CN217913976U - CNC (computer numerical control) machining device for aluminum alloy railing production - Google Patents

Abstract

The utility model relates to the technical field of machine tools, in particular to a CNC (computer numerical control) machining device for aluminum alloy railing production, which comprises a base, a cutting mechanism and a clamping component, wherein the clamping component comprises two clamping mechanisms and a sliding mechanism, the clamping mechanisms comprise sliding seats, first clamping blocks, two guide rods, second clamping blocks and first screw rods, the first clamping blocks are provided with first V-shaped grooves, and the second clamping blocks are provided with second V-shaped grooves; when needing centre gripping aluminum alloy railing, according to the approximate length of aluminum alloy railing, slide mechanism with two sliding seats and slide and keep away from to suitable position, then the both ends of aluminum alloy railing are put respectively in the first V-arrangement inslot of two first clamp splices, twist the first screw rod of the left and right sides, all drive two second clamp splices and move down, until pressing from both sides tight aluminum alloy railing, owing to adopt first V-arrangement groove cooperation second V-arrangement groove to aluminum alloy railing centre gripping spacing, thereby can the centre gripping aluminum alloy railing of different diameters cut.

Description

CNC (computer numerical control) machining device for aluminum alloy railing production

Technical Field

The utility model relates to a lathe technical field especially relates to an aluminum alloy railing production CNC processingequipment.

Background

The aluminum alloy railing needs to be cut in the production and processing process, the cutting machine is held by people for cutting at present, manpower is wasted, and efficiency is lower.

The prior art provides an aluminum alloy railing produces CNC processingequipment, two fixture blocks of slidable mounting, two on the base all have the recess on the fixture block, two fixture blocks block the both ends of aluminum alloy railing from both sides with the recess to with aluminum alloy railing centre gripping, then cut aluminum alloy railing with cutting mechanism, compare the manual work, improved cutting efficiency.

However, by adopting the mode, the sizes of the grooves of the two clamping blocks are fixed, and the aluminum alloy handrail with a single diameter can be clamped only.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an aluminum alloy railing produces CNC processingequipment, the aluminum alloy railing that can the different diameters of centre gripping cuts.

In order to achieve the purpose, the utility model provides a CNC processing device for producing aluminum alloy railings, which comprises a base, a cutting mechanism and a clamping assembly;

the clamping assembly comprises two clamping mechanisms and a sliding mechanism; the base is provided with a sliding groove, the two clamping mechanisms are arranged in the sliding groove in a sliding mode, and the sliding mechanisms are arranged on the base; fixture includes sliding seat, first clamp splice, two guide arms, second clamp splice and first screw rod, the sliding seat with base sliding connection, and be located in the spout, first clamp splice with sliding seat fixed connection, and be located the sliding seat is inboard, first clamp splice has first V-arrangement groove, two the guide arm respectively with sliding seat sliding connection, and pass respectively the sliding seat, the second clamp splice respectively with two guide arm fixed connection, and be located two the guide arm is close to first clamp splice one side, the second clamp splice has the second V-arrangement groove, first screw rod with the second clamp splice rotates to be connected, and with sliding seat threaded connection, and pass the sliding seat.

The clamping mechanism further comprises a handle, the handle is fixedly connected with the first screw rod and is positioned on one side, far away from the second clamping block, of the first screw rod.

The clamping mechanism further comprises a friction pad, and the friction pad is fixedly connected with the first clamping block and is positioned in the first V-shaped groove.

The sliding mechanism comprises a double-thread screw and a hand-operated lever, the double-thread screw is connected with the base in a rotating mode and is connected with the sliding seat in a threaded mode, the sliding seat is connected with the base in a threaded mode and penetrates through the sliding seat, the hand-operated lever is fixedly connected with the double-thread screw and is located on one side of the double-thread screw.

The CNC machining device for the aluminum alloy railing production further comprises a collecting assembly, and the collecting assembly is arranged on the base.

The collecting assembly comprises two guide rails, a sliding block, a collecting box, two idler wheels and a driving mechanism, the two guide rails are fixedly connected with the base respectively and are located on the side edge of the base respectively, the sliding block is connected with the two guide rails in a sliding mode and is penetrated through by the two guide rails respectively, the collecting box is fixedly connected with the sliding block and is located above the sliding groove, the two idler wheels are connected with the collecting box in a rotating mode and are located on one side of the collecting box respectively, and the driving mechanism is arranged on the side edge of the base.

The driving mechanism comprises a second screw and a motor, the second screw is rotatably connected with the base, is in threaded connection with the sliding block and penetrates through the sliding block, the motor is fixedly connected with the base and is positioned on the side edge of the base, and an output shaft of the motor is fixedly connected with the second screw.

The utility model discloses an aluminum alloy railing produces CNC processingequipment, the spout is used for slidable mounting two the sliding seat, slide mechanism is used for the drive the sliding seat slides to two about adjusting the position of sliding seat, in order to adapt to the aluminum alloy railing of different length, first clamp splice fixed mounting be in on the sliding seat, the second clamp splice is through two the guide arm can first clamp splice top reciprocates, first screw rod is used for the drive the second clamp splice reciprocates, when needing centre gripping aluminum alloy railing, according to the approximate length of aluminum alloy railing, uses slide mechanism will two the sliding seat slides and keeps away from to suitable position, then the both ends of aluminum alloy railing put two respectively first clamp splice first V-arrangement inslot twists move the left and right sides first screw rod, with two the second clamp splice all drives and moves down, until the cooperation two first clamp splice presss from both sides tight aluminum alloy railing, owing to adopt first V-shaped groove cooperation second V-shaped groove is spacing to the centre gripping of aluminum alloy railing different diameters is cut to the aluminum alloy railing that can centre gripping.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is an overall schematic structural view of the first embodiment of the present invention.

Fig. 2 is an enlarged view of a portion of detail a of fig. 1.

Fig. 3 is an overall schematic structural view of the second embodiment of the present invention.

Fig. 4 is a schematic view of another angle of the second embodiment of the present invention.

101-base, 102-cutting mechanism, 103-clamping component, 104-clamping mechanism, 105-sliding mechanism, 106-sliding seat, 107-first clamping block, 108-guide rod, 109-second clamping block, 110-first screw rod, 111-handle, 112-friction pad, 113-double-thread screw rod, 114-hand-operated rod, 115-sliding groove, 116-first V-shaped groove, 117-second V-shaped groove, 201-collecting component, 202-guide rail, 203-sliding block, 204-collecting box, 205-roller, 206-driving mechanism, 207-second screw rod and 208-motor.

Detailed Description

The first embodiment of the present application is:

referring to fig. 1-2, fig. 1 is a schematic overall structure diagram of a first embodiment of the present invention, and fig. 2 is a partial enlarged view of a detail a in fig. 1. The utility model provides an aluminum alloy railing production CNC processingequipment: comprises a base 101, a cutting mechanism 102 and a clamping component 103; the clamping assembly 103 comprises two clamping mechanisms 104 and a sliding mechanism 105; the clamping mechanism 104 comprises a sliding seat 106, a first clamping block 107, two guide rods 108, a second clamping block 109, a first screw 110, a handle 111 and a friction pad 112; the sliding mechanism 105 comprises a double-thread screw 113 and a hand lever 114; the base 101 has a chute 115; the first clamp block 107 has a first V-shaped groove 116; the second clamp block 109 has a second V-shaped 117 slot.

For the present embodiment, the cutting mechanism 102 is disposed on the base 101. The cutting mechanism 102 can move downwards to cut the aluminum alloy handrail and can also move left and right to adjust the cutting position.

Wherein, the two clamping mechanisms 104 are slidably arranged in the sliding groove 115, and the sliding mechanism 105 is arranged on the base 101; the clamping mechanism 104 includes a sliding seat 106, a first clamping block 107, two guide rods 108, a second clamping block 109 and a first screw 110, the sliding seat 106 is slidably connected to the base 101 and is located in the sliding groove 115, the first clamping block 107 is fixedly connected to the sliding seat 106 and is located inside the sliding seat 106, the two guide rods 108 are respectively slidably connected to the sliding seat 106 and respectively penetrate through the sliding seat 106, the second clamping block 109 is respectively fixedly connected to the two guide rods 108 and is located at a side of the two guide rods 108 close to the first clamping block 107, and the first screw 110 is rotatably connected to the second clamping block 109 and is in threaded connection with the sliding seat 106 and penetrates through the sliding seat 106. The sliding groove 115 is used for slidably mounting two sliding seats 106, the sliding mechanism 105 is used for driving the sliding seats 106 to slide, so that the positions of the left sliding seat 106 and the right sliding seat 106 are adjusted to adapt to aluminum alloy railings with different lengths, the first clamping block 107 is fixedly mounted on the sliding seats 106, the second clamping block 109 can move up and down above the first clamping block 107 through the two guide rods 108, the first screw 110 is used for driving the second clamping block 109 to move up and down, when the aluminum alloy railings need to be clamped, the sliding mechanism 105 is used for sliding the two sliding seats 106 to be away from the proper positions according to the approximate length of the aluminum alloy railings, then the two ends of the aluminum alloy railings are respectively placed in the first V-shaped grooves 116 of the two first clamping blocks 107, the first screw 110 on the left side and the right side is screwed, the two second clamping blocks 109 are both driven to move down until the two first clamping blocks 107 are matched to clamp the aluminum alloy railings, and the first V-shaped grooves 116 are matched with the second V-shaped grooves 117 to clamp the aluminum alloy railings with different diameters, so that the aluminum alloy railings can be clamped and limited.

Next, the handle 111 is fixedly connected to the first screw 110 and is located on a side of the first screw 110 away from the second clamping block 109. The handle 111 is used to facilitate turning the first screw 110.

Meanwhile, the friction pad 112 is fixedly connected with the first clamping block 107 and is positioned in the first V-shaped groove 116. The friction pad 112 is used to increase the friction force between the first clamping block 107 and the aluminum alloy rail, so that the aluminum alloy rail cannot slide or rotate after being clamped by the first clamping block 107 and the second clamping block 109.

In addition, double thread screw 113 with base 101 rotates to be connected, and respectively with two sliding seat 106 threaded connection, and pass two respectively sliding seat 106, hand rocker 114 with double thread screw 113 fixed connection, and be located double thread screw 113 one side. The thread directions of the left section and the right section of the double-thread screw 113 are opposite, the double-thread screw 113 is used for driving the sliding seat 106 to slide towards the opposite direction, and the hand-operated lever 114 is used for conveniently and labor-saving rotating the double-thread screw 113.

This embodiment an aluminum alloy railing production CNC processingequipment, when needing the centre gripping aluminum alloy railing, according to the approximate length of aluminum alloy railing, hold hand 114 rotates double thread screw rod 113, with two sliding seat 106 slides and keeps away from to suitable position, then the both ends of aluminum alloy railing are put two respectively first clamp splice 107 in first V-arrangement groove 116, twist the left and right sides handle 111 rotates two first screw rod 110, with two the equal drive of second clamp splice 109 moves down, until the cooperation two first clamp splice 107 presss from both sides tight aluminum alloy railing, then use cutting mechanism 102 can to the cutting of aluminum alloy railing.

The second embodiment of the present application is:

on the basis of the first embodiment, please refer to fig. 3-4, wherein fig. 3 is a schematic structural diagram of the second embodiment of the present invention, and fig. 4 is a schematic structural diagram of another angle of the second embodiment of the present invention. The utility model provides a CNC processing device for producing aluminum alloy railings, which also comprises a collecting component 201; the collection assembly 201 comprises two guide rails 202, a slide 203, a collection box 204, two rollers 205 and a drive mechanism 206; the drive mechanism 206 includes a second screw 207 and a motor 208.

For the present embodiment, the collecting assembly 201 is disposed on the base 101. The collection assembly 201 is used for collecting scraps generated by cutting.

The two guide rails 202 are respectively and fixedly connected with the base 101 and respectively located on the side edges of the base 101, the sliding block 203 is respectively and slidably connected with the two guide rails 202 and respectively penetrated through the two guide rails 202, the collection box 204 is fixedly connected with the sliding block 203 and located above the sliding groove 115, the two rollers 205 are respectively and rotatably connected with the collection box 204 and respectively located on one side of the collection box 204, which is far away from the sliding block 203, and the driving mechanism 206 is arranged on the side edge of the base 101. The two guide rails 202 are used for slidably mounting the sliding block 203, the driving mechanism 206 is used for driving the sliding block 203 of the sliding block 203, the sliding block 203 can drive the collecting box 204 to move on the base 101, the two rollers 205 support the collecting box 204 from one side, so that the collecting box 204 is more convenient to move, the position of the collecting box 204 can be moved, when an aluminum alloy rail is cut, the collecting box 204 can be moved to the position below a cutting position to receive waste residues generated by cutting, and meanwhile, a higher baffle is arranged on one side of the collecting box 204 and used for blocking sparks and raised waste residues generated when the cutting mechanism 102 cuts.

Secondly, the second screw 207 is rotatably connected with the base 101, is in threaded connection with the sliding block 203, penetrates through the sliding block 203, the motor 208 is fixedly connected with the base 101 and is positioned on the side edge of the base 101, and an output shaft of the motor 208 is fixedly connected with the second screw 207. The motor 208 is used for driving the second screw 207 to rotate, so as to drive the sliding block 203 to slide.

Before cutting, the motor 208 is started to drive the second screw 207 to rotate, so that the sliding block 203 is driven to slide, the collecting box 204 is moved to the position below the cutting position, waste residues generated by cutting are received and blocked by sparks generated when the cutting mechanism 102 cuts and the raised waste residues, and the height of the collecting box 204 is far lower than that of the bottom of the first V-shaped groove 116, so that clamping and cutting of the aluminum alloy handrail cannot be interfered.

While the above disclosure describes one or more preferred embodiments of the present invention, it is not intended to limit the scope of the claims to such embodiments, and one skilled in the art will understand that all or a portion of the processes performed in the above embodiments may be practiced without departing from the spirit and scope of the claims.

Claims (7)

1. A CNC processing device for producing aluminum alloy railings comprises a base and a cutting mechanism, wherein the cutting mechanism is arranged on the base,

the device also comprises a clamping component;

the clamping assembly comprises two clamping mechanisms and a sliding mechanism;

the base is provided with a sliding groove, the two clamping mechanisms are arranged in the sliding groove in a sliding mode, and the sliding mechanisms are arranged on the base; fixture includes sliding seat, first clamp splice, two guide arms, second clamp splice and first screw rod, the sliding seat with base sliding connection, and be located in the spout, first clamp splice with sliding seat fixed connection, and be located the sliding seat is inboard, first clamp splice has first V-arrangement groove, two the guide arm respectively with sliding seat sliding connection, and pass respectively the sliding seat, the second clamp splice respectively with two guide arm fixed connection, and be located two the guide arm is close to first clamp splice one side, the second clamp splice has the second V-arrangement groove, first screw rod with the second clamp splice rotates to be connected, and with sliding seat threaded connection, and pass the sliding seat.

2. A CNC machining apparatus for producing aluminum alloy balustrades as claimed in claim 1,

the clamping mechanism further comprises a handle, and the handle is fixedly connected with the first screw rod and is positioned on one side, away from the second clamping block, of the first screw rod.

3. A CNC machining apparatus for producing aluminum alloy balustrades as claimed in claim 2, wherein,

the clamping mechanism further comprises a friction pad, and the friction pad is fixedly connected with the first clamping block and is positioned in the first V-shaped groove.

4. The CNC machining device for producing aluminum alloy railings as claimed in claim 3, wherein,

slide mechanism includes double thread screw rod and hand rocker, double thread screw rod with the base rotates to be connected, and respectively with two sliding seat threaded connection, and pass two respectively the sliding seat, the hand rocker with double thread screw rod fixed connection, and be located double thread screw rod one side.

5. The CNC machining device for producing aluminum alloy railings as claimed in claim 1,

the CNC machining device for the aluminum alloy railing production further comprises a collecting assembly, and the collecting assembly is arranged on the base.

6. The CNC machining device for producing aluminum alloy railings as claimed in claim 5,

the collecting assembly comprises two guide rails, a sliding block, a collecting box, two idler wheels and a driving mechanism, the two guide rails are fixedly connected with the base respectively and are located on the side edge of the base respectively, the sliding block is connected with the two guide rails in a sliding mode and is penetrated through by the two guide rails respectively, the collecting box is fixedly connected with the sliding block and is located above the sliding groove, the two idler wheels are connected with the collecting box in a rotating mode and are located on one side of the collecting box respectively, and the driving mechanism is arranged on the side edge of the base.

7. The CNC machining device for producing aluminum alloy railings as claimed in claim 6,

the driving mechanism comprises a second screw and a motor, the second screw is rotatably connected with the base, is in threaded connection with the sliding block and penetrates through the sliding block, the motor is fixedly connected with the base and is positioned on the side edge of the base, and an output shaft of the motor is fixedly connected with the second screw.

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