water passing seat 12 is matched with the water inlet unit, the other end is matched with a water inlet on the lath base 4, one end of the water outlet switching water passing seat 13 is matched with the water outlet unit, and the other end is matched with a water outlet on the lath base 4; the water inlet is communicated with the water outlet through a water inlet switching water seat 12, a water inlet unit, a water outlet unit and a water outlet switching water seat 13 in sequence. Specifically, the first slat module switching water seat 2 and the second slat module switching water seat 3 can form cooling channels on two sides of the slat module 1 respectively, so that efficient cooling of the slat module 1 is realized.

The water through seat is characterized in that a downward water through hole 9 is formed in the water through part 8, the water inlet and the water outlet are formed in the side wall of the strip base 4, one end of the switching water through seat is sleeved outside the water through part 8, the other end of the switching water through seat is matched with the water inlet or the water outlet of the strip base 4, a water through cavity which is communicated with the strip base 4 and the water through part 8 is formed in the switching water through seat, and the water through cavity is of an L-shaped structure. Specifically, the 90-degree flow passage steering is formed through the water passing cavity, so that the miniaturization and compact integration of the lath module integrated system are realized. Preferably, the water inlet and the water outlet are square water openings, and a height difference of 4 mm-6 mm exists between the water through cavity and the water inlet or the water outlet so as to ensure the tolerance during assembly.

The water passing part 8 is connected with the switching water passing seat through a sealing assembly 10, and the sealing assembly 10 comprises a sealing seat 1001 and a sealing plate 1002; the sealing seat 1001 is of a hollow structure and is sleeved on the water passing part 8, one side of the sealing seat 1001 is connected with the water passing surface, the other side of the sealing seat is connected with the sealing plate 1002 through a plurality of supporting legs, the switching water passing seat is arranged between the sealing seat 1001 and the sealing plate 1002, and the sealing seat 1001 and the sealing plate 1002 are mutually matched to limit the switching water passing seat. Specifically, the sealing seat 1001 and the sealing plate 1002 cooperate with each other, so that a closed coolant flow path is formed between the water passage 8, the switching water passage, and the slat base 4.

The seal assembly 10 further comprises a seal ring 1003, wherein seal grooves 1004 are respectively arranged on two sides of the switching water through seat, which are matched with the seal seat 1001 and the seal plate 1002, the shape of the seal groove 1004 is matched with the outer wall of the water through part 8, the seal grooves are arranged at two ends of the water through opening 9, and the seal ring 1003 is arranged in the seal groove 1004, so that a seal cavity is formed between the switching water through seat and the water through part 8; a sealing ring 1003 is also arranged at the joint of the switching water through seat and the lath base 4. Specifically, thermal expansion compensation of the slat module 1 is achieved by flexible sealing at both ends of the water through-openings 9. Preferably, the depth of the sealing groove 1004 is 60% -65% of the thickness of the section of the sealing ring 1003.

The water passing part 8 is cylindrical, the water passing opening 9 is an arc opening on the side wall of the cylinder, and the projection of the water passing opening 9 on the horizontal plane is rectangular. Specifically, the effective water-through section is maximized, and the cooling efficiency is ensured.

A cooling water interface 14 is arranged below the slat base 4, and the cooling water interface 14 comprises a cooling water inlet communicated with the water inlet and a cooling water outlet communicated with the water outlet; the cooling water interface 14 is a taper hole with a large outside and a small inside. In particular, the tapered bore structure facilitates connection of the cooling water interface 14, enabling an adaptive installation of the cooling water interface 14.

The strip base 4 is provided with a V-shaped groove 11 for absorbing fluorescence of the strip module 1, and the V-shaped groove 11 is matched with the strip module 1.

The principles and embodiments of the present invention have been described herein with reference to specific examples, which are intended to be merely illustrative of the methods of the present invention and their core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the invention can be made without departing from the principles of the invention and these modifications and adaptations are intended to be within the scope of the invention as defined in the following claims.

In the description of the present invention, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or are directions or positional relationships conventionally put in use of the inventive product, are merely for convenience of describing the present invention and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Claims (8)

1. The lath module integrated system comprises a lath module (1), a first lath module switching water seat (2), a second lath module switching water seat (3) and a lath base (4), and is characterized in that the lath module (1) comprises two cooler sealing surfaces which are oppositely arranged, and the first lath module switching water seat (2) and the second lath module switching water seat (3) are respectively matched with the lath module (1) through the two cooler sealing surfaces to form a cooling core component; one side of the lath base (4) is provided with a supporting unit (5), the other side of the lath base is provided with a flexible adjusting unit (6), and the upper surface of the lath base (4) is a mounting surface matched with a cooling core component; the flexible adjusting unit (6) comprises an elastic pressing and positioning assembly (7); when the cooling core component is matched with the lath base (4), the elastic pressing positioning assembly (7) acts on the water passing surface of the first lath module rotating water passing seat (2) and pushes the water passing surface of the second lath module rotating water passing seat (3) against the supporting unit (5); the elastic compression positioning assembly (7) comprises a compression positioning pin (701), a spring (702), a compression positioning seat (703) and a compression nut (704); the first lath module (1) is provided with a positioning pin hole matched with the pin head of the compaction positioning pin (701), and the flexible adjusting unit (6) is provided with a connecting hole matched with the pin rod of the compaction positioning pin (701); the pressing positioning pin (701) and the pressing positioning seat (703) are respectively arranged at two sides of the connecting hole, an adjusting part matched with the connecting hole is outwards extended on the pressing positioning seat (703), and an adjusting through hole is arranged on the adjusting part; the pin head of the compaction positioning pin (701) is matched with the positioning pin hole, and the pin rod is sleeved with a spring (702) and extends into the adjusting through hole to be matched with the compaction positioning seat (703); the other end of the compression nut (704) is inserted into and propped against the spring (702) and is in adjustable connection with the compression positioning seat (703); the elastic compression positioning assembly (7) is matched with the supporting unit (5) to limit the cooling core component; the flexible adjusting unit (6) comprises an upright post which is connected with the side edge part of the lath base (4) and extends upwards; the paired upright posts are oppositely arranged at the two end edges of the cooling core component; the connecting holes are arranged on the upright posts, and the positions of the connecting holes are matched with the middle part of the cooling core component; the pin rod of the compression positioning pin (701) can extend into the inner hole of the compression nut (704) and is movably connected with the compression nut (704).

2. The slat module integration system according to claim 1, wherein the first slat module turning water seat (2) and the second slat module turning water seat (3) each have a water passage portion (8) extending outwardly above the water passage surface, the water passage portion (8) being in communication with the slat base (4) by turning the water passage seat; the water passing part (8) at least comprises a water inlet unit and a water outlet unit, the switching water passing seat at least comprises a water inlet switching water passing seat (12) and a water outlet switching water passing seat (13), one end of the water inlet switching water passing seat (12) is matched with the water inlet unit, the other end of the water inlet switching water passing seat is matched with a water inlet on the lath base (4), one end of the water outlet switching water passing seat (13) is matched with the water outlet unit, and the other end of the water outlet switching water passing seat is matched with a water outlet on the lath base (4); the water inlet is communicated with the water outlet through a water inlet switching water seat (12), a water inlet unit, a water outlet unit and a water outlet switching water seat (13) in sequence.

3. The lath module integrated system according to claim 2, characterized in that the water passing portion (8) is provided with a downward water passing port (9), the water inlet and the water outlet are formed in the side wall of the lath base (4), one end of the switching water passing seat is sleeved outside the water passing portion (8), the other end of the switching water passing seat is matched with the water inlet or the water outlet of the lath base (4), and a water passing cavity communicated with the lath base (4) and the water passing portion (8) is formed in the switching water passing seat and is in an L-shaped structure.

4. A slat module integration system according to claim 3, wherein the water-passing portion (8) is connected to the transfer water-passing seat by a sealing assembly (10), the sealing assembly (10) comprising a sealing seat (1001), a sealing plate (1002); the sealing seat (1001) is of a hollow structure and is sleeved on the water passing part (8), one side of the sealing seat (1001) is abutted to the water passing surface, the other side of the sealing seat is connected with the sealing plate (1002) through a plurality of supporting legs, the switching water passing seat is arranged between the sealing seat (1001) and the sealing plate (1002), and the sealing seat (1001) and the sealing plate (1002) are mutually matched to limit the switching water passing seat.

5. The lath module integration system according to claim 4, characterized in that the sealing assembly (10) further comprises a sealing ring (1003), sealing grooves (1004) are respectively arranged at two sides of the switching water through seat, which are matched with the sealing seat (1001) and the sealing plate (1002), the shape of the sealing groove (1004) is matched with the outer wall of the water through part (8) and is arranged at two ends of the water through hole (9), and the sealing ring (1003) is arranged in the sealing groove (1004) so that a sealing cavity is formed between the switching water through seat and the water through part (8).

6. A slat module integration system according to claim 3, wherein the water passage (8) is cylindrical, the water passage (9) is an arc-shaped opening in the side wall of the cylinder, and the projection of the water passage (9) on the horizontal plane is rectangular.

7. The slat module integration system according to claim 2, wherein a cooling water interface (14) is provided below the slat base (4), the cooling water interface (14) comprising a cooling water inlet communicating with a water inlet, and a cooling water outlet communicating with a water outlet; the cooling water interface (14) is a taper hole with a large outside and a small inside.

8. The slat module integration system according to claim 1, characterized in that the slat base (4) is provided with V-grooves (11) absorbing the fluorescence of the slat module (1), which V-grooves (11) match the slat module (1).