CN218903810U - Optical axis cutting equipment capable of rapidly blanking - Google Patents

Abstract

The utility model relates to optical axis cutting equipment capable of rapidly blanking, which comprises a support, wherein a cross rod is fixed on the support, a support is connected to the cross rod in a sliding manner, a screw is connected to the support in a threaded manner, the screw is rotationally connected with the support and is arranged in parallel with the cross rod, a first motor connected with the screw is fixed on the side wall of the support, a support frame is connected to the first cylinder in a rotating manner, a saw blade is connected to the support frame in a rotating manner, a second motor for driving the saw blade to rotate is fixed on the outer wall of the support frame, a support rod which is arranged in parallel with the cross rod is fixed at the lower end of the support, a support plate is connected to the support rod in a sliding manner, the support plate is fixed on the support rod through a positioning bolt, a guide inclined plane is arranged at the upper end of the support plate, a triangular block is connected to the second cylinder, a right-angle plane on the triangular block is attached to the surface of the guide inclined plane, a V-shaped arrangement is formed between the abutting inclined plane on the triangular block and the guide inclined plane, and the first cylinder, the second cylinder, the first motor and the second motor are electrically connected with a PLC controller, so that the efficiency is improved.

Description

Optical axis cutting equipment capable of rapidly blanking

Technical Field

The utility model relates to optical axis cutting equipment capable of rapidly blanking.

Background

The optical axis is often cut into several segments for production purposes during machining.

At present, chinese patent with publication number CN216881970U discloses an optical axis cutting device, which comprises a supporting rack, the inboard fixedly connected with first guide rail of support frame, second guide rail outside fixedly connected with locking slider, locking slider upper end fixedly connected with V type piece, first guide rail upper end is equipped with the optical axis of fixed connection in the support frame inboard, V type piece sliding connection is in the optical axis outside, the support frame rear end is equipped with the support, support upper end left side fixedly connected with first motor, second motor fixedly connected with lead screw, lead screw swivelling joint is on the support, lead screw outside threaded connection has the backup pad, the inboard fixedly connected with guiding axle of support, backup pad sliding connection is in the guiding axle outside, backup pad front end fixedly connected with first cylinder, second cylinder lower extreme fixedly connected with install bin, install bin sliding connection is in the backup pad front end, install bin lower extreme swivelling joint has the cutting dish, install the second motor that enables the cutting dish pivoted in the install bin.

The optical axis cutting device is simple in structure, but in actual use, the optical axis is placed on the V-shaped block, the cutting disc is driven by the second air cylinder and moves downwards, the cutting disc is driven by the second motor and rotates, the cutting disc cuts the optical axis into a plurality of small sections, and workers take down each small section from the V-shaped block in sequence in a manual mode, so that the production efficiency is lower.

Disclosure of Invention

In order to solve the technical problems, the utility model provides optical axis cutting equipment capable of rapidly blanking, and the aim of improving production efficiency is fulfilled.

In order to achieve the above purpose, the technical scheme of the utility model is as follows: the utility model provides an optical axis cutting equipment that can quick unloading, includes the support, the support on be fixed with the horizontal pole, the horizontal pole on sliding connection have the support, the support on threaded connection have the screw rod, screw rod and support rotate and be connected and with horizontal pole parallel arrangement, the lateral wall of support on be fixed with the first motor that is connected with the screw rod, the support on be fixed with first cylinder, first cylinder be connected with the carriage, the carriage on rotate and be connected with the saw bit, the outer wall of carriage on be fixed with drive saw bit pivoted second motor, the lower extreme of support be fixed with the bracing piece of horizontal pole parallel arrangement, the bracing piece on sliding connection have the backup pad, the backup pad be fixed in on the bracing piece through the locating bolt, the upper end of backup pad seted up the guide slope, the lateral wall of backup pad on be fixed with the second cylinder, the second cylinder be connected with the triangular block, the right angle plane on the guide slope with the surface of guide slope, the support on the triangular block be V shape motor that is laminated with the guide slope, first cylinder, second cylinder, first electric controller, PLC.

According to the technical scheme, the long-strip-shaped optical axis is placed in the accommodating cavity formed by the guide inclined plane and the triangular block, the first air cylinder is started, the supporting frame moves downwards, the second motor is started, the optical axis can be cut off by rotating the saw blade, then the first air cylinder drives the supporting frame to move upwards, the small-section optical axis is placed in the accommodating cavity, then the second air cylinder is started, the triangular block moves upwards along the guide inclined plane and then falls off from the supporting plate along the guide inclined plane, the quick blanking process is realized, the second air cylinder is started again to reset the triangular block, workers place the subsequent optical axis in the accommodating cavity and collect the small-section optical axis, and in the process of cutting the optical axis, the workers collect the small-section optical axis, so that the aim of improving the production efficiency is achieved.

As a preferable scheme of the utility model, the support is fixedly provided with the limiting rod, and the limiting rod is arranged in parallel with the supporting rod and is used for abutting against the triangular block.

According to the technical scheme, the optical axis is placed in the accommodating cavity formed by the guide inclined plane and the triangular block, the triangular block is abutted against the limiting rod under the action of gravity and the pressure of the optical axis, so that the optical axis positioning is realized, and the damage of the triangular block to the second cylinder is avoided.

As a preferable scheme of the utility model, the bracket is fixedly connected with a storage plate, and the storage plate is provided with a placing groove.

Realize above-mentioned technical scheme, the second cylinder starts, and the triangle piece moves up along the guide inclined plane, falls into the standing groove after the backup pad is walked around to the optical axis of minor segment to collect the optical axis of minor segment, be difficult for causing the optical axis of minor segment to damage simultaneously.

As a preferable mode of the utility model, the placing groove is arranged obliquely.

The technical scheme is realized so as to facilitate the convergence of the optical axes of all the small sections for more convenient collection.

As a preferable scheme of the utility model, an extension block is fixed on the support, a third cylinder electrically connected with the PLC is fixed on the extension block, the third cylinder is connected with a pressing plate, and the pressing plate corresponds to the guiding inclined plane.

According to the technical scheme, the third air cylinder is started, the pressing plate moves downwards and abuts against the surface of the optical axis, and the optical axis can be more stable in the cutting process.

As a preferable scheme of the utility model, the infrared receiver is fixed on the extension block, the infrared emitter corresponding to the infrared receiver is fixed on the side wall of the supporting plate, and the infrared receiver and the infrared emitter are electrically connected with the PLC.

According to the technical scheme, when the infrared transmitter corresponds to the infrared receiver, the PLC controller controls the first motor to stop, then the first air cylinder is started, the second motor is started, the saw blade cuts the optical axis, after the cutting is finished, the first air cylinder drives the saw blade to reset, and the first motor is started, so that the full-automatic cutting process is realized.

As a preferable scheme of the utility model, the damping pad made of rubber is fixed on the pressing plate.

The technical scheme is realized, and the shock-absorbing device has a good shock-absorbing effect in the process of cutting the optical axis.

In summary, the utility model has the following beneficial effects:

1. the long-shaped optical axis is placed in the accommodating cavity formed by the guide inclined plane and the triangular block, the first air cylinder is started, the supporting frame moves downwards, the second motor is started, the saw blade rotates to cut off the optical axis, then the first air cylinder drives the supporting frame to move upwards, the small-section optical axis is placed in the accommodating cavity, then the second air cylinder is started, the triangular block moves upwards along the guide inclined plane and moves upwards, and then the small-section optical axis falls off from the supporting plate along the guide inclined plane, so that the quick blanking process is realized, the second air cylinder is started again to reset the triangular block, workers place the subsequent optical axis in the accommodating cavity and collect the small-section optical axis, and in the process of cutting the optical axis, the workers collect the small-section optical axis, and therefore the purpose of improving the production efficiency is achieved.

2. Full-automatic cutting and discharging are performed through the PLC, so that production efficiency is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic view of the back structure of the present utility model.

Corresponding part names are indicated by numerals and letters in the drawings:

1. a bracket; 21. a cross bar; 22. a support; 23. a screw; 24. a first motor; 3. a first cylinder; 31. a support frame; 32. a saw blade; 33. a second motor; 41. an extension block; 42. a PLC controller; 43. a third cylinder; 44. a pressing plate; 45. a shock pad; 51. an infrared receiver; 52. an infrared emitter; 6. a support rod; 61. a support plate; 62. a guide slope; 7. a second cylinder; 71. triangular blocks; 8. a limit rod; 9. a storage plate; 91. and (5) placing a groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in the figure, the optical axis cutting equipment capable of rapidly blanking comprises a support 1, wherein a horizontal rod 21 is fixed on the support 1, a support 22 is slidably connected on the horizontal rod 21, a screw 23 is in threaded connection with the support 22, and the screw 23 is rotationally connected with the support 1 and is parallel to the horizontal rod 21. A first motor 24 connected to a screw 23 is fixed to a side wall of the bracket 1.

The support 22 is fixedly provided with a first air cylinder 3 which is vertically arranged, a first power shaft of the first air cylinder 3 is fixedly connected with a supporting frame 31, the supporting frame 31 is rotationally connected with a saw blade 32, and the outer wall of the supporting frame 31 is fixedly provided with a second motor 33 which drives the saw blade 32 to rotate.

When the first motor 24 is started, the support 22 is moved along the length direction of the cross bar 21 by rotation of the screw 23. When the first cylinder 3 is started, the supporting frame 31 moves downwards, and when the second motor 33 is started, the saw blade 32 can be rotated.

An extension block 41 and a PLC controller 42 are fixed to the support 22. A third cylinder 43 electrically connected with the PLC controller 42 is fixed on the extension block 41, the third cylinder 43 is vertically disposed, and a pressing plate 44 is fixedly connected on the third power shaft, and the pressing plate 44 corresponds to the guide inclined surface 62. The pressing plate 44 is used to collide with the surface of the optical axis. A cushion 45 made of rubber is fixed to the platen 44.

An infrared receiver 51 is fixed on the extension block 41, an infrared emitter 52 corresponding to the infrared receiver 51 is fixed on the side wall of the support plate 61, and the infrared receiver 51 and the infrared emitter 52 are electrically connected with the PLC controller 42.

The first motor 24 is started, the support 22 moves along the length direction of the cross bar 21, and when the infrared receiver 51 receives the infrared light emitted by the infrared emitter 52, the PLC controller 42 sends an electrical signal to the first motor 24, and the first motor 24 is stopped. Then the first cylinder 3 is started, the supporting frame 31 moves downwards, and the second motor 33 can rotate the saw blade 32 when started. Causing the saw blade 32 to sever the optical axis. Realizing full-automatic operation.

A support bar 6 parallel to the cross bar 21 is fixed to the lower end of the bracket 1, a support plate 61 is slidably connected to the support bar 6, and the support plate 61 is fixed to the support bar 6 by a positioning pin. The upper end of the support plate 61 is provided with a guide inclined plane 62, a second cylinder 7 is fixed on the side wall of the support plate 61, and the second cylinder 7 is connected with a triangular block 71. The right angle plane on the triangular block 71 is attached to the surface of the guiding inclined plane 62, and the abutting inclined plane on the triangular block 71 is arranged in a V shape with the guiding inclined plane 62. The first cylinder 3, the second cylinder 7, the first motor 24 and the second motor 33 are all electrically connected with the PLC controller 42.

A limit rod 8 parallel to the cross rod 21 is fixed on the bracket 1, and the limit rod 8 is parallel to the support rod 6 and is used for abutting against the triangular block 71.

A storage plate 9 is fixedly connected to the bracket 1, and a placing groove 91 is formed in the storage plate 9; the placement groove 91 is disposed obliquely.

The rotation of the saw blade 32 cuts off the optical axis, and a small section of the optical axis is placed in the receiving cavity formed by the guide bevel 62 and the triangular block 71. And then the second cylinder 7 is started, the triangular block 71 translates upwards along the guide inclined plane 62, and the optical axis of the small section moves upwards along the guide inclined plane 62 and then is pushed down from the supporting plate 61 into the placing groove 91, so that the quick blanking process is realized.

And the second cylinder 7 is started again to reset the triangular block 71, a worker places the subsequent optical axis in the accommodating cavity and then collects the optical axis of the small section, and the worker collects the optical axis of the small section in the process of cutting the optical axis, so that the aim of improving the production efficiency is fulfilled.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. The utility model provides an optical axis cutting equipment that can unloading fast, includes the support, the support on be fixed with the horizontal pole, the horizontal pole on sliding connection have the support, the support on threaded connection have the screw rod, screw rod and support rotate and be connected and with horizontal pole parallel arrangement, the lateral wall of support on be fixed with the first motor that is connected with the screw rod, the support on be fixed with first cylinder, first cylinder be connected with the carriage, the carriage on rotate and be connected with the saw bit, the outer wall of carriage on be fixed with drive saw bit pivoted second motor, a serial communication port, the lower extreme of support be fixed with the bracing piece with horizontal pole parallel arrangement, the bracing piece on sliding connection have the backup pad, the backup pad is fixed in on the bracing piece through the locating bolt, the upper end of backup pad seted up the guide slope, the lateral wall of backup pad on be fixed with the second cylinder, the second cylinder be connected with the triangular block on right angle plane and the surface laminating of guide slope, the inclined plane and the guide slope on the triangular block be between and guide slope and be V shape motor setting, the first cylinder, the second cylinder all be connected with PLC.

2. The optical axis cutting device capable of rapidly blanking according to claim 1, wherein a limiting rod is fixed on the support, and the limiting rod is arranged in parallel with the supporting rod and is used for abutting against the triangular block.

3. The optical axis cutting device capable of rapidly blanking according to claim 1, wherein the support is fixedly connected with a storage plate, and the storage plate is provided with a placement groove.

4. The optical axis cutting apparatus capable of rapidly discharging according to claim 3, wherein the placement groove is obliquely arranged.

5. The optical axis cutting device capable of rapidly blanking according to claim 1, wherein an extension block is fixed on the support, a third cylinder electrically connected with the PLC is fixed on the extension block, the third cylinder is connected with a pressing plate, and the pressing plate corresponds to the guiding inclined plane.

6. The optical axis cutting device capable of rapidly blanking according to claim 5, wherein an infrared receiver is fixed on the extension block, an infrared emitter corresponding to the infrared receiver is fixed on the side wall of the supporting plate, and the infrared receiver and the infrared emitter are electrically connected with the PLC.

7. The optical axis cutting device capable of rapidly blanking according to claim 5, wherein a shock pad made of rubber is fixed on the pressing plate.

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