CN205763878U - The chuck lathe that a kind of production efficiency is high - Google Patents

Abstract

The utility model discloses the chuck lathe that a kind of production efficiency is high, relate to lathe-techniques field.The chuck lathe that this production efficiency is high, including base, the top of described base is sequentially installed with cabinet from left to right, slide rail and gripper shoe, the intracavity bottom of described cabinet is fixedly connected with cushion pad, the top of described cushion pad is installed with the first motor, the output shaft of described first motor is fixedly connected with rotation bar by shaft coupling, described rotation bar is rotationally connected with the clutch shaft bearing being located on cabinet inwall away from one end of the first motor, it is fixedly connected with the first gear on described rotation bar, the inwall side of described cabinet is fixedly connected with the second bearing, described second bearing inner sleeve is connected to rotary shaft, the second gear it is fixedly connected with in described rotary shaft, and second gear and the first gear engagement.The chuck lathe that this production efficiency is high, solves chuck poor effect when clamping, causes the problem that the productivity ratio of product declines.

Description

The chuck lathe that a kind of production efficiency is high

Technical field

This utility model relates to lathe-techniques field, the chuck lathe that a kind of production efficiency is high.

Background technology

Chuck is for clamping the machinery of workpiece on lathe.Utilize the radial direction of the movable jaw being distributed on chuck body Mobile, Workpiece clamping and the machine tool accessories of location.Chuck is typically by chuck body, movable jaw and claw drive mechanism three part Composition.Minimum 65 millimeters of chuck body diameter, maximum up to 1500 millimeters, there are through hole in central authorities, in order to by workpiece or bar；The back of the body There are cylinder or short taper profile structure in portion, is connected with machine tool chief axis end directly or by ring flange.Chuck is typically mounted on car Use on bed, cylindrical grinder and internal grinder, it is possible to coordinate with various indexing means, for milling machine and drilling machine.

Existing chuck is poor effect when clamping, causes the productivity ratio of product to decline, not only causes the processing of product not Qualified, and reduce work efficiency.

Utility model content

(1) solve the technical problem that

For the deficiencies in the prior art, this utility model provides the chuck lathe that a kind of production efficiency is high, solves card Dish is poor effect when clamping, causes the problem that the productivity ratio of product declines.

(2) technical scheme

For realizing object above, this utility model is achieved by the following technical programs: the card that a kind of production efficiency is high Jiggering bed, including base, the top of described base is sequentially installed with cabinet, slide rail and gripper shoe from left to right, described cabinet Intracavity bottom is fixedly connected with cushion pad, and the top of described cushion pad is installed with the first motor, described first motor defeated Shaft is fixedly connected with rotation bar by shaft coupling, described rotation bar away from the first motor one end be located on cabinet inwall Clutch shaft bearing is rotationally connected, and described rotation bar is fixedly connected with the first gear, and the inwall side of described cabinet is fixedly connected with Second bearing, described second bearing inner sleeve is connected to rotary shaft, and described rotary shaft is fixedly connected with the second gear, and the second gear Engaging with the first gear, described rotary shaft runs through the opposite side of cabinet away from one end of the second bearing and extends to outside cabinet Portion, described rotary shaft extends to the one end outside cabinet and is fixedly connected with chuck, and the front surface of described cabinet is the most successively Being provided with motor speed measurement instrument, alarm and controller, described controller is connected by wire with the power supply of peripheral hardware.

Being provided with matched slide block in the track of described slide rail, the top of described slide block is fixedly connected with propelling dress Putting, described propulsion plant includes housing, is fixedly connected with the second motor, in the both sides of described housing bottom the inwall of described housing Wall is arranged with the 3rd bearing, is connected with swingle, the output shaft of described second motor between two described 3rd bearings Being in transmission connection with swingle by belt, on described swingle, fixed cover is connected to the first screw mandrel, and the top of described housing offers Through hole, described first screw mandrel runs through through hole and extends to the outside of housing, described propulsion plant near the side of chuck to Under be sequentially provided with clamp and distance-sensor.

The top of described gripper shoe is installed with transverse slat, and the bottom side of described transverse slat is fixedly connected with pillar, described The bottom of pillar is fixedly connected with the 4th bearing, and described 3rd bearing is connected with the second screw mandrel, and the second screw mandrel is another One end is flexibly connected with the 5th bearing set on the supporting plate, and described second screw mandrel and the first screw mandrel are equipped with.

Described motor speed measurement instrument and the outfan of distance-sensor are connected with the input of controller, described controller Outfan input with the first motor, the second motor and alarm respectively be connected.

Preferably, the length of described second screw mandrel is more than the length of slide rail, and the left end of slide rail is positioned at the surface of chuck.

Preferably, described chuck and clamp are positioned on same level line.

Preferably, being fixedly connected with Damping cushion bottom the inwall of described cushion pad, the top of described Damping cushion is fixed Connecting has dividing plate, the top of described dividing plate to be provided with shock-absorbing ball.

Preferably, described Damping cushion and shock-absorbing ball are the most equidistantly located at the inside of cushion pad.

(3) beneficial effect

This utility model provides the chuck lathe that a kind of production efficiency is high.Possess following beneficial effect:

(1), chuck lathe that this production efficiency is high, by the setting to cabinet inside, under the effect of the first motor, turn Lever, clutch shaft bearing, the first gear, the second bearing, rotary shaft and the second gear cooperate, and have reached the effect of the rotation to chuck Really, simultaneously to motor speed measurement instrument and the setting of distance-sensor, under the effect of controller, coordinate propulsion plant, reach Processing effect to holder, improves the production efficiency of product.

(2), chuck lathe that this production efficiency is high, the setting of cushion pad, in the effect of Damping cushion, dividing plate and shock-absorbing ball Under, reach the protected effect to the first motor, improve work efficiency further.

Accompanying drawing explanation

Fig. 1 is this utility model structural representation；

Fig. 2 is the top view of this utility model structure；

Fig. 3 is the internal structure schematic diagram of this utility model cabinet；

Fig. 4 is the structural representation of this utility model propulsion plant；

Fig. 5 is the structural representation of this utility model cushion pad；

Fig. 6 is this utility model structural principle block diagram；

In figure, 1 base, 2 cabinets, 3 slide rails, 4 gripper shoes, 5 cushion pads, 6 first motors, 7 rotate bars, 8 clutch shaft bearings, 9 First gear, 10 second bearings, 11 rotary shafts, 12 second gears, 13 chucks, 14 motor speed measurement instrument, 15 alarms, 16 controls Device processed, 17 slide blocks, 18 propulsion plants, 181 housings, 182 second motors, 183 the 3rd bearings, 184 swingles, 185 first screw mandrels, 19 clamps, 20 distance-sensor, 21 transverse slats, 22 pillars, 23 the 4th bearings, 24 second screw mandrels, 25 the 5th bearings, 26 cushions Ferrum, 27 dividing plates, 28 shock-absorbing balls.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under making creative work premise The every other embodiment obtained, broadly falls into the scope of this utility model protection.

This utility model embodiment provides the chuck lathe that a kind of production efficiency is high, as Figure 1-3, including base 1, the end The top of seat 1 is sequentially installed with cabinet 2, slide rail 3 and gripper shoe 4 from left to right, and the intracavity bottom of cabinet 2 is fixedly connected with buffering Pad 5, is fixedly connected with Damping cushion 26 bottom the inwall of cushion pad 5, the top of Damping cushion 26 is fixedly connected with dividing plate 27, every The top of plate 27 is provided with shock-absorbing ball 28, Damping cushion 26 and shock-absorbing ball 28 and is the most equidistantly located at the inside of cushion pad 5, cushion pad 5 Top is installed with the first motor 6, and the output shaft of the first motor 6 is fixedly connected with rotation bar 7 by shaft coupling, rotates bar 7 One end away from the first motor 6 is rotationally connected with the clutch shaft bearing 8 being located on cabinet 2 inwall, rotates and is fixedly connected with the on bar 7 One gear 9, the inwall side of cabinet 2 is fixedly connected with the second bearing 10, is socketed with rotary shaft 11, rotary shaft in the second bearing 10 Being fixedly connected with the second gear 12 on 11, and the second gear 12 engages with the first gear 9, rotary shaft 11 is away from the second bearing 10 One end is run through the opposite side of cabinet 2 and extends to the outside of cabinet 2, and it is fixing even that rotary shaft 11 extends to the one end outside cabinet 2 Being connected to chuck 13, the front surface of cabinet 2 is sequentially provided with motor speed measurement instrument 14, alarm 15 and controller 16 from top to bottom, Controller 16 is connected by wire with the power supply of peripheral hardware.

As shown in Figure 1 and Figure 4, being provided with matched slide block 17 in the track of slide rail 3, the top of slide block 17 is fixing even Being connected to propulsion plant 18, propulsion plant 18 includes housing 181, is fixedly connected with the second motor 182 bottom the inwall of housing 181, The both sides inwall of housing 181 is arranged with the 3rd bearing 183, is connected with swingle 184 between two the 3rd bearings 183, The output shaft of the second motor 182 is in transmission connection with swingle 184 by belt, and on swingle 184, fixed cover is connected to the first screw mandrel 185, the top of housing 181 offers through hole, and the first screw mandrel 185 runs through through hole and extends to the outside of housing 181, propulsion plant 18 are sequentially provided with clamp 19 and distance-sensor 20 from top to bottom near the side of chuck 13, and chuck 13 is positioned at same with clamp 19 On horizontal line.

As it is shown in figure 1, the top of gripper shoe 4 is installed with transverse slat 21, the bottom side of transverse slat 21 is fixedly connected with props up Post 22, the bottom of pillar 22 is fixedly connected with the 4th bearing 23, and the 3rd bearing 183 is connected with the second screw mandrel 24, and The other end of two screw mandrels 24 is flexibly connected with the 5th bearing 25 being located in gripper shoe 4, and the length of the second screw mandrel 24 is more than slide rail 3 Length, and the left end of slide rail 3 is positioned at the surface of chuck 13, and the second screw mandrel 24 is equipped with the first screw mandrel 185.

As shown in Figure 6, the outfan of motor speed measurement instrument 14 and distance-sensor 20 connects with the input of controller 16 Connecing, the outfan of controller 16 input with first motor the 6, second motor 182 and alarm 15 respectively is connected.

During work, when, motor speed measurement instrument 14 detects when the rotating speed of the first motor 6 and the second motor 182 is too fast, report Alert device 15 sends alarm and slows down, and when distance-sensor 20 senses that clamp 19 arrives chuck 13, alarm 15 sends police Report, reminds staff, improves working effect.

In sum, the chuck lathe that this production efficiency is high, by the setting within cabinet 2, at the work of the first motor 6 Under with, rotate bar 7, clutch shaft bearing the 8, first gear the 9, second bearing 10, rotary shaft 11 and the second gear 12 and cooperate, reach Rotating effect to chuck 13, simultaneously to motor speed measurement instrument 14 and the setting of distance-sensor 20, at controller 16 Under effect, coordinate propulsion plant 18, reached the processing effect to holder, improve the production efficiency of product.

Further, the setting of cushion pad 5, under the effect of Damping cushion 26, dividing plate 27 and shock-absorbing ball 28, reach first The protected effect of motor 6, improves work efficiency further.

Embodiment the most of the present utility model, for the ordinary skill in the art, It is appreciated that in the case of without departing from principle of the present utility model and spirit and these embodiments can be carried out multiple change, repair Changing, replace and modification, scope of the present utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. the chuck lathe that production efficiency is high, including base (1), the top of described base (1) is installed the most successively There are cabinet (2), slide rail (3) and gripper shoe (4), it is characterised in that the intracavity bottom of described cabinet (2) is fixedly connected with cushion pad (5), the top of described cushion pad (5) is installed with the first motor (6), and the output shaft of described first motor (6) passes through shaft coupling Device be fixedly connected with rotation bar (7), described rotation bar (7) away from the first motor (6) one end be located on cabinet (2) inwall Clutch shaft bearing (8) is rotationally connected, and described rotation bar (7) is fixedly connected with the first gear (9), the inwall one of described cabinet (2) Side is fixedly connected with the second bearing (10), is socketed with rotary shaft (11), in described rotary shaft (11) in described second bearing (10) Being fixedly connected with the second gear (12), and the second gear (12) engages with the first gear (9), described rotary shaft (11) is away from second One end of bearing (10) is run through the opposite side of cabinet (2) and extends to the outside of cabinet (2), and described rotary shaft (11) extends to machine One end of case (2) outside is fixedly connected with chuck (13), and the front surface of described cabinet (2) is sequentially provided with motor speed from top to bottom Measuring instrument (14), alarm (15) and controller (16), described controller (16) is connected by wire with the power supply of peripheral hardware；

Being provided with matched slide block (17) in the track of described slide rail (3), the top of described slide block (17) is fixedly connected with Propulsion plant (18), described propulsion plant (18) includes housing (181), is fixedly connected with bottom the inwall of described housing (181) Second motor (182), the both sides inwall of described housing (181) is arranged with the 3rd bearing (183), two described 3rd bearings (183) being connected with swingle (184) between, the output shaft of described second motor (182) is by belt and swingle (184) Being in transmission connection, the upper fixed cover of described swingle (184) is connected to the first screw mandrel (185), and the top of described housing (181) offers logical Hole, described first screw mandrel (185) runs through through hole and extends to the outside of housing (181), and described propulsion plant (18) is near chuck (13) side is sequentially provided with clamp (19) and distance-sensor (20) from top to bottom；

The top of described gripper shoe (4) is installed with transverse slat (21), and the bottom side of described transverse slat (21) is fixedly connected with props up Post (22), the bottom of described pillar (22) is fixedly connected with the 4th bearing (23), described 3rd bearing (183) is connected with Second screw mandrel (24), and the other end of the second screw mandrel (24) is flexibly connected with the 5th bearing (25) being located in gripper shoe (4), institute State the second screw mandrel (24) to be equipped with the first screw mandrel (185)；

The outfan of described motor speed measurement instrument (14) and distance-sensor (20) is connected with the input of controller (16), institute State the outfan of controller (16) input respectively with the first motor (6), the second motor (182) and alarm (15) to be connected.

The chuck lathe that a kind of production efficiency the most according to claim 1 is high, it is characterised in that: described second screw mandrel (24) Length more than the length of slide rail (3), and the left end of slide rail (3) is positioned at the surface of chuck (13).

The chuck lathe that a kind of production efficiency the most according to claim 1 is high, it is characterised in that: described chuck (13) and card Plate (19) is positioned on same level line.

The chuck lathe that a kind of production efficiency the most according to claim 1 is high, it is characterised in that: described cushion pad (5) Being fixedly connected with Damping cushion (26) bottom inwall, the top of described Damping cushion (26) is fixedly connected with dividing plate (27), described The top of dividing plate (27) is provided with shock-absorbing ball (28).

The chuck lathe that a kind of production efficiency the most according to claim 4 is high, it is characterised in that: described Damping cushion (26) With the inside that shock-absorbing ball (28) is the most equidistantly located at cushion pad (5).