CN217393777U - Precise numerical control lathe moving device - Google Patents

Abstract

The utility model discloses an accurate numerical control lathe mobile device relates to mobile device technical field, including bottom plate and lifter plate, the lifter plate activity sets up directly over the bottom plate, the dead slot has been seted up to the left end of bottom plate bottom, the rotation of dead slot inside is connected with the transmission shaft, both ends all run through out the bottom plate and install the drive wheel around the transmission shaft, the right flank of dead slot inside rotates and is connected with and is used for driving the transmission shaft and carries out the pivoted drive shaft, four edges of bottom plate all scarf joint there is electronic jar, four edges of lifter plate bottom meet with the top of four electronic jars respectively, the locating piece has all been welded at both ends about the lifter plate upper surface. The driving shaft is arranged at the bottom of the bottom plate, so that the moving device can move in an electric mode, and after the numerical control lathe moves to a required place, the moving device can be drawn out from the bottom of the numerical control lathe, so that the moving device can be used on other numerical control lathes.

Description

Precise numerical control lathe moving device

Technical Field

The utility model relates to a mobile device technical field especially relates to an accurate numerical control lathe mobile device.

Background

A numerically controlled lathe is one of widely used numerically controlled machines, and the numerically controlled machine automatically processes a workpiece according to a machining program programmed in advance. At present, most of numerically controlled lathes are directly placed on the ground without a moving device, so that the numerically controlled lathes are troublesome to move if needed.

The utility model discloses a utility model with publication number CN214720617U in the existing patent, which discloses a stability moving device for a numerical control lathe, comprising a base, wherein a moving component is fixedly connected with the lower end face of the base, the moving component comprises a fixed column, a universal wheel, a supporting plate, a threaded column, a fixed plate, a fixed cylinder, a handle and a mounting hole, the fixed column is fixedly connected with the upper end of the fixed plate, the mounting hole is arranged on the upper end face of the fixed plate, the inner wall of the mounting hole is fixedly connected with the fixed cylinder, the threaded column is connected with the internal thread of the fixed cylinder, and the upper end and the lower end of the threaded column are fixedly connected with the handle and the supporting plate; the utility model can move the numerically controlled lathe through the moving component, but when the numerically controlled lathe is moved, the numerically controlled lathe is pushed to move by manpower, and the movement is time-consuming and labor-consuming;

the utility model with the publication number of CN212144524U in the prior patent discloses a lathe moving device, which comprises a moving device and a damping bag, wherein the moving device comprises a track, a tensioning wheel and a driving wheel, the tensioning wheel is arranged in the track, the tensioning wheel is connected with the driving wheel through a wheel carrier, a bearing wheel is arranged between the tensioning wheel and the driving wheel, the moving device is provided with a motor, a lathe is loaded above the moving device through a bearing plate, and the damping bag is arranged between the lathe and the moving device; the utility model can move the lathe in an electric mode, and saves time and labor during movement, but the moving device and the lathe are of an integrated structure, and are difficult to be separated from the lathe and used on other lathes, so that the use cost is too high;

therefore, a precise numerical control lathe moving device is provided to solve the technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides an accurate numerical control lathe mobile device to solve the current numerical control lathe mobile device that above-mentioned background art provided, the manpower promotes and wastes time and energy, and the mobile device is difficult to the problem of separation and use on other lathes.

In order to realize the purpose, the utility model adopts the following technical scheme:

a precise numerical control lathe moving device comprises a bottom plate and a lifting plate, wherein the lifting plate is movably arranged right above the bottom plate;

the left end of the bottom plate is provided with a hollow groove, a transmission shaft is rotatably connected inside the hollow groove, the front end and the rear end of the transmission shaft penetrate through the bottom plate and are provided with driving wheels, the right side surface inside the hollow groove is rotatably connected with a driving shaft for driving the transmission shaft to rotate, and four corners of the bottom plate are respectively embedded with an electric cylinder;

four edges of lifter plate bottom respectively with four the top of electronic jar meets, both ends all weld the locating piece about the lifter plate upper surface.

Furthermore, a driven bevel gear is installed outside the transmission shaft, a driving bevel gear is installed at the left end of the driving shaft, and the driving bevel gear is located on the right side of the driven bevel gear and meshed with the driven bevel gear.

Furthermore, a motor located on the right side of the empty groove is installed at the left end inside the bottom plate, and the right end of the driving shaft is connected with a power output end of the motor.

Furthermore, the right end of the bottom plate bottom is provided with a guide wheel, and the middle part of the bottom plate bottom is provided with a storage battery.

Furthermore, the right side of the bottom plate is hinged with a pull rod, and the top of the pull rod is embedded with an operating switch.

Furthermore, a rubber pad is bonded on the upper surface of the lifting plate and is paved on the periphery of the positioning block.

Furthermore, the upper surfaces of the two positioning blocks are respectively embedded with an electromagnetic chuck.

Compared with the prior art, the utility model discloses the beneficial effect who realizes:

the bottom of the bottom plate is provided with the driving shaft, the motor can drive the driving shaft to rotate, the rotating driving shaft can push the transmission shaft to rotate through the meshing of the driving bevel gear and the driven bevel gear, so that the rotating transmission shaft can drive the two driving wheels to rotate, the two rotating driving wheels are matched with the guide wheel, and the bottom plate can move;

by arranging the lifting plate capable of lifting up and down above the bottom plate, when the moving device is placed at the bottom of the numerical control lathe, the lifting plate can lift up and lift the numerical control lathe, the lifted numerical control lathe can be far away from the bottom surface, and then the moving device can move to drive the numerical control lathe to move, so that the numerical control lathe can be moved and transported more simply and conveniently in such a way; and after the numerical control lathe moves to a required place, the lifting plate descends and resets, the numerical control lathe falls on the ground again, and then the moving device can be drawn out from the bottom of the numerical control lathe, so that the moving device can be used on other numerical control lathes.

Drawings

Fig. 1 is a schematic three-dimensional structure of the present invention.

Fig. 2 is a schematic view of the front internal structure of the present invention.

Fig. 3 is a partially enlarged view of a portion a of fig. 2 according to the present invention.

Fig. 4 is a cross-sectional view taken along line B-B' of fig. 2 according to the present invention.

Fig. 5 is a state diagram of the present invention in use as shown in fig. 4.

In FIGS. 1-5: 1-bottom plate, 101-empty groove, 2-lifting plate, 3-transmission shaft, 4-driving wheel, 5-driven bevel gear, 6-driving shaft, 7-driving bevel gear, 8-motor, 9-storage battery, 10-guide wheel, 11-electric cylinder, 12-pull rod, 13-positioning block, 14-electromagnetic chuck, 15-rubber pad and 16-operation switch.

Detailed Description

Please refer to fig. 1 to 5:

the utility model provides a precise numerical control lathe moving device, including bottom plate 1 and lifter plate 2, the activity of lifter plate 2 sets up directly over bottom plate 1, the left end of bottom plate 1 bottom has seted up dead slot 101, the rotation in dead slot 101 is connected with transmission shaft 3, both ends all run through out bottom plate 1 and install drive wheel 4 around transmission shaft 3, the right flank rotation in dead slot 101 is connected with and is used for driving transmission shaft 3 to carry out pivoted drive shaft 6, all rabbeted electric cylinder 11 in four edges of bottom plate 1, four edges of lifter plate 2 bottom are connected with the top of four electric cylinders 11 respectively, locating piece 13 has all been welded at both ends about lifter plate 2 upper surface;

specifically, a driven bevel gear 5 is installed outside a transmission shaft 3, a driving bevel gear 7 is installed at the left end of a driving shaft 6, the driving bevel gear 7 is located on the right side of the driven bevel gear 5 and meshed with the driven bevel gear 5, a motor 8 located on the right side of an empty groove 101 is installed at the left end inside a bottom plate 1, the right end of the driving shaft 6 is connected with a power output end of the motor 8, a guide wheel 10 is installed at the right end of the bottom plate 1, a storage battery 9 is installed in the middle of the bottom plate 1, a pull rod 12 is hinged to the right side surface of the bottom plate 1, an operating switch 16 is embedded in the top of the pull rod 12, a rubber pad 15 is bonded on the upper surface of a lifting plate 2, the rubber pad 15 is laid on the periphery of positioning blocks 13, and electromagnetic chucks 14 are embedded in the upper surfaces of the two positioning blocks 13;

the motor 8, the electric cylinder 11 and the electromagnetic chuck 14 are all connected with the storage battery 9 through leads, so that the storage battery 9 can provide power for the motor 8, the electric cylinder 11 and the electromagnetic chuck 14, and the motor 8, the electric cylinder 11 and the electromagnetic chuck 14 are all connected with the operating switch 16 through leads, so that the motor 8, the electric cylinder 11 and the electromagnetic chuck 14 can be switched through the operating switch 16;

when the motor 8 is started, the motor 8 can drive the driving shaft 6 to rotate, the rotating driving shaft 6 can drive the transmission shaft 3 to rotate by meshing the driving bevel gear 7 and the driven bevel gear 5, then the rotating transmission shaft 3 can drive the two driving wheels 4 to rotate, the two rotating driving wheels 4 are matched with the guide wheel 10, so that the bottom plate 1 can move on the ground, and the bottom plate 1 can be conveniently pulled and guided to move by arranging the pull rod 12;

the electric cylinder 11 can be stretched, so that the telescopic electric cylinder 11 can push the lifting plate 2 to lift up and down, the bottom of the numerical control lathe is provided with a containing groove for placing a moving device, and the left side and the right side of the top of the containing groove are both provided with positioning grooves matched with the positioning blocks 13;

as shown in fig. 5, when the moving device is used, the moving device can be pushed into a containing groove at the bottom of the numerically controlled lathe, then the lifting plate 2 ascends, the two positioning blocks 13 are inserted into the corresponding positioning grooves, and meanwhile, the lifting plate 2 continues to ascend and descend, so that the numerically controlled lathe can be lifted upwards and away from the ground, the numerically controlled lathe can be stably parked on the lifting plate 2 through the matching of the positioning blocks 13 and the positioning grooves, and the electromagnetic chuck 14 is arranged on the positioning blocks 13, so that when the positioning blocks 13 are inserted into the positioning grooves, the electromagnetic chuck 14 can be electrified and generates magnetic force, so that the positioning blocks 13 and the bottom of the numerically controlled lathe are attracted together, the stability is further improved, and the shaking is reduced;

after the numerical control lathe is lifted by the lifting plate 2, the driving wheel 4 on the bottom plate 1 rotates to push the whole moving device to move, so that the numerical control lathe is conveyed, after the numerical control lathe moves to a required place, the lifting plate 2 descends to reset, the electromagnetic chuck 14 is powered off, the numerical control lathe falls on the ground again, then the moving device can be pulled out from the accommodating groove of the numerical control lathe, the pulled moving device can be used on other numerical control lathes of the same type, and other numerical control lathes of the same type can be conveyed by adopting the same mode.

In conclusion;

the driving shaft 6 is arranged at the bottom of the bottom plate 1, the motor 8 can drive the driving shaft 6 to rotate, the rotating driving shaft 6 is meshed with the driven bevel gear 5 through the driving bevel gear 7 to push the transmission shaft 3 to rotate, so that the rotating transmission shaft 3 can drive the two driving wheels 4 to rotate, the two rotating driving wheels 4 are matched with the guide wheel 10, the bottom plate 1 can be moved, and the moving device can be moved in an electric mode through the mode, so that the trouble of manual pushing is saved, and time and labor are saved;

through the lifter plate 2 that sets up can the oscilaltion in bottom plate 1's top, when the mobile device placed in numerical control lathe's bottom, lifter plate 2 can up rise and up lift numerical control lathe, numerical control lathe after lifting up alright keep away from the bottom surface, the mobile device removes alright drive numerical control lathe after that and removes, thereby through this kind of mode, make numerical control lathe's removal and transport simple and convenient more, and after numerical control lathe removed required place, lifter plate 2 descends and resets, numerical control lathe then falls on subaerial again, later mobile device alright follow numerical control lathe's bottom take out, with this can make the mobile device use on other numerical control lathes.

Claims (7)

1. The utility model provides a precision numerical control lathe mobile device, includes bottom plate (1) and lifter plate (2), lifter plate (2) activity sets up directly over bottom plate (1), its characterized in that:

the left end of the bottom plate (1) is provided with a hollow groove (101), the hollow groove (101) is connected with a transmission shaft (3) in a rotating mode, the front end and the rear end of the transmission shaft (3) penetrate through the bottom plate (1) and are provided with driving wheels (4), the right side face of the interior of the hollow groove (101) is connected with a driving shaft (6) in a rotating mode and used for driving the transmission shaft (3) to rotate, and four corners of the bottom plate (1) are all embedded with electric cylinders (11);

four edges of lifter plate (2) bottom respectively with four the top of electronic jar (11) meets, all welding of both ends has locating piece (13) about lifter plate (2) upper surface.

2. The precision numerically controlled lathe moving device according to claim 1, wherein: the transmission shaft is characterized in that a driven bevel gear (5) is installed outside the transmission shaft (3), a driving bevel gear (7) is installed at the left end of the driving shaft (6), and the driving bevel gear (7) is located on the right side of the driven bevel gear (5) and meshed with the driven bevel gear (5).

3. The precision numerically controlled lathe moving device according to claim 1, wherein: the left end of bottom plate (1) inside is installed and is located motor (8) on dead slot (101) right side, the right-hand member of drive shaft (6) meets with the power take off end of motor (8).

4. The precision numerically controlled lathe moving device according to claim 1, wherein: the right-hand member of bottom plate (1) bottom installs leading wheel (10), the mid-mounting of bottom plate (1) bottom has battery (9).

5. The precision numerically controlled lathe moving device according to claim 1, wherein: the right side face of the bottom plate (1) is hinged with a pull rod (12), and the top of the pull rod (12) is embedded with an operating switch (16).

6. The precision numerically controlled lathe moving device according to claim 1, wherein: the rubber pads (15) are bonded to the upper surfaces of the lifting plates (2), and the rubber pads (15) are paved on the peripheries of the positioning blocks (13).

7. The precision numerically controlled lathe moving device according to claim 1, wherein: the upper surfaces of the two positioning blocks (13) are respectively embedded with an electromagnetic chuck (14).

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