CN201195217Y - Chamfering machine structure - Google Patents

Abstract

The utility model relates to a chamfering machine structure which comprises a pedestal; one side of the pedestal is provided with a connecting part and the other side is provided with an adjusting rod; the connecting part is provided with a driving source which is used for driving a cutter to carry out the chamfering processing at the pedestal; both ends of the pedestal are respectively provided with a joining part which is provided with a through hole; both ends of the adjusting rod are respectively provided with a supporting part which is arranged corresponding to the joining part and is provided with a through hole; the supporting parts are respectively positioned at the joining parts through a locking element and a pivot, so as to change the corresponding position of the adjusting rod and the pedestal. The utility model ensures that the chamfering machine mechanism not only can be held by hands to carry out the chamfering processing, but also can be placed stably to carry out the chamfering processing of small workpieces.

Description

The beveler structure

Technical field

The utility model relates to and a kind of workpiece is carried out the beveler of chamfer machining, relates in particular to that a kind of hand-holdable or firm quilt is put and the beveler structure of carrying out chamfer machining.

Background technology

As shown in Figure 5, be existing a kind of beveler structure, it is made up of a body 9 and a drive source 8, this body 9 has a clamping part 91, this clamping part 91 offers an open-work 911 in the appropriate location, and this drive source 8 is provided with a cutter 912, and this cutter can be exposed to this open-work 911, and carries out chamfer machining to machined part in this clamping part 91.

One side of this body 9 is installed with a handle 92, and the user grips this handle 92 and carries out chamfer machining to large-scale to be processed.When to be processed volume hour, normally hand-held to be processed is carried out chamfer machining in this clamping part 91.

As shown in Figure 6, if will force to put this beveler structure, then this body 9 can be to lopsidedness, and can produce vibration during this beveler structure running, and the user hands small-sized to be processed the possibility that can meet accident when carrying out chamfer machining.

The utility model content

Technical problem underlying to be solved in the utility model is, overcome the above-mentioned defective that prior art exists, and a kind of beveler structure is provided, this beveler structure not only can be handed carry out chamfer machining, more can put by firm quilt, to carry out small-sized to be processed chamfer machining.

The technical scheme that its technical problem that solves the utility model adopts is:

A kind of beveler structure, comprise a pedestal, one side of this pedestal has a junction, opposite side is provided with an adjusting lever, and this connecting portion is provided with a drive source, this drive source is in order to drive a cutter and to carry out chamfer machining in this pedestal, it is characterized in that: the two ends of this pedestal respectively are provided with a convergence part, respectively this convergence part has a perforation, and the two ends of this adjusting lever respectively are provided with a support portion, and respectively this support portion is that relatively respectively this convergence part is set, and respectively this support portion has a perforation, and be positioned this convergence part with a lock member and a pivot respectively, and change the relative position of this adjusting lever and this pedestal.

Aforesaid beveler structure, wherein pedestal has a clamping part, and this clamping part is adjacent to this connecting portion, and this pedestal has a through hole, and this through hole is this connecting portion of lateral direction penetrating and this clamping part.

Aforesaid beveler structure, wherein clamping part has an open-work, this this through hole of open-work vertical communication, and this cutter is laterally inserted this through hole, and part is exposed to this open-work.

Aforesaid beveler structure, wherein the convergence part is to join with a stepped edge clipping and this clamping part, and the lateral margin of this support portion is to be subjected to stopping of this stepped edge clipping and to be positioned this convergence part.

Aforesaid beveler structure, wherein drive source is provided with the driving shaft of an off-centre, and is coupling with this driving and establishes this cutter, and this drive source is provided with an on-slip cover away from an end of this cutter.

Aforesaid beveler structure, wherein contiguous this support portion of adjusting lever is provided with several packing rings.

Aforesaid beveler structure, wherein a side of convergence part has an arcuation locating slot, and the support portion of a side of this adjusting lever has a locating shaft, and this locating shaft is to insert this locating slot, and blocks this locating shaft and locate this adjusting lever in this convergence part with this locating slot.

Aforesaid beveler structure, wherein lock member is a bolt, this pivot is a snib.

The beneficial effects of the utility model are, make this beveler structure not only can be carried out chamfer machining by hand-held, more can put by firm quilt, to carry out small-sized to be processed chamfer machining.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is a perspective exploded view of the present utility model.

Fig. 2 is a partial sectional view of the present utility model.

Fig. 3 is first kind of user mode schematic diagram of the present utility model.

Fig. 4 is second kind of user mode schematic diagram of the present utility model.

Fig. 5 is the schematic appearance of existing beveler structure.

Fig. 6 is the side view of existing beveler structure.

The specific embodiment

Seeing also Fig. 1 to Fig. 4, is the selected example structure of the utility model shown in the figure.

See also Fig. 1 and Fig. 2, present embodiment provides a kind of beveler structure, it comprises a pedestal 1, one side of this pedestal 1 has a junction 11, opposite side is provided with an adjusting lever 2, and this connecting portion 11 is provided with a drive source 3, and this drive source 3 is in order to drive a cutter 31 and to carry out chamfer machining in this pedestal 1.

The two ends of this pedestal 1 respectively are provided with a convergence part 12, and each convergence part 12 has a perforation 121, and the two ends of adjusting lever 2 respectively are provided with a support portion 21, and these adjusting lever 2 contiguous these support portions 21 are provided with several packing rings 22.Each 21 relative each convergence part 12, support portion is set, and each support portion 21 has a perforation 211, and locatees these adjusting levers 2 in this convergence part 12 with a lock member 23 and a pivot 24 respectively.

A support portion 21 wherein is the perforation 121 of inserting this perforation 211 and being locked in this convergence part 12 with this lock member 23, and another support portion 21 is to insert this perforation 211 and be hubbed at this convergence part 12 with pivot 24, in the present embodiment, this lock member 23 is an example with a bolt and a snib respectively with this pivot 24.

One side of this convergence part 12 has an arcuation locating slot 122, and the support portion 21 of a side of this adjusting lever 2 has a locating shaft 212, this locating shaft 212 is to cooperate this locating slot 122 set, in the present embodiment, this locating shaft 212 is to be located at the side inner edge that this support portion 21 is provided with this pivot 24, this locating shaft 212 is to insert this locating slot 122, and blocks this locating shaft 212 and locate this adjusting lever 2 in this convergence part 12 with this locating slot 122.

This convergence part 12 is to join with this clamping part 13 with a stepped edge clipping 123, and the lateral margin 213 of this support portion 21 is subjected to stopping of this stepped edge clipping 123 and is positioned this convergence part 12, whereby, one end that only must unscrew this lock member 23 just can change the relative position of this adjusting lever 2 and this pedestal 1, and locatees this adjusting lever 2 smoothly in this pedestal 1.

This pedestal 1 has a clamping part 13, this clamping part 13 is set with this convergence part 12 adjacent to this connecting portion 11, it is in order to clamping to be processed A, B, and this pedestal 1 has the through hole 14 of this connecting portion 11 of a lateral direction penetrating and this clamping part 13, and this clamping part 13 has an open-work 131, and this open-work 131 is these through holes 14 of vertical communication.

In addition, this drive source 3 also is provided with the driving shaft 32 of an off-centre, and connects with this driving shaft 32 and to establish this cutter 31, this drive source 3 is provided with on-slip cover 33 away from an end of this cutter 31, and being ends with this cutter 31, this drive source 3 inserts this through hole 14, therefore, and this cutter 3

1 can partly be exposed to this open-work 131 carrying out chamfer machining, and because this driving shaft 32 be eccentric set, therefore as long as this cutter 31 of adjustment exposes the height of this open-work 131, just can change the chamfering degree of depth of to be processed A, B.

As shown in Figure 3, when desiring to carry out the chamfer machining of large-scale to be processed A, this clamping part 13 is to be processed A of downward clamping, therefore, this adjusting lever 2 be with this driving shaft 32 axially be vertical, carry out chamfer machining in order to the user grips this adjusting lever 2.

See also Fig. 4 again, when desiring to carry out the chamfer machining of small-sized to be processed B, for making processing more convenient, be that hand-held to be processed B carries out chamfer machining in the beveler structure, therefore this pedestal 1 must be put by firm quilt, at this moment, this clamping part 13 is to be processed the B of clamping that make progress, make this adjusting lever 2 and this drive source 3 driving shaft 32 axially be level, the lateral margin 213 of this support portion 21 then is subjected to stopping of this stepped edge clipping 123, and cooperate the on-slip cover 33 of this drive source 3 and the packing ring 22 of this adjusting lever 2, make this pedestal 1 can be by firm storing.

In sum, the utility model has the advantage of the setting of this adjusting lever and this base construction, Make not only hand-holdable this adjusting lever of this chamfering machine structure, large-scale to be processed is processed, more can Change the relative position of this adjusting lever and this pedestal, the firm quilt of this pedestal is put, little to carry out The chamfer machining that type is to be processed.

Claims (8)

1. a beveler structure comprises a pedestal, and a side of this pedestal has a junction, and opposite side is provided with an adjusting lever, and this connecting portion is provided with a drive source, and this drive source is characterized in that in order to drive a cutter and to carry out chamfer machining in this pedestal:

The two ends of this pedestal respectively are provided with a convergence part, respectively this convergence part has a perforation, and the two ends of this adjusting lever respectively are provided with a support portion, respectively this support portion is that relatively respectively this convergence part is set, and respectively this support portion has a perforation, and be positioned this convergence part with a lock member and a pivot respectively, and change the relative position of this adjusting lever and this pedestal.

2. beveler structure according to claim 1 is characterized in that: described pedestal has a clamping part, and this clamping part is adjacent to this connecting portion, and this pedestal has a through hole, and this through hole is this connecting portion of lateral direction penetrating and this clamping part.

3. beveler structure according to claim 2 is characterized in that: described clamping part has an open-work, this this through hole of open-work vertical communication, and this cutter is laterally inserted this through hole, and part is exposed to this open-work.

4. beveler structure according to claim 2 is characterized in that: described convergence part is to join with a stepped edge clipping and this clamping part, and the lateral margin of this support portion is to be subjected to stopping of this stepped edge clipping and to be positioned this convergence part.

5. beveler structure according to claim 1 is characterized in that: described drive source is provided with the driving shaft of an off-centre, and is coupling with this driving and establishes this cutter, and this drive source is provided with an on-slip cover away from an end of this cutter.

6. beveler structure according to claim 1 is characterized in that: contiguous this support portion of described adjusting lever is provided with several packing rings.

7. beveler structure according to claim 1, it is characterized in that: a side of described convergence part has an arcuation locating slot, and the support portion of a side of this adjusting lever has a locating shaft, this locating shaft is to insert this locating slot, and blocks this locating shaft and locate this adjusting lever in this convergence part with this locating slot.

8. beveler structure according to claim 1 is characterized in that: described lock member is a bolt, and this pivot is a snib.

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