CN223718915U - Vertical lathe crossbeam slide finish machining mould - Google Patents

Abstract

The utility model discloses a vertical lathe beam sliding seat finish machining mould, wherein the top surface plane of the mould body is a reference plane, a plurality of through T-shaped grooves and cutter outlet round holes are formed in the reference plane, the inside of the mould body is hollowed out, a plurality of supporting rib plates are arranged in the middle cavity, a through long partition plate is arranged in the middle cavity, a plurality of uniform and symmetrical rib plates are arranged on two sides of the partition plate, the mould is designed to be in direct connection with a machining equipment machine tool workbench, multiple angles are combined at will to be matched with other machining equipment, and lifting devices are arranged on two sides of the mould. The claw body can be placed in the T-shaped groove on the tire body, the processing part can be held tightly, and the T-shaped groove bolt can also be penetrated to clamp the part. The tyre is specifically matched with other processing equipment for use through a cutter outlet hole on the T-shaped groove at any multi-angle. The device can solve the problem that the existing beam sliding seat has different precision influences on the assembly and the processing state, and avoids the influence of gravity deformation on the machining workshop when the parts are processed, deflection deformation is generated and the later assembly precision is influenced.

Description

Vertical lathe crossbeam slide finish machining mould

Technical Field

The utility model belongs to the technical field of machine tools, and particularly relates to a vertical lathe beam sliding seat finish machining mould.

Background

In the machine tool manufacturing industry, when a beam sliding seat is precisely machined in a machining workshop, four sizing blocks with equal height are usually placed on a workbench of a planer type milling machine of machining equipment, the front and rear of the beam sliding seat are supported, the middle of the beam sliding seat is suspended, and the sizing blocks can deform in the middle of parts under the action of gravity. In the method, the beam sliding seat is arranged on the vertical lathe, the back surface of the beam sliding seat is arranged on the beam, the front surface of the beam sliding seat is provided with the vertical tool rest, the processing state and the using state of the beam sliding seat are different, and the assembly precision in the later period is influenced to a certain extent. The larger the size of the beam slide, the larger the deformation amount. To solve this problem, a special processing mold needs to be designed to improve the use accuracy of the beam sliding seat.

The tire body is different from a workbench of a planer type milling machine, the surface of the workbench of the planer type milling machine collides with the like, the flatness is less than 0.04mm/m ², and the flatness requirement of a machined part is difficult to be met, so the tire body is designed to solve the problems.

Disclosure of utility model

The utility model aims to provide a vertical lathe beam slide seat finish machining mould so as to solve the problem of influence on the precision of the existing beam slide seat in different assembly and use and machining states, and avoid influence on the later assembly precision due to deflection deformation caused by gravity deformation when a machining workshop machines parts.

In order to achieve the above object, the present utility model has the following technical scheme.

The utility model provides a vertical lathe crossbeam slide finish machining mould, mould body top surface plane is the reference plane, has many to link up T type groove and play sword round hole in the reference plane, and the inside fretwork of mould has many supporting rib plates, has logical long baffle in the middle chamber, and there are a plurality of even and symmetrical gusset on baffle both sides, this mould design with processing equipment lathe workstation direct connection structure, the cooperation of cooperation with other processing equipment is used to the arbitrary cooperation of multi-angle, mould both sides are equipped with hoisting accessory.

Further, the claw body can be placed in the T-shaped groove on the tire body, and the processing part is held tightly.

Further, T-shaped groove bolts can be penetrated in T-shaped grooves on the tire body to clamp the parts.

Further, the mould body is designed with a direct connection structure with a machine tool workbench of processing equipment, and through a cutter outlet hole on the T-shaped groove, the cutter outlet hole is combined at any angle to be matched with other processing equipment for use.

The clamping fixture has the beneficial effects that when the clamping fixture is used, the clamping fixture body is lifted and placed on planer type milling machine equipment, then the clamping fixture body is combined with a planer type milling machine workbench, the clamping fixture body is installed and connected on the planer type milling machine workbench by adopting a first clamping bolt and a second clamping bolt, and the upper surface of the clamping fixture body is fixed by utilizing positioning leaning iron. And then finish milling the top surface of the mould, and further finish milling the joint surface of the crossbeam sliding seat body in advance. The beam sliding seat body is placed on the mould body, one side of the beam sliding seat body is abutted against the positioning stop block, and after the beam sliding seat body is clamped by the clamping jaw body, the fitting degree of the fitting surface is checked, and a 0.04mm feeler gauge is required not to be inserted. And aligning the beam sliding seat body, and finally carrying out finish machining on the beam sliding seat body. The device can solve the problem that the existing beam sliding seat has different precision influences on the assembly and the processing state, and avoids the influence of gravity deformation on the machining workshop when the parts are processed, deflection deformation is generated and the later assembly precision is influenced.

Drawings

FIG. 1 is a front view of a mold used in an embodiment of the utility model.

FIG. 2 is a top view of a mold body used in an embodiment of the utility model.

FIG. 3 is a left side view of a mold used in an embodiment of the present utility model and a view of a hole-closing structure with a planer type milling machine.

Fig. 4 is a transverse cross-sectional view of a mold used in an embodiment of the utility model.

FIG. 5 is a view showing how the mold is connected to the milling planer of the workshop according to the embodiment of the present utility model.

FIG. 6 is a side view of a beam slide used in an embodiment of the present utility model in a clamping mode on a mold.

FIG. 7 is a top view of a beam slide used in an embodiment of the present utility model in a clamping mode on a mold.

The figure shows that the device comprises a mould body 1, a T-shaped groove 2, a cutter outlet round hole 3, a long partition plate 4, a supporting rib plate 5, a positioning leaning iron 6, a first clamping bolt 7, a second clamping bolt 8, a planer milling machine workbench 10, a beam sliding seat body 11, a positioning stop block 12 and a clamping jaw body.

Detailed Description

The following description of specific embodiments of the utility model will be given in connection with the accompanying drawings and examples to provide a better understanding of the utility model.

Examples

The vertical lathe beam sliding seat finish machining mould shown in figures 1 to 7 comprises a mould body 1, wherein the top surface plane of the mould body 1 is set as a reference plane, a plurality of through T-shaped grooves 2 and cutter outlet round holes 3 are formed in the reference plane, the inside of the mould body 1 is hollowed out and provided with a plurality of supporting rib plates 5, a through long partition plate 4 is arranged in the middle cavity of the mould body 1, and a plurality of uniform and symmetrical rib plates are arranged on two sides of the through long partition plate 4. The clamping fixture is designed with a direct connection structure with a machine tool workbench of processing equipment, the clamping fixture is matched with other processing equipment at any multi-angle, and lifting devices are arranged on two sides of the clamping fixture.

The claw body 12 can be placed in the T-shaped groove 2 on the tire body 1, the processing parts can be held tightly, and the T-shaped groove bolts can also be penetrated to clamp the parts.

The tire body 1 is designed to be in direct connection with a machine tool workbench of processing equipment, and is matched with other processing equipment for use through a cutter outlet round hole 3 on the T-shaped groove 2 at any multiple angles.

The mould comprises the following operation steps:

(1) As shown in fig. 5, the tire body 1 is lifted and placed on planer type milling machine equipment, and the tire body 1 is combined with a planer type milling machine workbench 9 in a manner shown in fig. 5, and the tire body 1 is installed and connected on the planer type milling machine workbench 9 by adopting a first clamping bolt 7 and a second clamping bolt 8;

(2) Finish milling the top surface of the clamping fixture, and then finish milling the joint surface of the crossbeam sliding seat body 10 in advance;

(3) As shown in fig. 6 and 7, the beam sliding seat body 10 is placed on the mould body 1, one side is abutted against the positioning stop block 11, the jaw body 12 is used for clamping the beam sliding seat body 10, and then the bonding degree of the bonding surface is checked, so that a 0.04mm feeler gauge is required not to be inserted;

(4) And aligning the beam sliding seat body 10, and finally carrying out finish machining on the beam sliding seat body 10.

While the foregoing is directed to the preferred embodiments of the present utility model, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the utility model, such changes and modifications are also intended to be within the scope of the utility model.

Claims (4)

1. The vertical lathe beam sliding seat finish machining clamping fixture comprises a clamping fixture body (1) and is characterized in that the top surface plane of the clamping fixture body (1) is set to be a reference plane, a plurality of through T-shaped grooves (2) and cutter outlet round holes (3) are formed in the reference plane, the inside of the clamping fixture body (1) is hollowed out and provided with a plurality of supporting rib plates (5), a through long partition plate (4) is arranged in the middle cavity of the clamping fixture body (1), and a plurality of uniform and symmetrical rib plates are arranged on two sides of the through long partition plate (4).

2. The vertical lathe beam sliding seat finish machining clamping fixture according to, wherein the clamping jaw body (12) is placed in the T-shaped groove (2) on the clamping fixture body (1) to hold a machined part tightly.

3. The vertical lathe beam sliding seat finish machining mold according to claim, wherein the T-shaped groove bolts penetrate through the T-shaped grooves (2) on the mold body (1) to clamp and press parts.

4. The vertical lathe beam sliding seat finish machining mould according to claim, wherein the mould body (1) is provided with a direct connection structure with a machining equipment machine tool workbench, and is matched with other machining equipment at any angle through a cutter outlet round hole (3) on the T-shaped groove (2).