CN214978485U - Rotatable suspension machining module - Google Patents

Abstract

The utility model discloses a rotatable processing module that hangs, including unable adjustment base, portal frame and base ring, unable adjustment base includes outer boss, interior boss and ring installation passageway, ring installation passageway is located between outer boss and the interior boss and is used for installing the base ring, but base ring is for interior boss rotary motion, the portal frame is installed on the base ring, the utility model has the advantages of with low costs, easy operation.

Description

Rotatable suspension machining module

Technical Field

The utility model relates to a desktop type laser beam machining equipment field especially relates to a rotatable processing module that hangs.

Background

The existing desktop type laser material increasing and decreasing processing equipment is used for fixing a portal frame for installing a material increasing module and a material decreasing module on a fixed base and cannot move, the material increasing module and the material decreasing module only horizontally move on the portal frame module, the operation is complex when other complex parts such as sleeve-shaped structural parts are manufactured, the position of a workbench needs to be adjusted in real time without stop, time and labor are consumed for manufacturing the parts, the cost is high, the application range is narrow, and the complex parts cannot be processed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome prior art not enough, provide a rotatable processing module that hangs with low costs, easy operation, application scope are wide.

In order to solve the technical problem, the utility model discloses a following technical scheme:

a rotatable suspension machining module comprises a fixed base, a portal frame and a base wheel ring, wherein the fixed base comprises an outer boss, an inner boss and a wheel ring installation channel, the wheel ring installation channel is located between the outer boss and the inner boss and used for installing the base wheel ring, the base wheel ring can rotate relative to the inner boss, and the portal frame is installed on the base wheel ring.

As a further improvement of the above technical solution:

the base ring gear is provided with internal teeth on one side close to the internal boss, a ring gear matched with the internal teeth is arranged on one side close to the base ring gear of the internal boss, and the base ring gear is driven to rotate by the driving ring gear.

The base wheel ring is provided with an outer roller at one side close to the outer boss, the outer boss is provided with a wheel ring track at one side close to the base wheel ring, and the outer roller is arranged on the wheel ring track in a sliding manner.

The inner boss is provided with a side mounting hole at one side close to the base wheel ring, the side mounting hole is communicated with the wheel ring mounting channel, the wheel ring gear is mounted in the side mounting hole, and a driving motor for driving the wheel ring gear is positioned below the inner boss.

The portal frame comprises a cross beam and upright columns positioned at two ends of the cross beam, the lower ends of the upright columns are fixed on the base wheel ring, and the cross beam moves up and down relative to the upright columns.

And a vertical driving device is arranged in the upright post and is used for driving the cross beam to move up and down.

The vertical driving device comprises a second motor, a second supporting seat and a vertical ball screw, the second motor is used for driving the vertical ball screw to rotate, and the vertical ball screw is supported on the stand column through the second supporting seat.

The vertical driving device is arranged in the vertical column and comprises a vertical lead screw slider, one end of the vertical lead screw slider is sleeved on a vertical ball screw, the other end of the vertical lead screw slider is connected with and fixed to the cross beam, and the second motor in the vertical column is used for controlling the movement of the cross beam in the Z-axis direction.

The upright post is provided with a front groove for the vertical screw rod sliding block to pass through on one side close to the cross beam, and the front groove is communicated with an inner hole of the upright post.

Compared with the prior art, the utility model has the advantages of:

the utility model discloses a portal frame is fixed mutually with the base ring, can drive it by the base ring and wind the boss rotatory, will be located the material increase module of portal frame and subtract the arbitrary position of material module rotation to the work piece, and is easy and simple to handle, can satisfy the requirement and the cost of the diversified processing of complicated part lower.

Drawings

Fig. 1 is a schematic structural diagram of the portal frame of the present invention.

Figure 2 is a top view of the suspended processing module of the present invention.

Fig. 3 is a schematic structural view of the fixing base of the present invention.

Fig. 4 is a top view of the fixing base of the present invention.

Fig. 5 is a sectional view a-a in fig. 4.

Fig. 6 is a schematic structural view of the base wheel ring of the present invention.

Fig. 7 is a schematic structural diagram of the column of the present invention.

Fig. 8 is a schematic structural diagram of the vertical driving device of the present invention.

The reference numerals in the figures denote:

1. a fixed base; 101. an outer boss; 102. an inner boss; 1021. a side mounting hole; 103. a wheel ring mounting channel; 104. a wheel ring track; 105. an upper cover; 3. a base wheel ring; 31. internal teeth; 32. an outer roller; 4. a gantry; 41. a column; 4101. a front groove; 4102. an inner hole of the upright post; 42. a cross beam; 7. an additive module; 8. a material reducing module; 9. a ring gear; 18. a vertical drive device; 181. a second motor; 182. a second support seat; 183. a vertical ball screw; 184. vertical lead screw slider.

Detailed Description

The invention will be described in further detail with reference to the drawings and specific examples. Unless otherwise specified, the instruments or materials used in the present invention are commercially available.

As shown in fig. 1 to 8, the rotatable suspension processing module of the present embodiment includes a fixing base 1, a gantry 4 and a base ring 3, the fixing base 1 includes an outer boss 101, an inner boss 102 and a ring installation channel 103, the ring installation channel 103 is located between the outer boss 101 and the inner boss 102 and is used for installing the base ring 3, the base ring 3 is rotatable relative to the inner boss 102, and the gantry 4 is installed on the base ring 3.

Portal frame 4 is fixed mutually with base rim 3, can drive it by base rim 3 and rotate around interior boss 102, will be located the arbitrary position of the material increase module 7 of portal frame 4 and subtract material module 8 rotation to the work piece, thereby cooperation material increase module 7 and subtract the removal of material module 8 and satisfy the requirement of the diversified processing of complicated part, the various complicated parts that have different form curved surfaces of machinable.

The base ring gear 3 is provided with internal teeth 31 at one side close to the internal boss 102, the internal boss 102 is provided with a ring gear 9 matched with the internal teeth 31 at one side close to the base ring gear 3, and the base ring gear 3 is driven to rotate by the driving ring gear 9. The gear ring gear 9 and the internal teeth 31 are in gear engagement transmission, so that the precision is high, the slippage is not easy, and the stability is high. In this embodiment, the fixing base 1 further includes an upper cover 105, and the upper cover 105 is located above the wheel ring rail 104 and between the base wheel ring 3 and the outer boss 101, and is used for separating the wheel ring rail 104 from the outside.

In this embodiment, the inner boss 102 is provided with a side mounting hole 1021 on a side close to the base ring gear 3, the side mounting hole 1021 is communicated with the ring gear mounting passage 103, the ring gear 9 is mounted in the side mounting hole 1021, and the driving motor for driving the ring gear 9 is located below the inner boss 102, so as to lower the center of gravity of the device.

The outer roller 32 is arranged on one side of the base wheel ring 3 close to the outer boss 101, the wheel ring rail 104 is arranged on one side of the outer boss 101 close to the base wheel ring 3, and the outer roller 32 is arranged on the wheel ring rail 104 in a sliding mode.

In this embodiment, the number of the outer rollers 32 is set to 8, and the outer rollers are uniformly arranged along the outer circumference of the base wheel ring 3. The outer roller 32 is matched with the wheel ring rail 104 and used for supporting the base wheel ring 3, the shape of the wheel ring rail 104 arranged on the outer boss 101 is matched with the shape of the outer roller 32, the load bearing capacity of the base wheel ring 3 is improved, and a solid foundation is laid for the base wheel ring 3 to stably drive the portal frame 4, the material increasing module 7 and the material reducing module 8 to rotate in normal work. In other embodiments, the number of outer rollers 32 is increased or decreased depending on the actual need.

The portal frame 4 comprises a cross beam 42 and upright columns 41 positioned at two ends of the cross beam 42, the lower ends of the upright columns 41 are fixed on the base wheel ring 3, and the cross beam 42 moves up and down relative to the upright columns 41.

The vertical driving device 18 is arranged in the upright column 41, and the vertical driving device 18 is used for driving the cross beam 42 to move up and down.

The vertical driving device 18 comprises a second motor 181, a second supporting seat 182 and a vertical ball screw 183, the second motor 181 is used for driving the vertical ball screw 183 to rotate, and the vertical ball screw 183 is supported on the upright 41 through the second supporting seat 182.

The vertical driving device 18 is arranged in the vertical column 41 and comprises a vertical lead screw slider 184, wherein the vertical driving device 18 is arranged in the vertical column inner hole 4102, one end of the vertical lead screw slider 184 is sleeved on the vertical ball screw 183, the other end of the vertical lead screw slider 184 is connected and fixed with the cross beam 42, and the second motor 181 in the vertical column 41 is used for controlling the movement of the cross beam 42 in the Z-axis direction.

The upright 41 is provided with a front groove 4101 on one side close to the cross beam 42 for the vertical screw slider 184 to pass through, and the front groove 4101 is communicated with an upright inner hole 4102.

In this embodiment, the vertical driving device 18 is located at the upper half portion of the column 41, and the second motor 181 is a servo motor and drives two vertical ball screws 183, respectively.

In this embodiment, the inner hole 4102 of the upright post is divided into two parts by a horizontally disposed partition board, one part accommodates the second motor 181, and the other part accommodates other important parts of the vertical driving device 18.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention. The technical solution of the present invention can be used by anyone skilled in the art to make many possible variations and modifications, or to modify equivalent embodiments, without departing from the scope of the technical solution of the present invention, using the technical content disclosed above. Therefore, any simple modification, equivalent change and modification made to the above embodiments by the technical entity of the present invention should fall within the protection scope of the technical solution of the present invention.

Claims (9)

1. A rotatable suspension machining module, characterized in that: the gantry type wheel ring installation device comprises a fixed base (1), a gantry frame (4) and a base wheel ring (3), wherein the fixed base (1) comprises an outer boss (101), an inner boss (102) and a wheel ring installation channel (103), the wheel ring installation channel (103) is located between the outer boss (101) and the inner boss (102) and used for installing the base wheel ring (3), the base wheel ring (3) can rotate relative to the inner boss (102), and the gantry frame (4) is installed on the base wheel ring (3).

2. The suspension processing module of claim 1, wherein: the base wheel ring (3) is provided with internal teeth (31) on one side close to the internal boss (102), the internal boss (102) is provided with a wheel ring gear (9) matched with the internal teeth (31) on one side close to the base wheel ring (3), and the base wheel ring (3) is driven to rotate through the driving wheel ring gear (9).

3. The suspension machining module of claim 2, wherein: the base wheel ring (3) is equipped with outer gyro wheel (32) being close to outer boss (101) one side, outer boss (101) are equipped with wheel ring track (104) being close to base wheel ring (3) one side, outer gyro wheel (32) are slided and are located on wheel ring track (104).

4. The suspension machining module of claim 2, wherein: a side mounting hole (1021) is formed in one side, close to the base wheel ring (3), of the inner boss (102), the side mounting hole (1021) is communicated with the wheel ring mounting channel (103), a wheel ring gear (9) is mounted in the side mounting hole (1021), and a driving motor for driving the wheel ring gear (9) is located below the inner boss (102).

5. A suspension machining module according to any one of claims 1 to 4, characterized in that: the portal frame (4) comprises a cross beam (42) and upright columns (41) positioned at two ends of the cross beam (42), the lower ends of the upright columns (41) are fixed on the base wheel ring (3), and the cross beam (42) moves up and down relative to the upright columns (41).

6. The suspension processing module of claim 5, wherein: a vertical driving device (18) is arranged in the upright column (41), and the vertical driving device (18) is used for driving the cross beam (42) to move up and down.

7. The suspension processing module of claim 6, wherein: the vertical driving device (18) comprises a second motor (181), a second supporting seat (182) and a vertical ball screw (183), the second motor (181) is used for driving the vertical ball screw (183) to rotate, and the vertical ball screw (183) is supported on the stand column (41) through the second supporting seat (182).

8. The suspension processing module of claim 7, wherein: be equipped with stand hole (4102) in stand (41), vertical drive arrangement (18) are located stand hole (4102), vertical drive arrangement (18) still include vertical lead screw slider (184), vertical lead screw slider (184) one end cup joints on vertical ball (183), and the other end is connected and is fixed with crossbeam (42), comes the removal of control crossbeam (42) in the Z axle direction through second motor (181) in stand (41).

9. The suspension processing module of claim 8, wherein: one side of the upright post (41) close to the cross beam (42) is provided with a front groove (4101) for the vertical screw rod sliding block (184) to pass through, and the front groove (4101) is communicated with an inner hole (4102) of the upright post.

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