CN217799348U - Full-automatic high-efficiency sawing machine - Google Patents

Abstract

The utility model relates to a full-automatic high-efficient sawing machine, it includes casing, sideslip portion, workstation, backup pad, frame, compresses tightly the portion, saw cuts the portion and blows the cylinder manifold, wherein, the backup pad set up in the upper surface of workstation, the cylinder manifold that blows with the gas hole orientation the mode of backup pad set up in the one end of backup pad. Especially, relate to a cylinder manifold of blowing including the backup pad that is equipped with the straight flute and is equipped with two rows of gas holes of upper and lower alternative configurations, can fully clear up the smear metal, secondly, utilize the spout to replace the manipulator to get a piece, can simplify and get a technology, improve overall efficiency, in addition, utilize the manipulator to settle the work piece and replace artifical fixed pin and settle the work piece, therefore the reliable full-automatic high-efficient sawing machine in location.

Description

Full-automatic high-efficiency sawing machine

Technical Field

The utility model relates to a full-automatic high-efficient sawing machine especially relates to a fully-automatic high-efficient sawing machine of fully clearing up the smear metal, conveniently getting and fix a position reliably.

Background

A die casting water removing port is an indispensable part in die casting automatic production, and devices for the die casting water removing port on the market at present mainly comprise a sawing machine, a pneumatic punching machine and a hydraulic punching machine. For die castings where the runner is relatively thick, sawing machines are typically used to handle the nozzle. The existing sawing machine for the water removing port of the die casting has the following problems in the aspects of waste cleaning of a working table, product output, positioning tools and the like.

The copper tubular blowing structure commonly used is limited by the quantity of copper pipes, the length and the air pressure, the cleaning of aluminum scraps is insufficient, and the aluminum scraps are remained in the tool, so that the product cannot be accurately positioned.

When the sawing machine works automatically, a manipulator needs to enter the sawing machine to complete the blanking action, the manipulator has long working time, and the die casting machine waits for the manipulator to take out a part in the production of die castings with short period, so that the production efficiency is greatly influenced.

The temperature difference hinge is big when die casting and when the mouth that anhydrates, and there is certain shrink in the product appearance, and it is mismatching easily to take place locating pin and product location pinhole, leads to the location of die casting unreliable, arouses equipment to report to the police. And the design difficulty of the tool is higher, and the period is long.

Therefore, a fully automatic and efficient sawing machine which can fully clean chips, is convenient to take parts and is reliable in positioning is needed.

SUMMERY OF THE UTILITY MODEL

Technical problem

An object of the utility model is to provide a full-automatic high-efficient sawing machine, this sawing machine can clear up the smear metal fully.

Another object of the present invention is to provide a full-automatic high-efficiency sawing machine, which can simplify the workpiece-taking process to improve the overall efficiency.

Another object of the utility model is to provide a full-automatic high-efficient sawing machine, this sawing machine location is reliable.

Technical scheme

According to the utility model discloses an embodiment provides a full-automatic high-efficient sawing machine, full-automatic high-efficient sawing machine can include: the shell is in a cuboid shape, a containing space is formed in the shell, a feeding opening and a safety door used for opening and closing the feeding opening are arranged on the first side face, and a discharging opening and a chute door used for opening and closing the discharging opening are arranged on the second side face; a traverse section provided on an inner wall of the third side surface of the housing and moving laterally along the inner wall; a table provided on a side surface of the traverse section facing the inside of the storage space; the supporting plate is arranged on the upper surface of the workbench; a frame disposed on an upper surface of the table; a pressing portion provided at an upper portion of the frame for pressing the workpiece placed on the support plate from above; a saw cutting part arranged on the second side surface, and a blade which is parallel to the moving direction of the traverse part and is separated from the supporting plate along the horizontal direction is arranged at one end facing the inner side of the accommodating space; and the air blowing bus board is arranged at one end of the supporting board in a mode that air blowing holes face the supporting board, wherein the second side face is the side face of the shell adjacent to the first side face, the third side face is the side face of the shell opposite to the second side face, and a straight groove can be formed in the upper surface of the supporting board along the air blowing direction of the air blowing bus board.

As an embodiment, the cross-section of the straight groove may be selected from at least one of a square shape and an arc shape.

As an embodiment, the air blowing holes of the air blowing manifold plate may be arranged in an upper row and a lower row alternately.

As an embodiment, may further include: the pushing part is arranged on the upper surface of the transverse moving part and used for pushing the workpiece subjected to the sawing process away from the supporting plate towards the discharge port; and the sliding groove is obliquely arranged on the second side surface in a mode of penetrating through the discharge hole, one end of the sliding groove is adjacent to the supporting plate, and the other end of the sliding groove extends outwards.

As an embodiment, the chute may include: the first groove section is adjacent to the supporting plate and used for receiving the workpiece pushed out by the pushing part; the second groove section is arranged at the discharge hole, is connected to the lower end of the first groove section and is provided with a filtering hole; and a third trough section connected to the lower end of the second trough section.

As an embodiment, the lower surface of the first groove section may be provided with a rubber.

As an embodiment, the second groove section may be disposed at the discharge hole in a manner that an inclination angle is adjustable.

As an embodiment, the third trough section may be connected to the second trough section in an angle adjustable manner.

As an embodiment, the lower surface of the third trough section may be provided with a rubber sheet.

As an embodiment, a robot that places a workpiece on an upper surface of the support plate may be further included.

Advantageous effects

The utility model discloses a full-automatic high-efficient sawing machine can fully clear up the smear metal including the backup pad that is equipped with the straight flute and the cylinder manifold that blows of the hole that is equipped with two rows of configuration in turn about being equipped with.

The utility model discloses a full-automatic high-efficient sawing machine utilizes the spout to replace the manipulator to get the piece, can simplify and get a technology to improve whole efficiency.

The utility model discloses a full-automatic high-efficient sawing machine utilizes the manipulator to settle the work piece, consequently fixes a position reliably.

Drawings

Fig. 1 is a perspective view of the full-automatic high-efficiency sawing machine of the present invention.

Fig. 2 is a perspective view showing the internal structure of the fully automatic high-efficiency sawing machine of the present invention.

Fig. 3 is a front view showing the internal structure of the fully automatic high-efficiency sawing machine of the present invention.

Fig. 4 is a side view showing the internal structure of the fully automatic high-efficiency sawing machine of the present invention.

Fig. 5 is a perspective view of a support plate according to an embodiment of the present invention.

Fig. 6 is a perspective view of a support plate according to another embodiment of the present invention.

Fig. 7 is a perspective view of a blowing manifold plate according to an embodiment of the present invention.

Reference numerals

1: full-automatic high-efficiency sawing machine

2: a housing;

31: a lateral moving part;

32: a work table;

33: a support plate;

34: a frame;

35: a pressing part;

36: a saw cutting part;

37: a blowing manifold;

38: a pushing part;

4: a chute;

41: a first groove section;

42: a second groove section;

43: a third groove section;

51: a safety door;

52: a chute door.

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily practice the present invention. The contents not described herein are those which can be easily derived by those skilled in the art, and therefore, the description thereof will be omitted.

Fig. 1 is a perspective view of the full-automatic high-efficiency sawing machine of the present invention. Fig. 2 is a perspective view showing the internal structure of the fully automatic high-efficiency sawing machine of the present invention. Fig. 3 is a front view showing the internal structure of the fully automatic high-efficiency sawing machine of the present invention. Fig. 4 is a side view showing the internal structure of the fully automatic high-efficiency sawing machine of the present invention. Fig. 5 is a perspective view of the support plate 33 according to an embodiment of the present invention. Fig. 6 is a perspective view of a support plate 33 according to another embodiment of the present invention.

Referring to fig. 1 to 6, the fully automatic high efficiency sawing machine 1 of the present invention may include: the shell 2 is in a cuboid shape, a containing space is formed in the shell, a feeding opening and a safety door 51 for opening and closing the feeding opening are arranged on the first side face, and a discharging opening and a chute door 52 for opening and closing the discharging opening are arranged on the second side face; a traverse section 31 provided on an inner wall of the third side surface of the housing 2 and moving laterally along the inner wall; a table 32 provided on a side surface of the traverse section 31 facing the inside of the storage space; a support plate 33 provided on the upper surface of the table 32; a frame 34 provided on the upper surface of the table 32; a pressing portion 35 provided at an upper portion of the frame 34 for pressing the workpiece placed on the support plate 33 from above; a saw cutting part 36 provided on the second side surface and having a blade arranged at one end facing the inside of the storage space, the blade being parallel to the moving direction of the traverse part 31 and spaced apart from the support plate 33 in the horizontal direction; and an air blowing manifold plate 37 provided at one end of the support plate 33 with air blowing holes facing the support plate 33, wherein the second side is a side of the housing 2 adjacent to the first side, the third side is a side of the housing 2 opposite to the second side, and a straight groove is formed on the upper surface of the support plate 33 in an air blowing direction of the air blowing manifold plate 37.

Specifically, the cross section of the straight groove may be selected from at least one of a square shape and an arc shape. The straight groove not only enables the workpiece to be fixed more stably, but also can guide the blown air flow of the air blowing confluence plate 37 to more effectively clean the residual cuttings.

Fig. 7 is a perspective view of the air blowing manifold 37 according to an embodiment of the present invention.

Referring to fig. 7, as an embodiment, the air blowing holes of the air blowing manifold 37 may be alternately arranged in upper and lower two rows. Specifically, the upper row and the lower row are respectively provided with four air blowing holes and three air blowing holes. The number and arrangement of the blow holes are not limited thereto and may be modified as needed by those skilled in the art. Compared with the existing bus board adopting a copper pipe blowing mode, the blowing bus board 37 is compact in structure, convenient to install, use and replace, and faster in air speed blown out of the blowing holes, and is more favorable for cleaning residual cuttings.

On the other hand, as an embodiment, the method may further include: a pushing part 38 arranged on the upper surface of the traverse part 31 for pushing the workpiece subjected to the sawing process away from the support plate 33 toward the discharge port; and a chute 4 obliquely disposed on the second side surface in a manner of passing through the discharge port, one end of which is adjacent to the support plate 33 and the other end of which extends outward.

Be different from current manipulator of utilizing and get and put the work piece the utility model discloses in, usable push away a portion 38 and spout 4 make the work piece automatic slide to the outside, not only solved the manipulator and got the problem that an inefficiency is low, still simplified and got a technology to improve holistic operating efficiency and rate of accuracy, reduced the cost of overhaul of time cost and equipment.

Further, the chute 4 may include: a first groove section 41 adjacent to the support plate 33 and receiving the workpiece pushed out by the pusher section 38; the second groove section 42 is arranged at the discharge port, is connected to the lower end of the first groove section 41, and is provided with a filtering hole; and a third channel section 43 connected to the lower end of the second channel section 42.

Preferably, the lower surface of the first groove section 41 can be configured with rubber, the second groove section 42 can be arranged at the discharge hole in a manner of adjusting the inclination angle, the third groove section 43 can be connected to the second groove section 42 in a manner of adjusting the inclination angle, and the lower surface of the third groove section 43 can be configured with rubber.

Wherein, the rubber can alleviate the vibration and the noise that the work piece produced when falling on spout 4, and the filtration pore can clear up foreign matter such as the smear metal that drops on spout 4 or adhere to on the work piece. In addition, the inclination angle of each groove section in the sliding groove 4 can be adjusted according to actual needs to improve the workpiece taking effect, for example, the inclination angle can be adjusted to a proper angle, so that the workpiece can fall on the sliding groove 4 more stably and slide to the outside more smoothly.

In addition, as an embodiment, a robot (not shown) may be further included, and the robot places the workpiece on the upper surface of the support plate 33.

Consequently, be different from current utilization locating pin and advance line location the utility model discloses in, the work piece is settled accurately to usable manipulator, and the location of having avoided artifical location to lead to is unreliable, has still simplified the technology of settling the work piece to improve holistic operating efficiency and rate of accuracy, reduced the cost of overhaul of time cost and equipment.

Hereinafter, the overall cutting process of the fully automatic high efficiency sawing machine according to an embodiment of the present invention will be described as follows.

The safety door 51 is opened, a robot (not shown) precisely places a work piece to be cut on the upper surface of the support plate 33 through the feed opening, and then the pressing part 35 fixes the work piece. After the fixing is completed, the robot is withdrawn, the safety door 51 is closed, and then the workpiece is moved toward the sawing section 36 by the driving of the traverse section 31 so that the sawing section 36 cuts the workpiece. Next, the traverse section 31 is reset, the pressing section 35 releases the pressing, and the cut workpiece is pushed toward the chute 4 by the pusher section 38, at which time the chute door 52 is opened to slide the cut workpiece to the outside along the chute 4. Then, the chute door 52 is closed, and the air blowing manifold 37 performs an air blowing operation to clean the chips remaining on the support plate 33 by the air flow, thereby completing the entire cutting process.

The embodiments of the present invention have been described above, but this is only for helping to understand the present invention comprehensively, and the present invention is not limited thereto, and those skilled in the art can make various modifications and variations from these descriptions. Therefore, the technical idea of the present invention is not limited to the above-described embodiments, and the appended claims and their equivalents or equivalent variants are all within the scope of the present invention.

Claims (10)

1. A full-automatic high-efficiency sawing machine is characterized by comprising:

the shell is in a cuboid shape, a containing space is formed in the shell, a feeding opening and a safety door used for opening and closing the feeding opening are arranged on the first side face, and a discharging opening and a chute door used for opening and closing the discharging opening are arranged on the second side face;

a traverse section provided on an inner wall of the third side surface of the housing and moving laterally along the inner wall;

a table provided on a side surface of the traverse section facing the inside of the storage space;

the supporting plate is arranged on the upper surface of the workbench;

a frame disposed on an upper surface of the table;

a pressing portion provided at an upper portion of the frame for pressing the workpiece placed on the support plate from above;

a saw cutting part arranged on the second side surface, and a blade which is parallel to the moving direction of the traverse part and is separated from the supporting plate along the horizontal direction is arranged at one end facing the inner side of the accommodating space; and

the air blowing confluence plate is arranged at one end of the supporting plate in a way that the air blowing holes face the supporting plate,

wherein the content of the first and second substances,

the second side is a side of the housing adjacent the first side,

the third side is a side of the housing opposite the second side,

and a straight groove is formed on the upper surface of the supporting plate along the air blowing direction of the air blowing confluence plate.

2. The fully automatic high efficiency sawing machine according to claim 1,

the cross section of the straight groove is at least one selected from square and arc.

3. The fully automatic high efficiency sawing machine according to claim 1,

the air blowing holes of the air blowing confluence plate are alternately arranged in an upper row and a lower row.

4. The fully automatic, high efficiency sawing machine according to claim 1 further comprising:

the pushing part is arranged on the upper surface of the transverse moving part and used for pushing the workpiece subjected to the sawing process away from the supporting plate towards the discharge port; and

and the sliding groove is obliquely arranged on the second side surface in a mode of penetrating through the discharge hole, one end of the sliding groove is adjacent to the supporting plate, and the other end of the sliding groove extends outwards.

5. The fully automatic high efficiency sawing machine according to claim 4,

the chute includes:

the first groove section is adjacent to the supporting plate and used for receiving the workpiece pushed out by the pushing part;

the second groove section is arranged at the discharge hole, is connected to the lower end of the first groove section and is provided with a filtering hole; and

and the third groove section is connected to the lower end of the second groove section.

6. The fully automatic high efficiency sawing machine according to claim 5,

the lower surface of the first groove section is provided with a rubber sheet.

7. The fully automatic high efficiency sawing machine according to claim 5,

the second groove section is arranged at the discharge port in a manner that the inclination angle is adjustable.

8. The fully automatic high efficiency sawing machine according to claim 5,

the third trough section is connected to the second trough section in a manner that the angle of inclination is adjustable.

9. The fully automatic high efficiency sawing machine according to claim 5,

and the lower surface of the third groove section is provided with a rubber sheet.

10. The fully automatic high efficiency sawing machine according to claim 1,

further comprising a robot arm that positions a workpiece on an upper surface of the support plate.

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