CN220659247U - Supporting plate structure of double-spindle lathe - Google Patents

Abstract

The utility model discloses a supporting plate structure of a double-spindle lathe, and relates to the technical field of lathes. The utility model comprises a supporting plate body, wherein the lower side of the supporting plate body is provided with a diagonal plate connected with a double-shaft lathe through bolts, the upper side walls of a diagonal plate positioned at the rear parts of the left side wall and the right side wall of the supporting plate are respectively fixed with a rotating block, the upper side of the diagonal plate positioned at the rear side of the rotating block is fixedly provided with a vertical plate, the inner position of a strip-shaped opening is respectively provided with a movable plate in a sliding manner, the lower side wall of the movable plate positioned in front of the strip-shaped opening is respectively fixed with a square plate, the upper side wall of the diagonal plate is fixedly provided with a metal plate, and the lower side wall of the supporting plate body is fixedly provided with a magnetic plate adsorbed with the metal plate. According to the utility model, the support plate body is positioned between the diagonal plate and the vertical plate to rotate by 90 degrees, so that the support plate body is conveniently stored, the occupation of the structure to the peripheral space of the lathe is reduced, and meanwhile, the square plate, the magnetic plate and the metal plate are matched for use, so that the stability of the support plate body can be ensured no matter the support plate body is in a storage state or a working flat state.

Description

Supporting plate structure of double-spindle lathe

Technical Field

The utility model belongs to the technical field of lathes, and particularly relates to a supporting plate structure of a double-spindle lathe.

Background

The lathe is a machine tool for turning a rotating workpiece with a turning tool. The lathe is the most main cutting machine tool in metal cutting machine tools, the lathe is the most in the general machine manufacturing factory, and through technological development, in order to improve the efficiency of processing, will improve the lathe into two main shafts, two parts can be processed simultaneously to two main shaft processing machine tools, can greatly reduce the auxiliary time, therefore popular by the user, but in two main shaft lathes, generally will use corresponding layer board structure, install layer board structure on the lathe simultaneously, so be convenient for place some processing spare parts, but it still has following drawback in the in-service use:

1. the supporting plate structure used by the existing lathe does not have the function of folding and storing, so that the supporting plate is in a flat state for a long time, thereby occupying the space around the lathe and affecting the action range of staff;

2. when using the layer board or accomodating it, when, owing to do not possess the structure that carries out spacing to it, consequently can lead to the layer board structure no matter in use or accomodate the in-process, the condition that can all appear rocking at will, and then can make the layer board structure appear damaging the condition.

Therefore, the pallet structure of the existing double spindle lathe cannot meet the requirements in practical use, so that there is an urgent need for an improved technology in the market to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide a supporting plate structure of a double-spindle lathe, which is convenient for accommodating a supporting plate body by rotating the supporting plate body by 90 degrees at a position between a diagonal plate and a vertical plate, reduces the occupation of the structure on the peripheral space of the lathe, and simultaneously realizes the matched use of a square plate, a magnetic plate and a metal plate, so that the stability of the supporting plate body can be ensured no matter the supporting plate body is in an accommodating state or a working flat state.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a support plate structure of a double-spindle lathe, which comprises a support plate body, wherein the lower side of the support plate body is provided with diagonal plates connected with the double-spindle lathe through bolts, the upper side walls of diagonal plates positioned at the rear parts of the left side wall and the right side wall of the support plate body are respectively fixed with a rotating block, the upper sides of diagonal plates positioned at the rear sides of the rotating blocks are respectively fixed with a vertical plate, the left side and the right side of the front sides of the vertical plates are respectively provided with a strip-shaped opening in a penetrating way, the inner positions of the strip-shaped openings are respectively provided with a movable plate in a sliding way, the lower side walls of the movable plates positioned in front of the strip-shaped openings are respectively fixed with square plates, the lower side walls of the front parts of the support plate body are respectively provided with square openings which are in the same plane with the square plates, the upper side walls of the diagonal plates are respectively fixed with metal plates, and the lower side walls of the support plate body are fixedly provided with magnetic plates which are adsorbed with the metal plates.

Further, the rotating blocks are provided with pull plates at positions opposite to the side walls of the supporting plate body, and the rotating blocks are provided with contracted circular openings at the middle parts of the side walls of the rotating blocks opposite to the supporting plate body.

Further, limiting holes communicated with the shrinkage round openings are formed in the middle parts of the side walls of the rotating blocks opposite to the pulling plates, and movable rods penetrating through the inner positions of the limiting holes are arranged on the side walls of the pulling plates opposite to the rotating blocks.

Further, the left side wall and the right side wall of the supporting plate body are provided with rotating holes at positions corresponding to the contracted circular openings, and rotating columns which are rotatably arranged at the positions inside the rotating holes are fixed at the end parts of the movable rods inside the contracted circular openings.

Further, the rotating column is fixed with a reset spring sleeved on the side wall of the contracted circular opening in a sliding mode, the end portion, opposite to the rotating column, of the movable rod is provided with a screw hole, and the side wall of the pulling plate is fixed with a screw rod in threaded connection with the screw hole.

Further, a positioning rod is fixed between the upper side wall and the lower side wall of the strip-shaped opening, and the side walls of the moving plate are sleeved on the surface side of the positioning rod in a sliding manner through positioning holes which are formed in a penetrating manner.

Further, the upper side walls of the moving plates are respectively fixed with a pushing spring which is arranged at the surface side of the positioning rod in a sliding manner, and the upper end parts of the pushing springs are fixedly connected with the upper side walls of the strip-shaped openings.

The utility model has the following beneficial effects:

1. when the utility model is used, the supporting plate body is placed at the position between the diagonal plate and the vertical plate, so that the supporting plate body can be controlled to rotate by taking the rotating block as the axis, and the supporting plate body can only rotate by 90 degrees, thereby being convenient for storing the supporting plate body, reducing the occupation of the structure on the peripheral space of the lathe and ensuring that the action range of staff is not influenced.

2. When the utility model is used, when the pallet body and the vertical plate are in a parallel state, the movable plate is moved to the upper position of the pallet body, and after the pallet storage work is finished, the movable plate is loosened at the moment, and then the square plate at the lower side of the movable plate is spliced in the square opening, so that the stored pallet body is subjected to limit treatment, when the pallet body is square, the magnetic plate at the lower side of the pallet body is adsorbed with the metal plate, so that the horizontally-placed pallet body can be subjected to positioning treatment, and the pallet body can be subjected to limit treatment no matter in the storage state or in the horizontally-placed state, so that the stability of the pallet body is ensured.

Of course, it is not necessary for any one product to practice the utility model to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure;

FIG. 2 is a block diagram of a diagonal plate and riser;

FIG. 3 is a block diagram of the pallet body;

FIG. 4 is a block diagram of a mobile plate;

fig. 5 is an exploded construction view of the pulling plate.

In the drawings, the list of components represented by the various numbers is as follows:

1. a pallet body; 101. a square mouth; 102. a magnetic plate; 103. a turning hole; 2. a diagonal plate; 201. a metal plate; 202. a rotating block; 203. contracting the round mouth; 204. a limiting hole; 3. pulling a plate; 301. a screw; 302. a rotating column; 303. a movable rod; 304. a return spring; 305. a screw hole; 4. a vertical plate; 401. a strip-shaped opening; 402. a positioning rod; 5. a moving plate; 501. a square plate; 502. positioning holes; 503. pushing the spring.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1 to 5, the present utility model is a pallet structure of a dual spindle lathe, comprising a pallet body 1, a diagonal plate 2 connected with a dual spindle lathe by bolts is disposed at the lower side of the pallet body 1, rotating blocks 202 are fixed on upper side walls of the diagonal plate 2 at rear positions of left and right side walls of the pallet body, a vertical plate 4 is fixed on upper side of the diagonal plate 2 at rear side of the rotating blocks 202, and since the pallet body 1 is located at upper side position of the diagonal plate 2, the lower side of the pallet body 1 is supported by the diagonal plate 2, and meanwhile, the pallet body 1 rotates at a position between the rotating blocks 202, the vertical plate 4 at rear side of the pallet body 1 is limited, so that the pallet body 1 can only rotate by 90 degrees, thereby facilitating storage of the pallet body 1, reducing occupation of peripheral space of the lathe by the structure, the left part and the right part of the front side of the vertical plate 4 are penetrated and provided with a strip-shaped opening 401, the inner positions of the strip-shaped openings 401 are respectively provided with a movable plate 5 in a sliding way, the lower side walls of the movable plates 5 positioned in front of the strip-shaped openings 401 are respectively provided with a square plate 501, the lower side walls of the front parts of the pallet bodies 1 are respectively provided with two square openings 101 which are in the same plane with the square plates 501, when the pallet bodies 1 are in a parallel state with the vertical plate 4, the pallet bodies 1 are in a storage state, so before the pallet bodies 1 are stored, the movable plates 5 are moved to the upper positions of the pallet bodies 1, after the pallet storage work is finished, the movable plates 5 are loosened, and then the square plates 501 at the lower sides of the movable plates 5 are spliced in the square openings 101, so that the stored pallet bodies 1 are subjected to limit treatment;

a metal plate 201 is fixed on the upper side wall of the diagonal corner plate 2, and a magnetic plate 102 adsorbed with the metal plate 201 is fixed on the lower side wall of the supporting plate body 1; when the pallet body 1 is in a flat state, the magnetic plate 102 at the lower side of the pallet body 1 is adsorbed to the metal plate 201, so that the flat pallet body 1 can be positioned, and workers can safely place some construction tools at the upper side of the pallet body 1.

As shown in fig. 1, 2, 3 and 5, the side wall positions of the rotating block 202 opposite to the supporting plate body 1 are respectively provided with a pulling plate 3, the middle parts of the side walls of the rotating block 202 opposite to the supporting plate body 1 are respectively provided with a shrinking round opening 203, the middle parts of the side walls of the rotating block 202 opposite to the pulling plate 3 are respectively provided with a limiting hole 204 communicated with the shrinking round opening 203, the side walls of the pulling plate 3 opposite to the side walls of the rotating block 202 are respectively provided with a movable rod 303 penetrating through the inner positions of the limiting holes 204, the end parts of the movable rods 303 in the inner positions of the shrinking round openings 203 are respectively fixedly provided with a rotating column 302 which is rotationally arranged in the inner positions of the rotating holes 103, when the pulling plate 3 is pulled and moved, the moving rods 303 are driven to move in the inner positions of the limiting holes 204, and simultaneously the moving rods 303 can drive the rotating columns 302 to move in the inner positions of the limiting holes 103, and the rotating columns 302 are not limited to the supporting plate body 1, so that the rotating columns 302 can be replaced by the rotating columns 1 on the left side of the opposite side walls 2, and the supporting plate 2 are replaced by the rotating columns 302, and the rotating columns 302 can be replaced by the rotating columns 1 and the supporting plates 2 when the rotating bodies are replaced by the rotating columns 1 and the supporting plates 2;

the rotating column 302 is fixed with a reset spring 304 which is sleeved on the surface side of the movable rod 303 in a sliding manner on the side wall of the contracted circular port 203, when the rotating column 302 moves out of the rotating hole 103, the rotating column 302 compresses the reset spring 304, so that when the pull plate 3 is loosened, the reset spring 304 pushes the rotating column 302 to move out of the contracted circular port 203, and the rotating column 302 can move into the rotating hole 103 again;

screw holes 305 are formed in the end portions of the movable rods 303 opposite to the rotating columns 302, screw rods 301 in threaded connection with the screw holes 305 are fixed on the side walls of the pull plates 3, when the supporting plate body 1 and the diagonal plates 2 are detached and separated, the rotating columns 302 can be detached, only the rotating columns 302 are required to be kept motionless, the pull plates 3 are rotated, the screw rods 301 are enabled to rotate out of the screw holes 305, the pull plates 3 and the rotating columns 302 can be separated, and therefore the movable rods 303 can be taken out from the limiting holes 204 and the shrinking round openings 203, and the rotating columns 302 are detached.

As shown in fig. 1, 2 and 4, a positioning rod 402 is fixed between the upper and lower side walls of the strip-shaped opening 401, and the side walls of the moving plate 5 are slidably sleeved at the surface side positions of the positioning rod 402 through positioning holes 502 which are formed through the positioning rod, because the positioning rod 402 is located inside the positioning holes 502, the positioning rod 402 limits the moving plate 5, so that the moving plate 5 can stably move inside the strip-shaped opening 401, the pushing springs 503 which are slidably arranged at the surface side positions of the positioning rod 402 are fixed on the upper side walls of the moving plate 5, the upper ends of the pushing springs 503 are fixedly connected with the upper side walls of the strip-shaped opening 401, and when the moving plate 5 moves upwards in the strip-shaped opening 401, the moving plate 5 compresses the pushing springs 503, so that after the moving plate 5 moves to the upper side position of the supporting plate body 1 is released again, the pushing springs 503 push the moving plate 5, so that the square plate 501 is stably inserted into the inner position of the square opening 101.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (7)

1. The utility model provides a layer board structure of two main shaft lathes, includes layer board body (1), its characterized in that: the lower side of layer board body (1) is provided with diagonal board (2) that are connected with biax lathe looks bolted connection, is located layer board body (1) left and right sides wall rear portion diagonal board (2) upper side all is fixed with rotatory piece (202), rotatory piece (202) rear side diagonal board (2) upside is fixed with riser (4), bar mouth (401) have been seted up in the left and right sides position of riser (4) front side, the inside position of bar mouth (401) all slides and is provided with movable plate (5), is located bar mouth (401) the place ahead movable plate (5) lower side wall all is fixed with square board (501), two square mouthful (101) that are the coplanar respectively with square board (501) have been seted up to the lower side wall at layer board body (1) front portion, the upper side wall of diagonal board (2) is fixed with metal sheet (201), the lower side wall of layer board body (1) is fixed with metal sheet (201) looks absorptive board (102).

2. The pallet structure of a dual spindle lathe as defined in claim 1, wherein: the rotary blocks (202) are opposite to the side walls of the supporting plate body (1) and are provided with pull plates (3), and the rotary blocks (202) are opposite to the middle parts of the side walls of the supporting plate body (1) and are provided with shrinkage round openings (203).

3. The pallet structure of a dual spindle lathe as defined in claim 2, wherein: limiting holes (204) communicated with the shrinkage round openings (203) are formed in the middle portions of the side walls of the rotating blocks (202) opposite to the pulling plates (3), and movable rods (303) penetrating through the inner positions of the limiting holes (204) are arranged on the side walls of the pulling plates (3) opposite to the rotating blocks (202).

4. A pallet structure for a dual spindle lathe as defined in claim 3, wherein: the left side wall and the right side wall of the supporting plate body (1) are respectively provided with a rotary hole (103) at the position corresponding to the shrinkage round opening (203), and rotary posts (302) which are rotatably arranged at the inner positions of the rotary holes (103) are respectively fixed at the end parts of the movable rods (303) inside the shrinkage round opening (203).

5. The pallet structure of a dual spindle lathe of claim 4, wherein: the rotary column (302) is fixed with a reset spring (304) which is sleeved on the surface of the movable rod (303) in a sliding manner on the side wall of the contracted circular opening (203), screw holes (305) are formed in the end portions, opposite to the rotary column (302), of the movable rod (303), and screw rods (301) which are in spiral connection with the screw holes (305) are fixed on the side wall of the pulling plate (3).

6. The pallet structure of a dual spindle lathe as defined in claim 1, wherein: a positioning rod (402) is fixed between the upper side wall and the lower side wall of the strip-shaped opening (401), and the side walls of the moving plate (5) are sleeved on the surface side positions of the positioning rod (402) in a sliding manner through positioning holes (502) which are formed in a penetrating manner.

7. The pallet structure of a dual spindle lathe as defined in claim 6, wherein: the upper side walls of the moving plates (5) are respectively fixed with a pushing spring (503) which is arranged at the surface side of the positioning rod (402) in a sliding manner, and the upper end parts of the pushing springs (503) are fixedly connected with the upper side walls of the strip-shaped openings (401).