CN203955828U - The numerical control press with inclined strut beam structure - Google Patents

Abstract

The utility model provides a kind of numerical control press with inclined strut beam structure, comprising: Y-axis guide rail; Bracket, is slidably disposed on Y-axis guide rail; X-axis crossbeam, is arranged on bracket; Inclined strut beam, one end of inclined strut beam is connected with bracket, and the other end of inclined strut beam is connected with the end of X-axis crossbeam; Between inclined strut beam, X-axis crossbeam and bracket, form triangular frame structure.Adopt the numerical control press of said structure, just used inclined strut beam, therefore, the labour cost of material, assembling, debugging is all very low, and has the feature of high speed, good stability.Use the utility model can guarantee to greatest extent the dimension precision between the holes of sheet material in high speed stamping process.

Description

The numerical control press with inclined strut beam structure

Technical field

The utility model relates to Digit Control Machine Tool field, particularly a kind of numerical control press with inclined strut beam structure.

Background technology

Numerical control press of the prior art adopts conventionally increases by two Y direction guide rails, to increase dynamic stiffiness, because of complex structure, two guide pass of multi-processing, has more two secondary guideways, also will have more assembling, the labour cost of debugging, and cost is high.

Utility model content

The utility model provides a kind of numerical control press with inclined strut beam structure, and to solve, cost in prior art is high, the problem of the dimension precision between the holes in high speed stamping process.

For addressing the above problem, as an aspect of the present utility model, provide a kind of numerical control press with inclined strut beam structure, comprising: Y-axis guide rail; Bracket, is slidably disposed on Y-axis guide rail; X-axis crossbeam, is arranged on bracket; Inclined strut beam, one end of inclined strut beam is connected with bracket, and the other end of inclined strut beam is connected with the end of X-axis crossbeam; Between inclined strut beam, X-axis crossbeam and bracket, form triangular frame structure.

Further, numerical control press comprises two inclined strut beams, and two inclined strut beams are arranged on the both sides of X-axis crossbeam symmetrically.

Further, numerical control press also comprises y-axis motor and screw mandrel, and y-axis motor driven bracket is along Y-axis guide rail movement.

Further, numerical control press also comprises X-axis motor, gear and the tooth bar being arranged on X-axis crossbeam, wheel and rack engagement, and X-axis motor-driven gear rotates so that tooth bar motion.

Further, numerical control press also comprises slide carriage, and slide carriage is arranged on tooth bar, and slide carriage is provided with at least one clamp.

Further, numerical control press also comprises slide block, and bracket is arranged on Y-axis guide rail by slide block.

Adopt the numerical control press of said structure, just used inclined strut beam, therefore, the labour cost of material, assembling, debugging is all very low, and has the feature of high speed, good stability.Use this patent can guarantee to greatest extent the dimension precision between the holes of sheet material in high speed stamping process.

Accompanying drawing explanation

Fig. 1 schematically shows structural representation of the present utility model;

Fig. 2 schematically shows the structural representation of X-axis crossbeam;

Fig. 3 schematically shows the structural representation of bracket;

Fig. 4 schematically shows the structural representation of inclined strut beam;

Fig. 5 schematically shows the structural representation of y-axis motor and screw mandrel;

Fig. 6 schematically shows the structural representation of slide carriage and clamp.

Reference numeral in figure: 1, Y-axis guide rail; 2, bracket; 3, X-axis crossbeam; 4, inclined strut beam; 5, y-axis motor; 6, screw mandrel; 7, slide carriage; 8, clamp; 9, X-axis motor; 10, gear; 11, tooth bar.

The specific embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is elaborated, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.

Please refer to Fig. 1 to Fig. 6, the utility model provides a kind of numerical control press with inclined strut beam structure, comprising: Y-axis guide rail 1; Bracket 2, is slidably disposed on Y-axis guide rail 1; X-axis crossbeam 3, is arranged on bracket 2; Inclined strut beam 4, one end of inclined strut beam 4 is connected with bracket 2, and the other end of inclined strut beam 4 is connected with the end of X-axis crossbeam 3; Between inclined strut beam 4, X-axis crossbeam 3 and bracket 2, form triangular frame structure.

Because prior art does not have inclined strut beam, so the moment of inertia at X-axis crossbeam two ends is large, thereby causes the sheet material being held to have at the volley to swing and make punching precision (pitch-row) overproof.Adopt the numerical control press of said structure, just used inclined strut beam, therefore, the labour cost of material, assembling, debugging is all very low, and has the feature of high speed, good stability.Use this patent can guarantee to greatest extent the dimension precision between the holes of sheet material in high speed stamping process.

Preferably, numerical control press comprises that 4, two inclined strut beams 4 of two inclined strut beams are arranged on the both sides of X-axis crossbeam 3 symmetrically.Owing to being respectively provided with an inclined strut beam in left and right, and the rightest the most left two ends that are respectively used to X-axis crossbeam connect, make to form between bracket, X-axis crossbeam and inclined strut beam a firm leg-of-mutton frame structure, this structure makes crossbeam two ends when motion, reduce oscillating quantity, solve the not high problem of high speed stamping precision.Preferably, bracket, X-axis crossbeam and inclined strut beam three connect with high-strength bolt.

Preferably, numerical control press also comprises y-axis motor 5 and screw mandrel 6, and y-axis motor 5 driven brackets 2 move along Y-axis guide rail 1.

Preferably, numerical control press also comprises X-axis motor 9, gear 10 and the tooth bar 11 being arranged on X-axis crossbeam 3, gear 10 and tooth bar 11 engagements, and X-axis motor 9 driven wheels 10 rotate so that tooth bar 11 motions.Preferably, numerical control press also comprises slide carriage 7, and slide carriage 7 is arranged on tooth bar 11, and slide carriage 7 is provided with at least one clamp 8.Wherein, clamp 8, for clamping the steel plate that needs processing, makes steel plate move along X-direction and Y direction.When tooth bar 11 moves along X-axis crossbeam under the driving of gear 10, slide carriage 7 is motion together thereupon also.Under the action of X-axis motor and y-axis motor, the steel plate that clamp is clamped is done to move in plane by predefined paths, completes predetermined processing.

Preferably, numerical control press also comprises slide block, and bracket 2 is arranged on Y-axis guide rail 1 by slide block.Preferably, slide block is contained in below bracket, with high-strength bolt, connects.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (6)

1. a numerical control press with inclined strut beam structure, is characterized in that, comprising:

Y-axis guide rail (1);

Bracket (2), is slidably disposed on described Y-axis guide rail (1);

X-axis crossbeam (3), is arranged on described bracket (2);

Inclined strut beam (4), one end of described inclined strut beam (4) is connected with described bracket (2), and the other end of described inclined strut beam (4) is connected with the end of described X-axis crossbeam (3); Between described inclined strut beam (4), described X-axis crossbeam (3) and described bracket (2), form triangular frame structure.

2. numerical control press according to claim 1, is characterized in that, described numerical control press comprises two described inclined strut beams (4), and described two inclined strut beams (4) are arranged on the both sides of described X-axis crossbeam (3) symmetrically.

3. numerical control press according to claim 1, is characterized in that, described numerical control press also comprises y-axis motor (5) and screw mandrel (6), and described y-axis motor (5) drives described bracket (2) to move along described Y-axis guide rail (1).

4. numerical control press according to claim 1, it is characterized in that, described numerical control press also comprises X-axis motor (9), gear (10) and the tooth bar (11) being arranged on described X-axis crossbeam (3), described gear (10) and described tooth bar (11) engagement, described X-axis motor (9) drives described gear (10) to rotate so that described tooth bar (11) motion.

5. numerical control press according to claim 4, it is characterized in that, described numerical control press also comprises slide carriage (7), and it is upper that described slide carriage (7) is arranged on described tooth bar (11), and described slide carriage (7) is provided with at least one clamp (8).

6. numerical control press according to claim 1, is characterized in that, described numerical control press also comprises slide block, and described bracket (2) is arranged on described Y-axis guide rail (1) by described slide block.