CN210468370U - Carbon dioxide laser with adjustable strutting arrangement - Google Patents

Abstract

The utility model relates to a laser instrument technical field, especially a carbon dioxide laser with adjustable strutting arrangement, locate the gas receiver in the water-cooled tube outside including water-cooled tube and cover, the water-cooled tube is connected with first supporting component and second supporting component in proper order the suit outward, and first supporting component and second supporting component support the water-cooled tube jointly, and first supporting component supports through first stabilizer blade and gas receiver and is connected, and second supporting component supports through the second stabilizer blade and is connected with the gas receiver, and first supporting component is along water-cooled tube length direction and second supporting component relative motion. The utility model provides a carbon dioxide laser with adjustable strutting arrangement has avoided the carbon dioxide laser to appear the condition emergence that the fracture leads to whole damage because of being connected of first stabilizer blade or second stabilizer blade and gas storage tube or water-cooled tube, has increased the yields of carbon dioxide laser, has reduced the carbon dioxide laser and has required its service environment, has enlarged the application range of carbon dioxide laser widely.

Description

Carbon dioxide laser with adjustable strutting arrangement

Technical Field

The utility model relates to a laser instrument technical field, especially a carbon dioxide laser with adjustable strutting arrangement.

Background

The carbon dioxide laser has higher power and higher energy conversion efficiency, so that spectral lines are rich, and laser output of dozens of spectral lines is realized near 10 micrometers, so that the carbon dioxide laser is widely applied to the aspects of industry, military, medical treatment, scientific research and the like.

The existing carbon dioxide laser generally comprises a discharge tube, a water cooling tube sleeved outside the discharge tube, a gas storage tube sleeved outside the water cooling tube, electrodes arranged at two ends of the discharge tube, and an output window and a reflection window arranged at two ends of the gas storage tube, wherein the reflection window comprises a reflection lens and a reflection lens cooling device, the output window comprises an output lens and an output lens cooling device, and carbon dioxide gas and other auxiliary gases are filled in the discharge tube; the water cooling pipe sleeved outside the discharge pipe contains cooling liquid for cooling the discharge pipe; when the water-cooling tube and the gas storage tube can not be supported by the water inlet tube and the water outlet tube, the water-cooling tube and the gas storage tube are generally fixedly connected through the first support leg and the second support leg to support the water-cooling tube, when high voltage is applied to an electrode, glow discharge is generated in the discharge tube, laser beams are formed after the glow discharge is reflected by the reflecting lens and the output lens, and the final laser beams are obtained by being emitted from the output lens.

However, in the process of processing and using, when the temperature near the connection position of the gas storage tube and one of the support legs changes rapidly, the side wall of the gas storage tube deforms, which may cause the change of the distance between the connection position of the first support leg and the gas storage tube and the connection position of the second support leg and the gas storage tube, but because the temperature change at one side of the water-cooling tube is small, the distance between the connection position of the first support leg and the water-cooling tube and the connection position of the second support leg and the water-cooling tube is not changed, or the change is small, because the distance between the two support legs cannot be adjusted, the connection position of one of the support legs and the gas storage tube or the water-cooling tube is often broken, so that the carbon dioxide laser is damaged integrally, the yield of the carbon dioxide laser is reduced, and meanwhile, the service environment of the carbon dioxide laser is severely limited, thereby greatly limiting the application range of the carbon dioxide laser.

Therefore, in view of the above, a carbon dioxide laser is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: when the temperature near the junction of gas storage tube and one of them stabilizer blade that exists to prior art changes rapidly, often can cause two stabilizer blades one of them and the hookup location of water-cooled tube or gas storage tube to appear the fracture, cause the problem of the whole damage of carbon dioxide laser, a carbon dioxide laser with adjustable strutting arrangement is provided, through set up the strutting arrangement of two adjustable stabilizer blade relative distance on the carbon dioxide laser, avoided the carbon dioxide laser to cause the fracture of the junction of stabilizer blade and water-cooled tube and the condition of whole damage because of the distance is unadjustable between two stabilizer blades, and then improved the yields of carbon dioxide laser, greatly reduced the service environment requirement of carbon dioxide laser.

In order to realize the purpose, the utility model discloses a technical scheme be:

the utility model provides a carbon dioxide laser with adjustable strutting arrangement, locates including water-cooling tube and cover the gas receiver in the water-cooling tube outside, the water-cooling tube suit is connected with first supporting component and second supporting component outward in proper order, first supporting component with the second supporting component supports jointly the water-cooling tube, first supporting component through first stabilizer blade with the gas receiver supports and connects, the second supporting component through the second stabilizer blade with the gas receiver supports and connects, first supporting component can be followed water-cooling tube length direction with second supporting component relative motion.

A carbon dioxide laser with adjustable strutting arrangement, the water-cooling pipe is connected with first supporting component and second supporting component in proper order the suit outward, first supporting component with second supporting component all is used for supporting the water-cooling pipe to guarantee that the gas receiver supports the water-cooling pipe.

The second supporting component is connected with the gas storage pipe through the second supporting leg in a supporting mode, namely the second supporting component is connected with the gas storage pipe through the second supporting leg, and the second supporting component supports the gas storage pipe through the second supporting leg.

The water-cooling pipe is connected with first supporting component and second supporting component in proper order the suit outward, first supporting component can be followed water-cooling pipe length direction with second supporting component relative motion specifically can be: the first support assembly is sleeved outside the water cooling pipe and is connected with the water cooling pipe; the second supporting component is sleeved outside the first supporting component and is connected with the first supporting component for supporting, but the relative displacement along the length direction of the water cooling pipe is not limited. When the distance between the first support leg and the second support leg changes due to deformation of the air storage pipe, the first support leg drives the first support component, and the second support leg drives the second support component, so that the first support component and the second support component move relatively.

In the process of processing and using, when the temperature near the joint of the gas storage tube and the first support leg or the second support leg changes rapidly, the part corresponding to the gas storage tube deforms, so that the distance between the joint of the first support leg and the gas storage tube and the joint of the second support leg and the gas storage tube changes, at the moment, the first support component connected with the first support leg support and the second support component connected with the second support leg support can move synchronously and relatively along the length direction of the water-cooling tube, the situation that the joint of the first support leg or the second support leg and the gas storage tube or the water-cooling tube is broken is avoided, the situation that the carbon dioxide laser is integrally damaged due to the fact that the joint of the first support leg or the second support leg and the gas storage tube or the water-cooling tube is broken is avoided, the yield of the carbon dioxide laser is increased, and simultaneously, the requirements of the carbon dioxide laser on the use environment are reduced, and the use range of the carbon dioxide laser is greatly expanded.

Preferably, first supporting component establishes including the cover first supporting tube outside the water-cooling pipe, first supporting tube through two at least first supports with the water-cooling pipe supports and connects, first supporting tube with first leg supports connects, first supporting tube can be followed water-cooling pipe length direction with second supporting component relative motion.

Preferably, all the first supporting pieces are arranged at intervals along the length direction of the water cooling pipe.

Preferably, the number of the first supporting pieces is at least three, and all the first supporting pieces are arranged at intervals along the length direction of the water cooling pipe.

Aiming at the problem that the change of the distance between the first support leg and the second support leg in the prior art can influence the deflection of the part of the water-cooling pipe between the first support leg and the second support leg, thereby influencing the output effect of laser beams,

at least three first supporting pieces arranged along the length direction of the water-cooling pipe at intervals are arranged between the first supporting pipe and the water-cooling pipe, so that the influence of the relative motion of the first supporting pipe and the second supporting component along the length direction of the water-cooling pipe on the deflection of the part, located between the first supporting leg and the second supporting leg, of the water-cooling pipe is reduced, the deflection change of the water-cooling pipe is ensured within a controllable range, and the output effect of a laser is ensured.

Preferably, the bending rigidity of the first support tube is greater than that of the water cooling tube.

The bending rigidity of the part, located between the first supporting leg and the second supporting leg, of the water-cooling tube is increased by the aid of the first supporting tube, and accordingly deflection change of the water-cooling tube is guaranteed within a controllable range, and output effect of the laser is guaranteed.

Preferably, all the first supporting members radially support the water cooling tubes, and the first supporting tubes can move relative to the water cooling tubes along the length direction of the water cooling tubes.

The first supporting tube can move relative to the second supporting component along the length direction of the water-cooled tube, and the first supporting tube and the second supporting component can move relative to the water-cooled tube along the length direction of the water-cooled tube so as to reduce the influence of the first supporting tube or the second supporting component on the water-cooled tube during movement.

Preferably, the second support component comprises a second support pipe sleeved outside the first support pipe, the second support pipe is in supporting connection with the first support pipe through a second support piece, the second support pipe is connected with the second support leg, and the second support pipe can move relative to the first support pipe along the length direction of the water cooling pipe.

Preferably, the number of the second supporting members is at least two, and all the second supporting members are arranged at intervals along the length direction of the first supporting tube.

Preferably, all of the second supports radially support the first support tube along the first support tube.

Preferably, the second support component comprises at least two layers of second support pipes, all the second support pipes are sequentially sleeved outside the first support pipe from outside to inside, the second support pipes are adjacent to each other and are in supporting connection, the innermost second support pipe is in supporting connection with the first support pipe through a second support part, one of the second support pipes is connected with the second support leg, and the second support pipe connected with the second support leg can move relative to the first support pipe along the length direction of the water-cooled pipe.

Preferably, adjacent second supporting tubes are in supporting connection through a first supporting frame.

Preferably, the first support frame is identical in structure to the second support frame and is sized to fit the corresponding second support tube.

Preferably, the first leg is connected to a portion of the first support tube extending out of the second support tube,

preferably, the first support tube extends through the second support tube.

Preferably, the first leg is connected to one end of the first support tube, and the second leg is connected to one end of the second support tube, which is far away from the first leg.

Preferably, the first support tube has a hollow structure with two open ends.

Preferably, the second support tube is a hollow structure with two open ends.

Preferably, the bending stiffness of the second support tube is greater than the bending stiffness of the first support tube.

Preferably, the second support member includes a cylinder body, at least one elastic leg and at least one rigid leg are arranged on the cylinder body, the elastic leg is located on one side of the cylinder body, the rigid leg is located on the other side of the cylinder body opposite to the elastic leg, when the cylinder body is sleeved on the outer side of the first support tube, all the elastic legs and all the rigid legs are abutted to the support tube on the outer side adjacent to the support tube, and the first support tube can move relative to the cylinder body along the length direction of the first support tube.

The first support assembly can move relative to the second support assembly along the length direction of the water cooling pipe through the relative movement of the first support pipe and the cylinder along the length direction of the first support pipe.

Preferably, the first support member has the same structure as the second support member and is sized to fit the water cooling tube and the first support tube.

Preferably, the number of the elastic legs and the number of the rigid legs are two, and all the elastic legs and all the rigid legs are arranged in a spaced mode.

Preferably, first supporting component includes at least two-layer first supporting tube, and all first supporting tube is established in proper order by outer and interior the water-cooling pipe is outside, inlayer first supporting tube through at least two first supporting pieces with the water-cooling pipe is supported and is connected, and is adjacent first supporting tube supports and connects, one of them first supporting tube with first leg is connected, with first leg is connected first supporting tube can follow water-cooling pipe length direction with second supporting component relative motion.

Preferably, adjacent first supporting tubes are in supporting connection through a second supporting frame.

Preferably, the second support frame has the same structure as the second support member and is sized to fit the corresponding first support tube.

Preferably, all the second supporting frames are arranged at intervals along the length direction of the first supporting tube.

Preferably, the second support component comprises a second support pipe sleeved outside the first support pipe on the outermost layer, the second support pipe is in supporting connection with the first support pipe on the outermost layer through a second support piece, the second support pipe is connected with the second support leg, and the second support pipe can move relative to the first support pipe along the length direction of the water cooling pipe.

Preferably, the second supporting component comprises at least two layers of second supporting tubes, all the second supporting tubes are sequentially sleeved outside the first supporting tube from outside to inside, are adjacent to each other, are in supporting connection with the second supporting tube, are innermost to each other, are in supporting connection with the first supporting tube through second supporting pieces, are in supporting connection with the second supporting tube, and are in connection with the second supporting leg, the second supporting tube can be arranged along the length direction of the first supporting component and is connected with the first supporting leg, and the first supporting tube moves relatively.

Preferably, adjacent second supporting tubes are in supporting connection through a first supporting frame.

The support connection in all the above schemes means: the two are connected while one supports the other.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model provides a carbon dioxide laser with adjustable strutting arrangement, through first supporting component and second supporting component relative motion, the cracked condition appears in the connection of first stabilizer blade or second stabilizer blade and gas storage tube or water-cooled tube having been avoided, thereby avoided the carbon dioxide laser to appear the condition emergence that the fracture leads to whole damage because of the connection of first stabilizer blade or second stabilizer blade and gas storage tube or water-cooled tube, the yields of carbon dioxide laser has been increased, and simultaneously, the carbon dioxide laser has been reduced to its service environment requirement, and then the application range of carbon dioxide laser has been enlarged widely.

2. The utility model provides a carbon dioxide laser with adjustable strutting arrangement, first supporting tube can be followed water-cooled tube length direction with second supporting component relative motion, first supporting tube with second supporting component homoenergetic is followed water-cooled tube length direction with water-cooled tube relative motion to reduce the influence of first supporting tube or second supporting component to the water-cooled tube when the motion.

3. The utility model provides a carbon dioxide laser with adjustable strutting arrangement follows water-cooled tube length direction sets up at least three first support piece at the interval between first supporting tube and water-cooled tube, reduces the influence to the water-cooled tube amount of deflection that produces because of first supporting tube and second supporting component relative motion to guarantee that the water-cooled tube amount of deflection changes at controllable within range, thereby guarantee the output effect of laser.

Drawings

FIG. 1 is a schematic structural diagram of a carbon dioxide laser with adjustable support means according to the present application (one layer for the first support tube and one layer for the second support tube);

FIG. 2 is a schematic structural diagram of a carbon dioxide laser with adjustable support means according to the present application (one layer for the first support tube and multiple layers for the second support tube);

FIG. 3 is a schematic structural diagram of a carbon dioxide laser with adjustable support means according to the present application (the first support tube is a plurality of layers, and the second support tube is a single layer);

FIG. 4 is a schematic structural diagram of a carbon dioxide laser with adjustable support means according to the present application (the first support tube is multi-layered, and the second support tube is multi-layered);

FIG. 5 is a cross-sectional view of a structure of a carbon dioxide laser with adjustable support means according to the present application (one layer for the first support tube and one layer for the second support tube);

FIG. 6 is an isometric view of a second support structure according to the present application;

FIG. 7 is a top view of a second support structure described herein.

The labels in the figure are: 1-water cooling pipe, 2-gas storage pipe, 3-first support component, 31-first support pipe, 32-first support component, 4-second support component, 41-second support pipe, 42-second support component, 420-cylinder body, 421-elastic support leg, 422-rigid support leg, 43-first support frame, 44-second support frame, 5-first support leg and 6-second support leg.

Detailed Description

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

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Example 1

As shown in fig. 1, a carbon dioxide laser with an adjustable supporting device includes a water-cooled tube 1 and a gas storage tube 2 sleeved outside the water-cooled tube 1, the water-cooled tube 1 is sequentially sleeved with a first supporting component 3 and a second supporting component 4, the first supporting component 3 and the second supporting component 4 jointly support the water-cooled tube 1, the first supporting component 3 is supported and connected with the gas storage tube 2 through a first supporting leg 5, the second supporting component 4 is supported and connected with the gas storage tube 2 through a second supporting leg 6, and the first supporting component 3 can move relative to the second supporting component 4 along the length direction of the water-cooled tube 1.

First supporting component 3 through first stabilizer blade 5 with gas receiver 2 supports and is connected, promptly first supporting component 3 through first stabilizer blade 5 with gas receiver 2 is connected, just first supporting component 3 supports through first stabilizer blade 5 gas receiver 2.

The second supporting component 4 is connected with the gas storage pipe 2 through the second support leg 6 in a supporting manner, namely the second supporting component 4 is connected with the gas storage pipe 2 through the second support leg 6, and the second supporting component 4 supports the gas storage pipe 2 through the second support leg 6.

A carbon dioxide laser with adjustable strutting arrangement, water-cooling tube 1 overlaps in proper order outward and is connected with first supporting component 3 and second supporting component 4, first supporting component 3 with second supporting component 4 all is used for supporting water-cooling tube 1 to guarantee that gas receiver pipe 2 supports water-cooling tube 1.

In the process of processing and using, when the temperature near the connection position of the gas storage tube 2 and the first support leg 5 or the second support leg 6 changes rapidly, the part corresponding to the gas storage tube 2 deforms, and further the distance between the connection position of the first support leg 5 and the gas storage tube 2 and the connection position of the second support leg 6 and the gas storage tube 2 changes, at the moment, the first support component 3 in supporting connection with the first support leg 5 and the second support component 4 in supporting connection with the second support leg 6 can move synchronously and relatively along the length direction of the water-cooling tube 1, the situation that the connection position of the first support leg 5 or the second support leg 6 and the gas storage tube 2 or the water-cooling tube 1 is broken is avoided, the situation that the whole carbon dioxide laser is damaged due to the breakage of the connection position of the first support leg 5 or the second support leg 6 and the gas storage tube 2 or the water-cooling tube 1 is avoided, and the yield of the carbon dioxide laser is increased, meanwhile, the requirements of the carbon dioxide laser on the use environment are reduced, and the use range of the carbon dioxide laser is greatly expanded.

On the basis, in a further preferable mode, the first support assembly 3 includes a first support tube 31 sleeved outside the water-cooled tube 1, the first support tube 31 is in support connection with the water-cooled tube 1 through at least two first support members 32, the first support tube 31 is in support connection with the first support leg 5, and the first support tube 31 can move relative to the second support assembly 4 along the length direction of the water-cooled tube 1.

The first support tube 31 is in supporting connection with the water-cooling tube 1 through at least two first support members 32, that is, the first support tube 31 is connected with the water-cooling tube 1 through at least two first support members 32, and the first support tube 31 supports the water-cooling tube 1 through at least two first support members 32;

the first supporting tube 31 is supported and connected with the first leg 5, that is, the first supporting tube 31 is connected with the first leg 5, and the first supporting tube 31 supports the first leg 5.

On the basis, in a further preferable mode, all the first supporting pieces 32 are arranged at intervals along the length direction of the water-cooling pipe 1, and two adjacent first supporting pieces 32 are separated by a distance.

On the basis, in a further preferable mode, at least three first supporting pieces 32 are provided, and all the first supporting pieces 32 are arranged at intervals along the length direction of the water cooling tube 1.

Aiming at the problem that in the prior art, the deflection of the part of the water-cooled tube 11, which is positioned between the first supporting leg 5 and the second supporting leg 6, is influenced by the change of the distance between the first supporting leg 5 and the second supporting leg 6, and further the output effect of a laser beam is influenced, at least three first supporting pieces 32 which are arranged at intervals along the length direction of the water-cooled tube 1 are arranged between the first supporting tube 31 and the water-cooled tube 1, so that the influence of the relative movement of the first supporting tube 31 and the second supporting component 4 along the length direction of the water-cooled tube 1 on the deflection of the part of the water-cooled tube 1, which is positioned between the first supporting leg 5 and the second supporting leg 6, is reduced, the deflection change of the water-cooled tube 1 is ensured within a controllable range.

In addition, in a more preferable mode, the bending rigidity of the first support tube 31 is larger than the bending rigidity of the water cooling tube 1.

The bending rigidity of the part, located between the first supporting leg 5 and the second supporting leg 6, of the water-cooling tube 1 is increased by using the first supporting tube 31, and then the deflection change of the water-cooling tube 1 is ensured to be within a controllable range, so that the output effect of the laser is ensured.

In addition to the above, it is further preferable that all the first supporting members 32 support the water cooling tubes 1 in the radial direction of the water cooling tubes 1, and the first supporting tubes 31 are capable of moving relative to the water cooling tubes 1 in the longitudinal direction of the water cooling tubes 1.

The first support pipe 31 can move relative to the second support component 4 along the length direction of the water-cooling pipe 1, and both the first support pipe 31 and the second support component 4 can move relative to the water-cooling pipe 1 along the length direction of the water-cooling pipe 1, so as to reduce the influence of the first support pipe 31 or the second support component 4 on the water-cooling pipe 1 during movement.

On the basis, in a further preferable mode, the second support component 4 includes a second support tube 41 sleeved outside the first support tube 31, the second support tube 41 is in supporting connection with the first support tube 31 through a second support 42, the second support tube 41 is connected with the second support leg 6, and the second support tube 41 can move relative to the first support tube 31 along the length direction of the water-cooling tube 1.

The second support tube 41 is in supporting connection with the first support tube 31 through a second support member 42, that is, the second support tube 41 is in supporting connection with the first support tube 31 through a second support member 42, and the second support tube 41 supports the first support tube 31 through the second support member 42;

in addition, in a more preferable mode, at least two second supporting members 42 are provided, and all the second supporting members 42 are provided at intervals along the longitudinal direction of the first supporting tube 31.

In addition, in a more preferable mode, all the second supporting members 42 support the first supporting tube 31 in the radial direction of the first supporting tube 31.

As shown in fig. 5 and 6, on the basis of the above, in a further preferable mode, the second supporting member 42 includes a cylinder 420, the cylinder 420 is provided with at least one elastic leg 421 and at least one rigid leg 422, the elastic leg 421 is located on one side of the cylinder 420, the rigid leg 422 is located on the other side of the cylinder 420 opposite to the elastic leg 421, when the cylinder 420 is sleeved outside the first supporting tube 31, all the elastic legs 421 and all the rigid legs 422 are in contact with the supporting tube 3 on the adjacent outer side of the supporting tube 3, and the first supporting tube 31 can move relative to the cylinder 420 along the length direction of the first supporting tube 31.

The first support assembly 3 can move relative to the second support assembly 4 along the length direction of the water cooling tube 1 by the relative movement of the first support tube 31 and the cylinder 420 along the length direction of the first support tube 31.

In addition, in a further preferable mode, the first support member 32 has the same structure as the second support member 42, and the size thereof is adapted to the water cooling tube 1 and the first support tube 31.

On the basis of the above, it is further preferable that the number of the elastic legs 421 and the number of the rigid legs 422 are two, and all the elastic legs 421 and all the rigid legs 422 are provided at a distance.

Example 2

As shown in fig. 2, the difference between the carbon dioxide laser with an adjustable supporting device in this application and embodiment 1 is that the second supporting component 4 includes at least two layers of second supporting tubes 41, all the second supporting tubes 41 are sequentially sleeved outside the first supporting tube 31 from outside to inside, adjacent second supporting tubes 41 are in supporting connection, the innermost second supporting tube 41 and the first supporting tube 31 are in supporting connection through a second supporting member 42, one of the second supporting tubes 41 is connected with the second supporting leg 6, and the second supporting tube 41 connected with the second supporting leg 6 can move relative to the first supporting tube 31 along the length direction of the water-cooling tube 1.

The adjacent second support tube 41 is in supporting connection, that is, the adjacent second support tube 41 is connected, wherein the outer second support tube 41 supports the inner second support tube 41;

the second support tube 41 at the innermost layer is in supporting connection with the first support tube 31 through a second support member 42, that is, the second support tube 41 at the innermost layer is connected with the first support tube 31 through a second support member 42, and the second support tube 41 at the innermost layer supports the first support tube 31 through a second support member 42.

In addition to the above, it is further preferable that adjacent second support tubes 41 are connected by a first support frame 43, wherein the outer second support tube 41 supports the inner second support tube 41 by the first support frame 43.

On the basis of the above, it is further preferable that the first support frame 43 has the same structure as the second support frame 42, and the size thereof is matched with the corresponding second support tube 41.

In addition to the above, it is further preferable that the first leg 5 is connected to a portion of the first support tube 31 extending out of the second support tube 41,

in addition, in a more preferable mode, the first support pipe 31 penetrates the second support pipe 41.

In addition, in a more preferable mode, the first leg 5 is connected to one end of the first support tube 31, and the second leg 6 is connected to one end of the second support tube 41 away from the first leg 5.

In addition, in a more preferable mode, the first support tube 31 has a hollow structure with both ends open.

In addition, in a more preferable mode, the second support tube 41 has a hollow structure with both ends open.

In addition, in a more preferable mode, the bending rigidity of the second support tube 41 is greater than the bending rigidity of the first support tube 31.

On the basis, in a further preferable mode, the specific structure of the first support 32 is the same as that of the second support 42, and the specific size of the first support is matched with the corresponding water cooling tube 1 and the corresponding first support tube 31.

Example 3

As shown in fig. 3, the difference between the carbon dioxide laser with adjustable supporting device in this application and embodiment 1 is that the first supporting component 3 includes at least two layers of first supporting tubes 31, all the first supporting tubes 31 are sequentially sleeved outside the water-cooled tube 1 from outside to inside, the innermost layer of the first supporting tube 31 is connected to the water-cooled tube 1 through at least two first supporting members 32, and is adjacent to the first supporting tube 31, one of the first supporting tubes 31 is connected to the first support 5, and the first supporting tube 31 connected to the first support 5 can move along the length direction of the water-cooled tube 1 and the second supporting component 4 relatively.

The innermost first support tube 31 is in supporting connection with the water cooling tube 1 through at least two first support members 32, that is, the innermost first support tube 31 is connected with the water cooling tube 1 through at least two first support members 32, and the innermost first support tube 31 supports the water cooling tube 1 through at least two first support members 32;

adjacent to the first support tube 31 is in supporting connection, i.e. adjacent to the first support tube 31 is connected, wherein the outer first support tube 31 supports the inner first support tube 31.

In addition to the above, it is further preferable that adjacent first support tubes 31 are connected to each other by a second support frame 44, and the outer first support tube 31 supports the inner first support tube 31 by the second support frame 44.

In addition, in a further preferred mode, the second supporting frame 44 has the same structure as the second supporting member 42, and the size thereof is adapted to the corresponding first supporting tube 31.

In addition, in a more preferable mode, all the second supporting frames 44 are provided at intervals along the longitudinal direction of the first supporting tube 31.

On the basis, in a further preferable mode, the second support component 4 includes a second support tube 41 sleeved outside the first support tube 31 at the outermost layer, the second support tube 41 is in supporting connection with the first support tube 31 at the outermost layer through a second support member 42, the second support tube 41 is connected with the second support leg 6, and the second support tube 41 can move relative to the first support tube 31 along the length direction of the water-cooling tube 1.

The second support tube 41 is in supporting connection with the outermost first support tube 31 through a second support member 42, that is, the second support tube 41 is connected with the outermost first support tube 31 through the second support member 42, and the second support tube 41 supports the outermost first support tube 31 through the second support member 42;

in addition, in a further preferable mode, the second supporting frame 44 has the same structure as the second supporting member 42, and the specific size thereof is matched with the corresponding first supporting tube 31.

Example 4

As shown in fig. 4, the difference between the carbon dioxide laser with adjustable supporting device in this application and embodiment 3 is that the second supporting component 4 includes at least two layers of second supporting tubes 41, all the second supporting tubes 41 are sequentially sleeved outside the outermost first supporting tube 31 from outside to inside, and are adjacent to the second supporting tube 41, and the innermost second supporting tube 41 is connected with the outermost first supporting tube 31 through a second supporting member 42, wherein one of the second supporting tubes 41 is connected with the second supporting leg 6, and the second supporting tube 41 connected with the second supporting leg 6 can move relative to the first supporting tube 31 connected with the first supporting leg 5 along the length direction of the first supporting component 3.

The adjacent second support tube 41 is in supporting connection, that is, the adjacent second support tube 41 is connected, wherein the outer second support tube 41 supports the inner second support tube 41;

the second support tube 41 at the innermost layer is in support connection with the first support tube 31 at the outermost layer through a second support member 42, that is, the second support tube 41 at the innermost layer is connected with the first support tube 31 at the outermost layer through a second support member 42, and the second support tube 41 at the innermost layer supports the first support tube 31 at the outermost layer through a second support member 42.

In addition to the above, it is further preferable that adjacent second support pipes 41 are connected by a first support frame 43, and the outer second support pipe 41 supports the inner second support pipe 41 by the first support frame 43.

On the basis of the above, it is further preferable that the first supporting frame 43 is identical to the second supporting frame 42 in structure, and has a specific size adapted to the corresponding second supporting tube 41.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a carbon dioxide laser with adjustable strutting arrangement, includes water-cooled tube (1) and the cover is located gas storage tube (2) in the water-cooled tube (1) outside, its characterized in that: the water-cooled tube (1) is connected with first supporting component (3) and second supporting component (4) in proper order in a sleeved mode outward, first supporting component (3) with second supporting component (4) support jointly water-cooled tube (1), first supporting component (3) through first stabilizer blade (5) with gas storage tube (2) support connection, second supporting component (4) through second stabilizer blade (6) with gas storage tube (2) support connection, first supporting component (3) can be followed water-cooled tube (1) length direction with second supporting component (4) relative motion.

2. The carbon dioxide laser with adjustable supporting device of claim 1, wherein: first supporting component (3) establish including the cover first supporting tube (31) outside water-cooled tube (1), first supporting tube (31) through two at least first support piece (32) with water-cooled tube (1) support connection, first supporting tube (31) with first stabilizer blade (5) support connection, first supporting tube (31) can be followed water-cooled tube (1) length direction with second supporting component (4) relative motion.

3. The carbon dioxide laser with adjustable supporting device of claim 2, wherein: the number of the first supporting pieces (32) is at least three, and all the first supporting pieces (32) are arranged at intervals along the length direction of the water cooling pipe (1).

4. The carbon dioxide laser with adjustable supporting device of claim 2, wherein: all the first supporting pieces (32) radially support the water cooling pipes (1) along the water cooling pipes (1), and the first supporting pipes (31) can move relative to the water cooling pipes (1) along the length direction of the water cooling pipes (1).

5. The carbon dioxide laser with adjustable supporting device of claim 2, wherein: the second supporting component (4) comprises a second supporting pipe (41) sleeved outside the first supporting pipe (31), the second supporting pipe (41) is in supporting connection with the first supporting pipe (31) through a second supporting piece (42), the second supporting pipe (41) is connected with the second supporting leg (6), and the second supporting pipe (41) can move relative to the first supporting pipe (31) along the length direction of the water cooling pipe (1).

6. The carbon dioxide laser with adjustable supporting device of claim 2, wherein: the second supporting component (4) comprises at least two layers of second supporting pipes (41), all the second supporting pipes (41) are sequentially sleeved outside the first supporting pipe (31) from outside to inside, the second supporting pipes (41) are adjacent to each other and are in supporting connection, the innermost layer of the second supporting pipe (41) is in supporting connection with the first supporting pipe (31) through a second supporting piece (42), one of the second supporting pipes (41) is connected with the second supporting leg (6), and the second supporting pipe (41) connected with the second supporting leg (6) can move relative to the first supporting pipe (31) along the length direction of the water cooling pipe (1).

7. The carbon dioxide laser with adjustable supporting device of claim 1, wherein: first supporting component (3) include at least two-layer first supporting tube (31), all first supporting tube (31) is established in proper order by outer and interior water-cooled tube (1) is outer, the inlayer first supporting tube (31) through at least two first support piece (32) with water-cooled tube (1) support connection, adjacent first supporting tube (31) support connection, one of them first supporting tube (31) with first stabilizer blade (5) are connected, with first stabilizer blade (5) are connected first supporting tube (31) can be followed water-cooled tube (1) length direction with second supporting component (4) relative motion.

8. The carbon dioxide laser with adjustable supporting device of claim 7, wherein: the second supporting component (4) is sleeved on the outermost layer and comprises a second supporting pipe (41) outside the first supporting pipe (31), the second supporting pipe (41) is connected with the outermost layer and the first supporting pipe (31) is supported and connected through a second supporting piece (42), the second supporting pipe (41) is connected with the second supporting leg (6), and the second supporting pipe (41) can move relative to the first supporting pipe (31) along the length direction of the water cooling pipe (1).

9. The carbon dioxide laser with adjustable supporting device of claim 7, wherein: the second supporting component (4) comprises at least two layers of second supporting pipes (41), all the second supporting pipes (41) are sequentially sleeved on the outermost layer from outside to inside, the outer part of the first supporting pipe (31) is adjacent to the supporting connection of the second supporting pipe (41), the innermost layer of the second supporting pipe (41) is connected with the outermost layer of the first supporting pipe (31) in a supporting mode through a second supporting piece (42), one of the second supporting pipe (41) is connected with the second supporting leg (6), and the second supporting leg (6) is connected with the second supporting pipe (41) can be connected with the first supporting pipe (31) in a relative movement mode, wherein the length direction of the first supporting component (3) is connected with the first supporting leg (5).

10. A carbon dioxide laser with adjustable support means according to any one of claims 5, 6, 8 and 9, wherein: second support piece (42) includes barrel (420), be provided with at least one elasticity landing leg (421) and at least one rigidity landing leg (422) on barrel (420), elasticity landing leg (421) are located one of them side of barrel (420), rigidity landing leg (422) are located on barrel (420) with the opposite side of elasticity landing leg (421), barrel (420) cover is located during first supporting tube (31) outside, all elasticity landing leg (421) and all rigidity landing leg (422) all with first supporting tube (31) is adjacent second supporting tube (41) looks butt, first supporting tube (31) can be followed first supporting tube (31) length direction with barrel (420) relative motion.

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