CN210081968U - Double-spindle side hole machining equipment - Google Patents

Abstract

The utility model discloses a double-spindle side hole machining device, which comprises a frame, wherein a positioning mechanism and a workpiece pressing mechanism are arranged above the frame, a side hole machining mechanism is arranged behind the frame, a dust suction mechanism is arranged at the upper part of the side hole machining mechanism, and two ends of the rear part of the frame are respectively provided with a limiting mechanism; the side hole machining mechanism is a double-spindle machining mechanism, and each spindle machining mechanism is driven by a feeding mechanism; each spindle machining mechanism is connected with one dust suction port of the dust suction mechanism, and each dust suction port is provided with a dust suction switch. The utility model discloses set up two main shaft processor, realize that a equipment accomplishes the fluting and the process of punching of timber side simultaneously to set up dust absorption mechanism, in time clear away the saw-dust, production efficiency is high, and the place occupies for a short time, practices thrift manufacturing cost.

Description

Double-spindle side hole machining equipment

Technical Field

The utility model relates to a machining field, concretely relates to two main shaft processing equipment.

Background

The panel furniture mostly uses the two-in-one invisible connecting piece as shown in fig. 1 to connect two panels, and the connecting mode needs to process a long groove as shown in fig. 2 on the side surface of the panel, and then drill a hole at the bottom of the long groove. In the prior art, the process is carried out by two sets of processing equipment in two procedures, and because the two procedures are required to be positioned and processed, the processing is completed and then the processing is transferred, the production efficiency is low, the two sets of processing equipment occupy the field, and the investment of the production cost of enterprises is increased.

And among the prior art panel processing side opening machine fluting can produce a large amount of saw-dusts, if not in time clear up the saw-dust, arouse the potential safety hazard easily under the operational environment under high temperature, also can the polluted environment, influence the clean and tidy in processing place.

Disclosure of Invention

The utility model discloses a two main shaft side opening processing equipment, this processing equipment have solved among the prior art problem that panel machining efficiency is low, area is big, the cost drops into high to the problem of saw-dust pollution has effectively been solved.

A double-spindle side hole machining device comprises a rack, wherein a positioning mechanism and a workpiece pressing mechanism are arranged above the rack, a side hole machining mechanism is arranged behind the rack, a dust suction mechanism is arranged at the upper part of the side hole machining mechanism, and limiting mechanisms are respectively arranged at two ends of the rear part of the rack;

the side hole machining mechanism is a double-spindle machining mechanism, and each spindle machining mechanism is driven by a feeding mechanism; each spindle machining mechanism is connected with one dust suction port of the dust suction mechanism, and each dust suction port is provided with a dust suction switch;

the first feeding mechanism and the second feeding mechanism are of an interlocking structure, the first dust absorption switch and the second dust absorption switch are of an interlocking structure, the first feeding mechanism and the first dust absorption switch are of a linkage structure, and the second feeding mechanism and the second dust absorption switch are of a linkage structure; the first feeding mechanism pushes a first main shaft cutter to the front of a workpiece and starts a main shaft to process, the first dust absorption switch is turned on to absorb dust, meanwhile, the second feeding mechanism drives a second main shaft cutter to be far away from the workpiece, and the second dust absorption switch is turned off; when the second feeding mechanism pushes the second spindle tool to the front of the workpiece and starts the spindle to process, the second dust absorption switch is turned on to absorb dust, meanwhile, the first feeding mechanism drives the first spindle tool to be far away from the workpiece, and the first dust absorption switch is turned off.

Preferably, the feeding mechanism comprises a tool apron, the tool apron is driven by a tool apron cylinder, the tool apron is connected with a Z-axis rack in a sliding manner through a Z-axis lifting mechanism, the Z-axis rack is connected with a Y-axis platform in a sliding manner through a Y-axis translation mechanism, and the Y-axis platform is connected with a rack in a sliding manner through an X-axis translation mechanism.

Preferably, the dust collection switch comprises a blocking cover for blocking the dust collection opening, and the blocking cover is driven by the dust collection cylinder.

Preferably, the dust collection mechanism comprises dust collection covers positioned around the spindle tool, and each dust collection cover is respectively connected with the interface of the dust collection box body through a dust guide pipe.

Preferably, the positioning mechanism comprises a first positioning plate positioned on the left side of the rack and a plurality of second positioning plates positioned on the rear side of the rack, and the second positioning plates are arranged on the rear side of the rack at intervals. Preferably, the second positioning plate is provided with a plurality of slotted holes for adjusting the mounting height.

Preferably, the front end of the side hole processing mechanism is provided with a position sensing sensor, and a hole formed by connecting a mounting plate of the position sensing sensor and the side hole processing mechanism is a long slotted hole.

Preferably, three stations are arranged on the workbench of the rack, and an electric control switch is arranged on the beam and is opposite to each station.

Preferably, a touch screen is mounted on the beam.

Preferably, a safety guardrail is arranged at the rear side of the rack outside the side hole machining mechanism.

The utility model has the advantages that:

(1) the equipment is used for processing the side connecting grooves and the side holes of the plate-type furniture plates, has multiple functions, can be used for processing three-in-one connecting holes and two-in-one hidden connecting grooves and holes, and can be used for processing the connecting grooves and the holes of the two-in-one hidden parts.

(2) The utility model discloses set up two main shaft processor, realize that a equipment accomplishes the fluting and the process of punching of timber side simultaneously, production efficiency is high, and the place occupies for a short time, practices thrift manufacturing cost.

(3) The dust absorption mechanism sucks the sawdust out in time, so that the cutter is prevented from heating and polluting the environment, the interlocking dust collection switch can save the driving force in the dust absorption process, and the energy waste is reduced.

(4) Can realize punching and the fluting process to the different positions of panel through X axle translation mechanism and Y axle translation mechanism, set up the trompil groove through on Z axle elevating system and the second locating plate and make the utility model discloses can be applicable to the panel side opening processing of different thickness, application scope is extensive.

(5) The position induction sensor determines the specific position of the workpiece on the station through the edge searching function, and then can determine the position size of slotting or drilling in two ways, namely: manually inputting the position size of the hole or the groove on the plate on the operation screen, and secondly: the two-dimensional code on the plate bar code is scanned by using the code scanning gun, and the operating system can directly identify the position information of the groove or the hole contained in the two-dimensional code.

(6) The position induction sensor can also find the function in the limit getting through it, according to the hasp hole position of the trinity connecting piece on the panel surface, confirms the position of side connecting hole, and then processes the side hole.

(7) Be provided with 3 stations on the workstation, have the automatically controlled switch who controls 3 stations respectively on the crossbeam, during the processing platelet, can realize a plurality of stations continuous processing, promptly: when the first station is machined, the workpiece on the second station is placed, and after the first station is machined, the electric control switch of the second station is pressed, so that the workpiece on the second station can be directly machined, and the multi-station machining is performed in sequence, so that the operation time is saved, and the production efficiency is improved.

(8) Set up the slotted hole on the position-sensing sensor mounting panel, can adjust position-sensing sensor's front and back position through this hole, the hole of the different length of location processing satisfies the demand of the various length specifications of connecting rod in the trinity connecting piece in the market.

Drawings

In order to more clearly illustrate the embodiments of the present application 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 application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a structural diagram of a plate connected by a two-in-one connector in the background art;

FIG. 2 is a diagram of a plate structure using a two-in-one connector in the background art;

FIG. 3 is a front view of the present invention;

fig. 4 is a top view of the present invention;

FIG. 5 is an enlarged view of A in FIG. 4;

fig. 6 is a rear view of the present invention;

FIG. 7 is an enlarged view of B in FIG. 6;

fig. 8 is a left side view of the present invention;

FIG. 9 is a perspective view of the present invention;

in the figure: 1. the device comprises a beam, 2, a lifting cylinder, 3, a touch screen, 4, an electronic control switch, 5, a rack, 6, a safety guardrail, 7, a code scanning gun, 8, a first positioning plate, 9, a drag chain, 10, a side hole processing mechanism, 10-1, a cutter holder cylinder, 10-2, a dust collection cylinder, 10-3, a baffle cover, 10-4, a dust collection box body, 11, a mechanical limit, 12, an electronic control limit, 13, a rack, 14, a second positioning plate, 15, a linear guide rail, 16, a position induction sensor, 17, a Z-axis rack, 18, a Z-axis lifting mechanism, 19, a counter, 20, a Y-axis platform, 21, a Y-axis translation mechanism, 22, a gear, 23, an X-axis motor, 24, a cutter holder, 25 and a Y-axis motor.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present application without making any creative effort, shall fall within the protection scope of the present application.

In the description of the present invention, it is to be understood that the terms "center", "length", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 3-9, the utility model discloses a two main shaft processing equipment that is used for punching after slotting to panel side earlier, this equipment frame 5, frame upper portion set up crossbeam 1, installs a plurality of lift cylinders 2 on the crossbeam, and a pressure disk is all connected to every lift cylinder lower extreme, and the work piece hold-down mechanism that lift cylinder and pressure disk are constituteed is used for fixing the instrument of placing on the frame workstation.

A first positioning plate 8 is arranged on the left side of a workbench of the rack and used for positioning a workpiece in the X direction, a plurality of second positioning plates 14 used for positioning the workpiece in the Y direction are arranged on the rear side of the workbench, the second positioning plates are multiple, and a distance is set at intervals between every two adjacent second positioning plates. The arrangement of the plurality of positioning plates can position a large workpiece at the same time, and can also position a plurality of small workpieces at the same time, so that the application range is wide. The second positioning plate 14 is provided with a plurality of long slots for adjusting the installation height, and is suitable for positioning workpieces with different thicknesses.

A side hole machining mechanism 10 is arranged at the rear part of the rack 5, the side hole machining mechanism is a double-spindle machining mechanism, and each spindle machining mechanism is driven by a feeding mechanism; the feeding mechanism comprises a tool apron 24, the tool apron 24 is driven by a tool apron cylinder 10-1, the tool apron 24 is connected with a Z-axis rack 17 in a sliding mode through a Z-axis lifting mechanism 18, the Z-axis lifting mechanism is a first lead screw nut combination and is a common mechanism in the prior art, details are omitted here, and a counter 19 is installed at the top end of a lead screw and used for displaying the up-and-down movement distance of the tool apron. The Z-axis frame 17 is connected with the Y-axis platform 20 in a sliding mode through a Y-axis translation mechanism 21, the Y-axis translation mechanism 21 is a second lead screw nut combination driven by a Y-axis motor 25, and the Y-axis platform 20 is connected with the frame 5 in a sliding mode through an X-axis translation mechanism. The X-axis translation mechanism is a gear and rack combination driven by an X-axis motor 23, the output shaft end of the X-axis motor 23 is connected with a gear 22, the gear 22 is in meshing transmission with a rack 13, and the rack 13 is installed on the rear side of the rack 5. And two linear guide rails 15 in the guide rail slider combination are symmetrically arranged on two sides of the rack, and sliders matched with the linear guide rails are arranged on the side surface of the Y-axis platform 20. The two ends of the rear part of the frame 5 are respectively provided with a mechanical limit 11 and an electric control limit 12 for limiting the left and right of the Y-axis platform 20, and the bottom of the Y-axis platform 20 is provided with an inductive switch corresponding to the electric control limit 12.

The periphery of each side cutter of the double-spindle machining mechanism is respectively provided with a dust hood, each dust hood is respectively connected with an interface of the dust collection box body through a dust guide pipe, and a dust collection switch is arranged at the interface. The dust collection switch comprises a blocking cover 10-3 for blocking the dust collection opening, and the blocking cover is driven by a dust collection cylinder 10-2.

The first feeding mechanism on the left side and the second feeding mechanism on the right side are in an interlocking structure, the first dust absorption switch on the left side and the second dust absorption switch on the right side are in an interlocking structure, the first feeding mechanism and the first dust absorption switch are in a linkage structure, and the second feeding mechanism and the second dust absorption switch are in a linkage structure; the first tool apron cylinder pushes a first main shaft tool to the front of a workpiece and starts a main shaft for processing, the first dust suction cylinder drives the blocking cover to withdraw, the dust suction opening is opened for dust suction, meanwhile, the second tool apron cylinder drives a second main shaft tool to be far away from the workpiece, and the second dust suction cylinder drives the blocking cover to advance to close the dust suction opening; the second tool apron cylinder pushes a second main shaft tool to the front of a workpiece and starts the main shaft to process, the second dust suction cylinder drives the blocking cover to withdraw, the dust suction opening is opened to suck dust, meanwhile, the first tool apron cylinder drives the second main shaft tool to be far away from the workpiece, and the first dust suction cylinder drives the blocking cover to move forward to close the dust suction opening.

The front end of side opening processing agency is provided with position sensor 15, and position sensor finds the limit function through it, confirms the specific position of work piece on the station, then can confirm the position size of fluting or drilling through two kinds of modes, and is first: the position size of the hole or the groove on the plate is manually input on the touch screen 3, and the second: the two-dimensional code on the plate bar code is scanned by using the code scanning gun 7, and the operating system can directly identify the position information of the groove or the hole contained in the two-dimensional code.

15 position sensor can seek the function in the limit was got again through it, according to the hasp hole position of trinity connecting piece on the panel surface, confirms the position of side connecting hole, and then processing side hole.

Be provided with 3 stations on the workstation, have the automatically controlled switch 4 of 3 stations of respective control on the crossbeam, during the processing platelet, can realize a plurality of stations continuous processing, promptly: when the first station is machined, the workpiece on the second station is placed, and after the first station is machined, the electric control switch of the second station is pressed, so that the workpiece on the second station can be directly machined, and the multi-station machining is performed in sequence, so that the operation time is saved, and the production efficiency is improved.

And a safety guardrail 6 is arranged outside the side hole machining mechanism at the rear side of the rack 5 and used for protecting the side hole machining mechanism and protecting personal safety.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The double-spindle side hole machining equipment is characterized by comprising a rack, wherein a positioning mechanism and a workpiece pressing mechanism are arranged above the rack, a side hole machining mechanism is arranged behind the rack, a dust suction mechanism is arranged at the upper part of the side hole machining mechanism, and limiting mechanisms are respectively arranged at two ends of the rear part of the rack;

the side hole machining mechanism is a double-spindle machining mechanism, and each spindle machining mechanism is driven by a feeding mechanism; each spindle machining mechanism is connected with one dust suction port of the dust suction mechanism, and each dust suction port is provided with a dust suction switch;

the first feeding mechanism and the second feeding mechanism are of an interlocking structure, the first dust absorption switch and the second dust absorption switch are of an interlocking structure, the first feeding mechanism and the first dust absorption switch are of a linkage structure, and the second feeding mechanism and the second dust absorption switch are of a linkage structure; the first feeding mechanism pushes a first main shaft cutter to the front of a workpiece and starts a main shaft to process, the first dust absorption switch is turned on to absorb dust, meanwhile, the second feeding mechanism drives a second main shaft cutter to be far away from the workpiece, and the second dust absorption switch is turned off; when the second feeding mechanism pushes the second spindle tool to the front of the workpiece and starts the spindle to process, the second dust absorption switch is turned on to absorb dust, meanwhile, the first feeding mechanism drives the first spindle tool to be far away from the workpiece, and the first dust absorption switch is turned off.

2. The double-spindle side hole machining equipment according to claim 1, wherein the feeding mechanism comprises a tool apron driven by a tool apron cylinder, the tool apron is slidably connected with a Z-axis rack through a Z-axis lifting mechanism, the Z-axis rack is slidably connected with a Y-axis platform through a Y-axis translation mechanism, and the Y-axis platform is slidably connected with the rack through an X-axis translation mechanism.

3. The double-spindle side hole machining apparatus according to claim 1, wherein the dust suction switch includes a blocking cover for blocking the dust suction port, the blocking cover being driven by the dust suction cylinder.

4. The double-spindle side hole machining equipment according to claim 1, wherein the dust suction mechanism comprises dust collection hoods positioned around the spindle tool, and each dust collection hood is connected with an interface of the dust suction box body through a dust guide pipe.

5. The double-spindle side hole machining equipment according to claim 1, wherein the positioning mechanism comprises a first positioning plate located on the left side of the rack and a plurality of second positioning plates located on the rear side of the rack, and the second positioning plates are arranged on the rear side of the rack at intervals.

6. The double-spindle side hole machining apparatus according to claim 5, wherein the second positioning plate is provided with a plurality of slotted holes for adjusting installation height.

7. The double-spindle side hole machining equipment according to claim 1, wherein a position sensing sensor is arranged at the front end of the side hole machining mechanism, and a hole formed by connecting a mounting plate of the position sensing sensor and the side hole machining mechanism is a long slotted hole.

8. The double-spindle side hole machining equipment according to claim 1, wherein three stations are arranged on a workbench of the rack, and an electric control switch is arranged on the beam opposite to each station.

9. The double-spindle side hole machining apparatus according to claim 8, wherein a touch screen is mounted on the cross beam.

10. The double-spindle side hole machining apparatus according to claim 1, wherein a safety fence is provided at a rear side of the machine frame outside the side hole machining mechanism.

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