CN221019899U - Clamping mechanism for vertical numerical control lathe - Google Patents

Abstract

The utility model discloses a clamping mechanism for a vertical numerical control lathe, which comprises a base, wherein a driving motor is arranged in the base; this a fixture for vertical numerical control lathe, through workstation, the air pump, the conveyer pipe, the shower nozzle, the setting of support, screw rod and movable block, when the part is processed, the workstation surface can remain a lot of iron fillings, the iron fillings too much can influence the part and put, but also can the centre gripping unevenness lead to the condition of part damage to take place, in the conveyer pipe transmission to the shower nozzle is utilized through blowing out vacuum gas through the setting of air pump, to the iron fillings on the workstation surface blow away, when avoiding next part to process, the workstation iron fillings are too much, influence the stability of centre gripping, and screw rod and movable block cooperation can carry out the centre gripping to the conveyer pipe, avoid producing vibrations in the in-process of vacuum gas transmission in the conveyer pipe and influence the effect of blowing clearance, the stability of the excessive influence centre gripping of iron fillings is avoided in such setting.

Description

Clamping mechanism for vertical numerical control lathe

Technical Field

The utility model relates to the technical field related to vertical numerical control lathes, in particular to a clamping mechanism for a vertical numerical control lathe.

Background

The vertical lathe belongs to large-scale mechanical equipment, is used for processing large-scale and heavy workpieces with large radial size, relatively small axial size and complex shape, such as cylindrical surfaces, end surfaces, conical surfaces, cylindrical holes, conical holes and the like of various workpieces, can be used for processing threads, spherical surfaces, profiling, milling, grinding and the like by means of additional devices, and can be generally divided into single column type and double column type, the vertical lathe is different from the common lathe in that the main shaft of the vertical lathe is vertical, which is equivalent to the common lathe which is vertically erected, and because the workbench of the vertical lathe is in a horizontal position, the vertical lathe is suitable for processing heavy parts with large diameter and short length, the vertical numerical control lathe needs to use a clamping mechanism to clamp the parts in the processing process, and can generate a plurality of scrap iron in the processing process, and needs to be cleaned in time to avoid influencing the part processing.

The existing vertical numerically controlled lathe clamping mechanism has the problems that scrap iron is not little on a workbench in the processing process of each time, and the height of the workpiece is uneven in the processing process of placing the workpiece on the workbench, so that the clamping effect on the workpiece can be influenced, and the processing efficiency can be influenced, so that the clamping mechanism for the vertical numerically controlled lathe is required to be provided.

Disclosure of utility model

The utility model aims to provide a clamping mechanism for a vertical numerical control lathe, so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a fixture for vertical numerical control lathe, includes the base, the inside of base is provided with driving motor, driving motor's top fixed mounting has the transfer line, the upper end fixed mounting of transfer line has the workstation, the spout has all been seted up to one side of workstation, the inside swing joint of spout has the slider, one side of slider is provided with the cylinder, the top fixed mounting of slider has the connecting block, one side of base is provided with the link, the top of link is provided with the air pump, one side of air pump is provided with the conveyer pipe, the one end of conveyer pipe is provided with the shower nozzle, the top fixed mounting of link has the support, one side swing joint of support has the screw rod, the one end of screw rod is provided with the movable block.

Preferably, the workbench forms a rotary structure with the base through a transmission rod, and the central line of the transmission rod coincides with the central line of the workbench.

Preferably, the connecting block and the workbench form a sliding structure through a sliding block, and the sliding blocks are arranged on the workbench at equal intervals.

Preferably, the sliding block and the workbench form a telescopic structure through an air cylinder, and the air cylinder is arranged on the workbench at equal intervals.

Preferably, the outside of connecting block is provided with the clamp, one side of clamp runs through there is the bolt, the one end swing joint of bolt has the nut, clamp splice is fixed mounting on one side of the clamp.

Preferably, the clamp is in threaded connection with the connecting block through a bolt, and the bolt and the nut are matched for use.

Preferably, the movable block and the bracket form a telescopic structure through a screw rod, and the screw rod is symmetrically arranged by the central axis of the bracket.

Compared with the prior art, the utility model has the beneficial effects that:

1. This a fixture for vertical numerical control lathe, through workstation, the air pump, the conveyer pipe, the shower nozzle, the setting of support, screw rod and movable block, during the part processing, the workstation surface can remain a lot of iron fillings, the iron fillings too much can influence the part and put, but also can the centre gripping unevenness lead to the condition of part damage to take place, through the setting of air pump, in utilizing the conveyer pipe to transmit the shower nozzle through blowing out vacuum gas, blow away the iron fillings on the workstation surface, during avoiding next part processing, the workstation iron fillings too much, influence the stability of centre gripping, and screw rod and movable block cooperation can carry out the centre gripping to the conveyer pipe, avoid producing the effect that the vibrations influence the clearance of blowing at the in-process of vacuum gas transmission in the conveyer pipe, such setting avoids the iron fillings too much to influence the stability of centre gripping;

2. According to the clamping mechanism for the vertical numerical control lathe, through the arrangement of the workbench, the sliding chute, the sliding block, the air cylinder, the connecting block, the clamping hoop and the clamping block, clamping is needed in the part machining process, shaking in the machining process is avoided, the machining efficiency is influenced, the sliding block is pushed to clamp the machined part through the arrangement of the air cylinder, the sliding chute on the workbench slides through the arrangement of the air cylinder, the telescopic stability is improved, and the practicability is improved through the arrangement;

3. This a fixture for vertical numerical control lathe, through the setting of connecting block, clamp, bolt, nut and clamp splice, when the part according to different processing, need dismantle the clamp splice and change, thereby satisfy the user to the demand of centre gripping part, through the setting of clamp, can dismantle the clamp splice and change, thereby can change different clamp splice according to user's demand, the setting of clamp simultaneously, can also adjust the height on the connecting block, adjust the centre gripping according to the height of different parts, such setting satisfies the demand of not passing through the part centre gripping.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a rotary structure of a table according to the present utility model;

FIG. 3 is a schematic view of a slider according to the present utility model;

FIG. 4 is a schematic structural view of the clip of the present utility model;

fig. 5 is a schematic structural view of the air pump of the present utility model.

In the figure: 1. a base; 2. a driving motor; 3. a transmission rod; 4. a work table; 5. a chute; 6. a slide block; 7. a cylinder; 8. a connecting block; 9. a clamp; 10. a bolt; 11. a screw cap; 12. clamping blocks; 13. a connecting frame; 14. an air pump; 15. a delivery tube; 16. a spray head; 17. a bracket; 18. a screw; 19. a movable block.

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.

Referring to fig. 1-5, the present utility model provides the following technical solutions: the utility model provides a fixture for vertical numerical control lathe, including base 1, the inside of base 1 is provided with driving motor 2, driving motor 2's top fixed mounting has transfer line 3, the upper end fixed mounting of transfer line 3 has workstation 4, spout 5 has all been seted up to one side of workstation 4, the inside swing joint of spout 5 has slider 6, one side of slider 6 is provided with cylinder 7, slider 6's top fixed mounting has connecting block 8, one side of base 1 is provided with link 13, link 13's top is provided with air pump 14, one side of air pump 14 is provided with conveyer pipe 15, the one end of conveyer pipe 15 is provided with shower nozzle 16, link 13's top fixed mounting has support 17, one side swing joint of support 17 has screw 18, the one end of screw 18 is provided with movable block 19.

In this embodiment, the workbench 4 forms a rotating structure with the base 1 through the transmission rod 3, the center line of the transmission rod 3 coincides with the center line of the workbench 4, and the workbench 4 is driven to rotate through the cooperation between the driving motor 2 and the transmission rod 3, so that parts can be conveniently machined in the rotating process.

In this embodiment, the connecting block 8 forms a sliding structure with the workbench 4 through the sliding blocks 6, the sliding blocks 6 are arranged on the workbench 4 at equal intervals, the sliding grooves 5 on the workbench 4 slide, and the stability of expansion and contraction is improved.

In this embodiment, the sliding block 6 and the workbench 4 form a telescopic structure through the air cylinder 7, the air cylinder 7 is arranged on the workbench 4 at equal intervals, and the clamping blocks 12 on the sliding block 6 and the connecting block 8 are pushed to clamp the machined parts through the arrangement of the air cylinder 7.

According to the embodiment, the clamp 9 is arranged outside the connecting block 8, the bolt 10 penetrates through one side of the clamp 9, the nut 11 is movably connected to one end of the bolt 10, the clamping block 12 is fixedly arranged on one side of the clamp 9, and the clamping can be adjusted and carried out on parts with different heights through the arrangement of the clamp 9, so that the parts with different heights are met.

In this embodiment, the clamp 9 is in threaded connection with the connecting block 8 through the bolt 10, the bolt 10 is matched with the nut 11 for use, the stability of the clamp 9 is enhanced through the arrangement of the bolt 10 and the nut 11, and meanwhile, the clamp blocks 12 with different replacement can be detached.

In this embodiment, the movable block 19 forms a telescopic structure with the bracket 17 through the screw 18, the screw 18 is symmetrically arranged with the central axis of the bracket 17, and the conveying pipe 15 can be clamped through the cooperation between the screw 18 and the movable block 19, so that the effect that the blowing cleaning is affected by vibration generated in the process of vacuum gas transmission in the conveying pipe 15 is avoided.

Working principle: when the clamping mechanism for the vertical numerical control lathe is used, an external power supply is firstly connected, then the air pump 14 switch is turned on, air blown out from the air pump 14 is transmitted into the spray head 16 from the conveying pipe 15, the surface of the workbench 4 is cleaned, scrap iron on the workbench 4 is blown out, after the scrap iron is blown out, the air pump 14 switch is turned off, parts to be machined are placed in the middle of the workbench 4, then the air cylinder 7 is turned on, air pressure is increased through the piston, then the air pressure transmission converts the pressure of compressed air into mechanical energy, the driving mechanism linearly clamps the sliding block 6 in the sliding groove 5 formed above the workbench 4, the clamping hoop 9 and the clamping block 12 are driven to clamp the machined parts in the telescopic process, after clamping and fixing, the air cylinder 7 switch is turned off, then the driving motor 2 switch is turned on, when current passes through a motor coil, a magnetic field is generated, a rotor of the motor generates magnetic force, thereby generating a rotating force to drive the transmission rod 3 and the workbench 4 to rotate, at the moment, parts can be machined, after machining, the driving motor 2 switch is turned off, the clamping motor 12 is turned off, the parts are taken out from the workbench 12, and the parts are cut off, when the parts are machined, and the surface of the machine is not required to be machined, and the machine is arranged on the workbench 4, and the surface is not required to be machined, and the machine is powered by the machine, and the machine is arranged. YE2-132S-4, the model of the cylinder 7 is: SC32-63, the air pump 14 has the following model: JYCQB-08, the use process of the clamping mechanism for the vertical numerical control lathe is completed.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a fixture for vertical numerical control lathe, includes base (1), its characterized in that: the inside of base (1) is provided with driving motor (2), the top fixed mounting of driving motor (2) has transfer line (3), the upper end fixed mounting of transfer line (3) has workstation (4), spout (5) have all been seted up to one side of workstation (4), the inside swing joint of spout (5) has slider (6), one side of slider (6) is provided with cylinder (7), the top fixed mounting of slider (6) has connecting block (8), one side of base (1) is provided with link (13), the top of link (13) is provided with air pump (14), one side of air pump (14) is provided with conveyer pipe (15), the one end of conveyer pipe (15) is provided with shower nozzle (16), the top fixed mounting of link (13) has support (17), one side swing joint of support (17) has screw rod (18), one end of screw rod (18) is provided with movable block (19).

2. The clamping mechanism for the vertical numerically controlled lathe according to claim 1, wherein the workbench (4) and the base (1) form a rotary structure through a transmission rod (3), and the center line of the transmission rod (3) is coincident with the center line of the workbench (4).

3. The clamping mechanism for the vertical numerically controlled lathe according to claim 1, wherein the connecting block (8) and the workbench (4) form a sliding structure through a sliding block (6), and the sliding blocks (6) are arranged on the workbench (4) at equal intervals.

4. The clamping mechanism for the vertical numerically controlled lathe according to claim 1, wherein the sliding block (6) and the workbench (4) form a telescopic structure through the air cylinder (7), and the air cylinder (7) is arranged on the workbench (4) at equal intervals.

5. The clamping mechanism for the vertical numerically controlled lathe according to claim 1, wherein a clamp (9) is arranged outside the connecting block (8), a bolt (10) penetrates through one side of the clamp (9), one end of the bolt (10) is movably connected with a nut (11), and a clamping block (12) is fixedly arranged on one side of the clamp (9).

6. Clamping mechanism for a vertical numerically controlled lathe according to claim 5, characterized in that the clamp (9) is screwed with the connecting block (8) by means of a bolt (10), the bolt (10) being used in cooperation with a nut (11).

7. The clamping mechanism for the vertical numerically controlled lathe according to claim 1, wherein the movable block (19) and the bracket (17) form a telescopic structure through a screw rod (18), and the screw rod (18) is symmetrically arranged on the central axis of the bracket (17).