CN219234707U - Movable disassembly-free dust collection device for high-speed weight removal balancing machine - Google Patents

Abstract

The utility model discloses a movable disassembly-free dust collection device for a high-speed weight-removing balancing machine. The dust collection device comprises cutting main shaft supporting equipment, a main shaft component and a dust collection component, wherein the main shaft component is fixedly arranged on the cutting main shaft supporting equipment; the dust collection assembly comprises a dust collection movable component and a dust collection fixed component, the dust collection fixed component is arranged on the cutting main shaft supporting device, the dust collection movable component is adjustably arranged on the dust collection fixed component, and the dust collection fixed component adjusts the arrangement position of the dust collection movable component along the axial direction of the main shaft component. The utility model can solve the problems of inconvenient disassembly and assembly, reduced labor intensity and potential safety hazard, shortens the time for disassembling and assembling the cutter by nearly 80 times through the disassembly-free dust collection structure, and reduces the labor intensity of workers.

Description

Movable disassembly-free dust collection device for high-speed weight removal balancing machine

Technical Field

The utility model relates to a dust collection device of a balancing machine, in particular to a movable disassembly-free dust collection device for a high-speed weight removal balancing machine.

Background

At present, the dust collection after the weight removal of the weight removal balancing machine is an indispensable process, a mode of removing weight and collecting dust is generally adopted for better achieving an effect, a drilling mode or a milling mode is generally adopted for the existing weight removal mode, used cutters, such as a drill bit, a milling cutter and the like, are all vulnerable parts, the vulnerable parts have a specified service life, the vulnerable parts need to be replaced regularly, and otherwise the weight removal effect is affected. In addition, in order to improve the machine efficiency, a high-speed cutting mode is adopted, and the temperature of the cut dust is high, so that the temperature of the cut dust is generally 100 ℃ or more, and the dust collection difficulty is greatly improved.

For this high-speed post-cutting dust extraction, it often takes a long time to remove the tool, typically exceeding 5-10 minutes. At present, a plurality of fixed dust suction devices are adopted and are connected with a cutting main shaft through threads, and all mounting bolts are required to be dismounted when the cutter is dismounted and replaced so as to replace the cutter.

The mode greatly reduces the production efficiency of the machine and increases the labor intensity.

Disclosure of Invention

In order to solve the problems in the background art, the utility model provides the movable disassembly-free dust collection device for the high-speed weight removal balancing machine, which can solve the problems of inconvenient disassembly and assembly, reduced labor intensity and reduced potential safety hazard.

The technical scheme adopted by the utility model is as follows:

the utility model comprises a cutting main shaft supporting device, a main shaft component and a dust collection component, wherein the main shaft component is fixedly arranged on the cutting main shaft supporting device;

the dust collection assembly comprises a dust collection movable component and a dust collection fixed component, the dust collection fixed component is arranged on the cutting main shaft supporting equipment, the dust collection movable component is adjustably arranged on the dust collection fixed component, and the dust collection fixed component adjusts the arrangement position of the dust collection movable component along the axial direction of the main shaft component.

The dust collection fixing component comprises a dust collection device mounting box, an embossing knob, a dust collection device cross beam and an elastic fixing component; the dust extraction mounting box is fixed on the cutting main shaft supporting equipment, the rear part of the dust extraction cross beam is slidably arranged in the dust extraction mounting box, an elastic fixing component is arranged between the two sides of the dust extraction cross beam and the two sides in the dust extraction mounting box respectively, and the front part of the dust extraction cross beam extends out of the dust extraction mounting box and is used for being connected with a dust extraction movable component.

Each elastic fixing component comprises an extension spring strut, a spring strut and an extension spring, wherein the extension spring strut is fixedly arranged on the side surface of the dust collection device mounting box, the extension spring is arranged parallel to the front-back direction, the front end of the extension spring is fixedly connected with the extension spring strut, the rear end of the extension spring is fixedly connected with one end of the spring strut, and the other end of the spring strut is connected to the rear part of the dust collection device cross beam; the embossing knob is arranged at the rear side of the dust collection device mounting box through threads, and is propped against the rear side surface of the dust collection device cross beam after penetrating through a threaded hole at the rear side of the dust collection device mounting box.

The dust extraction mounting box is characterized in that a sliding block is fixedly arranged at the bottom of the dust extraction mounting box, a guide rail is arranged on the bottom surface of a cross beam of the dust extraction, and the sliding block is embedded on the guide rail in a sliding manner.

The dust collection device is characterized in that a first guide rail is arranged at the front end of the dust collection device beam, the first guide rail is arranged at the front end of the dust collection device beam through a guide rail mounting frame, and a left end stop block and a right end stop block used for limiting are respectively arranged at two ends of the dust collection device beam.

The dust collection movable part comprises an openable dust collection cover, a dust collection head mounting plate and a pipeline; the dust collection head mounting plate is slidably mounted at the front end of the dust collection device beam, the openable dust collection cover is mounted on the dust collection head mounting plate, the openable dust collection cover is arranged on the main shaft component, the openable dust collection cover is connected with one end of a pipeline, and the other end of the pipeline is connected with the dust collector.

The openable dust hood comprises a right dust collection seat, a right dust collection nozzle, a left dust collection seat, a lock catch and a hinge, wherein the right dust collection seat and the left dust collection seat are in butt joint to form an integral dust collection seat, the right dust collection seat and the front end of the left dust collection seat are respectively connected and provided with the right dust collection nozzle and the left dust collection nozzle, the right dust collection nozzle and the left dust collection nozzle are in butt joint to form the integral dust collection nozzle, the rear end of the right dust collection seat is fixed on a dust collection head mounting plate, the tops of the left dust collection seat and the right dust collection seat are hinged through the hinge, and the bottoms of the left dust collection seat and the right dust collection seat are connected in an openable and closable manner through the lock catch.

One side of the right dust collection seat of the openable dust collection cover is provided with a through hole which is connected with one end of a pipeline.

The dust collection head mounting plate is provided with a first sliding block on the rear surface, and the first sliding block is slidably embedded on a first guide rail at the front end of a dust collection device beam.

The dust collection head mounting plate is provided with an indexing pin for fixing the dust collection head mounting plate to the front end of the dust collection device cross beam.

The beneficial effects of the utility model are as follows:

the utility model can shorten the time for dismounting the cutter to within 40 seconds by the dismounting-free dust collection structure, and shortens the time by nearly 80 times compared with the common fixed structure.

The structure of the utility model reduces the labor intensity of workers, does not need to disassemble a heavier dust collection device, and is easy to popularize.

Drawings

Fig. 1 is an overall exploded view of the present utility model.

Fig. 2 is a diagram of the overall operation of the present utility model.

Fig. 3 is a view showing the position of the tool in the whole assembly and disassembly of the utility model.

Figure 4 is an exploded view of the entire cleaning assembly of the present utility model.

Figure 5 is an exploded view of the entire movable part of the vacuum cleaner of the present utility model.

Figure 6 is an exploded view of the entire dust collection attachment portion of the present utility model.

In the figure: a0, a cutting main shaft component, B0, a dust collection component, B1, a dust collection movable component, C0, a dust collection fixing component, C1, a dust collection device mounting box, C2, an embossing knob, C3, a tension spring support, C4, a spring support, C5, a tension spring, C6, a dust collection device cross beam, C7, a sliding block, C8, a guide rail, C9, a guide rail mounting frame, C10, a first guide rail, C11, a left end stop, C12 and a right end stop; d1, right dust collection seat, D2, right dust collection nozzle, D3, left dust collection nozzle, D4, left dust collection seat, D5, lock catch, D6, hinge, D7, index pin, D8, dust collection head mounting plate, D9 and first sliding block.

Detailed Description

The utility model will be described in further detail with reference to the accompanying drawings and specific examples.

As shown in fig. 1 to 3, the present utility model includes a cutting spindle supporting apparatus, a spindle part A0 fixedly installed on the end of the cutting spindle supporting apparatus, and a dust suction assembly B0 fixedly installed on the spindle part A0 by a bolt, for sucking chips generated during the rotational cutting of the spindle part A0 into a dust collector;

as shown in fig. 4, the dust collection assembly B0 includes a dust collection movable part B1 and a dust collection fixed part C0, the dust collection fixed part C0 is mounted on the end of the cutting spindle supporting apparatus, the dust collection movable part B1 is adjustably mounted on the dust collection fixed part C0, the dust collection movable part B1 is specifically connected to the dust collection fixed part C0 through a rail slider, and the arrangement position of the dust collection movable part B1 in the axial direction of the spindle part A0 is adjusted by the dust collection fixed part C0.

As shown in fig. 6, the dust collection fixing assembly C0 includes a dust collection device mounting box C1, an embossing knob C2, a dust collection device cross beam C6, and an elastic fixing assembly;

the dust collection device mounting box C1 is fixed at the tail end of the cutting main shaft supporting device, the rear part of the dust collection device cross beam C6 is slidably arranged in the dust collection device mounting box C1, an elastic fixing component is arranged between two sides of the dust collection device cross beam C6 and two sides in the dust collection device mounting box C1 respectively, and the front part of the dust collection device cross beam C6 extends out of the dust collection device mounting box C1 and is connected with the dust collection movable component B1;

each elastic fixing component comprises an extension spring support column C3, a spring support column C4 and an extension spring C5, wherein the extension spring support column C3 is fixedly arranged on the side surface of the dust collection device mounting box C1, the extension spring C5 is arranged in parallel to the front-back direction, the front end of the extension spring C5 is fixedly connected with the extension spring support column C3, the rear end of the extension spring C5 is fixedly connected with one end of the spring support column C4, and the other end of the spring support column C4 is fixedly connected to the rear part of the dust collection device cross beam C6;

the embossing knob C2 is arranged on the rear side of the dust collection device mounting box C1 through threads, and the embossing knob C2 is propped against the rear side surface of the dust collection device cross beam C6 after penetrating through a threaded hole on the rear side of the dust collection device mounting box C1.

The extension spring C5 is compressed in a normal state.

The bottom of the dust collection device mounting box C1 is fixedly provided with a sliding block C7, the bottom surface of the dust collection device cross beam C6 is provided with a guide rail C8, and the sliding block C7 is slidably embedded on the guide rail C8, so that the dust collection device cross beam C6 can be slidably arranged in the dust collection device mounting box C1.

The front end of the dust collection device cross beam C6 is provided with a first guide rail C10, the first guide rail C10 is arranged at the front end of the dust collection device cross beam C6 through a guide rail mounting frame C9, and meanwhile, two ends of the dust collection device cross beam C6 are respectively provided with a left end stop block C11 and a right end stop block C12 used for limiting the movement of the first sliding block D9.

In specific implementation, the front end of the extension spring C5 is hung in the hole of the extension spring support column C3, the rear end of the extension spring C5 is hung on the spring support column C4, the sliding block C7 is connected to the dust collection device mounting box C1 through a bolt, the guide rail mounting frame C9 is connected to the right side face of the dust collection device cross beam C6 through a bolt, the left end stop block C11 can be connected to the left side face of the dust collection device cross beam C6 through a bolt, and the right end stop block C12 is mounted on the guide rail mounting frame C9.

As shown in fig. 5, the dust collection movable part B1 includes an openable and closable dust collection cover, a dust collection head mounting plate D8, and a duct; the dust collection head mounting plate D8 is slidably mounted at the front end of the dust collection device cross beam C6, the openable dust collection cover is mounted on the dust collection head mounting plate D8, the openable dust collection cover is arranged on the main shaft component A0, the openable dust collection cover is connected with one end of a pipeline, and the other end of the pipeline is connected with the dust collector.

The openable dust hood comprises a right dust collection seat D1, a right dust collection nozzle D2, a left dust collection nozzle D3, a left dust collection seat D4, a lock catch D5 and a hinge D6, wherein the right dust collection seat D1 and the left dust collection seat D4 are symmetrical in structure, the right dust collection seat D1 and the left dust collection seat D4 are in butt joint to form an integral dust collection seat, the front ends of the right dust collection seat D1 and the left dust collection seat D4 are respectively connected with the right dust collection nozzle D2 and the left dust collection nozzle D3, the right dust collection nozzle D2 and the left dust collection nozzle D3 are symmetrical in structure, the right dust collection nozzle D2 and the left dust collection nozzle D3 are also in butt joint to form an integral dust collection nozzle, the rear end of the right dust collection seat D1 is fixed on a dust collection head mounting plate D8, the top of the left dust collection seat D4 and the top of the right dust collection seat D1 are hinged through the hinge D6, and the bottom of the left dust collection seat D4 and the right dust collection seat D1 are connected in an openable and closable manner through the lock catch D5.

One side of the right dust collection seat D1 of the openable dust collection cover is provided with a through hole which is connected with one end of a pipeline.

The first sliding block D9 is arranged on the rear surface of the dust collection head mounting plate D8, and the first sliding block D9 is slidably embedded on the first guide rail C10 at the front end of the dust collection device cross beam C6, so that the dust collection head mounting plate D8 is slidably arranged at the front end of the dust collection device cross beam C6.

In specific implementation, the right dust suction nozzle D2 is connected to the right dust suction seat D1 through a bolt, the left dust suction nozzle D3 is connected to the left dust suction seat D4 through a bolt, the right dust suction seat D1 and the left dust suction seat D4 are connected together through a lock catch D5 on the lower side and a hinge D6 on the upper side, the right dust suction seat D1 is connected to the dust suction head mounting plate D8 through a bolt, and the dust suction head mounting plate D8 is connected to the first slider D9 through a bolt.

The cleaning head mounting plate D8 is provided with an index pin D7 for fixing the cleaning head mounting plate D8 to the front end of the cleaning device cross beam C6. When the dust collection head mounting plate D8 is slid to a position opposite to the front end face of the dust collection device cross beam C6 through the cooperation movement between the first sliding block D9 and the first guide rail C10, the dust collection head mounting plate D8 is fixedly limited to the front end of the dust collection device cross beam C6 through the indexing pin D7 which penetrates through the dust collection head mounting plate D8 and is inserted into a hole in the front end face of the dust collection device cross beam C6.

As shown in fig. 2 and 3, the specific adjustment process of the device comprises the following steps:

step1: as shown in fig. 2, the lock catch D5 at the lower side of the dust collection seat is opened, the left dust collection seat D4 is pulled up, and the cutter arranged in the main shaft component A0 is pulled out;

step2: the two indexing pins D7 are rotated and pulled outwards, and meanwhile, the dust collection part B1 is pushed to move towards the position of the dismounting tool through the cooperation movement between the first sliding block D9 and the first guide rail C10;

step3: when the first sliding block D9 of the dust collection component B1 is abutted against the right end stop block C12, the indexing pin D7 is rotated and pushed inwards to be inserted into a hole on the front end face of the dust collection device cross beam C6, so that the dust collection component B1 is moved to be opposite to the front end face of the dust collection device cross beam C6;

step4: the left dust collection seat D4 is put down, the right dust collection seat D1 and the left dust collection seat D4 are butted to form an integral dust collection seat, the lock catch D5 is buckled, and as shown in fig. 3, the dust collector is opened to perform dust collection.

The embodiment uses the guide rail slide block to realize the left-right movement of the whole dust collection movable part, and is matched with the indexing pin for positioning.

The above examples are merely the results of the present utility model on this example, but the implementation of the present utility model is not limited to this example. All alternatives which have similar effects as proposed in accordance with the principles and concepts of the utility model are considered to be within the scope of the utility model.

Claims (9)

1. A portable disassembly-free dust extraction for high-speed weight balancing machine, its characterized in that:

the dust collection device comprises a cutting main shaft supporting device, a main shaft component (A0) and a dust collection component (B0), wherein the main shaft component (A0) is fixedly arranged on the cutting main shaft supporting device, and the dust collection component (B0) is fixedly arranged on the main shaft component (A0) and is used for sucking scraps generated in the rotary cutting process of the main shaft component (A0) into a dust collector;

the dust collection assembly (B0) comprises a dust collection movable component (B1) and a dust collection fixed component (C0), the dust collection fixed component (C0) is arranged on the cutting main shaft supporting device, the dust collection movable component (B1) is adjustably arranged on the dust collection fixed component (C0), and the dust collection movable component (B1) is adjusted by the dust collection fixed component (C0) to be arranged along the axial position of the main shaft component (A0).

2. The movable disassembly-free dust collection device for the high-speed weight removal balancing machine according to claim 1, wherein the movable disassembly-free dust collection device is characterized in that: the dust collection fixing component (C0) comprises a dust collection device mounting box (C1), an embossing knob (C2), a dust collection device cross beam (C6) and an elastic fixing component; the dust collection device mounting box (C1) is fixed on the cutting main shaft supporting equipment, the rear part of the dust collection device cross beam (C6) is slidably arranged in the dust collection device mounting box (C1), an elastic fixing component is arranged between two sides of the dust collection device cross beam (C6) and two sides in the dust collection device mounting box (C1), and the front part of the dust collection device cross beam (C6) extends out of the dust collection device mounting box (C1) and is connected with the dust collection movable component (B1);

each elastic fixing component comprises an extension spring support column (C3), a spring support column (C4) and an extension spring (C5), wherein the extension spring support column (C3) is fixedly arranged on the side face of a dust collection device mounting box (C1), the extension spring (C5) is arranged in parallel to the front-back direction, the front end of the extension spring (C5) is fixedly connected with the extension spring support column (C3), the rear end of the extension spring (C5) is fixedly connected with one end of the spring support column (C4), and the other end of the spring support column (C4) is connected to the rear part of a dust collection device cross beam (C6); the embossing knob (C2) is arranged on the rear side of the dust collection device mounting box (C1) through threads, and the embossing knob (C2) penetrates through a threaded hole on the rear side of the dust collection device mounting box (C1) and then is propped against the rear side face of the dust collection device cross beam (C6).

3. The movable disassembly-free dust collection device for the high-speed weight removal balancing machine according to claim 2, wherein the movable disassembly-free dust collection device is characterized in that: the dust collection device mounting box is characterized in that a sliding block (C7) is fixedly arranged at the bottom of the dust collection device mounting box (C1), a guide rail (C8) is arranged on the bottom surface of a dust collection device cross beam (C6), and the sliding block (C7) is embedded on the guide rail (C8) in a sliding mode.

4. The movable disassembly-free dust collection device for the high-speed weight removal balancing machine according to claim 1, wherein the movable disassembly-free dust collection device is characterized in that: the dust collection device is characterized in that a first guide rail (C10) is arranged at the front end of the dust collection device cross beam (C6), the first guide rail (C10) is arranged at the front end of the dust collection device cross beam (C6) through a guide rail mounting frame (C9), and meanwhile, a left end stop block (C11) and a right end stop block (C12) used for limiting are respectively arranged at two ends of the dust collection device cross beam (C6).

5. The movable disassembly-free dust collection device for the high-speed weight removal balancing machine according to claim 1, wherein the movable disassembly-free dust collection device is characterized in that: the dust collection movable part (B1) comprises an openable dust collection cover, a dust collection head mounting plate (D8) and a pipeline; the dust collection head mounting plate (D8) is slidably mounted at the front end of the dust collection device cross beam (C6), the openable dust collection cover is mounted on the dust collection head mounting plate (D8), the openable dust collection cover is arranged on the main shaft component (A0), the openable dust collection cover is connected with one end of a pipeline, and the other end of the pipeline is connected with the dust collector.

6. The movable disassembly-free dust collection device for the high-speed weight removal balancing machine according to claim 5, wherein the movable disassembly-free dust collection device is characterized in that: the openable dust hood comprises a right dust collection seat (D1), a right dust collection nozzle (D2), a left dust collection nozzle (D3), a left dust collection seat (D4), a lock catch (D5) and a hinge (D6), wherein the right dust collection seat (D1) and the left dust collection seat (D4) are in butt joint to form an integral dust collection seat, the front ends of the right dust collection seat (D1) and the left dust collection seat (D4) are respectively connected and provided with the right dust collection nozzle (D2), the left dust collection nozzle (D3), the right dust collection nozzle (D2) and the left dust collection nozzle (D3) are in butt joint to form an integral dust collection nozzle, the rear end of the right dust collection seat (D1) is fixed on a dust collection head mounting plate (D8), the tops of the left dust collection seat (D4) and the right dust collection seat (D1) are hinged through the hinge (D6), and the bottoms of the left dust collection seat (D4) and the right dust collection seat (D1) are connected in an openable and closable manner through the lock catch (D5).

7. The movable disassembly-free dust collection device for the high-speed weight removal balancing machine according to claim 6, wherein the movable disassembly-free dust collection device is characterized in that: the right side dust collection seat (D1) of the openable dust collection cover is provided with a through hole which is connected with one end of a pipeline.

8. The movable disassembly-free dust collection device for the high-speed weight removal balancing machine according to claim 6, wherein the movable disassembly-free dust collection device is characterized in that: the rear surface of the dust collection head mounting plate (D8) is provided with a first sliding block (D9), and the first sliding block (D9) is slidably embedded on a first guide rail (C10) at the front end of a dust collection device cross beam (C6).

9. The movable disassembly-free dust collection device for the high-speed weight removal balancing machine according to claim 6, wherein the movable disassembly-free dust collection device is characterized in that: the dust collection head mounting plate (D8) is provided with an index pin (D7) for fixing the dust collection head mounting plate (D8) to the front end of the dust collection device cross beam (C6).

Images