CN220347732U - Integrated platform of gantry type machine tool capable of being spliced - Google Patents

Abstract

The utility model discloses a spliced gantry type machine tool integrated platform, which comprises an integrated platform, a frame type integrated platform, side beams, an overground part of a concrete foundation, an underground part of the concrete foundation, a screw rod supporting rod, nuts, side beam fixing screws and sizing blocks, wherein the underground part of the concrete foundation and the screw rod supporting rod penetrate into the underground for 1.5 meters, the screw rod supporting rod is poured on the underground part of the concrete foundation and the underground part of the concrete foundation at intervals, the screw rod supporting rod is provided with the nut and the sizing blocks to support the integrated platform and the frame type integrated platform, and the nuts can drive the integrated platform and the frame type integrated platform to be finely adjusted up and down through the screw rod supporting rod and the sizing blocks in the vertical direction; thereby realizing the flatness of the integrated platform and the frame type integrated platform and the processing precision of the integrated gantry machine tool.

Description

Integrated platform of gantry type machine tool capable of being spliced

Technical Field

The utility model relates to the technical field of gantry type machine tools, in particular to a spliced gantry type machine tool integrated platform.

Background

The existing gantry type machine tool equipment, in particular to large-scale gantry type machine tool equipment, comprises a gantry drilling and milling machine, a gantry surface grinder and the like, and adopts a separated substrate, namely, two side beams of the gantry type are not in direct connection, parameters such as straightness, parallelism, flatness and the like are independently adjusted by the two side beams, the deviation of parameter adjustment such as straightness, parallelism, flatness and the like of the two side beams is smaller, and the deviation of parameter adjustment such as straightness, parallelism, flatness and the like of the two side beams as a whole cannot be guaranteed. The smaller the deviation of parameter adjustment such as straightness, parallelism, flatness and the like is, the higher the precision of the machine tool is. The existing separated substrate can only ensure that the deviation of the parameter adjustment such as straightness, parallelism, flatness and the like is reduced when two side beams are taken as a whole by reducing the deviation of the parameter adjustment such as straightness, parallelism, flatness and the like of each side beam, and cannot provide a common unique reference for the two side beams. The longer the longmen boundary beam is, the larger parameter deviations such as straightness, parallelism, flatness and the like of the two boundary beams are, the parameter deviations of the other boundary beam are considered when the parameter deviations such as straightness, parallelism, flatness and the like of each boundary beam are regulated, the technical level requirements on an installer are high, and the regulating process is quite time-consuming.

Disclosure of Invention

The utility model aims to provide a spliced gantry type machine tool integrated platform, two side beams are placed on a high-precision integrated platform, the integrated platform provides a common and unique high-precision reference surface for the two side beams, the two side beams can be used as a whole for adjusting parameters such as straightness, parallelism and flatness, the adjusting difficulty is low, the adjusting precision is high, the length of the side beams has little influence on the parameters such as straightness, parallelism and flatness of the two side beams, and the problems in the background art are solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a but integral type platform of planer-type lathe of concatenation, includes holistic integrative platform and frame-type integrative platform, boundary beam, concrete foundation overground part, concrete foundation underground part, lead screw bracing piece, nut, boundary beam set screw, sizing block, concrete foundation underground part and lead screw bracing piece go deep into one and a little five meters underground, concrete foundation overground part and concrete foundation underground part interval such as having pour the lead screw bracing piece, are furnished with nut and sizing block on the lead screw bracing piece and support holistic integrative platform and frame-type integrative platform, and fine setting about the lead screw bracing piece and the fine setting of sizing block can drive the fine setting of integrative platform and frame-type integrative platform upper and lower direction.

Preferably, the integral integrated platform is fixedly connected with the side beam through a nut and a side beam fixing screw.

Preferably, the integral platform is divided into an integral platform, an integral platform spliced by two parts, an integral platform spliced by three parts and an integral platform spliced by four parts.

Preferably, the integral platform spliced by two parts is formed by fixedly connecting a first part of the integral platform spliced by two parts, a second part of the integral platform spliced by two parts and a workpiece fixing hole of the integral platform, and after connection is completed, the integral platform is required to be processed as a whole.

Preferably, the integrated platform spliced by three parts is formed by fixedly connecting a first part of the integrated platform spliced by three parts, a second part of the integrated platform spliced by three parts and a third part of the integrated platform spliced by three parts, and after connection is completed, the integrated platform is required to be processed as a whole.

Preferably, the integrated platform formed by splicing four parts is formed by fixedly connecting a first part of the integrated platform formed by splicing four parts, a second part of the integrated platform formed by splicing four parts, a third part of the integrated platform formed by splicing four parts and a fourth part of the integrated platform formed by splicing four parts, and after connection is completed, the integrated platform is required to be processed as a whole.

Preferably, the frame type integrated platform is provided with a screw rod supporting rod, the screw rod supporting rod is provided with a nut and a sizing block supporting edge beam, fine adjustment of the nut on the screw rod supporting rod up and down and fine adjustment of the sizing block can drive fine adjustment of the edge beam in the up-down direction, and the sizing block, the screw rod supporting rod, the nut and the like below half positions of the frame type integrated platform, including the upper surface of concrete, are subjected to secondary pouring; the frame type integrated platform is divided into a frame type integrated platform spliced by four parts, a frame type integrated platform spliced by five parts and a frame type integrated platform spliced by six parts.

Preferably, the frame-type integrated platform formed by splicing four parts is used for processing the frame-type integrated platform as a whole after the first parts of the two frame-type integrated platforms and the second parts of the two frame-type integrated platforms are respectively and independently adjusted, and the independent four parts are formed into an integral integrated platform after secondary pouring.

Preferably, after the first parts of the two frame-type integrated platforms and the second parts of the three frame-type integrated platforms are independently adjusted respectively, the frame-type integrated platform is required to be processed as a whole, and after secondary pouring, the independent five parts form a whole integrated platform.

Preferably, after the first parts of the two frame-type integrated platforms and the second parts of the four frame-type integrated platforms are independently adjusted respectively, the frame-type integrated platform is required to be processed as a whole, and after secondary pouring, the independent six parts form a whole integrated platform.

The beneficial effects are that: compared with the prior art, the utility model has the beneficial effects that: according to the utility model, the two side beams are placed on the high-precision integrated platform, the integrated platform provides a common and unique high-precision reference surface for the two side beams, the two side beams can be used as a whole for adjusting parameters such as straightness, parallelism, flatness and the like, the adjusting difficulty is low, the adjusting precision is high, and the length of the side beams has little influence on the parameters such as straightness, parallelism, flatness and the like of the two side beams; for large-scale gantry type machine tool equipment, the integral type platform is required to be quite long and wide, the finish machining difficulty in production and later stages is high, the integral type platform is made into a spliced type, the integral type platform can be disassembled into 2, 3 and more small parts for production and machining, a complete integral type platform is formed in a spliced mode, finish machining is performed on the complete integral type platform again, the integral type platform formed by 3 parts can reach 9 meters at the longest, the integral type platform formed by 4 parts can reach 12 meters at the longest, and the processing difficulty is reduced by analogy. The integral platform has high cost, and for reducing the cost, the frame type integral platform is adopted, the frame type integral platform can be disassembled into 4, 5 and more small parts for production and processing, after the integral platform is formed after being separated and independently regulated, the integral platform is finished again, and the integral platform is secondarily poured below the half position of the frame type integral platform and comprises sizing blocks, screw rod supporting rods, nuts and the like on concrete, and the independent small parts thoroughly form the integral platform after secondary pouring.

Drawings

The integral integrated platform of FIG. 1 is applied to a side beam installation structure schematic diagram I of a gantry type machine tool;

the integral integrated platform of FIG. 2 is applied to a side beam installation structure schematic diagram II of the gantry type machine tool;

the integral integrated platform of FIG. 3 is applied to a side beam mounting structure schematic diagram III of a gantry type machine tool;

FIG. 4 is a schematic diagram of a unitary platform structure;

FIG. 5 is a schematic diagram of a unitary platform;

FIG. 6 is a schematic diagram I of an edge beam mounting structure of a two-part pieced integrated platform applied to a gantry machine tool;

FIG. 7 is a schematic diagram II of a boundary beam mounting structure of a two-part pieced integrated platform applied to a gantry machine tool;

FIG. 8 is a schematic diagram III of an edge beam mounting structure of a two-part pieced integrated platform applied to a gantry machine tool;

FIG. 9 is a schematic diagram of a two-part pieced integrated platform;

FIG. 10 is a schematic diagram of a two-part assembled integrated platform structure;

FIG. 11 is a schematic illustration of a first part of a two-part pieced integral platform;

FIG. 12 is a schematic diagram II of a first part of a two-part pieced integral platform;

FIG. 13 is a schematic diagram I of a two-part pieced integral platform second part;

FIG. 14 is a schematic diagram II of a two-part assembled integral platform second part;

FIG. 15 is a schematic diagram I of an edge beam mounting structure of a three-part pieced integrated platform applied to a gantry machine tool;

FIG. 16 is a schematic diagram II of a boundary beam mounting structure of a gantry machine tool applied to the three-part pieced integrated platform;

FIG. 17 is a schematic diagram III of an edge beam mounting structure of a gantry machine tool applied to the platform assembled by three parts;

FIG. 18 is a schematic diagram of a three-part pieced integrated platform;

FIG. 19 is a schematic diagram of a three-part assembled integrated platform structure II;

FIG. 20 is a schematic diagram I of a first part of a three-part pieced integral platform;

FIG. 21 is a schematic diagram II of a first part of a three-part pieced integral platform;

FIG. 22 is a schematic diagram I of a second part of the integrated platform assembled from three parts;

FIG. 23 is a schematic diagram II of a second part of the integrated platform assembled from three parts;

FIG. 24 is a schematic view of a third part of the three-part assembled integrated platform;

FIG. 25 is a schematic diagram II of a second part of the integrated platform assembled from three parts;

FIG. 26 is a schematic diagram I of a boundary beam mounting structure of a four-part pieced integrated platform applied to a gantry machine tool;

FIG. 27 is a schematic diagram II of a boundary beam mounting structure of a four-part pieced integrated platform applied to a gantry machine tool;

FIG. 28 is a schematic diagram III of a boundary beam mounting structure of a four-part pieced integrated platform applied to a gantry machine tool;

FIG. 29 is a schematic view of a four-part assembled integrated platform structure;

FIG. 30 is a schematic diagram of a four-part assembled integrated platform structure II;

FIG. 31 is a schematic diagram I of a first part of a four-part pieced integral platform;

FIG. 32 is a schematic diagram II of a first part of a four-part pieced integral platform;

FIG. 33 is a schematic diagram I of a second part of the integrated platform assembled from four parts;

FIG. 34 is a schematic diagram II of a second part of the integrated platform assembled from four parts;

FIG. 35 is a schematic diagram I of a third part of the integrated platform assembled from four parts;

FIG. 36 is a schematic diagram II of a third part of the integrated platform assembled from four parts;

FIG. 37 is a schematic view of a fourth part of the integrated platform assembled from four parts;

FIG. 38 is a schematic diagram II of a fourth part of the integrated platform assembled from four parts;

FIG. 39 is a schematic diagram I of a side beam mounting structure of a four-part pieced frame-type integrated platform applied to a gantry-type machine tool;

FIG. 40 is a schematic diagram II of a boundary beam mounting structure of a four-part pieced frame type integrated platform applied to a gantry type machine tool;

fig. 41 is a schematic diagram of an edge beam mounting structure of a frame type integrated platform applied to a gantry type machine tool after secondary filling (taking four-part splicing as an example);

FIG. 42 is a schematic diagram of a boundary beam mounting structure of a five-part pieced frame-type integrated platform applied to a gantry-type machine tool;

fig. 43 is a schematic diagram of a side beam mounting structure of a six-part pieced frame type integrated platform applied to a gantry type machine tool.

In the accompanying drawings: 1. the concrete foundation comprises an integral platform, 2, side beams, 3, an aerial part of a concrete foundation, 4, an underground part of the concrete foundation, 5, a screw rod supporting rod, 6, a nut, 7, a side beam fixing screw, 8, an integral platform workpiece fixing hole, 9, an integral platform first part spliced by two parts, 10, an integral platform second part spliced by two parts, 11, an integral platform first part spliced by three parts, 12, an integral platform second part spliced by three parts, 13, an integral platform third part spliced by three parts, 14, an integral platform first part spliced by four parts, 15, an integral platform second part spliced by four parts, 16, an integral platform fourth part spliced by four parts, 18, a frame type integral platform first part, 19, a frame type integral platform second part, 20, a shim, 21 and a secondary poured concrete foundation.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

Examples

Referring to the drawings of the specification, in the embodiment of the utility model, a spliced gantry type machine tool integrated platform is provided, the underground part 4 of a concrete foundation is about 1.5m, and the screw rod supporting rod 5 penetrates into the underground for about 1.5m to ensure the strength of the whole gantry type machine tool. The screw rod supporting rods 5 are poured on the overground part 3 of the concrete foundation and the underground part 4 of the concrete foundation at equal intervals, the screw rod supporting rods 5 are provided with nuts 6 and sizing blocks to form an integral platform 1, fine adjustment of the nuts 6 on the screw rod supporting rods 5 and fine adjustment of the sizing blocks are carried out to realize fine adjustment of the integral platform 1 and the frame-type integral platform in the vertical direction, and therefore flatness of the integral platform and the frame-type integral platform reaches 0.5 screw.

The integral integrated platform 1 is fixedly connected with the side beam 2 through a nut 6 and a side beam fixing screw 7.

Because the integral platform is high in cost, in order to reduce the cost, the integral platform is made into a frame type, the frame type integral platform consists of two frame type integral platform first parts 18 and two frame type integral platform second parts 19, four parts are independently adjusted, after the four parts are reprocessed as a whole, the frame type integral platform is secondarily poured below a half position of the frame type integral platform, including a sizing block 20, a screw rod supporting rod 5, a nut 6 and the like above concrete, the frame type integral platform is solidified into a real whole in a manner of secondarily pouring the concrete, the screw rod supporting rod 5 is arranged on the frame type integral platform, the screw rod supporting rod 5 is provided with the nut 6 and the sizing block 20 for supporting the boundary beam 2, and fine adjustment of the nut 6 on the screw rod supporting rod 5 and fine adjustment of the sizing block 20 can drive fine adjustment of the boundary beam 2 in the up-down direction.

Two boundary beams 2 are placed on a high-precision integrated platform, the bottoms of the two boundary beams 2 are also precision surfaces, the integrated platform provides a common and unique high-precision reference surface for the two boundary beams 2, and the two boundary beams 2 can be used as a whole for adjusting parameters such as straightness, parallelism, flatness and the like, so that the adjustment difficulty is small, and the adjustment precision is high.

For large-scale gantry type machine tool equipment, the integral type platform is required to be quite long and wide, the production and later finish machining difficulty is high, the integral type platform is made into a spliced type for the large-scale gantry type machine tool equipment, the integral type platform can be disassembled into 2, 3 and more small parts for production and machining, a complete integral type platform is formed in a splicing mode, finish machining is carried out on the complete integral type platform again, the integral type platform formed by 3 parts can reach 9 meters at most, the integral type platform formed by 4 parts can reach 12 meters at most, and the like.

The integral platform 1 is divided into an integral platform, an integral platform spliced by two parts, an integral platform spliced by three parts and an integral platform spliced by four parts.

The integral platform spliced by two parts is formed by fixedly connecting the first part 9 of the integral platform spliced by two parts, the second part 10 of the integral platform spliced by two parts and the workpiece fixing hole 8 of the integral platform, and after the connection is completed, the integral platform 1 is required to be processed as a whole.

The three-part spliced integrated platform is formed by fixedly connecting a three-part spliced integrated platform first part 11, a three-part spliced integrated platform second part 12 and a three-part spliced integrated platform third part 13, and after the connection is completed, the integrated platform 1 is required to be processed as a whole.

The four-part spliced integrated platform is formed by fixedly connecting a first part 14 of the four-part spliced integrated platform, a second part 15 of the four-part spliced integrated platform, a third part 16 of the four-part spliced integrated platform and a fourth part 17 of the four-part spliced integrated platform, and after the connection is completed, the integrated platform 1 is required to be processed as a whole.

For large gantry type machine tool equipment, the frame type integrated platform stability is improved by increasing the number of frame type integrated platform second parts 19 according to the length of the gantry.

The frame type integrated platform is divided into a frame type integrated platform spliced by four parts, a frame type integrated platform spliced by five parts and a frame type integrated platform spliced by six parts.

After the frame type integrated platform formed by splicing the five parts is used for respectively and independently adjusting the first parts 18 of the two frame type integrated platforms and the second parts 19 of the three frame type integrated platforms, the frame type integrated platform is required to be processed as a whole, and the independent four parts are formed into a whole integrated platform after secondary pouring.

After the six-part pieced frame type integrated platform is used for respectively and independently adjusting the first parts 18 of the two frame type integrated platforms and the second parts 19 of the four frame type integrated platforms, the frame type integrated platform is required to be processed as a whole, and the independent four parts are formed into a whole integrated platform after secondary pouring.

The utility model aims to provide a split-type gantry type integrated platform, two side beams are placed on the high-precision integrated platform, the bottoms of the two side beams are also precision surfaces, the integrated platform provides a common and unique high-precision reference surface for the two side beams, and the two side beams can be used as a whole for adjusting parameters such as straightness, parallelism, flatness and the like, so that the adjustment difficulty is low, and the adjustment precision is high. For large-scale gantry type machine tool equipment, the integral type platform is required to be quite long and wide, the production and later finish machining difficulty is high, the integral type platform is made into a spliced type for the large-scale gantry type machine tool equipment, the integral type platform can be disassembled into 2, 3 and more small parts for production and machining, a complete integral type platform is formed in a splicing mode, finish machining is carried out on the complete integral type platform again, the integral type platform formed by 3 parts can reach 9 meters at most, the integral type platform formed by 4 parts can reach 12 meters at most, and the like.

According to the utility model, the screw rod supporting rods are poured on the base at equal intervals, nuts and sizing blocks are arranged on the screw rod supporting rods to provide support for the integrated platform and the frame type integrated platform, and fine adjustment of the integrated platform and the frame type integrated platform in the up-down direction is realized through fine adjustment movement of the adjusting nuts on the screw rod supporting rods and fine adjustment movement of the sizing blocks, so that the flatness of the integrated platform and the frame type integrated platform and the machining precision of the integral gantry machine tool are realized.

The related specific structure and communication principle are well-established technologies, and are not described in detail herein.

The foregoing embodiments have been provided for the purpose of illustrating the general principles of the present utility model, and are more fully described herein with reference to the accompanying drawings, in which the principles of the present utility model are shown and described, and in which the general principles of the utility model are defined by the appended claims.

In the description of the present utility model, it should be understood that the terms "orientation" or "positional relationship" are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and to simplify the description, rather than to indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operate in a particular orientation, and therefore should not be construed as limiting the utility model.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Claims (10)

1. The utility model provides a but gate-type lathe integral type platform of concatenation which characterized in that: including holistic integrative platform and frame-type integrative platform, boundary beam, concrete foundation overground part, concrete foundation underground part, lead screw bracing piece, nut, boundary beam set screw, sizing block, concrete foundation underground part and lead screw bracing piece go deep underground 1.5 meters, concrete foundation overground part and concrete foundation underground part etc. interval has been pour the lead screw bracing piece, be furnished with nut and sizing block on the lead screw bracing piece and support holistic integrative platform of integrative platform and frame-type, the fine setting of nut about the lead screw bracing piece and the fine setting of sizing block can drive the fine setting of integrative platform and frame-type integrative platform upper and lower direction.

2. The spliced gantry type machine tool integrated platform according to claim 1, wherein: the integral integrated platform is fixedly connected with the side beam through nuts and side beam fixing screws.

3. The spliced gantry type machine tool integrated platform according to claim 1, wherein: the integral integrated platform is divided into an integral integrated platform, an integrated platform spliced by two parts, an integrated platform spliced by three parts and an integrated platform spliced by four parts.

4. A tileable gantry machine integral platform according to claim 3, characterized in that: the integral platform spliced by the two parts is formed by fixedly connecting a first part of the integral platform spliced by the two parts, a second part of the integral platform spliced by the two parts and a workpiece fixing hole of the integral platform, and the integral platform is required to be machined as a whole after the connection is completed.

5. A tileable gantry machine integral platform according to claim 3, characterized in that: the integrated platform spliced by the three parts is formed by fixedly connecting a first part of the integrated platform spliced by the three parts, a second part of the integrated platform spliced by the three parts and a third part of the integrated platform spliced by the three parts, and the integrated platform is also required to be processed as a whole after the connection is completed.

6. A tileable gantry machine integral platform according to claim 3, characterized in that: the integrated platform spliced by the four parts is formed by fixedly connecting a first part of the integrated platform spliced by the four parts, a second part of the integrated platform spliced by the four parts, a third part of the integrated platform spliced by the four parts and a fourth part of the integrated platform spliced by the four parts, and the integrated platform is required to be processed as a whole after the connection is completed.

7. The spliced gantry type machine tool integrated platform according to claim 1, wherein: the frame type integrated platform is provided with a screw rod supporting rod, the screw rod supporting rod is provided with a nut and a sizing block supporting edge beam, fine adjustment of the nut on the screw rod supporting rod up and down and fine adjustment of the sizing block can drive fine adjustment of the edge beam in the up-down direction, and the sizing block, the screw rod supporting rod and the nut below half of the frame type integrated platform, which comprise the upper side of concrete, are subjected to secondary pouring; the frame type integrated platform is divided into a frame type integrated platform spliced by four parts, a frame type integrated platform spliced by five parts and a frame type integrated platform spliced by six parts.

8. The spliced gantry type machine tool integrated platform as claimed in claim 7, wherein: the frame type integrated platform spliced by four parts is used for processing as a whole after the first parts of the two frame type integrated platforms and the second parts of the two frame type integrated platforms are respectively and independently adjusted, and the independent four parts are formed into a whole integrated platform after secondary pouring.

9. The spliced gantry type machine tool integrated platform as claimed in claim 7, wherein: after the first parts of the two frame-type integrated platforms and the second parts of the three frame-type integrated platforms are respectively and independently adjusted, the frame-type integrated platform is required to be processed as a whole, and the five independent parts are formed into a whole integrated platform after secondary pouring.

10. The spliced gantry type machine tool integrated platform as claimed in claim 7, wherein: after the first parts of the two frame type integrated platforms and the second parts of the four frame type integrated platforms are independently adjusted respectively, the frame type integrated platform is required to be processed as a whole, and after secondary pouring, the independent six parts form an integral integrated platform.