CN219724713U - Feeding structure of milling face combined machine tool - Google Patents

Abstract

The utility model relates to a feeding structure of a milling surface combined machine tool, which relates to the field of machine tools, and comprises a machine tool body, wherein a feeding device is connected to the machine tool body in a sliding manner, a sliding channel is formed in the feeding device and is used for clamping a sewing machine shell, the extending direction of the sliding channel is parallel to the distribution direction of a connecting surface, the sliding channel penetrates through the feeding device along the direction perpendicular to the length direction of the sliding channel, a pressing rod is connected to the feeding device in a sliding manner and is used for positioning the sewing machine shell, the sewing machine shell is placed in the sliding channel, the connecting surface, the first bottom surface and the second bottom surface on the sewing machine shell are exposed out of the feeding device, after the connecting surface is processed, the sewing machine shell is directly moved to another processing station to carry out shape processing on the first bottom surface and the second bottom surface without overturning the sewing machine shell, the processing efficiency is improved, the first rod and the second rod are moved, and the second rod are pressed against the sewing machine shell so that the sewing machine shell is not easy to move in the process of processing the first bottom surface and the second bottom surface.

Description

Feeding structure of milling face combined machine tool

Technical Field

The utility model relates to the field of machine tools, in particular to a feeding structure of a face milling combined machine tool.

Background

When the blank material is processed, the surface of the blank material needs to be milled to be flat due to the uneven surface of the material.

A sewing machine shell is shown in figure 1, and comprises a sewing machine shell 1, wherein a connecting surface 11, a first bottom surface 12 and a second bottom surface 13 are formed on the sewing machine shell 1 in a machining mode, the connecting surface 11 is located on two opposite sides of a shell, the first bottom surface 12 and the second bottom surface 13 are located on the using side of the sewing machine shell 1, the first bottom surface 12 and the second bottom surface 13 are parallel, and the first bottom surface 12 and the connecting surface 11 are perpendicular to each other.

In the related art, when the first bottom surface, the second bottom surface and the connecting surface are machined, the first bottom surface and the second bottom surface need to be turned over to expose the first bottom surface and the second bottom surface after the connecting surface is machined, and then the first bottom surface and the second bottom surface need to be machined. The steps are complicated, the processing efficiency is affected, and the improvement is needed.

Disclosure of Invention

In order to improve machining efficiency, the utility model provides a feeding structure of a face milling combined machine tool.

The utility model provides a feeding structure of a face milling combined machine tool, which adopts the following technical scheme:

the utility model provides a feed structure of milling face combination lathe, includes the lathe bed, it is connected with feed arrangement to slide on the lathe bed, the last passageway that slides of seting up of feed arrangement, the passageway that slides supplies sewing machine shell card goes into, the extending direction of passageway that slides is parallel with the distribution direction of connecting face, the passageway that slides runs through along the perpendicular to its length direction feed arrangement, the last depression bar that slides of feed arrangement is connected with of depression bar is used for the location sewing machine shell.

Through adopting above-mentioned technical scheme, when in actual use, put into the passageway that slides with the sewing machine shell, make the junction surface on the sewing machine shell, bottom surface one and bottom surface two expose feed arrangement entirely, remove the depression bar again, make the depression bar compress tightly the sewing machine shell and fix a position the sewing machine shell, make after finishing the junction surface, directly remove another processing station and advance shape processing to bottom surface one and bottom surface two, need not to overturn the sewing machine shell, be favorable to improving machining efficiency.

Preferably, the feeding device comprises a feeding guide rail arranged on the bed body and a sliding table connected with the bed body in a sliding manner, the sliding passage is arranged on the sliding table, the pressing rod is connected to the sliding table in a sliding manner, the extending direction of the sliding passage is parallel to the extending direction of the feeding guide rod, the sliding direction of the sliding table is perpendicular to the extending direction of the feeding guide rail, and the sliding table slides to be close to or far away from the feeding guide rail.

Through adopting above-mentioned technical scheme, when in actual use, will wait to process the sewing machine shell and put on the feeding guide rail, promote the sewing machine shell, make the sewing machine shell remove in the passageway of sliding along the feeding guide rail, make the feeding more convenient preferred, the feeding guide rail is including locating a plurality of inlet pipes on the lathe bed first with locate a plurality of inlet pipes on the slip table second, inlet pipe first with inlet pipe second corresponds the setting, inlet pipe first with inlet pipe second is parallel.

Through adopting above-mentioned technical scheme, in actual course of working, sewing machine shell removes on the inlet pipe is second along inlet pipe, and slip table removes and drives inlet pipe second and break away from inlet pipe first, and after the processing was accomplished, slip table drove inlet pipe second and removes and be close to inlet pipe first, makes inlet pipe first and inlet pipe second intercommunication, and sewing machine shell removes the ejection of compact on inlet pipe first again along inlet pipe second. The shell of the sewing machine is not easy to separate from the feeding guide rail in the feeding and discharging processes, so that the feeding and discharging of the shell of the sewing machine are more convenient.

Preferably, a plurality of feeding pipes are arranged at intervals, and the feeding pipes are abutted against the casing of the sewing machine.

Through adopting above-mentioned technical scheme, through setting up inlet pipe a interval, reduced the area of contact of feeding guide rail and sewing machine shell to the frictional force that the sewing machine shell received when having reduced the feeding, thereby make to promote sewing machine shell feeding more easily.

Preferably, the lathe bed is provided with a limiting pipe, a chute is formed by splicing the limiting pipe with the first feeding pipe, and the inner wall of the chute is used for being attached to the sewing machine shell.

Through adopting above-mentioned technical scheme, in the feeding process, through setting up spacing pipe, the difficult skew track that slides of sewing machine shell to in the accurate entering slip passageway of sewing machine shell of being convenient for.

Preferably, the sliding table is connected with a leaning rod in a sliding manner, the leaning rod is used for being abutted against the second bottom surface, a limiting block is arranged on the sliding table, and the limiting block is used for being abutted against one end, far away from the leaning rod, of the casing of the sewing machine.

Through adopting above-mentioned technical scheme, before the sewing machine shell gets into the passageway that slides, lean on the pole to move down towards the direction of keeping away from the slip table, after the sewing machine shell got into the passageway that slides, lean on pole and stopper respectively support the relative both ends of seam sewing machine shell, make the sewing machine shell be difficult for breaking away from the passageway that slides.

Preferably, a baffle is arranged on the leaning rod, and the baffle is positioned on one side of the leaning rod away from the first feeding pipe.

By adopting the technical scheme, after the sewing machine shell moves into the sliding channel, the baffle abuts against one end of the sewing machine shell, so that the sewing machine shell is not easy to punch out the sliding table due to the action of inertia force.

Preferably, the pressing rod comprises a first rod which is in lifting sliding movement on the sliding table and a second rod which is in lifting sliding movement on the sliding table, wherein the second rod is used for positioning one side, close to the second bottom surface, of the sewing machine shell, and the first rod is used for positioning one side, close to the first bottom surface, of the sewing machine shell.

By adopting the technical scheme, in the actual use process, the first rod is moved to press the first rod to one side of the sewing machine shell close to the first bottom surface, so that the sewing machine shell is not easy to move when the first bottom surface is processed; in the process of machining the second bottom surface, the second rod is moved to abut against one side, close to the second bottom surface, of the sewing machine shell, so that the sewing machine shell is not easy to move in the process of machining the second bottom surface, and machining accuracy is improved.

Preferably, the second rod is provided with a plurality of pressure heads, and the second rod positions the sewing machine shell through the pressure heads.

Through adopting above-mentioned technical scheme, the pole is through pressing the tight sewing machine shell of head, reduces the area of force to increase pressure, be favorable to improving the location effect.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the sewing machine shell is placed in the sliding channel, the connecting surface, the first bottom surface and the second bottom surface on the sewing machine shell are all exposed out of the feeding device, the pressing rod is moved to position the sewing machine shell, after the connecting surface is processed, the sewing machine shell is directly moved to another processing station to perform shape processing on the first bottom surface and the second bottom surface, the sewing machine shell does not need to be turned over, and the processing efficiency is improved;

2. the feeding pipes are arranged at intervals, so that the friction force born by the sewing machine shell during feeding is reduced, and the sewing machine shell is pushed to feed more easily;

3. the first rod and the second rod are moved to enable the first rod and the second rod to abut against the sewing machine shell, so that the sewing machine shell is not easy to move in the process of machining the first bottom surface and the second bottom surface, and the machining precision is improved.

Drawings

Fig. 1 is an overall schematic view of a sewing machine.

Fig. 2 is a schematic overall structure of the present embodiment.

Fig. 3 is an enlarged view of the portion a in fig. 2, mainly showing the structure in the slip passage.

Fig. 4 is a schematic structural view of the part of the sliding table in the present embodiment, and mainly shows the structure on the sliding table.

Reference numerals illustrate: 1. a sewing machine housing; 11. a connection surface; 12. a first bottom surface; 13. a second bottom surface; 2. a bed body; 21. a conveying rail; 22. a first driving member; 23. a limiting tube; 3. a feeding device; 31. a feed rail; 311. a first feeding pipe; 312. a second feeding pipe; 313. a chute; 32. a sliding table; 321. a slip path; 322. a limiting block; 323. a leaning rod; 3231. a baffle; 324. a driving member IV; 33. a compression bar; 331. a first rod; 332. a second rod; 3321. a pressure head; 333. a second driving piece; 334. and a third driving member.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-4.

As shown in fig. 1, the sewing machine comprises a sewing machine shell 1, wherein a connecting surface 11, a first bottom surface 12 and a second bottom surface 13 are formed on the sewing machine shell 1 in a machining mode, the connecting surface 11 is positioned on two opposite sides of a shell, the first bottom surface 12 and the second bottom surface 13 are positioned on the using side of the sewing machine shell 1, the first bottom surface 12 and the second bottom surface 13 are parallel, and the first bottom surface 12 and the connecting surface 11 are perpendicular to each other.

The embodiment of the utility model discloses a feeding structure of a face milling combined machine tool. Referring to fig. 2, a feeding structure of a milling combined machine tool comprises a machine body 2, a feeding device 3 is slidingly connected to the machine body 2, the feeding device 3 comprises a feeding guide rail 31 and a sliding table 32, the feeding guide rail 31 is fixed on the machine body 2, the sliding table 32 is horizontally slidingly moved on the machine body 2, and the sliding direction of the sliding table 32 is perpendicular to the extending direction of the feeding guide rail 31. The bed body 2 is provided with a conveying rail 21, and the sliding table 32 is connected to the conveying rail 21 in a sliding way. The sliding table 32 is provided with a sliding channel 321, the extending direction of the sliding channel 321 is parallel to the extending direction of the feeding guide rail 31, the sliding channel 321 horizontally penetrates through the sliding table 32 along the direction perpendicular to the feeding guide rail 31, the lathe bed 2 is fixedly provided with a first driving part 22, and the first driving part 22 drives the sliding table 32 to move. The sliding channel 321 is used for placing the sewing machine shell 1, and the extending direction of the sliding channel 321 is parallel to the distribution direction of the connecting surface 11. The sliding table 32 slides close to or far away from the feeding guide rail 31, and the sliding table 32 moves to enable the sliding channel 321 to be communicated with the feeding guide rail 31. In this embodiment, the first driving member 22 is a motor.

In actual use, the sewing machine shell 1 is placed on the feeding guide rail 31 to push the sewing machine shell 1, the sewing machine shell 1 moves into the sliding channel 321 along the extending direction of the feeding guide rail 31, and the first driving piece 22 drives the sliding table 32 to move to drive the sewing machine shell 1 to move to a processing station of the lathe bed 2. The connecting surface 11, the first bottom surface 12 and the second bottom surface 13 on the sewing machine shell 1 positioned in the sliding channel 321 are all exposed outside the sliding table 32, and the corresponding processing end surface is exposed without turning the sewing machine shell 1 during processing.

Referring to fig. 2 and 3, the feeding guide rail 31 includes a plurality of first feeding pipes 311 and a plurality of second feeding pipes 312, the first feeding pipes 311 are fixed on the bed 2, the distribution direction of the first feeding pipes 311 is perpendicular to the sliding direction of the sliding table 32, the first feeding pipes 311 are arranged at intervals, the first feeding pipes 311 are used for supporting the sewing machine housing 1, the first feeding pipes 311 are located at two opposite sides of the conveying track 21, and the first feeding pipes 311 located at two opposite sides of the conveying track 21 are symmetrical. The second feeding pipe 312 is fixed on the sliding table 32, the second feeding pipe 312 is positioned in the sliding channel 321, the position and the number of the second feeding pipe 312 are in one-to-one correspondence with those of the first feeding pipe 311, and when the sliding channel 321 is communicated with the feeding guide rail 31, the first feeding pipe 311 is communicated with the second feeding pipe 312, and the first feeding pipe 311 is parallel to the second feeding pipe 312.

Referring to fig. 2, two limiting pipes 23 are fixed on the lathe bed 2, the distribution direction of the limiting pipes 23 is parallel to the distribution direction of the first feeding pipe 311, the limiting pipes 23 are located above the first feeding pipe 311, the projection of the first feeding pipe 311 in the vertical direction is located between the two limiting pipes 23, the limiting pipes 23 are located on two opposite sides of the conveying track 21, and the limiting pipes 23 located on two opposite sides of the conveying track 21 are symmetrical. A chute 313 is formed between the limiting pipe 23 and the first feeding pipe 311 in a spliced mode, and the inner wall of the chute 313 is attached to the sewing machine shell 1.

In the feeding process of the sewing machine shell 1, the sewing machine shell 1 is placed down in the positioning groove, so that the limiting pipe 23 is abutted against two opposite sides of the sewing machine shell 1 which are distributed in the direction perpendicular to the distribution direction of the connecting surface 11, the sewing machine shell 1 is not easy to separate from the feeding guide rail 31 in the feeding process, and the position of the sewing machine shell 1 after entering the sliding channel 321 is conveniently positioned.

Referring to fig. 1 and 4, a pressing rod 33 is lifted and slipped on the sliding table 32, the pressing rod 33 is located above the slipping channel 321, the pressing rod 33 is used for propping against the upper end face of the laid down sewing machine shell 1 to position the sewing machine shell 1, the pressing rod 33 comprises a first rod 331 and a second rod 332, the distribution direction of the first rod 331 and the second rod 332 is parallel to the distribution direction of the first bottom surface 12 and the second bottom surface 13, the first rod 331 is propped against one side of the sewing machine shell 1 close to the first bottom surface 12, the second rod 332 is propped against one side of the sewing machine shell 1 close to the second bottom surface 13, a second driving piece 333 and a third driving piece 334 are fixed on the sliding table 32, the second driving piece 333 and the third driving piece 334 are located above the sliding table 32, the first driving piece 331 is lifted, and the second driving piece 333 drives the second rod 332 to lift. The cross section area of the second rod 332 in the horizontal direction is larger than that of the first rod 331, a plurality of pressure heads 3321 are fixed on the second rod 332, the pressure heads 3321 are positioned below the second rod 332, and the pressure heads 3321 are distributed at equal intervals along the sliding direction parallel to the sliding table 32. In this embodiment, the second driving member 333 is a cylinder.

Referring to fig. 1 and 4, a limiting block 322 is fixed on a sliding table 32, a leaning rod 323 is lifted and slipped on the sliding table 32, the limiting block 322 and the leaning rod 323 are respectively located on the upper side and the lower side of a slipping channel 321, the distribution direction of the limiting block 322 and the leaning rod 323 is parallel to the slipping direction of the sliding table 32, and the limiting block 322 and the leaning rod 323 are respectively used for being abutted against the two opposite sides of the shell 1 of the sewing machine after being placed upside down. A driving member four 324 is fixed above the sliding table 32, and the driving member four 324 drives the leaning rod 323 to lift. In this embodiment, the driving member is a four 324-bit cylinder.

Referring to fig. 1 and 4, a baffle 3231 is fixed to the back bar 323, the baffle 3231 is located at a side of the back bar 323 away from the feeding pipe 311, and the baffle 3231 slides into or out of a sliding path of the sewing machine housing 1. The stopper 322 is provided with a stopper 3231 which is provided with a stopper 323, and a portion of the stopper 3231 which is provided with the stopper 323 is provided with a contact surface 11.

Before the sewing machine shell 1 does not enter the sliding channel 321, the driving piece four 324 drives the leaning rod 323 to descend, the leaning rod 323 descends to drive the baffle 3231 to move and stretch into the moving path of the sewing machine shell 1, after the sewing machine shell 1 moves into the sliding channel 321, the leaning rod 323 abuts against the bottom surface two 13, the limiting block 322 abuts against one end of the sewing machine shell 1 far away from the leaning rod 323 to limit the sewing machine shell 1, and as the sewing machine shell 1 stretches into the sliding channel 321, the baffle 3231 abuts against the sewing machine shell 1 to stop moving. When the baffle 3231 abuts the sewing machine housing 1, the second driving member 333 drives the first rod 331 and the second rod 332 to descend against the upper end of the sewing machine housing 1 to fix the sewing machine housing 1.

The implementation principle of the feeding structure of the face milling combined machine tool provided by the embodiment of the utility model is as follows: in actual use, the sewing machine housing 1 is put into the chute 313 to push the sewing machine housing 1, the sewing machine housing 1 moves into the sliding channel 321 along the eye direction of the chute 313, the leaning rod 323 drives the baffle 3231 to slide and stretch into the moving path of the sewing machine housing 1 to abut against the sewing machine housing 1, the sewing machine housing 1 is blocked from moving, when the baffle 3231 abuts against the sewing machine housing 1, the driving member II 333 drives the rod I331 and the rod II 332 to descend, and the rod I331 and the pressing head 3321 abut against the upper end of the sewing machine housing 1 to position the sewing machine housing 1. At this time, the connection surface 11, the first bottom surface 12 and the second bottom surface 13 on the sewing machine shell 1 are exposed outside the sliding table 32, at this time, the baffle 3231 is abutted to the connection surface 11, the leaning rod 323 is abutted to the second bottom surface 13, and the driving member four 324 drives the leaning rod 323 to rise to separate from the second bottom surface 13, so as to drive the baffle 3231 to move to separate from the connection surface 11, and the sliding table 32 moves to drive the sewing machine shell 1 located in the sliding channel 321 to pass through each processing station, so that the processing efficiency of the sewing machine shell 1 is improved.

The first rod 331 and the pressing head 3321 are used for fixing the sewing machine shell 1, so that the sewing machine shell 1 is not easy to move in the processing process, the first bottom surface 12 and the second bottom surface 13 are kept parallel after processing, the first bottom surface 12 and the second bottom surface 13 are vertical, and the processing precision is improved.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (9)

1. The utility model provides a feed structure of milling face combination lathe, includes lathe bed (2), its characterized in that: the novel sewing machine is characterized in that a feeding device (3) is connected to the lathe bed (2) in a sliding manner, a sliding passage (321) is formed in the feeding device (3), the sliding passage (321) is used for clamping a sewing machine shell (1), the extending direction of the sliding passage (321) is parallel to the distribution direction of the connecting surface (11), the sliding passage (321) penetrates through the feeding device (3) along the direction perpendicular to the length direction of the sliding passage, a pressing rod (33) is connected to the feeding device (3) in a sliding manner, and the pressing rod (33) is used for positioning the sewing machine shell (1).

2. The feed structure of a face milling combination machine of claim 1, wherein: the feeding device (3) comprises a feeding guide rail (31) arranged on the lathe bed (2) and a sliding table (32) connected to the lathe bed (2) in a sliding mode, the sliding channel (321) is arranged on the sliding table (32), the pressing rod (33) is connected to the sliding table (32) in a sliding mode, the extending direction of the sliding channel (321) is parallel to the extending direction of the feeding guide rail (31), the sliding direction of the sliding table (32) is perpendicular to the extending direction of the feeding guide rail (31), and the sliding table (32) is close to or far away from the feeding guide rail (31) in a sliding mode.

3. The feed structure of a face milling combination machine of claim 2, wherein: the feeding guide rail (31) comprises a first feeding pipe (311) arranged on the lathe bed (2) and a second feeding pipe (312) arranged on the sliding table (32), the first feeding pipe (311) and the second feeding pipe (312) are correspondingly arranged, and the first feeding pipe (311) and the second feeding pipe (312) are parallel.

4. A feed structure of a face milling combination machine as claimed in claim 3, wherein: the first feeding pipes (311) are arranged at intervals, and the first feeding pipes (311) are abutted against the sewing machine shell (1).

5. The feeding structure of the milling combined machine tool according to claim 4, wherein the lathe bed (2) is provided with a limiting pipe (23), a chute (313) is formed by splicing the limiting pipe (23) and the first feeding pipe (311), and the inner wall of the chute (313) is used for being attached to the sewing machine shell (1).

6. The feed structure of a face milling combination machine of claim 2, wherein: the sliding table (32) is connected with a leaning rod (323) in a sliding manner, the leaning rod (323) is used for being abutted to the second bottom surface (13), a limiting block (322) is arranged on the sliding table (32), and the limiting block (322) is used for being abutted to one end, far away from the leaning rod (323), of the sewing machine shell (1).

7. The feed structure of a face milling combination machine of claim 6, wherein: the leaning rod (323) is provided with a baffle (3231), and the baffle (3231) slides into or out of a sliding path of the sewing machine shell (1).

8. The feed structure of a face milling combination machine of claim 2, wherein: the pressing rod (33) comprises a first rod (331) which is in lifting sliding movement on the sliding table (32) and a second rod (332) which is in lifting sliding movement on the sliding table (32), the second rod (332) is used for positioning one side, close to the second bottom surface (13), of the sewing machine shell (1), and the first rod (331) is used for positioning one side, close to the first bottom surface (12), of the sewing machine shell (1).

9. The feed structure of a face milling combination machine of claim 8, wherein: the second rod (332) is provided with a plurality of pressing heads (3321), and the second rod (332) is used for positioning the sewing machine shell (1) through the pressing heads (3321).