CN113560693B - Panel profiling machine - Google Patents

Abstract

The application relates to a plate profiling machine, which belongs to the plate cutting technology and comprises a base, a support column, a rotating column, a cutting torch rod and a cutting torch nozzle; the support column is vertically arranged on the base, the rotating column is rotatably arranged on the support column, the cutting torch rod is arranged at one end of the rotating column, which is far away from the support column, and the cutting torch nozzle is arranged at the end part of the cutting torch rod, which is close to the ground surface side; the cutting torch rod is provided with a telescopic connection device, the telescopic connection device is provided with a positioning abutting device, the positioning abutting device is used for pressing and abutting the cut blocks after cutting, and the telescopic connection device is used for enabling the positioning abutting device to always abut the cut blocks when the cutting torch rod moves. This application has the effect of the problem of being difficult to follow the normal whereabouts on panel after improving the dicing cutting.

Description

Panel profiling machine

Technical Field

The application relates to the field of plate cutting technology, in particular to a plate profiling machine.

Background

In the construction process of electrical appliance major in the metallurgical industry, holes are often required to be formed in materials such as angle steel, flat steel, channel steel and the like so as to manufacture a large number of installation parts of the same kind. The profiling copying machine is efficient cutting equipment capable of profiling and cutting according to a template of the shape of a workpiece, can cut workpieces in various shapes, and is very suitable for batch production after plates are cut. The flame profiling cutting machine is one of profiling machines and has the function of efficiently cutting plates.

Chinese patent with publication No. CN206010094U discloses a profile modeling cutting machine, which comprises a rail, a base arranged on the rail and forming a horizontal moving pair with the rail, a support column arranged on the top of the base, a base arm rotatably arranged on the support column, a profile arm rotatably arranged on the support column and a main arm rotatably arranged at one end of the base arm, a metal template arranged on the profile arm, the main arm is rotatably connected with the base arm and then divided into an upper main arm and a lower main arm, a motor is arranged on the upper main arm, a magnetic roller is arranged on an output shaft of the motor, a magnetic head matched with the edge of the template is arranged on the top of the magnetic roller, the motor drives the magnetic roller to rotate, so that the magnetic head rotates around the edge of the template, a cutting torch component for cutting metal is detachably arranged on the lower main arm, and cutting of a plate is realized by the cutting torch component.

In view of the above-mentioned related art, the inventor believes that after the cutting is completed, the cut-off block is not easy to fall naturally due to the deformation caused by high temperature, so that the cut-off block needs to be manually pushed off from the plate by a worker, and the cut-off block manually pushed off by the worker is easily affected by the high temperature of the cut-off block and is easily scalded.

Disclosure of Invention

In order to improve the problem that is difficult to follow normal whereabouts on the panel after the stripping and slicing cutting, this application provides a panel profiling machine.

The application provides a panel profiling machine adopts following technical scheme:

a sheet material profiling machine comprises a base, a support column, a rotating column, a cutting torch rod and a cutting torch nozzle; the support column is vertically arranged on the base, the rotating column is rotatably arranged on the support column, the cutting torch rod is arranged at one end of the rotating column, which is far away from the support column, and the cutting torch nozzle is arranged at the end part of the cutting torch rod, which is close to the ground surface side; the cutting torch comprises a cutting torch rod, and is characterized in that a telescopic connection device is arranged on the cutting torch rod, a positioning abutting device is installed on the telescopic connection device, the positioning abutting device is used for pressing and abutting cut blocks after cutting, and the telescopic connection device is used for enabling the positioning abutting device to always abut the cut blocks when the cutting torch rod moves.

By adopting the technical scheme, when the plate is cut, firstly, the part needing to be cut is found, then the positioning abutting device is moved to the part to be cut on the plate, then the plate copying machine is directly started to cut the planned position on the plate, and at the moment, the cutting torch nozzle on the cutting torch rod can spray flame to the plate; the cutting torch rod can move in the cutting process, and the telescopic connecting device can enable the positioning and abutting device to be always abutted against the cut block when the cutting torch rod moves, so that the cutting torch rod can normally cut a plate; after cutting is finished, the cutting block is preliminarily formed, and the positioning abutting device presses the cutting block, so that the cutting block can be quickly abutted out of the plate after being formed, and the cutting block normally falls; through the operation steps, the cutting block does not need to be manually pushed down after the cutting is finished, and the problem that the cutting block is not easy to normally fall from the plate after being cut is solved.

Optionally, the telescopic connection device comprises a left connection assembly, a middle telescopic assembly and a right connection assembly; the middle telescopic assembly is arranged between the left side connecting assembly and the right side connecting assembly, the left side connecting assembly is rotatably connected with the cutting torch rod, the right side connecting assembly is rotatably connected with the positioning and abutting device, and the middle telescopic assembly is used for stretching and bending on a plane parallel to a plate.

Through adopting above-mentioned technical scheme, when the cutting torch pole removed at the in-process of cutting, the flexible subassembly in middle part can be along with the removal of cutting torch pole and adjust the length and the shape of self to let the location butt device not receive the influence that the cutting torch pole removed and treat that the stripping and slicing that supports out realizes the location butt all the time.

Optionally, the middle telescopic assembly is formed by sliding connection of a plurality of sliding blocks with different sizes, the sliding blocks are in a long strip shape, first waist-shaped grooves are formed in two opposite side walls of the sliding blocks along the length direction of the sliding blocks, moving cavities are further formed in the sliding blocks, inserting rods are arranged on two opposite inner walls of the moving cavities, the inserting rods are opposite to each other in the vertical direction and are cylindrical, and the inserting rods are in sliding inserting fit with the adjacent sliding blocks through the first waist-shaped grooves.

By adopting the technical scheme, when the distance between the cutting torch rod and the positioning abutting device is gradually increased in the cutting moving process, the inserting rod obtained on the sliding block can slide in the first kidney-shaped groove on the adjacent sliding block, so that the total length between the two adjacent sliding blocks is prolonged, and the integral extension of the middle telescopic assembly is realized; when the cutting torch rod moves around the positioning and abutting device in the cutting moving process, the two adjacent sliding blocks can rotate relatively, so that the middle telescopic assembly can be bent integrally; after setting up like this, can let the flexible subassembly in middle part adapt to the position change of cutting torch pole in the removal process, let location butt device reach not receive the comparatively convenient effect of influence that the cutting torch pole removed.

Optionally, the left connecting assembly comprises a connecting block and a connecting ring, the connecting block is in a strip shape, two opposite side walls of the connecting block are respectively provided with a second kidney-shaped groove along the length direction of the connecting block, and two insertion rods close to the connecting block are respectively inserted into the two second kidney-shaped grooves; the connecting ring is arranged at one end of the connecting block, which is far away from the sliding block, a positioning ring groove is formed in the cutting torch rod, and the connecting ring is rotatably connected with the cutting torch rod after being sleeved in the positioning ring groove.

By adopting the technical scheme, after the connecting ring is connected with the cutting torch rod through the positioning ring groove, the connecting ring can directly realize the relative rotation with the cutting torch rod; and the second kidney-shaped groove on the connecting block also can supply the inserted link on the sliding block to slide to let also can reach the effect of flexible and angle modulation between connecting block and the sliding block.

Optionally, the positioning abutment device comprises an abutment assembly and a drilling assembly; the abutting assembly is rotatably connected with the right connecting assembly, and the drilling assembly is installed on the abutting assembly; the drilling assembly is used for drilling and positioning the pre-cut cutting block, and the abutting assembly enables the drilling assembly to always abut against the plate and has the tendency of continuously moving downwards.

By adopting the technical scheme, the abutting component pushes the drilling component to abut against the plate, then the pre-cut cutting block on the plate is drilled through the drilling component, and after one part of the drilling component is positioned in the hole formed in the cutting block, the positioning of the drilling component can be easily realized, so that the positioning abutting device is not easy to shift due to the movement of the cutting torch rod; and when the stripping and slicing piece is surely gone out the back completely, butt subassembly can be directly to the stripping and slicing piece from panel support down, drilling subassembly also can break away from with the stripping and slicing piece rapidly for drilling subassembly does not influence the normal whereabouts of stripping and slicing piece.

Optionally, the butt subassembly includes a butt section of thick bamboo, butt pole and spring, a butt section of thick bamboo vertical setting and rotate with right side coupling assembling to be connected, the inside cavity and the lower extreme opening setting of a butt section of thick bamboo, the butt pole slides and inserts and establish in a low-junction section of thick bamboo, the spring sets up in a butt section of thick bamboo and makes the butt pole have the trend of removing outside the butt section of thick bamboo all the time, the drilling unit mount is in the butt pole one end of keeping away from a butt section of thick bamboo.

By adopting the technical scheme, the abutting rod is pushed into the abutting cylinder for a certain distance to enable the spring to be in a compressed state, and at the moment, the drilling assembly is in a state of abutting against the plate surface of the plate; after the cutting block is drilled and positioned, the cutting block is cut out, the spring in a compression state can apply a vertical downward thrust to the abutting rod, the abutting rod drives the drilling component to push the cutting block out of the plate, the cutting block is rapidly separated from the plate, and the effect that the cutting block normally falls is visual and convenient is achieved.

Optionally, the drilling assembly includes a driving part and a drilling positioning part, the driving part is installed on the butt rod, the drilling positioning part is installed on the driving part, and the driving part is used for driving the drilling positioning part to operate.

Through adopting above-mentioned technical scheme, drilling location portion can be driven to the drive division, and drilling location portion then can be with whole location butt device location on the cutting block that treats the cutting on panel to reach the effect of normal drilling and location.

Optionally, the driving part includes a driving box, a rotating motor and a driving bevel gear, and the drilling positioning part includes a drill rod and a driven bevel gear; the driving box is arranged on the abutting rod and is hollow inside, the rotating motor is arranged in the driving box, and the driving bevel gear is coaxially arranged on an output shaft of the rotating motor; the drilling rod rotates and sets up on the drive case and drilling rod and butt pole are in same vertical line, driven bevel gear coaxial line sets up the one end that is located the drive case at the drilling rod, drive bevel gear meshes with driven bevel gear mutually, the lower terminal surface of drive case is used for inconsistent with the face of panel.

Through adopting above-mentioned technical scheme, start and rotate the motor, make the output shaft that rotates the motor begin to rotate, and then drive the rotation of drive bevel gear, because drive bevel gear meshes with driven bevel gear mutually, consequently driven bevel gear can drive the drilling rod and rotate, and under the butt effect of butt pole, the drilling rod can contact with the face of panel all the time at the in-process of drilling through the thrust of butt pole, make the hole easily drill out, stop drilling after boring the downside that lets the drive case and the face laminating of panel, just can reach the effect that lets the drilling rod realize the location on panel this moment.

Optionally, the right side coupling assembling includes connecting rod and antifriction bearing, the connecting rod is connected with the sliding block of keeping away from the cutting torch pole in the flexible subassembly in middle part, antifriction bearing sets up on the connecting rod, the butt pole passes antifriction bearing's inner circle and with antifriction bearing interference fit.

Through adopting above-mentioned technical scheme, antifriction bearing's setting can let connecting rod and butt pole realize letting connecting rod and butt pole realize normally relative rotation when being connected.

Optionally, a rubber layer covers the lower end surface of the driving box.

Through adopting above-mentioned technical scheme, the setting on rubber layer can let the drive case can not directly contradict with panel to avoid drive case and panel touching to produce great damage to a certain extent.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when a plate is cut, firstly, a part needing to be cut is found, then the positioning abutting device is moved to the part to be cut on the plate, then, the plate profiling machine is directly started to cut the planned position on the plate, and at the moment, the cutting torch nozzle on the cutting torch rod can spray flame to the plate; the cutting torch rod can move in the cutting process, and the telescopic connecting device can enable the positioning abutting device to be always abutted against the cutting block when the cutting torch rod moves, so that the cutting torch rod can normally cut a plate; after cutting is finished, the cutting block is formed preliminarily, and the positioning abutting device presses the cutting block, so that the cutting block can be quickly abutted out of the plate after being formed, and the cutting block falls normally; through the operation steps, the cutting block does not need to be manually pushed down after the cutting is finished, so that the problem that the cutting block is not easy to normally fall from the plate after being cut is solved;

2. when the distance between the cutting torch rod and the positioning and abutting device gradually changes to a far distance in the cutting moving process, the inserting rod obtained on the sliding block can slide in the first kidney-shaped groove on the adjacent sliding block, so that the total length between the two adjacent sliding blocks is prolonged, and the integral extension of the middle telescopic assembly is realized; when the cutting torch rod moves around the positioning and abutting device in the cutting moving process, the two adjacent sliding blocks can rotate relatively, so that the middle telescopic assembly is bent integrally; after the arrangement, the middle telescopic component can adapt to the position change of the cutting torch rod in the moving process, and the positioning abutting device achieves the effect of convenience without being influenced by the movement of the cutting torch rod;

3. the motor is rotated in the start-up, make the output shaft that rotates the motor begin to rotate, and then drive the rotation of drive bevel gear, because drive bevel gear meshes with driven bevel gear mutually, consequently, driven bevel gear can drive the drilling rod and rotate, and under the butt effect of butt pole, the drilling rod can contact with the face of panel all the time at the in-process of drilling through the thrust of butt pole, make the hole easily drill out, stop drilling after boring the downside that lets the drive box and the face laminating of panel, just this moment can reach and let the drilling rod realize the effect of location on the panel.

Drawings

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

Fig. 2 is a partially exploded and partially cut away view of an embodiment of the present application showing the telescoping connection device and the positioning abutment device.

Figure 3 is a partial cross-sectional view of an embodiment of the present application showing the connection of the abutment assembly and the drilling assembly.

Fig. 4 is an enlarged view of a portion a in fig. 3.

Description of the reference numerals: 1. a base; 2. a support pillar; 3. rotating the column; 4. a cutting torch rod; 41. positioning the ring groove; 5. a cutting torch nozzle; 6. a telescopic connection device; 61. a left side connection assembly; 611. connecting blocks; 6111. a second kidney-shaped slot; 612. a connecting ring; 62. a middle telescoping assembly; 621. a slider; 6211. a first kidney-shaped slot; 6212. a moving chamber; 6213. a plug rod; 63. a right side connection assembly; 631. a connecting rod; 632. a rolling bearing; 7. a positioning and abutting device; 71. an abutment assembly; 711. a butting cylinder; 712. a butting rod; 713. a spring; 72. a drilling assembly; 721. a drive section; 7211. a drive box; 7212. rotating the motor; 7213. a drive bevel gear; 722. drilling a positioning part; 7221. a drill stem; 7222. a driven bevel gear; 8. a rubber layer.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses panel profiling machine. Referring to fig. 1, the plate copying machine includes a base 1, a support column 2, a rotation column 3, a cutting torch rod 4 and a cutting torch head 5; the vertical setting of support column 2 is on base 1, rotates post 3 and rotates the setting on support column 2, and cutting torch rod 4 sets up the one end of keeping away from support column 2 at rotation post 3, and cutting torch shower nozzle 5 sets up the tip that is close to the ground side at cutting torch rod 4, and cutting torch shower nozzle 5 cuts panel through blowout flame. The cutting torch rod 4 is provided with a telescopic connecting device 6, and the telescopic connecting device 6 is provided with a positioning abutting device 7; when the position needing to be cut is planned, the positioning abutting device 7 is used for abutting against the surface of the plate planned to be cut, and the positioning abutting device 7 can continuously apply vertical downward thrust to the plate. Through the arrangement of the telescopic connection device 6, the cutting torch rod 4 can continuously apply thrust to the plate at the abutting position without being influenced by the positioning abutting device 7 in the moving process; that is, the torch stem 4 is moved and the positioning and abutting device 7 is not moved, but the positioning and abutting device 7 is connected to the torch stem 4.

This application will fix a position butt device 7 and be connected with cutting torch pole 4, can let location butt device 7 can not influence the normal cutting of cutting torch pole 4 when the dicing that the normal conflict will be cut off. Because the torch rod 4 is moved along the shape track of the template during cutting, the shape of the template is a closed shape, so that the blocks can be cut. The positioning and abutting device 7 is located in the middle of the closed shape after the cutting of the cutting torch rod 4, the moving track of the cutting torch rod 4 cannot be influenced in any way, the cutting and abutting can be carried out simultaneously, and the cutting block can be immediately pushed out of the plate to enable the plate to fall after the cutting is finished.

As shown in fig. 1 and 2, the telescopic connecting device 6 comprises a left connecting assembly 61, a middle telescopic assembly 62 and a right connecting assembly 63; the middle telescopic component 62 is arranged between the left connecting component 61 and the right connecting component 63, the left connecting component 61 is rotatably connected with the cutting torch rod 4, the right connecting component 63 is rotatably connected with the positioning and abutting device 7, and the middle telescopic component 62 is used for stretching and bending on a plane parallel to the plate in the moving process of the cutting torch rod 4; after the cutting torch rod 4 is connected with the positioning and abutting device 7 through the left connecting component 61, the middle telescopic component 62 and the right connecting component 63, the connection relationship between the cutting torch rod 4 and the positioning and abutting device 7 is flexible and stable.

As shown in fig. 1 and 2, the middle telescopic element 62 is formed by sequentially slidably connecting a plurality of sliding blocks 621 with different sizes; in this embodiment, the number of the sliding blocks 621 is four, but in other embodiments, the number of the sliding blocks 621 may be other, such as two, three, five, six, etc., and it is sufficient to make reasonable adjustments according to the field construction situation. The shape of the sliding block 621 is a long strip, but the cross-sectional shape is not limited, and may be circular, rectangular, or other shapes, and in this embodiment, the cross-sectional shape of the sliding block 621 directly adopts a rectangular shape; first kidney-shaped groove 6211 has all been seted up along sliding block 621 length direction on two relative outer walls of sliding block 621, and two relative outer walls refer to two upper and lower cliff sides of sliding block 621, and the position that lies in between two first kidney-shaped grooves 6211 on sliding block 621 has seted up and has moved chamber 6212, and the shape that moves chamber 6212 also is the rectangle to one side opening, the opposite side is sealed, both ends then are opened. An inserting rod 6213 is welded on the inner cavity wall of the upper and lower opposite movable cavities 6212, the two inserting rods 6213 are opposite to each other in the vertical direction, the section shape of the inserting rod 6213 is circular, the section diameter of the inserting rod 6213 is the same as the width of the first kidney-shaped groove 6211, the inserting rod 6213 is directly inserted in the first kidney-shaped groove 6211, can slide in the first kidney-shaped groove 6211 along the length direction of the first kidney-shaped groove 6211 and rotate in the first kidney-shaped groove 6211, and the sliding and rotating are collectively called as 'sliding inserting matching' in the application; it is to be noted that in the embodiment, the surface of the sliding block 621 close to the positioning abutment device 7 is not provided with the first kidney-shaped groove 6211, since there is no sliding of any plugging rod 6213 inside, so that the first kidney-shaped groove 6211 does not need to be provided.

When the distance between the cutting torch rod 4 and the positioning and abutting device 7 gradually increases in the cutting movement process, the inserting rod 6213 obtained on the sliding block 621 can slide in the first kidney-shaped groove 6211 on the adjacent sliding block 621, so that the total length between the two adjacent sliding blocks 621 is increased, and the integral extension of the middle telescopic assembly 62 is realized; when the cutting torch rod 4 moves around the positioning and abutting device 7 in the cutting movement process, the two adjacent sliding blocks 621 rotate relatively, so that the middle telescopic assembly 62 is bent integrally; after setting up like this, can let middle part flexible subassembly 62 adapt to the position change of cutting torch pole 4 in the removal process, let location butt device 7 reach not receive the comparatively convenient effect of influence that cutting torch pole 4 removed.

As shown in fig. 1 and 2, the left connecting assembly 61 includes a connecting block 611 and a connecting ring 612, the connecting ring 612 is welded at one end of the connecting block 611, and the connecting block 611 has a long bar shape and a rectangular cross-sectional shape in this embodiment. The upper and lower block walls of the connecting block 611 are both provided with a second kidney-shaped groove 6111, the length direction of the second kidney-shaped groove 6111 is the same as the length direction of the connecting block 611, and the two insertion rods 6213 on the sliding block 621 at one side edge of the middle telescopic assembly 62 are respectively in sliding insertion fit with the two second kidney-shaped grooves 6111. It should be noted that in this embodiment, the relative bending between the sliding block 621 and the relative bending between the sliding block 621 and the connecting block 611 are only implemented on a plane parallel to the plate surface of the plate, so that the horizontal positions of the cutting torch rod 4 and the positioning and abutting device 7 are in an unchanged state, that is, when the positioning and abutting device 7 abuts against the plate downwards, the middle telescopic assembly 62 is not bent in the vertical direction, but is bent only in the horizontal direction; therefore, during the machining process, the width of the left slide block 621 is the same as that of the moving cavity 6212 of the right adjacent slide block 621. And the rod wall of the cutting torch rod 4 is provided with a positioning ring groove 41, the size of the positioning ring groove 41 is matched with that of the connecting ring 612, so that after the connecting ring 612 is sleeved in the positioning ring groove 41, the connecting ring 612 can rotate relative to the cutting torch rod 4 and can be normally connected.

When the connecting ring 612 is connected with the cutting torch rod 4 through the positioning ring groove 41, the connecting ring 612 can directly realize the relative rotation with the cutting torch rod 4; and the second kidney slot 6111 on the connecting block 611 can also supply the insertion rod 6213 on the sliding block 621 to slide, thereby allowing the effects of extension and retraction and angle adjustment to be achieved between the connecting block 611 and the sliding block 621.

As shown in fig. 1 and 2, the positioning abutment device 7 comprises an abutment assembly 71 and a drilling assembly 72; the abutting assembly 71 is rotatably connected with the right connecting assembly 63, and the drilling assembly 72 is installed on the abutting assembly 71; the drilling assembly 72 is used for drilling and positioning the pre-cut block, and the abutting assembly 71 enables the drilling assembly 72 to always abut against the plate and have the tendency of moving downwards continuously.

Referring to fig. 3, the contact assembly 71 includes a contact cylinder 711, a contact rod 712, and a spring 713, the contact cylinder 711 has a cylindrical shape and a hollow interior, a longitudinal direction of the contact cylinder 711 coincides with a longitudinal direction of the torch rod 4, and a lower end of the contact cylinder 711 is opened; the abutting rod 712 is slidably inserted into the abutting cylinder 711, the cross-sectional shape of the abutting rod 712 matches the inner shape of the abutting cylinder 711, the spring 713 is located in the abutting cylinder 711, one end of the spring 713 is welded to the inner end wall of the abutting cylinder 711, the other end of the spring 713 is welded to the end of the abutting rod 712 located in the abutting cylinder 711, and the spring 713 enables the abutting rod 712 to always have a tendency to move towards the outside of the abutting cylinder 711.

As shown in fig. 3 and 4, the drilling assembly 72 includes a driving portion 721 and a drilling positioning portion 722, the driving portion 721 is installed at one end of the abutting rod 712 located outside the abutting cylinder 711, and the drilling positioning portion 722 is installed on the driving portion 721; specifically, the driving part 721 includes a driving case 7211, a rotation motor 7212, and a drive bevel gear 7213, the driving case 7211 is welded at an end of the butting rod 712, the rotation motor 7212 is installed in the driving case 7211, and the drive bevel gear 7213 is coaxially welded on an output shaft of the rotation motor 7212; the drilling positioning part 722 comprises a drill rod 7221 and a driven bevel gear 7222, a bearing is embedded on the wall of the driving box 7211 away from the abutting rod 712, and the drill rod 7221 passes through the bearing and then is in interference fit with the inner ring of the bearing; and the drill rod 7221 and the abutment rod 712 are positioned on the same vertical line, the tip of the drill rod 7221 is positioned in the drive case 7211, the other end is positioned in the drive case 7211, the driven bevel gear 7222 is coaxially welded to the end of the drill rod 7221 positioned in the drive case 7211, and the drive bevel gear 7221 is engaged with the driven bevel gear 7222. A rubber layer 8 is covered on the wall of the driving box 7211, which is far away from the abutting rod 712, and after the drill rod 7221 is drilled into the plate, the driving box 7211 can enable the rubber layer 8 to be attached to the surface of the plate under the pushing of the abutting rod 712, and the driving box 7211 can be stably attached to the surface of the plate due to the large friction coefficient of the rubber layer 8, and a separation effect is achieved, so that the driving box 7211 is not easy to collide with the surface of the plate to cause damage; it should be noted that the rubber layer 8 used in the present embodiment is a high temperature resistant rubber, and may be butyl rubber, halogenated butyl rubber, acrylate, and the like.

Firstly, the abutting rod 712 is pushed a distance into the abutting cylinder 711, so that the spring 713 is in a compressed state, and at the moment, the drilling assembly 72 is in a state of abutting against the plate surface of the plate; then the rotating motor 7212 is started, so that the output shaft of the rotating motor 7212 starts to rotate, and further the driving bevel gear 7213 is driven to rotate, because the driving bevel gear 7213 is meshed with the driven bevel gear 7222, the driven bevel gear 7222 can drive the drill rod 7221 to rotate, and under the abutting action of the abutting rod 712, the drill rod 7221 can be always in contact with the plate surface of the plate through the thrust of the abutting rod 712 in the drilling process, so that the hole can be easily drilled, the drilling is stopped until the lower side surface of the driving box 7211 is attached to the plate surface of the plate, the positioning of the drilling assembly 72 can be easily realized, and the positioning abutting device 7 is not easy to be deviated due to the movement of the cutting torch rod 4. After the cutting block is cut, the abutting rod 712 can directly eject the cutting block from the original position of the plate under the thrust of the spring 713, so that the cutting block is automatically separated from the plate, the drill rod 7221 can also be automatically separated from the cutting block, and the effect that the cutting block normally falls intuitively and conveniently is achieved.

The implementation principle of this application embodiment's panel profiling mechanism does: when a plate is cut, firstly, a part needing to be cut is found, then the positioning abutting device 7 is moved to the part to be cut on the plate, then the plate copying machine is directly started to cut the planned position on the plate, and at the moment, the cutting torch spray head 5 on the cutting torch rod 4 can spray flame to the plate; the cutting torch rod 4 can move in the cutting process, and the telescopic connecting device 6 can enable the positioning abutting device 7 to be always abutted against the cutting block when the cutting torch rod 4 moves, so that the cutting torch rod 4 can normally cut a plate; after the cutting is accomplished, the stripping and slicing has tentatively formed this moment, and this moment location butt device 7 is exerted pressure to the stripping and slicing for the stripping and slicing can be by the panel promptly after forming, thereby lets the stripping and slicing normally fall.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A sheet material profiling machine is characterized in that: comprises a base (1), a support column (2), a rotating column (3), a cutting torch rod (4) and a cutting torch nozzle (5); the cutting torch is characterized in that the supporting column (2) is vertically arranged on the base (1), the rotating column (3) is rotatably arranged on the supporting column (2), the cutting torch rod (4) is arranged at one end, far away from the supporting column (2), of the rotating column (3), and the cutting torch nozzle (5) is arranged at the end, close to the ground surface side, of the cutting torch rod (4); the cutting torch rod (4) is provided with a telescopic connecting device (6), the telescopic connecting device (6) is provided with a positioning abutting device (7), the positioning abutting device (7) is used for pressing and abutting cut blocks after cutting, and the telescopic connecting device (6) is used for enabling the positioning abutting device (7) to be always abutted to the cut blocks when the cutting torch rod (4) moves; the telescopic connecting device (6) comprises a left connecting assembly (61), a middle telescopic assembly (62) and a right connecting assembly (63); the middle telescopic assembly (62) is arranged between the left side connecting assembly (61) and the right side connecting assembly (63), the left side connecting assembly (61) is rotatably connected with the cutting torch rod (4), the right side connecting assembly (63) is rotatably connected with the positioning abutting device (7), and the middle telescopic assembly (62) is used for stretching and bending on a plane parallel to the plate; middle part telescopic component (62) are formed by a plurality of sliding block (621) sliding connection of variation in size, the shape of sliding block (621) is rectangular shape, first kidney slot (6211) has all been seted up along the length direction of sliding block (621) on two relative lateral walls of sliding block (621), removal chamber (6212) has still been seted up on sliding block (621), all be provided with inserted bar (6213) on two relative inner walls of removal chamber (6212), two inserted bar (6213) are just right in vertical direction, inserted bar (6213) are cylindrical, inserted bar (6213) are through first kidney slot (6211) and adjacent sliding block (621) slip grafting cooperation.

2. A sheet profiling machine according to claim 1 wherein: the left connecting assembly (61) comprises a connecting block (611) and a connecting ring (612), the connecting block (611) is in a long strip shape, second waist-shaped grooves (6111) are formed in two opposite side walls of the connecting block (611) along the length direction of the connecting block (611), and two inserting rods (6213) close to the connecting block (611) are inserted into the two second waist-shaped grooves (6111) respectively; the connecting ring (612) is arranged at one end, far away from the sliding block (621), of the connecting block (611), a positioning ring groove (41) is formed in the cutting torch rod (4), and the connecting ring (612) is rotatably connected with the cutting torch rod (4) after being sleeved in the positioning ring groove (41).

3. A sheet profiling machine according to claim 1 characterised in that: the positioning abutment device (7) comprises an abutment assembly (71) and a drilling assembly (72); the abutting assembly (71) is rotatably connected with the right connecting assembly (63), and the drilling assembly (72) is installed on the abutting assembly (71); the drilling assembly (72) is used for drilling and positioning the pre-cut blocks, and the abutting assembly (71) enables the drilling assembly (72) to always abut against the plate and has the tendency of moving downwards continuously.

4. A sheet profiling machine according to claim 3 wherein: the butt joint subassembly (71) includes butt joint section of thick bamboo (711), butt joint pole (712) and spring (713), butt joint section of thick bamboo (711) is vertical to be set up and rotates with right side coupling assembling (63) and is connected, the inside cavity and the lower extreme opening setting of butt joint section of thick bamboo (711), butt joint pole (712) slide insert establish in the section of thick bamboo that connects lowly, spring (713) set up in butt joint section of thick bamboo (711) and make butt joint pole (712) have the trend of moving outside to butt joint section of thick bamboo (711) all the time, drilling subassembly (72) are installed and are kept away from the one end of butt joint section of thick bamboo (711) at butt joint pole (712).

5. A sheet profiling machine according to claim 4 characterised in that: the drilling assembly (72) comprises a driving part (721) and a drilling positioning part (722), the driving part (721) is installed on the abutting rod (712), the drilling positioning part (722) is installed on the driving part (721), and the driving part (721) is used for driving the drilling positioning part (722) to operate.

6. A sheet profiling machine according to claim 5 wherein: the driving part (721) comprises a driving box (7211), a rotating motor (7212) and a driving bevel gear (7213), and the drilling positioning part (722) comprises a drill rod (7221) and a driven bevel gear (7222); the driving box (7211) is mounted on the abutting rod (712) and is hollow inside, the rotating motor (7212) is arranged in the driving box (7211), and the driving bevel gear (7213) is coaxially arranged on the output shaft of the rotating motor (7212); the drilling rod (7221) rotate set up on drive case (7211) and drilling rod (7221) and butt rod (712) are in same vertical line, driven bevel gear (7222) coaxial line sets up the one end that is located drive case (7211) in drilling rod (7221), drive bevel gear (7213) and driven bevel gear (7222) mesh mutually, the lower terminal surface of drive case (7211) is used for inconsistent with the face of panel.

7. A sheet profiling machine according to claim 4 characterised in that: the right side coupling assembling (63) is including connecting rod (631) and antifriction bearing (632), the sliding block (621) of keeping away from cutting torch pole (4) in connecting rod (631) and the middle part subassembly (62) that stretches out and draws back is connected, antifriction bearing (632) set up on connecting rod (631), the pole (712) that supports pass the inner circle of antifriction bearing (632) and with antifriction bearing (632) interference fit.

8. A sheet profiling machine according to claim 6 wherein: and a rubber layer (8) is covered on the lower end surface of the driving box (7211).

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