CN210633481U

CN210633481U - Numerical control grinding machine tool machining support device

Info

Publication number: CN210633481U
Application number: CN201920806964.3U
Authority: CN
Inventors: 陈建忠; 潘莲; 毛伟韬
Original assignee: Changzhou Kano Precision Tools Co Ltd
Current assignee: Changzhou Kano Precision Tools Co Ltd
Priority date: 2019-05-31
Filing date: 2019-05-31
Publication date: 2020-05-29
Anticipated expiration: 2029-05-31

Abstract

The utility model discloses a numerical control grinding machine tool machining strutting arrangement, including basement, brace table, pivot, telescopic bolt and bottom plate, a brace table is installed to the top of basement, and the internally mounted of brace table has first gear, the second gear is installed in the place ahead of first gear, and the outside of second gear is connected with the chain belt, the slide rail has been seted up to brace table's inside, the slider extends brace table's one end and installs the backplate, and the surface mounting of backplate has the fixing base, the spout has been seted up on the surface of backplate, and the pivot runs through the central point that backplate and brace table and puts and install in brace table's inside. This numerically control grinder cutter processing strutting arrangement slides through the crank drive slider, and the horizontal position of backplate changes thereupon when the slider slides, and the work piece passes through the fixing base to be fixed on the surface of backplate, so when using this device, the staff can be through the fixed position of controlling the convenient change work piece of crank.

Description

Numerical control grinding machine tool machining support device

Technical Field

The utility model relates to a cutter technical field specifically is a numerically control grinder cutter processing strutting arrangement.

Background

The cutter is an equipment that must be used when the numerically controlled grinder polishes the work piece, and the staff passes through the surface of numerical control operation cutter contact work piece, and the high frequency rotates the cutter, thereby utilizes the friction between cutter and the work piece to sharpen the specific molding that makes the work piece reach the staff demand of the surface of work piece, when the numerically controlled grinder controls the cutter and polishes the work piece, can use a strutting arrangement to support the work piece that needs to polish usually.

The conventional supporting device is mainly used for simply clamping and fixing a workpiece by utilizing a special structure on the device, the angle and the direction of the workpiece cannot be adjusted, when the direction of the workpiece needs to be changed and other areas are polished, a worker usually only can detach the workpiece from the supporting device and fix the workpiece again, and the operation is complicated and wastes time.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a numerically control grinder cutter processing strutting arrangement to the conventional strutting arrangement who proposes in solving above-mentioned background art utilizes the special construction on the device to carry out simple block to the work piece mostly and fixes, and the angle and the position of unable adjustment work piece when the position of needs change work piece other regions of polishing, the staff usually only can be with the work piece follow strutting arrangement unload fix again, operate the problem of the numerous and diverse waste time.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a numerical control grinding machine tool machining strutting arrangement, includes basement, brace table, pivot, flexible bolt and bottom plate, a brace table is installed to the top of basement, and the internally mounted of brace table has first gear to the crank is installed at brace table's rear, the second gear is installed in the place ahead of first gear, and the outside of second gear is connected with the chain belt, the slide rail has been seted up to brace table's inside, and brace table is connected with the slider through the slide rail, the slider extends the one end of brace table and installs the backplate, and the surface mounting of backplate has the fixing base, the spout has been seted up on the surface of backplate, the internally mounted of brace table has the pivot, and the pivot runs through the central point that backplate.

Preferably, the first gear and the second gear are symmetrically installed on the upper side and the lower side of the inside of the support platform, the first gear and the second gear form an integrated structure, and the second gear is connected with the crank.

Preferably, the first gear is engaged with the slider, and the slider and the support platform form a sliding structure through the slide rail.

Preferably, the left end of the rotating shaft is set to be in a threaded structure, the rotating shaft, the supporting table and the back plate form a rotating structure, and the rotating shaft and the back plate form a sliding structure.

Preferably, the fixing seats and the sliding grooves are arranged on the surface of the back plate at equal angles, and the fixing seats and the sliding grooves form a sliding structure.

Preferably, the fixing base is including telescopic bolt, fixing bolt, first splint, second splint, first sleeve, second sleeve and bottom plate, the top of bottom plate is connected with the second sleeve, and the place ahead of second sleeve installs the second splint, the telescopic top of second is connected with first sleeve, and the place ahead of first sleeve installs first splint, the internally mounted of bottom plate has telescopic bolt, and telescopic bolt runs through first sleeve and second sleeve, 3 fixing bolt are installed to the inside equidistant of first splint.

Compared with the prior art, the beneficial effects of the utility model are that: the supporting device for the numerical control grinder cutter processing,

1. the sliding block is driven to slide by the rotation of the internal gear and the chain belt, the back plate is connected to the outside of the sliding block, the sliding block can drive the back plate to move simultaneously, a worker can adjust the horizontal position of the back plate by rotating the crank, the numerical control grinding machine is operated to work after the fixed position of a workpiece is conveniently adjusted, and when the horizontal position of the workpiece needs to be adjusted in work, the worker only needs to rotate the crank;

2. the four fixing seats are arranged on the back plate, the angles and the sizes of gaps of the fixing seats can be adjusted, the fixing seats can be suitable for the shapes of most of workpieces, workers can fix the workpieces on the surface of the back plate stably, and the workpieces can be polished safely after the fixing is finished;

3. the pivot runs through and installs in the inside of backplate and brace table, when the work piece has the helicitic texture incidentally, can fix the one end at the pivot with the work piece, connects motor or handheld handle at the other end of pivot, drives the work piece through the pivot and carries out high-speed rotation to adapt to special demand of polishing.

Drawings

FIG. 1 is a schematic view of the overall front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the overall left-side view structure of the present invention;

FIG. 3 is a schematic view of the sectional structure of the fixing base of the present invention;

FIG. 4 is a schematic view of the structure of the telescopic bolt of the present invention;

FIG. 5 is a schematic view of the connection structure between the second gear and the chain belt according to the present invention.

In the figure: 1. a substrate; 2. a support table; 3. a first gear; 4. a second gear; 5. a chain belt; 6. a slider; 7. a slide rail; 8. a back plate; 9. a rotating shaft; 10. a fixed seat; 11. a crank; 12. a chute; 13. a telescopic bolt; 14. fixing the bolt; 15. a first splint; 16. a second splint; 17. a first sleeve; 18. A second sleeve; 19. a base plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a numerical control grinding machine tool machining supporting device comprises a substrate 1, a supporting platform 2, a first gear 3, a second gear 4, a chain belt 5, a sliding block 6, a sliding rail 7, a back plate 8, a rotating shaft 9, a fixing seat 10, a crank 11, a sliding groove 12, a telescopic bolt 13, a fixing bolt 14, a first clamping plate 15, a second clamping plate 16, a first sleeve 17, a second sleeve 18 and a bottom plate 19, wherein the supporting platform 2 is installed above the substrate 1, the first gear 3 is installed inside the supporting platform 2, the crank 11 is installed behind the supporting platform 2, the second gear 4 is installed in front of the first gear 3, the chain belt 5 is connected outside the second gear 4, the sliding rail 7 is arranged inside the supporting platform 2, the supporting platform 2 is connected with the sliding block 6 through the sliding rail 7, the back plate 8 is installed at one end of the sliding block 6 extending out of the supporting platform 2, the fixing seat 10 is installed on, the surface of backplate 8 has seted up spout 12, and the internally mounted of brace table 2 has pivot 9, and pivot 9 runs through the central point of backplate 8 and brace table 2 and puts.

First gear 3 and second gear 4 are all installed in the inside upper and lower both sides of brace table 2 symmetrically, and first gear 3 constitutes integral structure with second gear 4 to second gear 4 and crank 11 interconnect, crank 11 can drive the first gear 3 and the second gear 4 of top and rotate, and the first gear 3 and the second gear 4 of top drive the first gear 3 and the second gear 4 of below through chain belt 5 and rotate simultaneously.

First gear 3 is connected for the meshing with slider 6, and slider 6 constitutes sliding construction through slide rail 7 and brace table 2, when the first gear 3 that contacts with slider 6 rotates, first gear 3 can drive slider 6 and slide, and the left end of slider 6 is connected with backplate 8, and backplate 8 moves simultaneously along with slider 6's slip, then the staff only need through the horizontal position of the convenient adjustment backplate 8 of rotation crank 11.

The left end of pivot 9 sets up to helicitic texture, and pivot 9 constitutes revolution mechanic with brace table 2 and backplate 8, and pivot 9 constitutes sliding construction with backplate 8, when having helicitic texture additional on the work piece, the staff can install the work piece at the left end of pivot 9, connect motor or handheld handle as the case may at the right-hand member of pivot 9, it rotates to drive the work piece through pivot 9, make this device can be applicable to special demand of polishing, if the work piece only need fix on backplate 8 when, the position of staff's adjustment backplate 8 also can not drive pivot 9 and move simultaneously.

The fixing seats 10 and the sliding grooves 12 are arranged on the surface of the back plate 8 at equal angles, the fixing seats 10 and the sliding grooves 12 form a sliding structure, and a worker can adjust the arrangement angle and the arrangement direction of the fixing seats 10, so that the fixing seats 10 can be better suitable for different shapes of different workpieces.

The fixing seat 10 comprises a telescopic bolt 13, a fixing bolt 14, a first clamping plate 15, a second clamping plate 16, a first sleeve 17, a second sleeve 18 and a bottom plate 19, wherein the second sleeve 18 is connected above the bottom plate 19, the second clamping plate 16 is installed in front of the second sleeve 18, the first sleeve 17 is connected above the second sleeve 18, the first clamping plate 15 is installed in front of the first sleeve 17, the telescopic bolt 13 is installed inside the bottom plate 19, the telescopic bolt 13 penetrates through the first sleeve 17 and the

second sleeve

18, 3 fixing bolts 14 are installed inside the first clamping plate 15 at equal intervals, the telescopic bolt 13 can be used for adjusting the gap between the first clamping plate 15 and the second clamping plate 16, so that the device can be suitable for different thicknesses between different workpieces, after the workpieces are fixed on the first clamping plate 15 and the second clamping plate 16, a worker needs to tighten the fixing bolts 14 to reinforce the connection between the workpieces and the fixing seat 10, the telescopic bolts 13 are then tightened to reinforce the connection between the fixing base 10 and the back plate 8, so that the device can have higher stability and safety during operation.

The working principle is as follows: when a worker needs to use a numerically controlled grinder to fix a workpiece by using the device, the device needs to be stably installed at a required position to confirm that the substrate 1 is horizontally placed;

a workpiece to be polished is placed on the left side of the support table 2, if the workpiece is internally provided with a thread structure, the workpiece is directly installed at the left end of the rotating shaft 9 through the thread structure, the right end of the rotating shaft 9 extends out of the outer side of the support table 2, and a worker can select whether to connect a motor at the right end of the rotating shaft 9 or to hold a handle to drive the workpiece to rotate through the rotating shaft 9 according to the situation;

if the workpiece does not have a thread structure, a worker firstly needs to adjust the back plate 8 to a proper direction, rotate the crank 11, connect the crank 11 with the second gear 4, when the crank 11 rotates, the upper second gear 4 and the first gear 3 can be driven to rotate simultaneously, the upper second gear 4 and the first gear 3 drive the lower second gear 4 and the first gear 3 to rotate in the same direction through the chain belt 5, the first gear 3 drives the sliding block 6 to slide through the tooth block, as shown in figure 1, when the first gear 3 rotates counterclockwise, the slide block 6 drives the back plate 8 to slide leftwards in the slide rail 7, when the first gear 3 rotates clockwise, the slide block 6 drives the back plate 8 to slide rightwards in the slide rail 7, after the horizontal direction of the backboard 8 is adjusted, a worker can fix the workpiece on the surface of the backboard 8 through the fixing seat 10;

when a worker needs to fix a workpiece, firstly, the telescopic bolt 13 is unscrewed, so that the fixing seat 10 can move in the sliding groove 12, the position of the fixing seat 10 in the sliding groove 12 is adjusted according to the shape characteristics of the workpiece, the fixing seat 10 can rotate in the sliding groove 12, the worker can adjust the angle of the fixing seat 10, so that the fixing seat 10 can better adapt to the appearance of the workpiece, the depth of the telescopic bolt 13 in the second sleeve 18 and the bottom plate 19 is adjusted, when the gap between the first clamping plate 15 and the second clamping plate 16 can just accommodate the workpiece, the periphery of the workpiece is respectively arranged in the four fixing seats 10, the workpiece is clamped by the first clamping plate 15 and the second clamping plate 16, the fixing bolt 14 on the first clamping plate 15 is screwed, so that the connection between the workpiece and the fixing seat 10 is more stable, the telescopic bolt 13 is screwed, because the telescopic bolt 13 is positioned in the first sleeve 17 and the second sleeve 18, when a worker tightens the telescopic bolt 13, the telescopic bolt 13 drives the first clamping plate 15 and the second clamping plate 16 to press towards the bottom plate 19, the bottom plate 19 is located inside the sliding groove 12, other parts of the fixed seat 10 except the bottom plate 19 are located on the outer side of the sliding groove 12, and the tightening of the telescopic bolt 13 enables the fixed seat 10 to be more stable and not to slide when the device works;

after the workpiece is fixed, the numerical control machine can be opened by a worker, and the blade is controlled to cut the workpiece.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a numerically control grinder cutter processing strutting arrangement, includes basement (1), brace table (2), pivot (9), telescopic bolt (13) and bottom plate (19), its characterized in that: a support table (2) is arranged above the substrate (1), a first gear (3) is arranged in the support table (2), a crank (11) is arranged at the rear part of the support platform (2), a second gear (4) is arranged in front of the first gear (3), and the outer side of the second gear (4) is connected with a chain belt (5), the inside of the supporting platform (2) is provided with a slide rail (7), and the supporting platform (2) is connected with the sliding block (6) through a sliding rail (7), a back plate (8) is arranged at one end of the sliding block (6) extending out of the supporting platform (2), a fixed seat (10) is arranged on the surface of the back plate (8), a sliding groove (12) is arranged on the surface of the back plate (8), a rotating shaft (9) is arranged inside the supporting platform (2), and the rotating shaft (9) penetrates through the center positions of the back plate (8) and the supporting platform (2).

2. The supporting device for the tool machining of the numerically controlled grinding machine according to claim 1, wherein: first gear (3) and second gear (4) are all installed in the inside upper and lower both sides of brace table (2) symmetrically, and just first gear (3) constitute integrated structure with second gear (4) to second gear (4) and crank (11) interconnect.

3. The supporting device for the tool machining of the numerically controlled grinding machine according to claim 1, wherein: the first gear (3) is connected with the sliding block (6) in a meshed mode, and the sliding block (6) and the supporting platform (2) form a sliding structure through the sliding rail (7).

4. The supporting device for the tool machining of the numerically controlled grinding machine according to claim 1, wherein: the left end of pivot (9) sets up to helicitic texture, and pivot (9) and brace table (2) and backplate (8) constitute rotating-structure to pivot (9) and backplate (8) constitute sliding construction.

5. The supporting device for the tool machining of the numerically controlled grinding machine according to claim 1, wherein: the fixed seat (10) and the sliding chute (12) are arranged on the surface of the back plate (8) at equal angles, and the fixed seat (10) and the sliding chute (12) form a sliding structure.

6. The supporting device for the tool machining of the numerically controlled grinding machine according to claim 1, wherein: fixing base (10) is including telescopic bolt (13), fixing bolt (14), first splint (15), second splint (16), first sleeve (17), second sleeve (18) and bottom plate (19), the top of bottom plate (19) is connected with second sleeve (18), and second splint (16) are installed to the place ahead of second sleeve (18), the top of second sleeve (18) is connected with first sleeve (17), and the place ahead of first sleeve (17) installs first splint (15), the internally mounted of bottom plate (19) has telescopic bolt (13), and telescopic bolt (13) run through first sleeve (17) and second sleeve (18), 3 fixing bolt (14) are installed to the inside equidistance of first splint (15).