CN218836102U - Numerical control lathe holds in palm work or material rest convenient to take - Google Patents

Abstract

The utility model discloses a numerical control lathe holds in palm work or material rest convenient to take, it includes function supporting mechanism and falls to the ground and remove structure, two and hold in the palm material structure, liftout structure. The function supporting mechanism comprises a floor frame, electric push rods fixedly arranged at corners of the upper surface of the floor frame and supporting plates fixedly arranged among the output ends of the four electric push rods. The floor moving structure comprises four stand columns, a moving plate fixedly installed between the bottom ends of the four stand columns and four floor moving wheels fixedly installed on the lower surface of the moving plate. The utility model discloses satisfy the stability of holding in the palm material structure processing position bearing at function supporting mechanism under, through function supporting mechanism and fall to the ground under the cooperation of moving structure for can satisfy the nimble of numerical control lathe processing position and shift based on the support material structure on the function supporting mechanism, effectively realized holding in the palm the stability of material structure processing unloading and shift the flexibility, so satisfied the suitability of numerical control lathe work piece unloading processing.

Description

Numerical control lathe holds in palm work or material rest convenient to take

Technical Field

The utility model relates to a machine-building technical field especially relates to a numerical control lathe holds in palm work or material rest convenient to take.

Background

The numerically controlled lathe is a high-precision and high-efficiency automatic machine tool, and is one of the numerically controlled lathes with the largest number. The numerical control lathe is widely applied in the technical field of mechanical manufacturing. At present, when a numerical control lathe processes some cylindrical parts, the cylindrical parts are continuously processed on the numerical control lathe, and a material supporting frame is often adopted for automatic supporting and feeding in order to save manpower and cost.

In the prior art, when a cylindrical part is supported and loaded, the material supporting frame has the use characteristics of saving manpower and cost, but in actual application, the material supporting frame needs to provide the bearing capacity of the cylindrical part and is always fixedly arranged in a loading area of the numerical control lathe, so that the structure is not light and handy, and the material supporting frame is inconvenient to transfer and cannot meet the flexibility requirement of loading and using of the numerical control lathe.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to be directed at the work or material rest that numerical control lathe used now, when it supports the material loading to the cylindricality part, though the work or material rest has possessed the service property who practices thrift manpower and cost, but when the in-service use, need provide cylindricality part bearing capacity because of the work or material rest, often fixed the material loading region of setting at numerical control lathe, so the setting of its structure is not light and handy enough, shift inconvenient and can't satisfy the problem of the flexibility demand that numerical control lathe material loading used, provide a numerical control lathe work or material rest convenient to take.

The utility model provides a numerical control lathe holds in palm work or material rest convenient to take which characterized in that includes:

the function supporting mechanism comprises a floor frame, electric push rods fixedly arranged at corners of the upper surface of the floor frame and supporting plates fixedly arranged among the output ends of the four electric push rods;

the floor moving structure is fixedly arranged on the lower surface of the supporting plate; the floor moving structure comprises four upright posts, a moving plate fixedly arranged between the bottom ends of the four upright posts and four floor moving wheels fixedly arranged on the lower surface of the moving plate;

the two material supporting structures are symmetrically erected and fixedly connected on the upper surface of the supporting plate; the two material supporting structures are used for supporting and guiding a plurality of cylindrical workpieces; and

and the ejection structure is used for blanking based on the cylindrical workpieces on the two material supporting structures.

Above-mentioned numerical control lathe holds in palm work or material rest convenient to take under the cooperation of function supporting mechanism and the structure that removes that falls to the ground for can satisfy the nimble of numerical control lathe processing position and shift based on the material structure that holds in the palm on the function supporting mechanism, effectively realize holding in the palm stability and the flexibility of material structure processing unloading, so satisfied the suitability of numerical control lathe work piece unloading processing.

In one embodiment, the functional support mechanism further comprises a damping pad fixedly mounted on the lower surface of the floor frame.

In one embodiment, the inner dimension of the floor frame is greater than the outer dimension of the moving plate.

In one embodiment, when the support plate moves vertically, the moving plate moves synchronously with the support plate.

In one embodiment, the material supporting structure comprises a material supporting inclined rod and a V-shaped material blocking groove arranged in the length direction of the upper surface of the material supporting inclined rod; the cylindrical workpieces are movably arranged between the two material supporting inclined rods, and the V-shaped material blocking grooves are used for limiting the positions of the cylindrical workpieces on the material supporting inclined rods.

In one embodiment, a first supporting piece and a second supporting piece are fixedly mounted on the lower surface of each material supporting diagonal rod respectively, and each first supporting piece and each second supporting piece are fixedly mounted on the supporting plate.

In one embodiment, the ejection structure comprises an ejection cylinder fixedly mounted on the supporting plate and an ejection inclined block fixedly mounted at the output end of the ejection cylinder; the ejection inclined block is correspondingly arranged at a position right below the position between the two V-shaped material blocking grooves.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses, through the cooperation of function supporting mechanism and the ground mobile structure, the flexible ability of function supporting mechanism drive can satisfy the ability that function supporting mechanism and ground mobile structure contacted with ground in a flexible way to make the material supporting structure based on function supporting mechanism can satisfy the nimble shift of numerical control lathe processing position, effectively realized the stability and the shift flexibility of material supporting structure processing unloading;

furthermore, the telescopic driving capacity of the functional supporting mechanism can meet the requirement of adjusting the blanking height of the material supporting structure on the functional supporting mechanism, so that the adjustability of the blanking height of parts machined by a numerical control lathe is realized.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

Fig. 1 shows that the utility model relates to a numerical control lathe holds in palm material frame's that is convenient for take structural schematic.

Fig. 2 is a schematic view showing the structure of the moving plate of fig. 1.

Fig. 3 is a schematic structural view of the holding structure in fig. 1.

Fig. 4 is a schematic structural view of the material ejecting structure in fig. 1.

Description of the main elements

In the figure: 1. a functional support mechanism; 11. a floor frame; 12. an electric push rod; 13. a support plate; 14. a damping pad; 2. a landing mobile structure; 21. a column; 22. moving the plate; 23. a landing moving wheel; 3. a material supporting structure; 31. a material supporting diagonal rod; 32. a V-shaped material blocking groove; 4. a cylindrical workpiece; 5. a material ejecting structure; 51. a material ejection cylinder; 52. ejecting the inclined block; 6. a first support member; 7. a second support member.

The present invention is described in further detail with reference to the drawings and the detailed description.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1-4, the present embodiment provides a material supporting rack of a numerically controlled lathe, which includes a functional supporting mechanism 1, a floor moving structure 2, two material supporting structures 3, a plurality of cylindrical workpieces 4, and a material ejecting structure 5.

Referring to fig. 1-2, the functional supporting mechanism 1 includes a floor frame 11, electric push rods 12 fixedly installed at corners of an upper surface of the floor frame 11, and supporting plates 13 fixedly installed between output ends of the four electric push rods 12; the function supporting mechanism 1 also comprises a damping pad 14 fixedly arranged on the lower surface of the floor frame 11; damping pad 14 may increase contact friction with the ground;

wherein, the floor-type moving structure 2 is fixedly arranged on the lower surface of the supporting plate 13; the floor moving structure 2 comprises four upright posts 21, a moving plate 22 fixedly arranged between the bottom ends of the four upright posts 21 and four floor moving wheels 23 fixedly arranged on the lower surface of the moving plate 22;

the inner size of the floor frame 11 is larger than the outer size of the moving plate 22; so that the movable plate 22 flexibly passes through the floor frame 11 vertically;

when the support plate 13 moves vertically, the moving plate 22 moves in synchronization with the displacement of the support plate 13.

Specifically, when the cylindrical workpiece 4 needs to be automatically blanked onto a machining area of the numerically controlled lathe, the functional support mechanism 1 can be moved to a position close to the machining area of the numerically controlled lathe; at this time, the landing moving wheel 23 contacts with the ground, and the landing frame 11 is suspended on the ground; after the blanking position of the cylindrical workpiece 4 is determined, the electric push rod 12 can be started to drive the supporting plate 13 to jack up and ascend, the supporting plate 13 in the ascending process can drive the floor moving wheel 23 below the moving plate 22 to be separated from the ground through the upright post 21 until the damping pad 14 on the lower surface of the floor frame 11 is contacted with the ground, and then the stability of the functional supporting mechanism 1 and the machining position of the upper structure of the functional supporting mechanism can be stabilized.

It should be noted that after the damping pad 14 under the landing frame 11 contacts the ground, and when the landing moving wheel 23 is in a suspended state with the ground, the electric push rod 12 continues to be controlled to extend and retract under the original state of the lifting position, so that the supporting plate 13 drives the material supporting structure 3 to perform height adjustment based on the blanking position of the numerically controlled lathe, so as to effectively adjust different blanking heights of the cylindrical workpiece 4.

Referring to fig. 3, two material supporting structures 3 are symmetrically arranged and fixedly connected to the upper surface of the supporting plate 13; the two material supporting structures 3 are used for supporting and guiding a plurality of cylindrical workpieces 4; the material supporting structure 3 comprises a material supporting inclined rod 31 and a V-shaped material blocking groove 32 arranged in the length direction of the upper surface of the material supporting inclined rod 31;

the plurality of cylindrical workpieces 4 are movably arranged between the two material supporting inclined rods 31, and the V-shaped material blocking groove 32 is used for limiting the position of the cylindrical workpieces 4 on the material supporting inclined rods 31.

Referring to fig. 4, the material ejecting structure 5 is used for blanking based on the cylindrical workpieces 4 on the two material supporting structures 3; the material ejecting structure 5 comprises an ejecting cylinder 51 fixedly arranged on the supporting plate 13 and an ejecting inclined block 52 fixedly arranged at the output end of the ejecting cylinder 51; the ejection inclined block 52 is correspondingly arranged at a position right below the two V-shaped material blocking grooves 32. After the material ejecting inclined block 52 ejects the cylindrical workpiece 4, the cylindrical workpiece 4 can move downwards along the inclined plane of the material supporting inclined rod 31, and after the cylindrical workpiece 4 is separated from the material supporting inclined rod 31, the cylindrical workpiece can fall onto a machining area of the numerical control lathe.

Specifically, after the functional support mechanism 1 defines the blanking position of the material supporting structure 3, after a certain number of cylindrical workpieces 4 are arranged at positions of the material supporting diagonal rods 31 and the inclined plane far away from the upper side of the V-shaped material blocking groove 32, one cylindrical workpiece 4 close to the position of the V-shaped material blocking groove 32 can be temporarily limited by the corresponding V-shaped material blocking grooves 32 on the two material supporting diagonal rods 31, at the moment, a plurality of cylindrical workpieces 4 behind the limited cylindrical workpieces 4 are sequentially ordered between the two material supporting diagonal rods 31, then the periodic telescopic motion of the material ejecting cylinder 51 can be controlled, the inclined plane of the material ejecting diagonal block 52 is vertically contacted with the material blocking grooves 32 based on the two V-shaped material blocking grooves, and the cylindrical workpiece 4 can roll to the processing area of the numerical control lathe along the inclined plane of the length direction of the material supporting diagonal rods 31 by ejecting.

Further, the lower surface of each material supporting diagonal rod 31 is fixedly provided with a first supporting piece 6 and a second supporting piece 7 respectively, and each first supporting piece 6 and each second supporting piece 7 are fixedly arranged on the supporting plate 13; the arrangement of the first support member 6 and the second support member 7 can satisfy the stability of erection and fixation based on the material supporting diagonal rods 31 on the two support members.

To sum up, the numerical control lathe that is convenient for to take of this embodiment holds in the palm the work or material rest, compares in holding in the palm the work or material rest down, has following advantage: the numerical control lathe that takes convenient to of this embodiment holds in palm the work or material rest satisfies under the stability of holding in the palm the material structure 3 processing position bearing at function supporting mechanism 1, under the cooperation through function supporting mechanism 1 and falling to the ground removal structure 2 for can satisfy the nimble of numerical control lathe processing position and shift based on holding in the palm material structure 3 on the function supporting mechanism 1, effectively realized holding in the palm the stability and the flexibility that shift of material structure 3 processing unloading, the event has satisfied the suitability of numerical control lathe work piece unloading processing.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (7)

1. The utility model provides a numerical control lathe holds in palm work or material rest convenient to take which characterized in that includes:

the functional support mechanism (1) comprises a floor frame (11), electric push rods (12) fixedly arranged at corners of the upper surface of the floor frame (11) and support plates (13) fixedly arranged among output ends of the four electric push rods (12);

a floor mobile structure (2) fixedly mounted on the lower surface of the support plate (13); the floor moving structure (2) comprises four upright posts (21), a moving plate (22) fixedly arranged between the bottom ends of the four upright posts (21), and four floor moving wheels (23) fixedly arranged on the lower surface of the moving plate (22);

the two material supporting structures (3) are symmetrically erected and fixedly connected on the upper surface of the supporting plate (13); the two material supporting structures (3) are used for supporting and guiding a plurality of cylindrical workpieces (4); and

the ejection structure (5) is used for blanking based on the cylindrical workpieces (4) on the two material supporting structures (3).

2. The numerically controlled lathe support for easy access according to claim 1, characterized in that said functional support means (1) further comprise a damping pad (14) fixedly mounted on the lower surface of said floor frame (11).

3. A numerically controlled lathe carrier convenient to take as in claim 1, characterized in that the inner dimension of said floor frame (11) is greater than the outer dimension of said moving plate (22).

4. A numerically controlled lathe support for easy access according to claim 3, characterized in that said mobile plate (22) is displaced synchronously with the support plate (13) when the support plate (13) is moved vertically.

5. The numerically controlled lathe material supporting frame convenient to take as claimed in claim 1, wherein the material supporting structure (3) comprises a material supporting inclined rod (31) and a V-shaped material blocking groove (32) formed in the length direction of the upper surface of the material supporting inclined rod (31);

the cylindrical workpieces (4) are movably arranged between the two material supporting inclined rods (31), and the V-shaped material blocking grooves (32) are used for limiting the positions of the cylindrical workpieces (4) on the material supporting inclined rods (31).

6. The numerically controlled lathe material support frame convenient to take as claimed in claim 5, wherein a first support member (6) and a second support member (7) are fixedly mounted on the lower surface of each material support diagonal rod (31), and each first support member (6) and each second support member (7) are fixedly mounted on the support plate (13).

7. The numerical control lathe material support frame convenient to take as claimed in claim 5, wherein the material ejecting structure (5) comprises a material ejecting air cylinder (51) fixedly arranged on the supporting plate (13) and a material ejecting inclined block (52) fixedly arranged at the output end of the material ejecting air cylinder (51);

the ejection inclined block (52) is correspondingly arranged at a position right below the position between the two V-shaped material blocking grooves (32).

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