CN219633215U - Processing device - Google Patents

Abstract

The utility model discloses a processing device which comprises a power input shaft, a tool turret, a tool changing mechanism, a transmission mechanism, a power switching mechanism and a fixing seat. The drive of the power switching mechanism can drive the pushing block to slide, so that the first transmission shaft of the driving mechanism is driven to slide towards the driving wheel, and the third driving piece on the first transmission shaft is matched with the fourth driving piece on the driving wheel, so that the driving wheel is driven to rotate. The turret is moved back and reset to enable the first transmission part and the second transmission part of the main shaft entering the working position to be matched through the sliding block combined with the connecting shaft, so that the cutter is driven to rotate for corresponding machining. The utility model can realize the switching of different connecting seats on the tool setting tower, so as to be convenient for switching tools and realize the processing of multiple tools. The utility model has simple structure and can realize tool changing and processing by the power of a power input shaft. Can be arranged on the existing drilling machine or fixed frame body, and different cutters are arranged on the main shafts of different connecting seats.

Description

Processing device

Technical Field

The utility model relates to a processing device, in particular to a multifunctional processing device.

Background

And the machining is complicated in daily life, such as rough milling, finish milling and the like for drilling, tapping and milling. Often requiring drilling, milling, or/and other specialized machining equipment, or requiring a machining center to accomplish this. The drilling machine, the milling machine and the machining center are high in cost and high in operation difficulty, the drilling machine and the milling machine are required to complete complex procedures, clamping is required for many times, the working strength is high, machining accuracy is easy to be insufficient, the machining center is high in cost, and the requirement of low cost cannot be met. And are inconvenient for mass equipment applications.

Disclosure of Invention

The utility model provides a multifunctional processing device which has a simple structure, can be provided with multiple cutters and can realize functions of tapping, drilling, milling and the like.

The technical scheme for solving the existing problems is as follows: a processing device comprises a power input shaft, a cutter tower, a cutter changing mechanism, a transmission mechanism, a power switching mechanism and a fixing seat.

And the power input shaft is used for inputting power.

The cutter tower, the cutter tower on be equipped with two at least connecting seats, be equipped with rotatable main shaft on every connecting seat, the main shaft on be equipped with the installation hole site of installation cutter, the cutter tower on be equipped with and drive the rotatory fluted disc of cutter tower, the cutter tower be equipped with location and connect the cutter tower connecting axle, the main shaft on have a first driving medium of receiving power.

The cutter changing mechanism is used for driving the cutter tower to rotate so that a main shaft on the cutter tower enters a working station according to the requirement, the cutter changing mechanism comprises a second transmission shaft and a transmission wheel for driving the second transmission shaft to rotate, a driving gear for driving the fluted disc is arranged between the corresponding position of the second transmission shaft and the fluted disc, and a fourth transmission piece for receiving power is arranged on the transmission wheel.

The transmission mechanism comprises a first transmission shaft which can slide relative to the power input shaft, a first transmission structure which can slide and transmit power is arranged between the first transmission shaft and the power input shaft, a second transmission part is arranged at the corresponding end of the first transmission shaft, which is positioned at the working station, and a third transmission part is arranged at the corresponding position or the corresponding end of the first transmission shaft.

The power switching mechanism is used for driving the first transmission shaft to slide towards the working station so that the first transmission member and the second transmission member are matched, and the matching of the third transmission member and the fourth transmission member is released; or slides towards the driving wheel to enable the third driving part and the fourth driving part to be matched, and the first driving part and the second driving part are disengaged from the matching; the power switching mechanism comprises a driver and a pushing block for driving the first transmission shaft to slide, the other end of the connecting shaft is movably connected with a matched sliding block, a track which slides along with the pushing block and guides the sliding block is arranged between the pushing block and the guiding sliding block, the track meets the requirements that the cutter tower is pushed away along with the sliding of the sliding block to the transmission wheel, a first transmission part of a main shaft entering a working position is separated from a second transmission part, and the cutter tower is pushed to be reset along with the pushing block to slide towards the working station so that the first transmission part of the main shaft entering the working position is matched with the second transmission part.

The fixing seat is used for positioning and mounting the cutter tower, the cutter changing mechanism, the transmission mechanism and the power switching mechanism.

As a further improvement, the first transmission structure is a spline shaft, a polygonal shaft, a special-shaped shaft or transmission teeth with sliding allowance, which are arranged on the power input shaft and are matched with the first transmission shaft for transmission.

As a further improvement, the connecting shaft is provided with a connecting frame, the connecting frame is provided with a pair of connecting handles matched with two sides of the pushing block, the two sides of the pushing block are provided with guide pieces, the pair of connecting handles are provided with sliding blocks matched with the guide pieces, and the track is arranged on the guide pieces.

As a further improvement, the fixing seat is provided with a positioning disc for positioning the cutter tower, and a positioning structure for positioning the cutter tower is arranged between the positioning disc and the cutter tower.

As a further improvement, the cutter tower is obliquely arranged; the rotating surface of the cutter tower and the first transmission shaft are provided with an included angle; the fixed seat is provided with an inclined surface which is obliquely arranged.

As a further improvement, a sliding rail component is arranged between the pushing block and the fixed seat.

As a further improvement, the pushing block is provided with a guide groove for positioning the sliding block, and the guide groove forms a track for sliding the positioning sliding block.

As a further improvement, the first transmission piece and the second transmission piece or/and the third transmission piece and the fourth transmission piece are engaged teeth which are matched with each other.

As a further improvement, the driving wheel is arranged on the fixing seat and is concentrically arranged with the first transmission shaft.

As a further improvement, the power input shaft, the first transmission shaft and the main shaft positioned at the working station are vertically arranged; six connecting seats are uniformly distributed on the cutter tower.

Compared with the prior art, the utility model is provided with the power input shaft, the tool turret, the tool changing mechanism, the transmission mechanism, the power switching mechanism and the fixing seat. The drive of the power switching mechanism can drive the pushing block to slide, so that the first transmission shaft of the driving mechanism is driven to slide towards the driving wheel, and the third driving piece on the first transmission shaft is matched with the fourth driving piece on the driving wheel, so that the driving wheel is driven to rotate. The pushing block pushes the cutter tower away through the connecting shaft combined by the sliding block under the action of the rail while sliding towards the driving wheel, so that the first driving part of the main shaft positioned at the working position is far away from the cooperation of the second driving part. The rotary driving wheel drives the second driving wheel to rotate through a gear, the second driving wheel drives the inner gear of the fluted disc to drive the cutter tower to rotate through the gear until a proper cutter enters the working station, the driver drives the first transmission shaft to slide towards the main shaft positioned at the working station through the pushing block, and the second transmission member of the first transmission shaft is matched with the first transmission member positioned on the main shaft at the working station. The pushing block slides towards the spindle at the working station, and under the action of the rail, the turret is moved back and reset to enable the first transmission piece and the second transmission piece of the spindle at the working position to be matched with each other through the sliding block combined with the connecting shaft so as to drive the cutter to rotate for corresponding processing.

The utility model can realize the switching of different connecting seats on the tool setting tower, so as to be convenient for switching tools and realize the processing of multiple tools. The utility model has simple structure and can realize tool changing and processing by the power of a power input shaft. The tool can be arranged on the existing drilling machine or fixed frame body, different tools are arranged on the main shafts of different connecting seats, and the tool turret can be driven to rotate, so that different drilling, milling and tapping tools can be replaced, and a complex processing technology is realized. The intelligent tapping, drilling and milling can be realized by matching with a control system.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic view of the structure of the inside of the present utility model.

Fig. 3 is a front view of the present utility model.

Fig. 4 is a cross-sectional view taken along A-A of fig. 3.

Fig. 5 is a schematic diagram of the utility model in perspective.

Fig. 6 is a schematic view of another view of the present utility model.

Fig. 7 is an exploded schematic view of the present utility model.

Figure 8 is a schematic view of a primary drive shaft of the present utility model driven into a work station spindle.

Fig. 9 is a partially exploded view of the present utility model.

Fig. 10 is a schematic view of the structure of the transmission of the present utility model.

Detailed Description

Referring to fig. 1-10, the processing device in this embodiment includes a power input shaft 6, a turret 1, a tool changing mechanism 2, a transmission mechanism 3, a power switching mechanism 4, and a fixing base 5.

The power input shaft 6 is used for inputting power, and the power input shaft 6 can be used for connecting power as a power source of the device. The power input shaft can be connected with a driving motor or a power main shaft of external equipment.

The cutter tower 1, cutter tower 1 on be equipped with two at least connecting seat 11, be equipped with rotatable main shaft 12 on every connecting seat 11, main shaft 12 on be equipped with the installation hole site 13 of installation cutter, cutter tower 1 on be equipped with the fluted disc 14 that can drive cutter tower 1 rotation, cutter tower 1 be equipped with location and connect cutter tower 1 connecting axle 15, main shaft 12 on have the first driving medium 16 of receiving power. In this embodiment, six connecting seats 11 are uniformly distributed on the turret 1, and the fluted disc 14 is an internal gear.

The tool changing mechanism 2 is used for driving the tool turret 1 to rotate so that the main shaft 12 on the tool turret 1 enters a working station according to requirements, the tool changing mechanism 2 comprises a second transmission shaft 21 and a transmission wheel 22 for driving the second transmission shaft 21 to rotate, a driving gear 23 for driving the fluted disc 14 is arranged between the corresponding position of the second transmission shaft 21 and the fluted disc 14, and the driving gear 23 can be arranged at the corresponding end of the second transmission shaft 21. The driving wheel 22 is provided with a fourth driving part 24 for receiving power. The driving wheel 22 and the second driving shaft 21 can transmit power through gear matching.

The transmission mechanism 3 comprises a first transmission shaft 31 which can slide relative to the power input shaft 6, a first transmission structure 30 which can slide and transmit power is arranged between the first transmission shaft 31 and the power input shaft 6, a second transmission member 32 is arranged at the corresponding end of the first transmission shaft 31 located at the working station, and a third transmission member 33 is arranged at the corresponding position or the corresponding end of the first transmission shaft 31 located at the transmission wheel 22. For convenience of implementation, generally, the first transmission shaft 31 and the power input shaft 6 may be vertically disposed perpendicular to the horizontal direction, and the second transmission shaft 21 may be obliquely disposed.

The power switching mechanism 4 is used for switching the first transmission shaft 31 to drive the tool turret 1 to change tools or drive the main shaft 12 of the tool turret 1 at a working station to drive the tools to rotate for processing. Specifically, the first transmission shaft 31 is driven to slide towards the working station to match the first transmission member and the second transmission member, and the matching of the third transmission member and the fourth transmission member is released; or slides towards the driving wheel 22 to enable the third driving piece and the fourth driving piece to be matched, and the first driving piece and the second driving piece are disengaged from the matching. So that the second transmission piece 32 is matched with the first transmission piece 16 on the main shaft 12 entering the working station by sliding the first transmission shaft 31 to drive the main shaft 12 to drive the cutter to rotate, and the third transmission piece and the fourth transmission piece are separated at the moment; or the third transmission piece 33 is matched with the fourth transmission piece 24 on the transmission wheel 22 by sliding the first transmission shaft 31 so as to drive the transmission wheel 22 to rotate, thereby driving the fluted disc 14 to rotate through the driving gear 23 of the second transmission shaft 21, driving the turret 1 to rotate, and enabling the connecting seat 11 with the corresponding cutter on the turret 1 to rotate to the working position according to the changing requirement, so that the cutter is changed and replaced, and the first transmission piece and the second transmission piece are separated at the moment.

The power switching mechanism 4 comprises a driver 41 and a pushing block 42 for driving the first transmission shaft 31 to slide, the other end of the connecting shaft 15 is movably connected with a sliding block 44, a track 45 sliding along with the sliding of the pushing block 42 and guiding the sliding block 44 is arranged between the pushing block 42 and the guiding sliding block 44, the track 45 meets the requirements that the turret 1 is pushed away along with the sliding of the sliding block 44 to the transmission wheel 22, the first transmission piece 16 of the main shaft 12 entering the working position is disengaged from the second transmission piece 32, and the turret 1 is pushed to be reset along with the sliding of the pushing block 42 towards the working position and the first transmission piece 16 of the main shaft 12 entering the working position is matched with the second transmission piece 32. The driver 41 may adopt a corresponding existing structure such as a linear motor, a pneumatic rod, a hydraulic rod or an electromagnetic push rod.

The fixed seat 5 is used for positioning and mounting the tool turret 1, the tool changing mechanism 2, the transmission mechanism 3 and the power switching mechanism 4.

And a mounting structure for mounting corresponding components of the power input shaft 6, the tool turret 1, the tool changing mechanism 2, the transmission mechanism 3 and the power switching mechanism 4, such as a corresponding shaft hole and a necessary bearing seat, is arranged above the fixed seat 5. In order to facilitate the production and installation, the driving wheel 22 is installed on the fixing seat 5 and is arranged concentrically with the first driving shaft 31. The power input shaft 6, the first transmission shaft 31 and the transmission wheel 22 can be concentrically arranged and rotatably arranged at the corresponding position of the fixed seat 5 through bearings.

The first transmission structure 30 is a spline shaft, a polygonal shaft, a special-shaped shaft or transmission teeth with sliding allowance, which are arranged on the power input shaft 6 and are matched with the first transmission shaft 31 for transmission, in this embodiment, the first transmission structure 30 is a third transmission shaft connected with a regular hexagon on the power input shaft 6, the first transmission shaft 31 is provided with a regular hexagon shaft hole matched with the third transmission shaft, and the first transmission shaft 31 is slidably sleeved on the third transmission shaft, so that the power of the power input shaft 6 can be transmitted at different stations.

The connecting shaft 15 is provided with a connecting frame, the connecting frame is provided with a pair of connecting handles 17 matched with two sides of the pushing block 42, two sides of the pushing block 42 are provided with guide pieces 43, the pair of connecting handles 17 are provided with sliding blocks 44 matched with the guide pieces 43, and the track 45 is arranged on the guide pieces 43.

In order to better fix the turret 1 and stabilize the turret in the processing process, the fixing seat 5 is provided with a positioning disc 50 for positioning the turret 1, and a positioning structure for positioning the turret 1 is arranged between the positioning disc 50 and the turret 1. The positioning structure can also adopt a mutually matched positioning tooth structure, and the positioning blade 50 and the turret 1 are positioned by arranging mutually meshed positioning teeth between the corresponding parts of the positioning blade 50 and the turret 1, and the turret 1 is matched with the positioning disc 50 in a positioning way by pushing the connecting shaft 15, or the turret 1 is pushed to be separated from being matched with the positioning disc 50.

The turret 1 is obliquely arranged; the rotating surface of the turret 1 and the first transmission shaft 31 are provided with an included angle; the fixed seat 5 is provided with an inclined plane which is obliquely arranged and can be used for obliquely arranging the tool turret 1, the obliquely arranged tool turret 1 can be beneficial to keeping the first transmission shaft 31 and the power input shaft 6 as well as the main shaft 12 entering the working station on the same axis, a transmission mechanism of the first transmission shaft 31 is not needed to be added, and the whole transmission mechanism is beneficial to being simplified.

A sliding rail assembly 51 is arranged between the pushing block 42 and the fixed seat 5, and the sliding rail assembly 51 can facilitate the smooth sliding of the pushing block 42. The rear side of the fixed seat 5 is also provided with a rear connecting plate 52, the sliding rail of the sliding rail assembly 1 is arranged on the rear connecting plate 52, the sliding block of the sliding rail assembly 1 is connected with the sliding block 44, and the sliding block 44 stably slides through the sliding block.

Referring to the drawings, in this embodiment, the pushing block 42 is provided with a guiding slot of the positioning slider 44, and the guiding slot may be disposed on the guiding element 43. The guide groove forms a track 45 for sliding the directional slider 44, and the slider 44 is positioned and slid in the guide groove.

For the convenience of operation, the first transmission piece and the second transmission piece or/and the third transmission piece and the fourth transmission piece are mutually matched engagement teeth. Of course, the first, second, third and fourth transmission members can be realized by other existing technologies.

The power input shaft 6, the first transmission shaft 31 and the main shaft 12 positioned at the working station are vertically arranged.

In this embodiment, the azimuth reference is that the power input shaft 6 is vertically arranged on the upper and lower sides of the horizontal plane, and the side where the fixed seat 5 is provided with the turret 1 is the front.

When the mechanism is used, a cutter on the cutter tower 1 is selected according to the requirements of the processing technology. First, corresponding power is started, and the power input shaft 6 transmits the power to the first transmission shaft 31 through the regular hexagonal third transmission shaft of the first transmission structure 30, so that the first transmission shaft is provided with the power.

If the cutter currently positioned at the working station on the cutter tower 1 is a proper cutter, the driver 41 of the power switching mechanism 4 directly drives the pushing block 42, the pushing block 42 drives the first transmission shaft 31 to slide towards the main shaft 12 positioned at the working station, and the second transmission piece 32 of the first transmission shaft 31 is matched with the first transmission piece 16 positioned on the main shaft 12 positioned at the working station to drive the cutter to rotate for corresponding processing.

If the cutter currently positioned at the working station on the cutter tower 1 is unsuitable, or the cutter needs to be replaced, the corresponding cutter needs to be replaced according to the requirement, the driver 41 of the power switching mechanism 4 drives the pushing block 42 to slide, and the pushing block 42 drives the first transmission shaft 31 to slide towards the transmission wheel 22, so that the third driving piece 33 on the first transmission shaft 31 is matched with the fourth driving piece 24 on the transmission wheel 22, and the transmission wheel 22 is driven to rotate. The pushing block 42 pushes the turret 1 through the slider 44 in combination with the connecting shaft 15 under the action of the rail 45 while sliding towards the driving wheel, so that the first driving member 16 of the spindle 12 in the working position is far away from the engagement with the second driving member 32. The rotating driving wheel 22 drives the second driving wheel 21 to rotate through a gear, the second driving wheel 21 drives the turret 1 to rotate through the gear driving the inner gear of the fluted disc 14 until a proper cutter enters a working station, the driver 41 drives the first transmission shaft 31 to slide towards the main shaft 12 positioned at the working station through the pushing block 42, and the second transmission piece 32 of the first transmission shaft 31 is matched with the first transmission piece 16 positioned on the main shaft 12 positioned at the working station. While the pushing block 42 slides towards the spindle 12 at the working station, under the action of the rail 45, the turret 1 is moved back and reset by the slider 44 and the connecting shaft 15 to enable the first transmission piece 16 and the second transmission piece 32 of the spindle 12 entering the working position to cooperate, so as to drive the cutter to rotate for corresponding machining.

If the positioning disk 50 is provided, the turret 1 is pushed out of engagement with the positioning disk 50 when the push block 42 slides toward the transmission wheel 22, so that the positioning teeth between the turret 1 and the positioning disk 50 are disengaged, so that the turret 1 can be driven to change a tool through the second transmission shaft 21 of the tool changing mechanism 2. When the pushing block 42 slides towards the main shaft 12 of the working station, the turret 1 is pushed to reset, and the positioning teeth between the turret 1 and the positioning disc 50 are driven to be matched in a positioning manner, so that the purpose of positioning and locking the turret 1 is achieved, and the turret 1 is kept stable in the working process.

Claims (10)

1. A processing device, characterized in that: comprises a power input shaft for inputting power; the cutter tower is provided with at least two connecting seats, each connecting seat is provided with a rotatable main shaft, each main shaft is provided with a mounting hole for mounting a cutter, the cutter tower is provided with a fluted disc capable of driving the cutter tower to rotate, the cutter tower is provided with a positioning connecting cutter tower connecting shaft, and the main shaft is provided with a first transmission part for receiving power; the cutter changing mechanism is used for driving the cutter tower to rotate so that a main shaft on the cutter tower enters a working station according to the requirement, and comprises a second transmission shaft and a transmission wheel for driving the second transmission shaft to rotate, a driving gear for driving the fluted disc is arranged between the corresponding position of the second transmission shaft and the fluted disc, and a fourth transmission piece for receiving power is arranged on the transmission wheel; the transmission mechanism comprises a first transmission shaft which can slide relative to the power input shaft, a first transmission structure which can slide and transmit power is arranged between the first transmission shaft and the power input shaft, a second transmission part is arranged at the corresponding end of the first transmission shaft, which is positioned at the working station, and a third transmission part is arranged at the corresponding position or the corresponding end of the first transmission shaft;

the power switching mechanism is used for driving the first transmission shaft to slide towards the working station so that the first transmission member and the second transmission member are matched, and the matching of the third transmission member and the fourth transmission member is released; or slides towards the driving wheel to enable the third driving part and the fourth driving part to be matched, and the first driving part and the second driving part are disengaged from the matching; the power switching mechanism comprises a driver and a pushing block for driving the first transmission shaft to slide, the other end of the connecting shaft is movably connected with a matched sliding block, a track which slides along with the pushing block and guides the sliding block is arranged between the pushing block and the guiding sliding block, the track is used for pushing the cutter tower along with the sliding of the sliding block to the transmission wheel, the first transmission part of the main shaft entering the working position is separated from the second transmission part, and the cutter tower is pushed to be reset along with the sliding of the pushing block towards the working station so as to be matched with the first transmission part and the second transmission part of the main shaft entering the working position;

the fixing seat is used for positioning and mounting the cutter tower, the cutter changing mechanism, the transmission mechanism and the power switching mechanism.

2. The processing apparatus of claim 1, wherein: the first transmission structure is a spline shaft, a polygonal shaft, a special-shaped shaft or transmission teeth with sliding allowance, which are arranged on the power input shaft and are matched with the first transmission shaft for transmission.

3. The processing apparatus of claim 1, wherein: the connecting shaft on be equipped with the link, the link have with promote a pair of connective handle of piece both sides matched with, promote the piece both sides all be equipped with the guide, a pair of connective handle on all be equipped with guide complex slider, the track set up on the guide.

4. The processing apparatus of claim 1, wherein: the fixing seat is provided with a positioning disc for positioning the cutter tower, and a positioning structure for positioning the cutter tower is arranged between the positioning disc and the cutter tower.

5. The processing apparatus of claim 1, wherein: the cutter tower is obliquely arranged; the rotating surface of the cutter tower and the first transmission shaft are provided with an included angle; the fixed seat is provided with an inclined surface which is obliquely arranged.

6. The processing apparatus of claim 1, wherein: and a sliding rail component is arranged between the pushing block and the fixed seat.

7. The processing apparatus of claim 1, wherein: the pushing block is provided with a guide groove for positioning the sliding block, and the guide groove forms a track for sliding the directional sliding block.

8. The processing apparatus of claim 1, wherein: the first transmission piece and the second transmission piece or/and the third transmission piece and the fourth transmission piece are engaged teeth which are matched with each other.

9. The processing apparatus of claim 1, wherein: the driving wheel is arranged on the fixing seat and is concentrically arranged with the first transmission shaft.

10. The processing apparatus of claim 1, wherein: the power input shaft, the first transmission shaft and the main shaft positioned at the working station are vertically arranged; six connecting seats are uniformly distributed on the cutter tower.