CN110587833A - Automatic change processing equipment that cuts - Google Patents

Abstract

The invention discloses an automatic cutting processing device, which comprises: the cutting device comprises a machine table with an opening, a cutting assembly arranged at the opening and a bearing assembly which is movably arranged on the machine table to be close to or far away from the cutting assembly, so that when the bearing assembly passes by the cutting assembly, partial materials of a floor arranged on the bearing assembly can be cut off by the cutting assembly, and the required physical size of the floor can be accurately obtained.

Description

Automatic change processing equipment that cuts

Technical Field

The invention relates to the technical field of floor processing equipment, in particular to processing equipment for automatic cutting.

Background

In the process of laying the floor, the predetermined area is mostly laid with the floor with the same size (such as square), and the floor without the size (such as rectangle) is often used at the corner of the predetermined area.

For the floor boards used at the corners, the conventional manufacturing method is to cut the floor board 8 with the original size as shown in fig. 4 according to the required cutting path (the straight cutting line L1 and/or the transverse cutting line L2 as shown in fig. 4) to achieve the required shape and volume, so that additional mold opening is not needed to manufacture, thereby saving the laying cost.

However, the floor 8 is cut by a manual cutting saw in the prior art, which is dangerous for operators (such as a cutter), and is prone to accidents, and if the cut floor is used in large quantities at corners, the floor 8 needs to be cut for a long time, which results in slow progress of the project.

Therefore, how to overcome the above problems of the prior art has become a problem to be overcome in the industry.

Disclosure of Invention

In view of the above, the main object of the present invention is to provide an automatic cutting processing apparatus, which is characterized by comprising: the device comprises a machine table, a first positioning device and a second positioning device, wherein the machine table is provided with a first side and a second side which are opposite, and an opening is formed on the first side; the cutting assembly is erected on the first side of the machine table and is positioned at the opening; and the bearing component is arranged on the first side of the machine table in a displaceable manner so as to be close to or far away from the cutting component.

Preferably, the machine station is provided with a dust collecting groove at the opening towards the second side, and the cutting component is arranged on the dust collecting groove.

Preferably, the cutting assembly comprises a knife.

Preferably, the device further comprises a displacement device for moving the bearing component.

Preferably, the device further comprises a positioning component configured corresponding to the bearing component.

Preferably, the cutting assembly further comprises a power device for actuating the cutting assembly.

Preferably, a guard assembly is also included to cover the cutting assembly.

Preferably, a switch means to actuate and stop the cutting assembly is also included.

Preferably, the device further comprises a sensing device arranged on the machine table to sense the position of the bearing assembly.

Preferably, the cutting device further comprises a positioning assembly disposed on the first side of the machine table corresponding to the carrying assembly to define a position of a target object on the carrying assembly, define a removed portion of the target object, and prevent the target object from shaking or shifting during operation of the cutting assembly.

Therefore, the automatic cutting processing equipment is mainly characterized in that the bearing component is movably arranged on the first side of the machine table to be close to or far away from the cutting component, so that the bearing component can enable the floor arranged on the bearing component to be partially cut by the cutting component when passing by the cutting component, and compared with a manual cutting mode in the prior art, the automatic cutting processing equipment can automatically cut partial materials of the floor, accurately obtain the required physical size of the floor, reduce the risk to operators and avoid accidents.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic right-view perspective view of an automatic cutting processing apparatus according to the present invention

Fig. 2A is a left perspective view of an automatic cutting processing apparatus according to the present invention.

Fig. 2B is a partial perspective view of fig. 2A.

Fig. 2C is a partial perspective view of fig. 2B.

Fig. 3A is a partial right perspective view of an automatic cutting processing apparatus according to the present invention.

Fig. 3B is a right perspective view of an automatic cutting processing apparatus according to the present invention.

Fig. 3C is a partial front plan view of fig. 3B.

Fig. 4 is a schematic plan view of a conventional floor panel.

The reference numbers in the figures illustrate:

1 processing equipment 10 machine

10a first side 10b a second side

100 opening 101 supporting leg

102 roller 103 dust collecting groove

11 cutting assembly 110 cutter

111 spindle 12 carrier assembly

120 bearing seat 121 slide

122 base 13 displacement device

13a track structure 130 linear guide

13b actuating structure 131 screw

132 manual turntable 14 positioning assembly

14a manual rotary table 14b screw hole

14c groove rail 140 pressing piece

141 stop 142 position measuring device

143 reference seat 15 power device

15a electric cabinet 15b transmission mechanism

150 motor 16 shield assembly

160,161 cover 17 switch device

18 induction device 8 floor

9 reserved portion of target object 9a

9b removal of part L1, L2 cutting line

The directions of the arrows X, Y and Z

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and capabilities of the present invention will become apparent to those skilled in the art from the present disclosure.

It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for understanding and reading the contents disclosed in the specification, and are not used for limiting the conditions that the present application can be implemented, so that the present application has no technical significance, and any structural modifications, ratio relationship changes or size adjustments should still fall within the scope of the present application without affecting the efficacy and the achievable purpose of the present application. In addition, the terms "above", "below", "left", "right", "front", "back", "bottom" and "one" cited in the present specification are for convenience of description only, and are not intended to limit the scope of the present application, and changes or adjustments of the relative relationship thereof should be considered as the scope of the present application without substantial technical changes.

Fig. 1, 2A and 2B are schematic views of an automatic cutting processing apparatus 1 according to the present application. As shown in fig. 1, 2A and 2B, the automatic cutting processing apparatus 1 includes: a machine 10, a cutting assembly 11, a carrying assembly 12, a displacement device 13, a positioning assembly 14 and a power device 15.

The machine 10 has a first side 10a (e.g., upper side) and a second side 10b (e.g., lower side) opposite to each other, and an opening 100 is formed on the first side 10 a.

In the present embodiment, the machine 10 is a frame structure, which is substantially composed of a plurality of beams to form a rectangular table body. For example, the processing apparatus 1 defines a direction along a long side of the machine 10 as a front and rear direction, and defines a direction along a short side of the machine 10 as a left and right direction. It should be understood that the orientation is used to illustrate the configuration of the present embodiment, and is not particularly limited.

Furthermore, the machine 10 can be provided with supporting legs 101 at four corners of the second side 10b, rollers 102 at the bottom end thereof, and a dust collecting groove 103 communicating with the opening 100 is disposed at the opening 100 toward the second side 10b, so that the dust collecting groove 103 is disposed at the right side of the machine 10. It should be understood that the machine 10 may be in various forms, such as a seat, but not limited thereto.

The cutting assembly 11 is erected on the first side 10a of the machine 10 and located at the opening 100.

In this embodiment, the cutting assembly 11 is disposed at the right side of the machine 10, and the cutting assembly 11 is located above the dust collecting groove 103.

Furthermore, the cutting assembly 11 includes a cutter 110 and at least one related component (such as the shaft 111 shown in fig. 2B) driving the cutter 110. For example, the cutter 110 can be a circular hob or other suitable cutting implement (e.g., jigsaw, guillotine), which can be assembled as desired.

The carrying assembly 12 is movably disposed on the first side 10a of the machine 10 to carry at least one target object 9 (such as a floor shown in fig. 3A).

In the present embodiment, the carrying assembly 12 includes a carrying seat 120 such as a rectangular plate and an associated accessory (such as the sliding seat 121 and the base 122 shown in fig. 2A) fixed under the carrying seat 120. It should be understood that the bearing assembly 12 is not particularly limited with respect to its wide variety.

The displacement device 13 is used for displacing the carrying component 12 to make the carrying component 12 approach or move away from the cutting component 11.

In this embodiment, the displacement device 13 is disposed on the first side 10a of the machine 10, and is located at the left of the first side 10a to be adjacent to the dust collecting groove 103.

Furthermore, the displacement device 13 includes a track structure 13a and an actuating structure 13b, so that the actuating structure 13b drives the bearing seat 120 to displace on the track structure 13 a. For example, the track structure 13a includes two linear guide rails 130 slidably connected to the sliding base 121, and the actuating structure 13b includes a screw 131 screwed to the base 122 and a manual rotating disc 132 capable of driving the screw 131 to rotate, so that the manual rotating disc 132 rotates the screw 131 to move the base 122 relative to the screw 131, and the sliding base 121 linearly moves on the linear guide rails 130 to linearly move the carrying base 120 in the front and rear directions. It should be understood that the displacement device 13 is not limited to the above-mentioned types, such as a robot.

The positioning assembly 14 is disposed on the first side 10a of the machine 10 corresponding to the carrying assembly 12.

In the present embodiment, the positioning assembly 14 includes at least one pressing member 140 located above the carrying seat 120, stoppers 141 disposed on the front and rear sides of the carrying seat 120, a position measuring member 142 located above the left side of the carrying seat 120, and a reference seat 143 located on the right edge of the carrying seat 120.

Furthermore, the pressing member 140 is a circular plate or a circular disk, which can adjust the position of the pressing member 140 up and down (as shown by the arrow direction Z in fig. 2A) by operating a manual rotating disc 14a, and the stopper 141 is an elongated plate, which can adjust the position of the stopper 141 forward and backward (as shown by the arrow direction X in fig. 2A) by screwing (as shown by the screw hole 14b of the bearing base 120).

The positioning member 142 is a sheet body, and can slide along the concave rail 14c of the stopper 141 to the left and right (as shown by the arrow Y in fig. 2A) of the carrier 20, so as to be engaged with the target object 9 to define a reserved portion 9a (as shown in fig. 3A) of the target object 9.

In addition, the reference seat 143 is an inclined seat to place the target object 9 obliquely, as shown in fig. 3C, so that the target object 9 protrudes from the carrying seat 120 (or the reference seat 143) to serve as the removing portion 9 b.

Therefore, the positioning component 14 can define the position of the target object 9 to define the removed portion 9b of the target object 9, and can prevent the target object 9 from shaking or shifting during the cutting process. It should be understood that the positioning assembly 14 is not limited to the above description, and that it may be of any type.

The power device 15 (as shown in fig. 2B) is disposed at the left of the second side 10B of the machine 10 to actuate the cutting assembly 11.

In this embodiment, the power device 15 includes an electric cabinet 15a and a transmission mechanism 15b, so that the electric cabinet 15a transmits power to the rotating shaft 111 of the cutting assembly 11 through the transmission mechanism 15b, so that the rotating shaft 111 rotates the cutter 110. Specifically, the electric control box 15a can electrically control a motor 150 (as shown in fig. 2C), and the transmission mechanism 15b can be a gear set, a linkage set, a belt set (as shown in fig. 2C), a chain set, or a combination of related suitable mechanical components, but is not limited thereto.

Furthermore, the power device 15 can also actuate the displacement device 13 according to the requirement. For example, the electric control box 15a of the power device 15 can drive the screw 131 to rotate instead of the manual rotation disc 132.

It should be understood that the form of the power unit 15 is various and not limited to the above.

Therefore, as shown in fig. 3A, when the processing apparatus 1 is used, a target object 9 such as a floor is placed on the carrier 120 in an inclined manner, and then the positioning assembly 14 defines the position of the target object 9, so that the removed portion 9b of the target object 9 protrudes out of the carrier 120. Then, the power device 15 rotates the cutter 110, and the displacement device 13 moves the carrying base 120 from the front to the back (as shown by the arrow direction X in fig. 3A), so that the target object 9 passes through the cutter 110, and at this time, the cutter 110 cuts off the boundary between the removed portion 9b and the retained portion 9 a. After the target object 9 completely passes through the cutter 110, the remaining portion 9a and the removed portion 9b of the target object 9 are separated from each other, and the removed portion 9b falls into the dust collecting groove 103 while the remaining portion 9a is located on the carrying seat 120. Then, the displacement device 13 continuously moves the carrying seat 120 to the end point in the backward direction to take out the reserved portion 9a of the target object 9 at the back of the machine 10, wherein the reserved portion 9a is the required physical size of the floor.

Furthermore, a shielding member 16 for shielding the cutting member 11, as shown in fig. 3A and 3B, may be disposed as required to prevent the chips generated during the cutting process from being blown away. For example, the shielding assembly 16 includes two covers 160,161 above the dust collecting groove 103 (or in front of and behind the first side 10a of the machine 10) to effectively prevent the chips generated during the cutting process from being sprayed upwards, forwards and backwards, and the chips are dropped into the dust collecting groove 103. It should be understood that the form of the shield assembly 16 is numerous and not limited to the above.

Also, at least one switch device 17 electrically connected to the power device 15 may be disposed as required, as shown in fig. 3A and 3B, to activate and deactivate the processing equipment 1. For example, the switch device 17 is used to activate and deactivate the cutting assembly 11 and/or the power device 15 as an industrial safety mechanism, so that if the processing equipment 1 is improperly operated while performing a cutting operation, the switch device 17 can be pressed to stop the operation of the cutting assembly 11 and/or the power device 15. It should be understood that the form of the switch device 17 is various and is not particularly limited.

In addition, at least one sensing device 18 electrically connected to the power device 15 may be disposed as required, as shown in fig. 3A and 3B, to control the movement of the displacement device 13. For example, after the carrying seat 120 passes through the tool 110, if the end point is reached (for example, the rear of the machine 10), the sensing device 18 senses the carrying seat 120 and transmits a sensing signal to the power device 15, so that the power device 15 drives the screw 131 to rotate reversely to return the carrying seat 120 to the original position, or the screw 131 stops rotating. It should be understood that the form of the sensing device 18 is various and is not particularly limited.

In summary, the processing apparatus 1 for automatic cutting of the present application is mainly configured such that the carrying component 12 is movably disposed on the first side 10a of the machine platform 10 to approach or be away from the cutting component 11, so that when the carrying component 12 passes by the cutting component 11, the target object 9 thereon can be cut off by the cutting component 11 to form the removed portion 9b, and thus compared with the manual cutting method in the prior art, the processing apparatus 1 of the present application can automatically cut off the removed portion 9b of the target object 9 to accurately obtain the size of the required product (the remaining portion 9a of the target object 9), and reduce the risk to the operator to avoid accidents.

The above-described embodiments are merely illustrative of the principles and utilities of the present application and are not intended to limit the application. Any person skilled in the art can modify the above-described embodiments without departing from the spirit and scope of the present application. Therefore, the protection scope of the present application should be as set forth in the claims.

Claims (10)

1. The utility model provides an automatic change processing apparatus who cuts which characterized in that includes:

the device comprises a machine table, a first positioning device and a second positioning device, wherein the machine table is provided with a first side and a second side which are opposite, and an opening is formed on the first side;

the cutting assembly is erected on the first side of the machine table and is positioned at the opening; and

the bearing component is arranged on the first side of the machine platform in a displaceable mode so as to be close to or far away from the cutting component.

2. The automatic cutting processing equipment as claimed in claim 1, wherein a dust collecting groove is disposed on the machine platform at the opening toward the second side, and the cutting assembly is disposed on the dust collecting groove.

3. The automated trimming processing apparatus of claim 1, wherein the cutting assembly includes a knife.

4. The automated cutting process apparatus of claim 1, further comprising a displacement device for moving the carrier assembly.

5. The automated cutting processing apparatus of claim 1, further comprising a positioning assembly configured to correspond to the carrier assembly.

6. The automated trimming process apparatus of claim 1, further comprising a power device to actuate the cutting assembly.

7. The automated trimming apparatus of claim 1, further comprising a guard assembly covering the cutting assembly.

8. The automated cutting process apparatus of claim 1, further comprising a switch device that actuates and stops the cutting assembly.

9. The automatic cutting machine as claimed in claim 1, further comprising a sensing device disposed on said machine for sensing the position of said carrier.

10. The automatic cutting machine as claimed in claim 1, further comprising a positioning assembly disposed on the first side of the machine table corresponding to the carrying assembly for defining a position of a target object on the carrying assembly, defining a removed portion of the target object, and preventing the target object from shaking or shifting during operation of the cutting assembly.