CN219582299U - Machining feed mechanism - Google Patents

Abstract

A machining feeding mechanism comprises a bottom plate, a motor speed reducing mechanism, a power module, an electric telescopic rod, an electric linear sliding table, a power switch, a supporting plate and a bearing table; the electric linear sliding table is arranged on the bottom plate, the fixed plate is arranged on the sliding block of the electric linear sliding table, the lower ends of the plurality of sets of electric telescopic rods are arranged on the fixed plate, and the upper ends of the plurality of sets of electric telescopic rods and the lower ends of the supporting plates are respectively arranged together; the bearing table comprises a shell, an electric telescopic rod A and a push plate which are arranged together, the upper end of a motor speed reducing mechanism is arranged at the lower end of a supporting plate, a power output shaft of the motor speed reducing mechanism is led out upwards through an opening of the supporting plate, and the lower end of the shell and the upper end of the power output shaft are arranged together; the power module and the power switch are arranged in the element box and are electrically connected. The utility model discloses can control the plummer and rise or decline height, make things convenient for the staff to treat that the processing part is put processing equipment department or stock dump, bring convenience for the staff, reduce its working strength, and improved work efficiency.

Description

Machining feed mechanism

Technical Field

The utility model relates to the technical field of machining auxiliary equipment, in particular to a machining feeding mechanism.

Background

In the machining field, for example, a workpiece is turned, chipped and the like through a machine tool, then, for example, the workpiece is clamped on a workbench and then polished and welded, when hoisting or other equipment is not installed on site, the nearby workpiece to be machined is generally transferred from a raw material station to a machining station for machining through a manual mode (when some production areas are in cost consideration and the appearance of the machined workpiece is not very heavy, the mode of manually transferring the workpiece to the machining area is adopted), the mode can bring inconvenience to staff, the labor intensity of the staff is increased, and the working efficiency is correspondingly adversely affected. The inventor inputs keywords such as machine part transfer, machine part feeding and the like in the national institute of technology website and the patent retrieval website, and does not search the related technology close to the utility model.

Disclosure of Invention

In order to overcome the defects of the prior machining field, as no applicable workpiece transferring and feeding mechanism exists as described in the background, the utility model provides the machining feeding mechanism which can conveniently adjust the height of the bearing table under the combined action of related mechanisms, and a worker can relatively easily put a workpiece to be machined or a machined workpiece on the bearing table and then transfer the workpiece to a machining area or a finished product station, thereby bringing convenience to the worker, reducing the working strength of the worker and correspondingly improving the working efficiency.

The technical scheme adopted for solving the technical problems is as follows:

the machining feeding mechanism comprises a bottom plate, a motor speed reducing mechanism, a power module, an electric telescopic rod, an electric linear sliding table, a power switch and a supporting plate, and is characterized by also comprising a bearing table; the electric linear sliding table is arranged on the bottom plate, and the bottom plate is arranged between the raw material stacking area of the operation area and the processing equipment; the sliding block of the electric linear sliding table is provided with a fixed plate, the electric telescopic rods are provided with a plurality of sets, the lower ends of the plurality of sets of electric telescopic rods are arranged on the fixed plate, and the upper ends of the plurality of sets of electric telescopic rods and the lower ends of the supporting plates are respectively arranged together; the bearing table comprises a shell, an electric telescopic rod A and a push plate, wherein a baffle is arranged at the side end of the shell, the electric telescopic rod A is arranged at one side inside the shell, a guide groove is formed in the upper end of the shell, a connecting rod is arranged on a movable column of the electric telescopic rod A, and the lower end of the push plate is arranged at the upper end of the connecting rod; the supporting plate is provided with an opening, the upper end of the motor speed reducing mechanism is arranged at the lower end of the supporting plate, the power output shaft of the motor speed reducing mechanism is led out upwards through the opening of the supporting plate, and the lower end of the shell and the upper end of the power output shaft are arranged together; the power module and the power switch are arranged in the element box.

Further, the distance between the lower end of the push plate and the lower end of the inner side of the shell is smaller than the width of the guide groove in the left-right direction of the connecting rod.

Further, the push plate is higher than the inside of the shell, and the front end and the rear end of the push rod are spaced from the front end and the rear end in the shell.

Further, the outer diameter of the power output shaft of the motor speed reducing mechanism is smaller than the inner diameter of the middle part of the supporting plate.

Further, the number of sets of the electric linear sliding table is not limited, and multiple sets or one set of electric linear sliding table can be adopted.

The utility model has the beneficial effects that: the novel device is arranged between a raw material or finished product storage yard and processing equipment in an operation area, and a worker can reduce the height of a bearing table by controlling the heights of four sets of electric telescopic rods during feeding, so that the worker can conveniently put a workpiece to be processed or processed into a shell or take the workpiece out of the shell; after reaching the working station, the lifting height of the bearing table can be controlled, so that a worker can conveniently place the part to be processed at the processing equipment; this novel staff that has brought the facility has reduced its working strength, and has correspondingly improved work efficiency. In conclusion, the novel plastic has good application prospect.

Drawings

The utility model is further described below with reference to the drawings and examples.

FIG. 1 is an enlarged schematic view of the whole and part of the present utility model;

fig. 2 is a circuit diagram of the present utility model.

Detailed Description

The machining feeding mechanism comprises a bottom plate 1, a motor speed reducing mechanism M1, a power module A1, an electric telescopic rod M2, an electric linear sliding table M3, a power switch S1, a supporting plate 2 and a bearing table, wherein the motor speed reducing mechanism M1 is arranged on the bottom plate; the two sets of electric linear sliding tables M3 are arranged, the two sets of electric linear sliding tables M3 are transversely arranged on the bottom plate 1 through screw nuts at a certain distance from front to back, and the bottom plate 1 is arranged between a raw material or finished product storage yard and processing equipment in an operation area through the screw nuts; a rectangular fixing plate 3 is arranged on the sliding blocks of the two sets of electric linear sliding tables M3 through screw nuts, four sets of electric telescopic rods M2 are arranged, the lower ends of the cylinders of the four sets of electric telescopic rods M2 are respectively arranged on the fixing plate 3 through screw nuts, and the upper ends of the movable rods of the four sets of electric telescopic rods M2 and the periphery of the lower ends of the supporting plates 2 are arranged together through screw nuts; the bearing table comprises a hollow shell 4, an electric telescopic rod AM4 and a push plate 5, wherein a baffle 6 is welded at the front end, the rear end and the left side of the shell respectively, the electric telescopic rod AM4 is transversely distributed on the right side of the lower end of the middle part in the shell 4, a transversely distributed guide groove 7 is arranged in the middle part of the upper end of the shell 4 (the middle part of a connecting rod 8 is positioned in the guide groove), a connecting rod 8 is vertically welded at the front end of a movable column of the electric telescopic rod AM4, and the middle part of the lower end of the push plate 5 is welded at the upper end of the connecting rod 8; the middle part of the supporting plate 2 is provided with a hole, the upper end of a shell of the motor reducing mechanism M1 is arranged at the lower end of the middle part of the supporting plate 2 through a screw nut, a power output shaft of the motor reducing mechanism M is led out upwards through the hole of the supporting plate 2, and the middle part of the lower end of the shell 4 is arranged together through the screw nut and the upper end of the power output shaft; the power supply module A1 and the power supply switch S1 are arranged on a circuit board 4 in the element box, the element box 4 is arranged at the front left end of the bottom plate 1, the power supply input ends 1 and 2 pins of the power supply module A1 and the two poles of an alternating current 220V power supply are respectively connected through wires, and the power supply output ends 3 and 4 pins of the power supply module A1 and the power supply input ends 1 and 2 pins of the power supply switches S1, S2, S3 and S4 are respectively connected through wires; the power output ends 3, 4 pins and 5, 6 pins of the power switch S1 are respectively connected with the positive and negative positive power input ends of the electric linear sliding table M3 through wires; the power output ends 3, 4 pins and 5, 6 pins of the power switch S2 are respectively connected with the positive and negative positive power input ends of the electric telescopic rod M2 through wires; the power output ends 3, 4 pins and 5, 6 pins of the power switch S3 are respectively connected with the positive and negative positive power input ends of the electric telescopic rod AM4 through wires; the power output ends 3 and 4 pins of the power switch S4 are respectively connected with the power input end of the motor reducing mechanism M1 through wires.

As shown in fig. 1 and 2, the distance between the lower end of the push plate 5 and the lower end of the inner side of the housing 4 is 2 mm, and the left-right width of the connecting rod 8 is smaller than the width of the guide groove 7 by 2 mm. The height of the push plate 5 is 5 cm greater than the height of the housing 4, and the distance between the front and rear ends of the push plate 5 and the front and rear ends in the housing 4 is 3 mm. The outer diameter of the power output shaft of the motor reducing mechanism M1 is smaller than the inner diameter of the middle part of the supporting plate 2. The number of sets of the electric linear sliding table M3 is not limited to two, and a plurality of sets or one set can be adopted.

As shown in fig. 1 and 2, after the 220V ac power enters the power input end of the power module A1, the 3 and 4 pins of the power module A1 output stable dc 36V power to enter the power input ends of the power switches S1, S2, S3 and S4, and the power switches S1, S2, S3 and S4 obtain power. This novel raw materials of installing in the operation region or finished product stack between region and the processing equipment, the staff is through stirring switch S1 to the left or right, switch S1' S1, 2 feet and 3, 4 feet or 5, 6 feet communicate respectively, like this, after the positive negative or positive dipolar power input of two sets of electronic sharp slip table M3 gets the electricity, its sliding block can drive the left and right motion such as fixed plate 3 and casing respectively, come and go between product after processing and put region and the processing equipment before processing product or processing, after in place, switch S1 is closed. During feeding, a worker dials the handle of the power switch S2 leftwards, the 1, 2 pins, 3 and 4 pins of the power switch S2 are respectively communicated, so that the positive and negative electrode power input ends of the four sets of electric telescopic rods M2 are powered on, the movable columns of the four sets of electric telescopic rods M2 are lowered to the height, the shell 4 is lowered to the height, the worker can lift the workpiece before processing into the shell 4 from the raw material stacking area (the processed workpiece is high due to the height of processing equipment and does not need to be lowered to the height), or the processed part is lifted down to the shell 4 to be placed in the ground finished product stacking area (the power switch S2 is closed after the processed part is in place). When the workpiece to be processed moves to a processing device (such as a lathe), a worker dials the handle of the power switch S2 rightward, and the 1, 2, 5 and 6 pins of the power switch S2 are respectively communicated, so that the power input ends of the negative and positive poles of the four sets of electric telescopic rods M2 are powered on, the movable columns of the four sets of electric telescopic rods M2 rise to a height, the shell 4 also rises to a height, and the worker can lift the workpiece to be processed from the shell 4 to the processing device (close the power switch S2 after the workpiece is in place). When the work piece arrives at the operation area or the stacking area and is inconvenient to assemble and disassemble due to the fact that the angles are not right, a worker turns on the power switch S4, then the motor speed reducing mechanism M4 is electrified, the power output shaft of the motor speed reducing mechanism drives the support plate 2 to rotate by a proper angle, and then the power switch S3 is turned off, so that the work piece is convenient to assemble and disassemble. In practical application, when needing to take out the work piece in from casing 4, the staff still can stir switch S3 'S handle left, and switch S3' S1, 2 foot and 3, 4 foot communicate respectively, like this, the positive and negative two poles of the staff AM4 power input can get its movable column of electricity and drive push pedal 5 to the right side motion, with the product most release casing, made things convenient for the work piece of unloading, has brought convenience like this for unloading the work piece (from the casing does not install baffle one side release). After the workpiece is discharged, a worker dials the handle of the power switch S3 to the right, and pins 1, 2, 5 and 6 of the power switch S3 are respectively communicated, so that the negative and positive electrode power input ends of the electric telescopic rod AM4 can be powered by the movable column of the electric telescopic rod AM4 to drive the push plate 5 to move to the left side to return to the initial position, and the electric telescopic rod AM is ready for the next use. Through the combined action of all the mechanisms, the height of the four sets of electric telescopic rods can be controlled, so that the height of the bearing table can be reduced, and a worker can conveniently put a workpiece to be processed or processed into the shell or take the workpiece out of the shell; after reaching the working station, the lifting height of the bearing table can be controlled, so that a worker can conveniently place the part to be processed at the processing equipment; this novel staff that has brought the facility has reduced its working strength, and has correspondingly improved work efficiency. In fig. 2, a power supply module A1 is a finished product of a switching power supply module for converting alternating current 220V into direct current 36V, and outputs 4KW of power; the electric telescopic rod M2 and the electric telescopic rod AM4 are finished products of a reciprocating electric push rod with working current of 36V; the electric linear sliding table M3 is a finished product (the travel of a sliding block is 4 meters) of a working voltage direct current 36V screw type electric linear sliding table, and the power is 1.2KW; the motor speed reducing mechanism M1 is a finished product of a coaxial motor gear reducer with working voltage of direct current 36V, the power is 600W, and the rotating speed of a power output shaft per minute is 10 revolutions.

It should be noted that while the above describes and illustrates embodiments of the present utility model, it is not intended that the embodiments include only a single embodiment, but that this description is made for the sake of clarity only, and it will be appreciated by one skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the utility model, and other embodiments will be understood by those skilled in the art, and accordingly, the scope of the utility model is defined by the appended claims and their equivalents.

Claims (5)

1. The machining feeding mechanism comprises a bottom plate, a motor speed reducing mechanism, a power module, an electric telescopic rod, an electric linear sliding table, a power switch and a supporting plate, and is characterized by also comprising a bearing table; the electric linear sliding table is arranged on the bottom plate, and the bottom plate is arranged between the raw material stacking area of the operation area and the processing equipment; the sliding block of the electric linear sliding table is provided with a fixed plate, the electric telescopic rods are provided with a plurality of sets, the lower ends of the plurality of sets of electric telescopic rods are arranged on the fixed plate, and the upper ends of the plurality of sets of electric telescopic rods and the lower ends of the supporting plates are respectively arranged together; the bearing table comprises a shell, an electric telescopic rod A and a push plate, wherein a baffle is arranged at the side end of the shell, the electric telescopic rod A is arranged at one side inside the shell, a guide groove is formed in the upper end of the shell, a connecting rod is arranged on a movable column of the electric telescopic rod A, and the lower end of the push plate is arranged at the upper end of the connecting rod; the supporting plate is provided with an opening, the upper end of the motor speed reducing mechanism is arranged at the lower end of the supporting plate, the power output shaft of the motor speed reducing mechanism is led out upwards through the opening of the supporting plate, and the lower end of the shell and the upper end of the power output shaft are arranged together; the power module and the power switch are arranged in the element box.

2. The machined feeding mechanism of claim 1, wherein the lower end of the push plate is spaced from the lower end of the inner side of the housing, and the left and right widths of the connecting rods are smaller than the widths of the guide grooves.

3. The machine tooling feed mechanism of claim 1 wherein the pusher plate has a height greater than the height within the housing and the pusher rod front and rear ends are spaced from the front and rear ends within the housing.

4. The machine tooling feed mechanism of claim 1, wherein the motor reduction mechanism has a power output shaft having an outer diameter less than an inner diameter of the middle portion of the support plate.

5. The machining feeding mechanism according to claim 1, wherein the number of sets of the electric linear sliding table is not limited, and a plurality of sets or one set of the electric linear sliding table can be adopted.