CN215658209U - High-precision slotting equipment - Google Patents

Abstract

The utility model discloses high-precision slotting equipment which comprises a bottom plate, a mounting seat and a power head, wherein the mounting seat is arranged on the bottom plate, the power head is arranged on the mounting seat, the mounting seat and the bottom plate are connected in a sliding mode through two linear rails, the linear rails are arranged on the upper surface of the bottom plate along the length direction, and the projection of the power head to the plane of the bottom plate is located outside the bottom plate. The utility model can open the groove for the equipment under the condition of not disassembling the template, and the high-precision motor can drive the screw rod to quickly and slowly drive through the bottom plate, the fixed high-precision linear rail and the ball screw transmission mechanism so as to meet the requirements of different cutting quantities; a position adjusting block is additionally arranged, and the size can be finely adjusted when equipment is used for processing; the bottom plate position can be fixed after the table is beaten to quick location according to equipment processing position requirement, and the high laminating of degree of parallelism finish machining bottom plate and equipment guarantees the high accuracy of grooving.

Description

High-precision slotting equipment

Technical Field

The utility model relates to the technical field of processing equipment, in particular to high-precision slotting equipment.

Background

In the industrial manufacturing industry, the condition of using a T-shaped groove or a U-shaped groove is rarely considered before equipment such as a punch press, a die spotting machine and the like arrives at a factory, the requirement of installing a die clamper and a die lifter for hydraulic rapid die change for placing and supporting cannot be met, and a small-sized (below 600 tons) injection molding machine is rarely provided with a T-shaped groove and cannot completely meet the manufacturing requirement. At present, the method for solving the problem in the industry is to detach the template from the above-mentioned equipment and use a grooving machine to perform cutting grooving on the template, for example, a metal plate grooving machine provided by CN 108405991, and solves the problem that the quality of grooving is poor due to the unstable fixation of the metal plate and the shaking of the processed metal plate under the impact force of the cutter during the grooving process through a first fixing piece and a second fixing piece. However, the template is locked on the equipment by screws, and the screws are required to be re-screwed in order to ensure the stable connection between the template and the equipment, so that the screws are complex to disassemble and assemble; in addition, because the size difference of the die is large, screws of a single type cannot be used universally, more than eight screws need to be screwed in each dismounting, and each device takes half an hour or even several hours to replace or lock the screws, thereby wasting time and labor.

SUMMERY OF THE UTILITY MODEL

To overcome the disadvantages of the prior art, the present invention aims to provide a high precision slotting device to solve the problems mentioned in the background art.

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

the utility model provides a high accuracy fluting equipment, includes bottom plate, mount pad and unit head, be equipped with the mount pad on the bottom plate just be equipped with the unit head on the mount pad, but the mount pad passes through two linear rails sliding connection with the bottom plate just the upper surface of bottom plate is located along length direction to the linear rail, the unit head falls outside the bottom plate to the planar projection in bottom plate place.

Preferably, the mounting base comprises a base, the base is arranged on the bottom plate, and the bottom end of the base is slidably connected with the two line rails.

More preferably, the mounting seat further comprises a first mounting plate, a second mounting plate and a third mounting plate, and the first mounting plate, the second mounting plate and the third mounting plate are connected in sequence; first mounting panel locate on the base and with the bottom plate is perpendicular, but second mounting panel swing joint just is parallel with first mounting panel on first mounting panel, third mounting panel fixed connection just is parallel with the second mounting panel on the second mounting panel.

More preferably, still include position adjustment mechanism, position adjustment mechanism includes first adjusting block, second adjusting block and stopper, the stopper is located on the first mounting panel, first adjusting block and second adjusting block are all located on the second mounting panel, stopper and first adjusting block are used for adjusting the position of cutter in vertical direction, stopper and second adjusting block are used for adjusting the position of cutter on the horizontal direction.

More preferably, still be equipped with first motor on the mount pad and first motor is used for providing power to the unit head, first motor is located on the third mounting panel just the unit head is located on the second mounting panel.

More preferably, the unit head and first motor pass through synchronous belt pulley mechanism and connect, synchronous belt pulley mechanism includes first band pulley, second band pulley and hold-in range, the input shaft of unit head is located to first band pulley, the output shaft of first motor is located to the second band pulley, first band pulley passes through synchronous belt drive with the second band pulley and is connected.

More preferably, still be equipped with the second motor on the bottom plate, second motor fixed mounting just is used for controlling the mount pad to remove in the one end of bottom plate, the output of second motor passes through the shaft coupling and is connected with the ball screw pair, the ball screw pair is located on the bottom plate and is connected with the bottom of mount pad.

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

the utility model can open the groove for the punching machine, the press or the die spotting machine and other equipment under the condition of not disassembling the template, fix the high-precision linear rail and the ball screw transmission mechanism through a bottom plate which is larger than the template, and can quickly and slowly transmit the screw rod by using the high-precision motor to meet the requirements of different cutting quantities;

during the empty machining process, the high-speed motion state can be adjusted to reduce the machining time, and the position of the bottom plate can be quickly positioned, marked and fixed according to the machining position requirement of equipment. The existing equipment has the condition that a moving part deviates when a groove is machined, the deeper the machining is, the larger the deviation is, the utility model is transformed into an integrated design, and the high-precision of the groove cutting is ensured by highly fitting a parallelism finish machining bottom plate and the equipment, so that the precision requirement of the equipment is met;

the two grooves can be integrally machined without being disassembled, the symmetry of the grooves is guaranteed, the spindle head and the motor are integrally arranged and are fixedly connected through the synchronous belt wheel, the position adjusting block is additionally arranged, and the size can be finely adjusted when equipment is used for machining; the equipment is in a modular design and is provided with an electric control cabinet, the processing speed can be freely adjusted to high speed and low speed, and the requirements of different cutting output, different precision and different degree of finish are met.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention.

FIG. 2 is a top view of an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a mounting base according to an embodiment of the utility model.

In the figures, the various reference numbers are:

1-a bottom plate; 2-linear rail; 3-a ball screw pair; 4-mounting a base; 40-a base; 41-a first mounting plate; 42-a second mounting plate; 43-a third mounting plate; 5-a power head; 6-synchronous pulley mechanism; 60-a first pulley; 61-a second pulley; 62-synchronous belt; 7-a first motor; 8-a second motor; 9-a position adjustment mechanism; 90-a first adjusting block; 91-a second adjusting block; 92-a limiting block.

Detailed Description

In order to more clearly illustrate the present invention, the present invention will be described in further detail below with reference to examples and the accompanying drawings. It is to be understood by persons skilled in the art that the following detailed description is illustrative and not restrictive, and is not to be taken as limiting the scope of the utility model.

In the description of the present invention, it should be noted that the terms "inside", "outside", "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, and integral connections; can be mechanically or electrically connected; they may be directly connected to each other, indirectly connected to each other through an intermediate member, or connected to each other through the inside of two members. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Example (b):

as shown in fig. 1-3, a high accuracy slotting device includes a bottom plate 1, a mounting seat 4, a power head 5 and a first motor 7, the mounting seat 4 is provided on the bottom plate 1, the power head 5 and the first motor 7 are both connected on the mounting seat 4, the first motor 7 is located above the power head 5, the first motor 7 is used for supplying energy to the power head 5, the mounting seat 4 and the bottom plate 1 are slidably connected through two linear rails 2, the linear rails 2 are arranged on the upper surface of the bottom plate 1 along the length direction, and the projection of the power head 5 to the plane where the bottom plate 1 is located falls outside the bottom plate 1. According to the embodiment, the template is grooved under the condition that the template is not detached, and when the power head 5 is positioned outside the bottom plate 1, the power head does not move and interfere with the bottom plate 1.

The power head 5 is connected with the first motor 7 through a synchronous pulley mechanism 6, the synchronous pulley mechanism 6 comprises a first belt pulley 60, a second belt pulley 61 and a synchronous belt 62, the first belt pulley 60 is arranged on an input shaft of the power head 5, the second belt pulley 61 is arranged on an output shaft of the first motor 7, and the first belt pulley 60 is in transmission connection with the second belt pulley 61 through the synchronous belt 62.

Still be equipped with second motor 8 on bottom plate 1, second motor 8 fixed mounting just is used for controlling mount pad 4 to remove in the one end of bottom plate 1, and second motor 8's output passes through the shaft coupling and is connected with ball screw pair 3, and ball screw pair 3 is located on bottom plate 1 and is connected with the bottom of mount pad 4.

The mounting seat 4 comprises a base 40, a first mounting plate 41, a second mounting plate 42 and a third mounting plate 43, the base 40 is arranged on the bottom plate 1, the bottom end of the base 40 is slidably connected with the two line rails 2, and the first mounting plate 41, the second mounting plate 42 and the third mounting plate 43 are sequentially connected; the first mounting plate 41 is disposed on the base 40 and perpendicular to the base plate 1, the second mounting plate 42 is movably connected to the first mounting plate 41 and parallel to the first mounting plate 41, and the third mounting plate 43 is fixedly connected to the second mounting plate 42 and parallel to the second mounting plate 42. The power head 5 is fixedly mounted on the second mounting plate 42, and the first motor 7 is fixedly mounted on the third mounting plate 43.

The cutter adjusting device is characterized by further comprising a position adjusting mechanism 9, wherein the position adjusting mechanism 9 comprises a first adjusting block 90, a second adjusting block 91 and a limiting block 92, the limiting block 92 is arranged on the first mounting plate 41, the first adjusting block 90 and the second adjusting block 91 are arranged on the second mounting plate 42, the limiting block 92 and the first adjusting block 90 are used for adjusting the position of the cutter in the vertical direction, and the limiting block 92 and the second adjusting block 91 are used for adjusting the position of the cutter in the horizontal direction. In the actual cutting process, the center of the cutter is taken as a control center, so that the actual forming track during the relative cutting motion between the cutter and the workpiece is not the outline of a part, but deviates from a cutter radius value, the cutter compensation is realized through the position adjusting mechanism 9, and specifically, the vertical distance between the limiting block 92 and the first adjusting block 90 and the horizontal distance between the limiting block 92 and the second adjusting block 91 can be changed through numerical control programming. The second mounting plate 42 is movably connected to the first mounting plate 41, the third mounting plate 43 is fixedly mounted on the second mounting plate 42, that is, the second mounting plate 42 and the third mounting plate 43 of the mounting base 4 can move relative to the first mounting plate 41, and the second mounting plate 42 and the third mounting plate 43 are relatively static, the power head 5 and the first motor 7 are respectively fixedly mounted on the second mounting plate 42 and the third mounting plate 43, and when the position of the tool is adjusted, only the relative positions of the second mounting plate 42 and the first mounting plate 41 need to be adjusted.

The position of the bottom plate 1 can be quickly positioned according to the requirement of the machining position of equipment, the parallelism between the bottom plate 1 and a template is improved by marking a meter and the bottom plate 1 and the template are fixed on the equipment to be grooved, so that the bottom plate 1 is attached to the equipment in height; in the embodiment, the processing speed is freely adjusted through an electric control cabinet (in the prior art, not shown in the figure).

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and it will be obvious to those skilled in the art that other variations or modifications may be made on the basis of the above description, and all the embodiments of the present invention are not exhaustive, and all the obvious variations or modifications which are introduced in the technical scheme of the present invention are within the scope of the present invention.

Claims (7)

1. The utility model provides a high accuracy fluting equipment, includes bottom plate, mount pad and unit head, be equipped with the mount pad on the bottom plate just be equipped with the unit head on the mount pad, its characterized in that, but the mount pad passes through two linear rails sliding connection just with the bottom plate the upper surface of bottom plate is located along length direction to the linear rail, the unit head falls outside the bottom plate to the planar projection in bottom plate place.

2. A high precision slotting machine as claimed in claim 1 wherein the mounting includes a base, the base is located on the base plate and the bottom end of the base is slidably connected to the two wire rails.

3. A high precision slotting machine as claimed in claim 2 wherein the mounting base further comprises a first mounting plate, a second mounting plate and a third mounting plate and the first mounting plate, the second mounting plate and the third mounting plate are connected in series; first mounting panel locate on the base and with the bottom plate is perpendicular, but second mounting panel swing joint just is parallel with first mounting panel on first mounting panel, third mounting panel fixed connection just is parallel with the second mounting panel on the second mounting panel.

4. The high-precision slotting device according to claim 3 further comprises a position adjusting mechanism, wherein the position adjusting mechanism comprises a first adjusting block, a second adjusting block and a limiting block, the limiting block is arranged on the first mounting plate, the first adjusting block and the second adjusting block are both arranged on the second mounting plate, the limiting block and the first adjusting block are used for adjusting the position of the cutter in the vertical direction, and the limiting block and the second adjusting block are used for adjusting the position of the cutter in the horizontal direction.

5. A high accuracy slotting device as claimed in claim 3 wherein a first motor is also provided on the mounting base and is used to provide power to the power head, the first motor is provided on the third mounting plate and the power head is provided on the second mounting plate.

6. The high-precision slotting device as claimed in claim 5, wherein the power head and the first motor are connected through a synchronous pulley mechanism, the synchronous pulley mechanism comprises a first belt pulley, a second belt pulley and a synchronous belt, the first belt pulley is arranged on an input shaft of the power head, the second belt pulley is arranged on an output shaft of the first motor, and the first belt pulley and the second belt pulley are connected through a synchronous belt transmission.

7. A high-precision slotting device as claimed in any one of claims 1 to 6, wherein a second motor is further arranged on the bottom plate, the second motor is fixedly mounted at one end of the bottom plate and is used for controlling the mounting base to move, an output end of the second motor is connected with a ball screw pair through a coupler, and the ball screw pair is arranged on the bottom plate and is connected with the bottom end of the mounting base.

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