CN217647610U - Double-end numerical control slitting saw for aluminum door and window profiles - Google Patents

Abstract

The utility model provides an aluminum door and window section bar double-end numerical control slitting saw relates to the technical field of numerical control slitting saw, and comprises a bracket component and a cutting mechanism, wherein the top side of the bracket component is provided with a clamping component assembled by bolts, two groups of hoisting components assembled by bolts are arranged above the two sides of the bracket component, one end of the top side of each hoisting component is provided with a cutting mechanism connected by bolts, and the cutting mechanism comprises a reversing cylinder and a drag chain; the utility model discloses mainly be the tow chain that utilizes elasticity stronger, telescopic link platform and pneumatic push rod's flexible regulation in the cooperation, let equipment add stability in man-hour promote, the loss of material is caused to the deviation that leads to when preventing the cutting, and because the end of cutting member is formed by the adjusting member combination of multiunit, make two sets of cutting mechanism when using like this, mutually supporting that can do, and accurate regulation cutting position, make the precision of cutting to promote, the position and the position of effectual regulation cutting, the quality of processing has been promoted.

Description

Double-end numerical control slitting saw for aluminum door and window profiles

Technical Field

The utility model relates to a numerical control slitting saw technical field especially relates to an aluminium door and window section bar double-end numerical control slitting saw.

Background

The electromechanical integrated cutting machine is called a numerical control cutting saw, such as a numerical control plasma cutting machine and a numerical control flame cutting machine, and the cutting machine drives a machine tool to move through a numerical program, and a cutting tool which is randomly matched with the machine tool cuts an object when the machine tool moves.

Present numerical control slitting saw is difficult to accurate control cutting plane in the use, can cause the processing degree of difficulty to promote, and the not high scheduling problem of processing quality, consequently, the utility model provides an aluminium door and window section bar double-end numerical control slitting saw is in order to solve the problem that exists among the prior art.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides an aluminium door and window section bar double-end numerical control slitting saw, this aluminium door and window section bar double-end numerical control slitting saw mainly utilizes the stronger tow chain of elasticity, telescopic link platform and pneumatic push rod's flexible regulation in the cooperation, let equipment processing stability promote, the deviation that leads to when preventing to cut causes the loss of material, and because the end of cutting member is formed by the adjustment member combination of multiunit, make two sets of cutting mechanism when using like this, mutually support that can do, and accurate regulation cutting position, make the precision of cutting can promote, the position and the position of effectual regulation cutting, the quality of processing has been promoted.

For realizing the purpose of the utility model, the utility model discloses a following technical scheme realizes: the double-head numerical control cutting saw for the aluminum door and window profiles comprises a support assembly and a cutting mechanism, wherein a clamping assembly assembled by bolts is arranged on the top side of the support assembly, two groups of hoisting assemblies assembled by the bolts are arranged above two sides of the support assembly, and one end of the top side of each hoisting assembly is provided with the cutting mechanism connected by the bolts;

cutting mechanism includes a switching-over section of thick bamboo, tow chain, telescopic link platform, pneumatic putter, electric swivel base, first motor, rotation telescopic link, processing platform, electric swivel stick, servo motor, fluted disc cover and electric saw dish, a switching-over section of thick bamboo bolted connection be in the top side one end of hoist and mount subassembly, a switching-over section of thick bamboo runs through the tow chain that sets up in hoist and mount subassembly top side, the tow chain runs through a switching-over section of thick bamboo and is connected with the telescopic link platform, just the below of telescopic link platform is provided with pneumatic putter, pneumatic putter's below is connected with electric swivel base's output, one side of electric swivel base is provided with first motor, just the output of first motor runs through electric swivel base is connected with the rotation telescopic link, the one end that rotates the telescopic link is provided with the processing platform, just the below of processing platform, be provided with electric swivel stick's output, electric swivel stick's below is provided with servo motor, just servo motor's output runs through electric saw dish is connected with.

The improved electric saw is characterized in that the drag chain is in a long strip shape, the gear disc sleeve is in a semi-arc structure, and the edge of the electric saw disc is in a sawtooth shape.

The improved structure is characterized in that the support component comprises a supporting pad, a shell and a bed base, the shell is arranged above the supporting pad, and the top side of the shell is provided with the bed base assembled by bolts.

Further improve in, the centre gripping subassembly includes first bolt seat, waste material box, electromagnetism stick group, net cover, first slide bar, slip table and pneumatic pressure disk, the waste material box is in through first bolt seat bolted connection the top side of bed platform, the interior bottom side of waste material box is provided with electromagnetism stick group, just electromagnetism stick group side parallel arrangement has the net cover of latticed structure.

The improved waste material box is characterized in that the inner interlayer of the waste material box is connected with a sliding rod through a first sliding rod in a sliding mode, the sliding rod is connected with two groups of sliding tables in a sliding mode, and a pneumatic pressure plate is arranged on each sliding table.

The improved structure is characterized in that the hoisting assembly comprises an electric lead screw box, a sliding support, a cross beam, an electromagnetic slide rail and an electromagnetic slide block, the electric lead screw box is arranged above two sides of the bed base table, the electric lead screw box is provided with the sliding support in threaded connection, the top side of the sliding support is provided with the cross beam, and the cross beam is connected with the electromagnetic slide block in a sliding manner through the electromagnetic slide rail.

The utility model has the advantages that:

the utility model discloses mainly utilize the stronger tow chain of elasticity, telescopic link platform and pneumatic push rod's flexible regulation in the cooperation, let equipment add stability in man-hour promote, the loss of material is caused to the deviation that leads to when preventing to cut, and because the end of cutting member is formed by the adjusting part combination of multiunit, make two sets of cutting mechanism when using like this, mutually support that can do, and accurate regulation cutting position, make the precision of cutting can promote, the position and the position of effectual regulation cutting have promoted the quality of processing.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic side view of the three-dimensional structure of the present invention;

fig. 3 is a schematic perspective view of the clamping assembly of the present invention;

fig. 4 is a schematic view of a three-dimensional structure of the electric rotating base and the first motor of the present invention;

fig. 5 is a schematic view of a three-dimensional structure of the fluted disc sleeve and the electric saw disc of the present invention.

Wherein: 1. a bracket assembly; 101. a support pad; 102. a housing; 103. a bed base stand; 2. a clamping assembly; 201. a first bolt seat; 202. a waste material box; 203. an electromagnetic bar group; 204. a grid cover; 205. a first slide bar; 206. a slide bar; 207. a sliding table; 208. a pneumatic platen; 3. hoisting the assembly; 301. an electric lead screw box; 302. a sliding support; 303. a cross beam; 304. an electromagnetic slide rail; 305. an electromagnetic slider; 4. a cutting mechanism; 401. a reversing cylinder; 402. a drag chain; 403. a telescopic rod table; 404. a pneumatic push rod; 405. an electric rotating base; 406. a first motor; 407. rotating the telescopic rod; 408. a processing table; 409. electrically rotating the wand; 4010. a servo motor; 4011. a fluted disc sleeve; 4012. an electric saw disc.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments are combined to further detail the present invention, and the present embodiment is only used to explain the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to the drawings of fig. 1-5, the embodiment provides a double-head numerical control cutting saw for aluminum door and window profiles, which comprises a bracket component 1 and a cutting mechanism 4, wherein a clamping component 2 assembled by bolts is arranged on the top side of the bracket component 1, two groups of hoisting components 3 assembled by bolts are arranged above two sides of the bracket component 1, and one end of the top side of each hoisting component 3 is provided with the cutting mechanism 4 connected by the bolts;

the cutting mechanism 4 comprises a reversing cylinder 401, a drag chain 402, a telescopic rod table 403, a pneumatic push rod 404, an electric rotating seat 405, a first motor 406, a rotating telescopic rod 407, a processing table 408, an electric rotating rod 409, a servo motor 4010, a fluted disc sleeve 4011 and an electric saw disc 4012, the reversing cylinder 401 is connected to one end of the top side of the hoisting assembly 3 through bolts, the reversing cylinder 401 penetrates through the drag chain 402 arranged on the top side of the hoisting assembly 3, the drag chain 402 penetrates through the reversing cylinder 401 and is connected with the telescopic rod table 403, the pneumatic push rod 404 is arranged below the telescopic rod table 403, the output end of the electric rotating seat 405 is connected to the lower side of the pneumatic push rod 404, the first motor 406 is arranged on one side of the electric rotating seat 405, the output end of the first motor 406 penetrates through the electric rotating seat 405 and is connected with the rotating telescopic rod 407, the processing table 408 is arranged at one end of the rotating telescopic rod 407, the processing table 408 is arranged below the electric rotating rod 409, the servo motor 4010 is arranged below the electric rotating rod 409, and the output end of the servo motor 4010 penetrates through the fluted disc sleeve 4011 and is connected with the electric saw disc 4012.

The drag chain 402 is in a long strip shape, the toothed disc sleeve 4011 is in a half arc shape, and the edge of the electric saw disc 4012 is in a saw shape.

In this embodiment, when the electromagnetic slider 305 runs at a transverse position of processing, the reversing cylinder 401 and the drag chain 402 penetrate through each other, so that the drag chain 402 and the telescopic rod table 403 are matched with each other, the stability of the pneumatic push rod 404 is improved, a circuit is convenient to lay, then the pneumatic push rod 404 is started to output power, the electric rotating base 405 is matched with the upper electric rotating base to adjust the real-time position of the first motor 406, meanwhile, the first motor 406 is started to output power to drive the rotating telescopic rod 407 to adjust the accurate position of the processing table 408, so that the electric rotating rod 409 enables the servo motor 4010 to finally reach an effective processing position under the output power, and finally, the servo motor 4010 is started to output power to drive the electric saw disc 4012 inside the fluted disc sleeve 4011 to rotate at a high speed, so as to effectively cut raw materials fixed above the mesh cover 204.

The bracket assembly 1 comprises a support pad 101, a casing 102 and a bed 103, the casing 102 is arranged above the support pad 101, and the bed 103 assembled by bolts is arranged on the top side of the casing 102.

In this embodiment, the support pads 101 are capable of supporting the housing 102 to place the device at a processing site and bolting an upper bed 103 to the top side of the housing 102 to facilitate user installation of other components of the device.

The clamping assembly 2 comprises a first bolt seat 201, a waste material box 202, an electromagnetic bar group 203, a grid cover 204, a first sliding rod 205, a sliding rod 206, a sliding table 207 and a pneumatic pressure disc 208, wherein the waste material box 202 is connected to the top side of the bed seat platform 103 through the first bolt seat 201 in a bolt mode, the electromagnetic bar group 203 is arranged on the inner bottom side of the waste material box 202, and the grid cover 204 in a grid-shaped structure is arranged above the electromagnetic bar group 203 in parallel.

In this embodiment, first, the waste material box 202 is bolted on the top side of the bed base 103 by using the first bolt base 201, so that the electromagnetic bar set 203 is disposed on the inner bottom side of the waste material box 202, and the grid cover 204 is mounted on the top side of the electromagnetic bar set 203 to facilitate the falling of the waste material, and when the cutting can be placed under the attraction of the electromagnetic bar set 203, the metal waste material is prevented from splashing.

The inner layer of the waste material box 202 is connected with a slide rod 206 through a first slide rod 205 in a sliding way, two sets of sliding tables 207 are connected on the slide rod 206 in a sliding way, and a pneumatic pressure plate 208 is arranged on the sliding tables 207.

In this embodiment, the raw material to be cut is then placed on the grid cover 204, and then the two sets of sliding rods 206 are slid by the first sliding rod 205 to move to the proper position, and meanwhile, the sliding table 207 on the sliding rods 206 is used to move to the proper position of the raw material, so that the pneumatic platen 208 is started to output power, and the raw material is effectively fixed by the bottom end of the pneumatic platen 208.

The hoisting assembly 3 comprises an electric screw rod box 301, a sliding support 302, a cross beam 303, an electromagnetic sliding rail 304 and an electromagnetic sliding block 305, the electric screw rod box 301 is arranged above two sides of the bed base table 103, the electric screw rod box 301 is provided with the sliding support 302 in threaded connection, the top side of the sliding support 302 is provided with the cross beam 303, and the cross beam 303 is connected with the electromagnetic sliding block 305 through the electromagnetic sliding rail 304 in a sliding manner.

In this embodiment, when the raw materials are fixed, two sets of electric lead screw boxes 301 are started, so that the electric lead screw boxes 301 drive the sliding support 302 to move to the processing position in real time, the beam 303 is accurately located above the processing position, and then the electromagnetic slide rail 304 on the beam 303 is started to output power to drive the electromagnetic slider 305 to slide, so that the electromagnetic slider 305 moves to the processing transverse position.

The working principle of the double-end numerical control cutting saw for the aluminum door and window profile is as follows: firstly, a waste material box 202 is connected on the top side of a bed base table 103 through a first bolt seat 201 in a bolt mode, an upper electromagnetic rod set 203 is arranged on the inner bottom side of the waste material box 202, a grid cover 204 is arranged on the top side of the electromagnetic rod set 203, then raw materials to be cut are placed on the grid cover 204, two sets of sliding rods 206 are slid by a first sliding rod 205 to move to proper positions, meanwhile, a sliding table 207 on the sliding rods 206 is used for moving to the proper positions of the raw materials, a pneumatic pressure plate 208 is started to output power, the raw materials are effectively fixed by the bottom end of the pneumatic pressure plate 208, when the raw materials are fixed, two sets of electric lead screw boxes 301 are started, the electric lead screw boxes 301 drive a sliding support 302 to move to a processing position in real time, and a beam 303 is accurately positioned above the processing position, then starting the electromagnetic slide rail 304 on the cross beam 303 to output power to drive the electromagnetic slide block 305 to slide so that the electromagnetic slide block 305 moves to a transverse processing position, when the electromagnetic slide block 305 moves to the transverse processing position, the reversing cylinder 401 and the drag chain 402 penetrate through each other, so that the stability of the pneumatic push rod 404 is improved under the mutual matching of the drag chain 402 and the telescopic rod table 403, thereby facilitating the laying of a line, then starting the pneumatic push rod 404 to output power to adjust the real-time position of the first motor 406 by matching with the upper electric rotating base 405, simultaneously starting the first motor 406 to output power to drive the rotating telescopic rod 407 to adjust the accurate position of the processing table 408, so that the electric rotating rod 409 enables the servo motor 4010 to finally reach an effective processing position under the output power, finally starting the servo motor 4010 to output power to drive the electric saw disc 2 on the inner side of the fluted disc sleeve 4011 to rotate at a high speed, and effectively cut raw materials fixed above the mesh cover 204, so as to facilitate the falling of the scrap and prevent the metal scrap from splashing when the scrap can be placed and cut under the attraction of the electromagnetic bar group 203.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides an aluminium door and window section bar double-end numerical control slitting saw, includes bracket component (1) and cutting mechanism (4), its characterized in that: a clamping component (2) assembled by bolts is arranged on the top side of the support component (1), two groups of hoisting components (3) assembled by bolts are arranged above two sides of the support component (1), and a cutting mechanism (4) connected by bolts is arranged at one end of the top side of each hoisting component (3);

the cutting mechanism (4) comprises a reversing cylinder (401), a drag chain (402), a telescopic rod table (403), a pneumatic push rod (404), an electric rotating seat (405), a first motor (406), a rotating telescopic rod (407), a processing table (408), an electric rotating rod (409), a servo motor (4010), a fluted disc sleeve (4011) and an electric saw disc (4012), wherein the reversing cylinder (401) is connected to one end of the top side of the hoisting assembly (3) through a bolt, the reversing cylinder (401) penetrates through the drag chain (402) arranged on the top side of the hoisting assembly (3), the drag chain (402) penetrates through the reversing cylinder (401) and is connected with the telescopic rod table (403), the pneumatic push rod (404) is arranged below the telescopic rod table (403), the output end of the electric rotating seat (405) is connected to the lower portion of the pneumatic push rod (404), the first motor (406) is arranged on one side of the electric rotating seat (405), the output end of the first motor (406) penetrates through the electric rotating seat (405) and is connected with the rotating seat (407), the output end of the pneumatic rotating rod (407), the processing table (408) is provided with the electric rotating rod (409) and the lower portion (4010), and the output end of the servo motor (4010) penetrates through the gear disc sleeve (4011) to be connected with an electric saw disc (4012).

2. The aluminum door and window profile double-end numerical control cutting saw of claim 1, characterized in that: the drag chain (402) is long, the gear disc sleeve (4011) is in a semi-arc structure, and the edge of the electric saw disc (4012) is in a sawtooth shape.

3. The double-ended numerical control cutting saw for the aluminum door and window profiles as claimed in claim 1, characterized in that: the support assembly (1) comprises a support pad (101), a shell (102) and a bed base (103), wherein the shell (102) is arranged above the support pad (101), and the bed base (103) assembled by bolts is arranged on the top side of the shell (102).

4. The double-ended numerical control cutting saw for the aluminum door and window profiles as claimed in claim 3, wherein: centre gripping subassembly (2) include first bolt seat (201), waste material box (202), electromagnetic rod group (203), net cover (204), first slide bar (205), slide bar (206), slip table (207) and pneumatic disc (208), waste material box (202) are in through first bolt seat (201) bolted connection the top side of bed seat platform (103), the interior bottom side of waste material box (202) is provided with electromagnetic rod group (203), just electromagnetic rod group (203) side top parallel arrangement has net structure's net cover (204).

5. The aluminum door and window profile double-end numerical control cutting saw of claim 4, characterized in that: the interior intermediate layer of waste material box (202) has slide bar (206) through first slide bar (205) sliding connection, just sliding connection has two sets of slip tables (207) on slide bar (206), be provided with pneumatic pressure disk (208) on slip table (207).

6. The aluminum door and window profile double-end numerical control cutting saw of claim 3, characterized in that: hoist and mount subassembly (3) are including electronic lead screw box (301), sliding support (302), crossbeam (303), electromagnetism slide rail (304) and electromagnetism slider (305), electronic lead screw box (301) set up the both sides top of bed seat platform (103), be provided with threaded connection on electronic lead screw box (301) and have sliding support (302), just the top side of sliding support (302) is provided with crossbeam (303), there is electromagnetism slider (305) through electromagnetism slide rail (304) sliding connection on crossbeam (303).

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