CN213945315U

CN213945315U - Ultra-long-breadth high-protection-performance laser cutting machine tool body

Info

Publication number: CN213945315U
Application number: CN202022819084.5U
Authority: CN
Inventors: 刘光辉; 张辉; 顾康; 梁业靖; 熊元平; 李亚彬
Original assignee: Jiangsu Xunlai Laser Technology Co Ltd; Suzhou Quick Laser Technology Co ltd
Current assignee: Jiangsu Xunlai Laser Technology Co Ltd; Suzhou Quick Laser Technology Co ltd
Priority date: 2020-11-30
Filing date: 2020-11-30
Publication date: 2021-08-13
Anticipated expiration: 2030-11-30

Abstract

The utility model discloses a high barrier propterty laser cutting machine lathe bed of overlength breadth, wallboard, setting around wallboard both ends around, set up wallboard, set up about two of parallel arrangement about and a plurality of well wallboards that the interval set up between the wallboard, control the space separation who forms between the wallboard and become a plurality of subspace regions, the bottom of well wallboard is equipped with the backup pad of wallboard about connecting, the top both sides of well wallboard are equipped with and are used for supporting the resistant firebrick support of protection, and the resistant firebrick of protection is laid and is shielded the top of well wallboard completely along the length direction of well wallboard, the inside of controlling the wallboard is equipped with the long gusset of arranging along its length direction, and the both sides of long gusset are equipped with the short gusset that is used for supporting the top and the bottom of controlling the wallboard respectively. The utility model discloses a be applicable to overlength breadth work platform laser beam machining operation, reinforcing barrier propterty.

Description

Ultra-long-breadth high-protection-performance laser cutting machine tool body

Technical Field

The utility model belongs to the technical field of laser cutting, especially, relate to a high barrier propterty laser cutting lathe bed of overlength breadth.

Background

The laser cutting equipment mainly comprises a machine body and a cutting mechanism, wherein the machine body in the laser processing equipment mainly welds a pipe and a plate together in a welding mode, high-temperature molten scrap iron generated in the cutting process of the cutting mechanism falls on the machine body or a sawtooth-shaped supporting plate, the machine body and the sawtooth-shaped supporting plate can be deformed for a long time, the sawtooth-shaped supporting plate can be replaced regularly as a consumable, but the machine body is used as an integral part, the manufacturing cost is high, and the machine body cannot be replaced regularly.

Disclose a laser cutting machine lathe bed structure in current patent CN201921401286.9, adopt half hollow structure, through installation graphite cake on well wallboard, guaranteed still can satisfy the intensity demand and non-deformable when the lathe bed accomplishes big breadth size, have thermal-insulated and prevent the effect of puncturing, but still can cause the damage after long-time laser cutting operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the technical problem, and provide the high barrier propterty laser cutting lathe bed of overlength breadth to the realization is applicable to overlength breadth work platform laser beam machining operation, reinforcing barrier propterty. In order to achieve the above purpose, the utility model discloses technical scheme as follows:

super long width high barrier propterty laser cutting machine lathe bed, wallboard, set up around wallboard both ends about two including parallel arrangement about wallboard, set up about between the wallboard and a plurality of well wallboards that the interval set up, the space separation who forms between the wallboard becomes a plurality of subspaces region about, the bottom of well wallboard is equipped with the backup pad of wallboard about connecting, the top both sides of well wallboard are equipped with and are used for supporting the resistant firebrick support of protecting, and the resistant firebrick is laid and is shielded the top of well wallboard completely along the length direction of well wallboard, the inside of controlling the wallboard is equipped with the long gusset of arranging along its length direction, and the both sides of long gusset are equipped with the short gusset that is used for supporting the top and the bottom of controlling the wallboard respectively.

Specifically, the firebrick support comprises a support side plate which can be disassembled to lock and fix the top of the side wall of the middle wallboard and a support body which is connected with the support side plate and expands in an upward inclined manner, and protective firebricks are supported between the support bodies on two sides.

Specifically, a transverse partition plate for connecting the left wall plate and the right wall plate is further arranged in each subspace region, sliding plates which incline downwards are symmetrically connected to two sides of the transverse partition plate, a graphite plate is attached to the surface of each sliding plate, and a graphite baffle for blocking and supporting the graphite plate is arranged at the bottom edge of each sliding plate.

Specifically, the left and right wallboard inner sides are provided with left and right air suction pipelines, the left and right air suction pipelines are provided with a plurality of air suction ports corresponding to each subspace region, and the tail ends of the left and right air suction pipelines are communicated and converged to a rear air suction pipe at one end of the front and rear wallboards.

Specifically, a longitudinal partition plate which longitudinally divides the subspace area into two is further arranged between the left wall plate and the right wall plate, one end of the longitudinal partition plate is detachably fixed to the inner sides of the front wall plate and the rear wall plate, and the other end of the longitudinal partition plate is detachably fixed to the transverse partition plate; one end of the other longitudinal partition is detachably fixed to the transverse partition, and the other end of the other longitudinal partition is detachably fixed to the middle wall plate.

Specifically, blank-pressing copper plates are respectively arranged at the tops of the transverse partition plate and the longitudinal partition plate.

Specifically, it is equipped with relative two sets of suction openings to lie in each subspace region on the wallboard about, install the door unit that controls its and open and close on the suction opening, door unit is including setting up the cylinder on left and right sides suction line upper portion, the door baffle of connecting cylinder output end horizontal displacement, and door baffle and the corresponding laminating of suction opening slide.

Specifically, a plurality of aggregate trolleys are arranged below each subspace area.

Compared with the prior art, the utility model discloses the beneficial effect of the high barrier propterty laser cutting lathe bed of overlength width of cloth mainly embodies:

the stable welding of the lathe bed is realized by arranging the left and right wall plates, the middle wall plate, the front and rear wall plates, the transverse partition plate and the longitudinal partition plate which are stably supported, so that the deformation of bearing is reduced; the protective refractory bricks are arranged on the middle wall plate, so that the middle wall plate is effectively protected, laser burn-through is avoided, and the main structure of the lathe bed is prevented from being damaged; the graphite plates are arranged on the transverse partition plates, and the auxiliary positions are protected, so that the stable structure of the middle wallboard connected with the transverse partition plates is ensured; independent air draft is carried out in each subspace area, so that good airflow circulation is achieved, and heat dissipation is effectively achieved; the whole lathe bed is suitable for the laser cutting operation of the rear plate in the overlong breadth, so that the stability of the lathe bed is ensured, and the influence caused by high temperature of laser cutting is reduced; the whole lathe bed reduces the difficulty of installation and assembly, and is easy to assemble and maintain.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the left and right wall panels of this embodiment in a partially enlarged view;

FIG. 3 is a schematic cross-sectional side view of the diaphragm of the present embodiment;

FIG. 4 is a schematic side cross-sectional view of the wall panel of this embodiment;

FIG. 5 is a schematic structural diagram of the intersecting position of the diaphragm and the longitudinal diaphragm in the present embodiment;

FIG. 6 is a partially enlarged view of the diaphragm in the connection of the longitudinal diaphragms in this embodiment;

FIG. 7 is a partially enlarged view of the diaphragm plate connecting the left and right wall plates in this embodiment;

the figures in the drawings represent:

the material collecting trolley comprises a left wall plate, a right wall plate, 11 guide rails, 12 long rib plates, 13 short rib plates, a front wall plate, a rear wall plate, 3 middle wall plates, 31 supporting plates, 32 protective refractory bricks, 33 supporting side plates, 34 supporting frame bodies, 35 feeding plates, 4 left and right air suction pipelines, 41 rear air suction pipes, 42 air cylinders, 5 subspace regions, 51 air suction openings, 52 door baffles, 6 transverse baffles, 61 sliding plates, 62 graphite plates, 63 graphite baffles, 64 corner pieces, 65 reinforcing plates, 7 longitudinal baffles, 71 corner plates, 72 side pressing copper plates and 8 material collecting trolleys.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments.

Example (b):

referring to fig. 1-7, this embodiment is a laser cutting machine lathe bed with a super-long breadth and a high protection performance, including two left and right wall boards 1 arranged in parallel, front and rear wall boards 2 arranged at two ends of the left and right wall boards 1, a plurality of middle wall boards 3 arranged between the left and right wall boards 2 and arranged at intervals, a left and right air suction pipeline 4 arranged on the inner side surface of the left and right wall boards 1, a space formed between the left and right wall boards 2 is divided into a plurality of subspace areas 5, and a plurality of air suction ports 51 corresponding to the subspace areas 5 are arranged on the left and right air suction pipelines 4.

The bottom of well wallboard 3 is equipped with the backup pad 31 of connecting left and right wallboard 1, and the top both sides of well wallboard 3 are equipped with the firebrick support that is used for supporting protection firebrick 32, and protection firebrick 32 lays and shields the top of well wallboard 3 completely along the length direction of well wallboard 3.

The firebrick support includes the support curb plate 33 of wallboard 3 lateral wall top in the detachable locking is fixed, connects the support body 34 of the expansion of support curb plate 33 tilt up, supports the protection firebrick 32 between the support body 34 of both sides, and the section of looking sideways at protection firebrick 32 is the triangle-shaped structure.

And feeding plates 35 for sliding off the laser cutting slag are obliquely arranged on two sides of the bottom of the middle wall plate 3.

And a transverse partition plate 6 connected with the left and right wall plates 1 is further arranged in each subspace region 5, sliding plates 61 inclining downwards are symmetrically connected to two sides of the transverse partition plate 6, graphite plates 62 are attached to the surfaces of the sliding plates 61, and graphite baffles 63 for blocking and supporting the graphite plates 61 are arranged at the bottom edges of the sliding plates 61. Graphite sheet 62 is laid along the length of slide plate 61 across subspace region 5. And a reinforcing plate 65 is fixedly connected between the sliding material plates 61.

Both ends of the diaphragm 6 are connected and fixed to the left and right wall panels 1 through corner fittings 64, respectively.

The tail ends of the left and right air exhaust pipelines 4 are communicated with a rear air exhaust pipe 41 converged to one end of the front and rear wall plates 2.

The upper surfaces of the left wall plate 1 and the right wall plate 1 are provided with symmetrical guide rails 11, and the guide rails 11 are used for being loaded with linear moving modules matched with the guide rails 11.

About, air suction pipeline 4 welds respectively in the inboard of controlling wallboard 1, well wallboard 3 and backup pad 31 are square tubular construction and weld on controlling wallboard 1.

A longitudinal clapboard 7 which longitudinally divides the subspace area 5 into two is arranged between the left wall plate 1 and the right wall plate 1, one end of the longitudinal clapboard 7 is detachably fixed to the inner sides of the front wall plate 2 and the rear wall plate 2, and the other end of the longitudinal clapboard 7 is detachably fixed to the transverse clapboard 6; the other longitudinal partition 7 is detachably fixed at one end to the transverse partition 6 and at the other end to the middle wall panel 3.

Two ends of the longitudinal partition board 7 are respectively provided with an integrally connected angle folding board 71, and the angle folding board 71 is locked and fixed on the transverse partition board 6 or the middle wall board 3 or the front and rear wall boards 2 through a mounting part.

The top of the diaphragm plate 6 and the top of the longitudinal diaphragm plate 7 are respectively provided with a blank pressing copper plate 72, so that the diaphragm plate 6 or the longitudinal diaphragm plate 7 can be effectively prevented from being burnt through by laser energy, and deformation is effectively reduced.

Two groups of opposite air suction openings 51 are arranged in each subspace area 5 on the left wall plate 1 and the right wall plate 1, door units for controlling the opening and the closing of the air suction openings 51 are installed on the air suction openings 51, each door unit comprises an air cylinder 42 arranged on the upper portion of the left air suction pipeline 4 and a door baffle plate 52 connected with the horizontal displacement of the output end of the air cylinder 42, the door baffle plates 52 are correspondingly attached to the air suction openings 51 to slide, and the opening and the closing of the air suction openings 51 are realized by moving the door baffle plates 52.

The below of each subspace region 5 all is equipped with a plurality of dollies 8 that gather materials, and the dolly 8 that gathers materials corresponds with the position between preceding wallboard 2 and the cross slab 6, and the dolly 8 that gathers materials corresponds with the position between 6 and the well wallboard 3 of cross slab, effectively accepts the blanking in the laser welding operation.

The inside of controlling wallboard 1 is equipped with along its length direction long gusset 12 of arranging, and the both sides of long gusset 12 are equipped with respectively and are used for supporting the short gusset 13 of the top and the bottom of controlling wallboard 1, and the work platform of guaranteeing the overlength breadth has stable support performance.

When the machine tool is applied, the stable welding of the machine tool body is realized by arranging the left and right wall plates 1, the middle wall plate 3, the front and rear wall plates 2, the transverse partition plate 6 and the longitudinal partition plate 7 which are stably supported, so that the deformation of bearing is reduced; the protective refractory bricks 32 are arranged on the middle wall plate 3, so that the middle wall plate 3 is effectively protected, laser burn-through is avoided, and the main structure of the lathe bed is not damaged; the graphite plates 62 are arranged on the diaphragm plates 6, and the auxiliary positions are protected to ensure the stable structure connected to the middle wall plate 3; independent air draft is carried out in each subspace area 5, good airflow circulation is achieved, and heat dissipation is effectively achieved; the whole lathe bed is suitable for the laser cutting operation of the rear plate in the overlong breadth, so that the stability of the lathe bed is ensured, and the influence caused by high temperature of laser cutting is reduced; the whole lathe bed reduces the difficulty of installation and assembly, and is easy to assemble and maintain.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims

1. The laser cutting machine tool body with the ultra-long breadth and high protection performance is characterized in that: wallboard, setting around wallboard both ends around, set up wallboard, set up about two including parallel arrangement about wallboard both ends and a plurality of well wallboards of interval setting between the wallboard, control the space separation who forms between the wallboard and become a plurality of subspace regions, the bottom of well wallboard is equipped with the backup pad of controlling the wallboard of connection, the top both sides of well wallboard are equipped with and are used for supporting the resistant firebrick support of protecting resistant firebrick, and the top of protecting resistant firebrick along the length direction of well wallboard is laid and is shielded well wallboard completely, the inside of controlling the wallboard is equipped with the long gusset of arranging along its length direction, and the both sides of long gusset are equipped with the short gusset that is used for supporting the top and the bottom of controlling the wallboard respectively.

2. The ultra-long web high protective laser cutting machine bed according to claim 1, characterized in that: the firebrick support includes that can dismantle the support curb plate of fixed well wallboard lateral wall top of locking, the support body of linking bridge curb plate tilt up expansion, supports the protection firebrick between the support body of both sides.

3. The ultra-long web high protective laser cutting machine bed according to claim 1, characterized in that: each subspace region is also provided with a diaphragm plate for connecting the left wall plate and the right wall plate, the two sides of the diaphragm plate are symmetrically connected with sliding plates which incline downwards, the surfaces of the sliding plates are attached with graphite plates, and the bottom edges of the sliding plates are provided with graphite baffle plates for blocking and supporting the graphite plates.

4. The ultra-long web high protective laser cutting machine bed according to claim 1, characterized in that: the inner sides of the left and right wall plates are provided with left and right air suction pipelines, the left and right air suction pipelines are provided with a plurality of air suction ports corresponding to the sub-space regions, and the tail ends of the left and right air suction pipelines are communicated with a rear air suction pipe converged to one end of the front and rear wall plates.

5. The ultra-long web high protective laser cutting machine bed according to claim 3, characterized in that: a longitudinal partition plate longitudinally dividing the subspace area into two is further arranged between the left wall plate and the right wall plate, one end of the longitudinal partition plate is detachably fixed to the inner sides of the front wall plate and the rear wall plate, and the other end of the longitudinal partition plate is detachably fixed to the transverse partition plate; one end of the other longitudinal partition is detachably fixed to the transverse partition, and the other end of the other longitudinal partition is detachably fixed to the middle wall plate.

6. The ultra-long web high protective laser cutting machine bed according to claim 5, characterized in that: and blank pressing copper plates are respectively arranged at the tops of the transverse partition plate and the longitudinal partition plate.

7. The ultra-long web high protective laser cutting machine bed according to claim 4, characterized in that: the left wall plate and the right wall plate are provided with two groups of opposite air suction ports in each subspace area, the air suction ports are provided with door units for controlling the air suction ports to open and close, each door unit comprises an air cylinder arranged on the upper portion of a left air suction pipeline and a right air suction pipeline, and door baffles connected with the output ends of the air cylinders in horizontal displacement and correspondingly attached to the air suction ports in a sliding mode.

8. The ultra-long web high protective laser cutting machine bed according to claim 1, characterized in that: a plurality of material collecting trolleys are arranged below each subspace area.