CN106956345B

CN106956345B - Dining table foot production line

Info

Publication number: CN106956345B
Application number: CN201710134194.8A
Authority: CN
Inventors: 邓道彬
Original assignee: Foshan Shunde Junlian Honghui Machinery Manufacture Co ltd
Current assignee: Foshan Shunde Junlian Honghui Machinery Manufacture Co ltd
Priority date: 2017-03-08
Filing date: 2017-03-08
Publication date: 2022-12-16
Anticipated expiration: 2037-03-08
Also published as: CN106956345A

Abstract

The invention relates to a dining table leg production line which comprises a rack, wherein two bottom plates are arranged on two sides of the rack, the distance between the two bottom plates is adjustable, a fixed workbench extending along the feeding direction is fixedly arranged on each bottom plate, a feeding plate sliding back and forth along the feeding direction is arranged on the inner side of each fixed workbench, one end of each fixed workbench is provided with a storage rack, one bottom plate is fixed on the rack, and the other bottom plate is movably arranged on the rack; the fixedly arranged bottom plate is provided with an inclined plane sawing device, a first inclined hole drilling device, a first chamfering device and a second chamfering device in sequence along the feeding direction; the movably arranged bottom plate is successively provided with an inclined plane sawing device, a first inclined hole drilling device and a second inclined hole drilling device along the feeding direction; the drilling machine is simple and reasonable in structure, high in production efficiency, adjustable in angle and capable of drilling inclined holes in a plurality of angles.

Description

Dining table foot production line

Technical Field

The invention relates to the technical field of equipment for manufacturing dining table legs, in particular to a dining table leg production line.

Background

At present, the existing dining table has various structures, such as dining table legs which are obliquely installed, the appearance is attractive, the supporting performance is good, the dining table legs are widely applied to furniture design, a production line for quickly producing the dining table legs with the inclined surfaces at the two ends is not mature, the production efficiency is low, and the dining table legs can not be manufactured by combining processes such as drilling and the like.

Disclosure of Invention

The invention aims to solve the defects of the prior art, and provides a dining table leg production line which is simple and reasonable in structure, high in production efficiency, adjustable in a plurality of angles and capable of drilling inclined holes in a plurality of angles.

The technical scheme adopted by the invention for solving the technical problem is as follows:

a dining table leg production line comprises a rack, two bottom plates are arranged on two sides of the rack, the distance between the two bottom plates is adjustable, a fixed workbench extending along the feeding direction is fixedly arranged on each bottom plate, a feeding plate sliding back and forth along the feeding direction is arranged on the inner side of each fixed workbench, and a storage rack is arranged at one end of each fixed workbench;

one bottom plate is fixed on the rack, and the other bottom plate is movably arranged on the rack;

the fixedly arranged bottom plate is provided with an inclined plane sawing device, a first inclined hole drilling device, a first chamfering device and a second chamfering device in sequence along the feeding direction;

the movably arranged bottom plate is successively provided with an inclined plane sawing device, a first inclined hole drilling device and a second inclined hole drilling device along the feeding direction;

the two inclined plane saw cutting devices on the two bottom plates are symmetrically arranged and have the same structure, each inclined plane saw cutting device comprises a multi-angle saw cutting adjusting mechanism, a saw blade motor and a saw blade, the multi-angle saw cutting adjusting mechanism is installed on the bottom plates, the saw blade motor is installed on the multi-angle saw cutting adjusting mechanism, and the saw blades are installed on output shafts of the saw blade motors;

the two first inclined hole drilling devices on the two bottom plates are symmetrically arranged and have the same structure, each first inclined hole drilling device comprises a first multi-angle drilling adjusting mechanism, a first drilling packet motor and a first drilling packet, the first multi-angle drilling adjusting mechanism is installed on the bottom plates, the first drilling packet motors are installed on the first multi-angle drilling mechanisms, and the first drilling packets are installed on output shafts of the first drilling packet motors;

the first chamfering device comprises a first multi-angle chamfering adjusting mechanism, a first chamfering motor and a first chamfering tool, the first multi-angle chamfering adjusting mechanism is installed on the bottom plate, the first chamfering motor is installed on the first multi-angle chamfering adjusting mechanism, and the first chamfering tool is in driving connection with the first chamfering motor;

the second chamfering device comprises a second multi-angle chamfering adjusting mechanism, a second chamfering motor and a second chamfering cutter, the second multi-angle chamfering adjusting mechanism is installed on the bottom plate, the second chamfering motor is installed on the second multi-angle chamfering adjusting mechanism, and the second chamfering cutter is in driving connection with the second chamfering motor;

the second inclined hole drilling device comprises a second multi-angle drilling adjusting mechanism, a pneumatic drill and a second drill bag, the second multi-angle drilling adjusting mechanism is installed on the bottom plate, the pneumatic drill is installed on the second multi-angle drilling mechanism, and the second drill bag is installed at the output end of the pneumatic drill.

The production line of the dining table legs with the structure is suitable for processing irregular or asymmetric holes on the dining table legs through incomplete symmetry of the processing devices on the two bottom plates, specifically, during processing, the feeding plate conveys the blanks on the storage rack to the inclined plane saw cutting device, the front and the back clamping is carried out through the material clamping assembly on the feeding plate, then the multi-angle saw cutting adjusting mechanism drives the saw blade motor, so that the saw blade motor can carry out three-dimensional multi-angle adjustment (including horizontal sliding, horizontal circumferential angle adjustment, vertical lifting adjustment and the like), the saw blade on the saw blade motor cuts the two ends of the blanks into inclined planes, and the inclined planes have adjustable inclination angles and large adjustable ranges; after the inclined planes at the two ends of the blank are sawed, the feeding plate is conveyed forwards continuously, the blank is conveyed to a position between two first inclined hole drilling devices, the first multi-angle drilling adjusting mechanism is used for adjusting different angles of the first drilling and wrapping motor, and the first multi-angle drilling adjusting mechanism can be used for performing three-dimensional multi-angle adjustment (including horizontal sliding, horizontal circumferential angle adjustment, vertical lifting adjustment and the like), so that regular blind holes or inclined blind holes can be drilled on the inclined planes, and the method can be determined according to the processing requirements; then the blank is conveyed to the front ends of the first chamfering device and the second chamfering device by the feeding plate in sequence, and because the first chamfering device and the second chamfering device are not arranged on one bottom plate, the first chamfering device and the second chamfering device only need to chamfer one inclined plane of the blank, and the first chamfering tool and the second chamfering tool respectively chamfer the left edge and the right edge of one end of the blank and chamfer the upper edge and the lower edge of the blank; finally, the first chamfering device and the second chamfering device are correspondingly provided with a first multi-angle chamfering adjusting mechanism and a second multi-angle chamfering adjusting mechanism, so that the first chamfering tool and the second chamfering tool can also be adjusted at different angles, and the details are similar to the above and are not repeated; finally, the feeding plate conveys the blank to a second inclined hole drilling device, the second inclined hole drilling device is only arranged on one bottom plate, the second inclined hole drilling device is used for inclined hole machining on the top surface of the blank, the inclined angle is three-dimensionally adjusted by a second multi-angle drilling adjusting mechanism, finally, the second drill bag on the pneumatic drill is used for drilling, the whole dining table foot machining process is completed, the structure is mature, machining efficiency is effectively improved, and machining precision is effectively improved.

Because different dining table feet have different requirements on processing inclined planes and drilled holes, the sequence and the number of the processing devices can be adjusted, increased and decreased according to requirements.

The invention can also be solved by adopting the following technical measures:

as a preferred scheme, the multi-angle sawing adjusting mechanism comprises a first sawing rotary table, a sawing seat and a second sawing rotary table, the first sawing rotary table is horizontally arranged on a bottom plate through a sawing horizontal planker assembly, the sawing seat is fixed on the first sawing rotary table to realize rotary adjustment, a sawing lifting planker assembly is vertically arranged in the vertical direction of the sawing seat, the second sawing rotary table is arranged on the sawing lifting planker assembly, a saw blade seat is fixed on the second sawing rotary table, a saw blade seat guide rail sliding assembly is arranged on the saw blade seat, and a saw blade motor is connected to the saw blade seat guide rail sliding assembly in a sliding manner through a saw blade seat sliding plate; the first revolving platform that saw cuts realizes the horizontal rotation, saw cuts horizontal planker subassembly and realizes horizontal migration, saw cuts the lift planker subassembly and realizes about high lift, and the second saw cuts the revolving platform and realizes that the perpendicular is rotatory, and saw bit seat guide rail sliding assembly makes the saw bit motor still possess the removal on the perpendicular, and the regulation of this kind of multi-angle has greatly satisfied the three-dimensional angle modulation of saw bit, and its accommodation is big, can saw cut out three-dimensional inclined plane.

As a preferred scheme, the first multi-angle drilling adjusting mechanism comprises a first drilling rotary table, a first drilling seat and a second drilling rotary table, the first drilling rotary table is horizontally arranged on the bottom plate through a first drilling horizontal planker component, the first drilling seat is fixed on the first drilling rotary table to realize rotation adjustment, the first drilling lifting planker component is vertically arranged on the vertical surface of the first drilling seat, the second drilling rotary table is arranged on the first drilling lifting planker component, a first drill bag seat is fixed on the second drilling rotary table, a first drill bag seat guide rail sliding component is arranged on the first drill bag seat, and a first drill bag motor is connected on the first drill bag seat guide rail sliding component in a sliding manner through a first drill bag seat sliding plate; the structure is simple, the adjusting principle is similar to that of the prior art, and multi-angle three-dimensional adjustment can be realized.

According to a preferable scheme, the first multi-angle chamfering adjusting mechanism comprises a first chamfering lower rotary table, a first chamfering seat and a first chamfering upper rotary table, the first chamfering lower rotary table is horizontally arranged on the bottom plate through a first chamfering horizontal planker assembly, the first chamfering seat is fixed on the first chamfering lower rotary table, a first chamfering lifting planker assembly is vertically arranged in a vertical direction of the first chamfering seat, the first chamfering upper rotary table is arranged on the first chamfering lifting planker assembly, a first chamfering fixing plate is fixed on the first chamfering upper rotary table, a first chamfering guide rail sliding assembly is arranged on the first chamfering fixing plate, the first chamfering main shaft guide rail sliding assembly is connected with a first chamfering motor in a sliding mode through a first chamfering sliding plate, a first chamfering tool sleeve is further arranged on the first chamfering fixing plate, the first chamfering motor is in driving connection with the first chamfering tool main shaft sleeve through a belt, and the first chamfering tool is arranged on the first chamfering tool main shaft sleeve; the structure is simple, the adjusting principle is similar to that of the prior art, and multi-angle three-dimensional adjustment can be realized.

As a preferred scheme, the second multi-angle chamfering adjusting mechanism comprises a second chamfering lower rotary table, a second chamfering seat and a second chamfering upper rotary table, the second chamfering lower rotary table is horizontally mounted on the bottom plate through a second chamfering horizontal dragging plate assembly, the second chamfering seat is fixed on the second chamfering lower rotary table, the vertical surface of the second chamfering seat is vertically provided with a second chamfering lifting dragging plate assembly, the second chamfering upper rotary table is mounted on the second chamfering lifting dragging plate assembly, a second chamfering fixing plate is fixed on the second chamfering upper rotary table, a second chamfering guide rail sliding assembly is mounted on the second chamfering fixing plate, the second chamfering guide rail sliding assembly is connected with a second chamfering motor in a sliding manner through a second chamfering sliding plate, a second chamfering tool spindle sleeve is further mounted on the second chamfering fixing plate, the second chamfering motor is in driving connection with the second chamfering tool spindle sleeve through a belt, and the second chamfering tool spindle sleeve is mounted on the second chamfering tool spindle sleeve; the structure is simple, the adjusting principle is similar to that of the prior art, and multi-angle three-dimensional adjustment can be realized.

As a preferred scheme, the second multi-angle drilling adjusting mechanism comprises a second chamfer seat, a vertical round pipe and a horizontal round pipe, the second chamfer seat is fixed on the bottom plate, a second drilling horizontal planker assembly is installed at the top of the second chamfer seat, the vertical round pipe is fixed on the second chamfer horizontal planker assembly, a cross sleeve is sleeved on the vertical round pipe, the horizontal round pipe is sleeved on the cross sleeve, and the other end of the horizontal round pipe is connected with a pneumatic drill through a chuck; one end of the cross sleeve is sleeved on the vertical round pipe to realize the lifting adjustment of the pneumatic drill, the horizontal round pipe is sleeved at the other end of the cross sleeve, and the horizontal round pipe can move axially along the cross sleeve, so that the pneumatic drill forms an inclined state, and the second drill pack can be ensured to finish inclined hole drilling on the top surface of the blank.

As the preferred scheme, a bottom plate guide rail is transversely arranged on the frame, and a movably arranged bottom plate is slidably arranged on the bottom plate guide rail; the bottom plate guide rail enables the movably arranged bottom plate to move relative to the fixedly arranged bottom plate, so that the processing of blanks with different lengths is adapted.

According to the preferable scheme, a portal frame is installed on a rack, a transversely extending portal frame planker is installed on the portal frame, a plurality of cross plankers are connected to the portal frame planker in a sliding mode, each cross planker is connected with a longitudinal sliding seat in a sliding mode, a plurality of vertical drilling devices are vertically installed on the longitudinal sliding seats, each vertical drilling device comprises a vertical drilling slide rail lifting assembly, a vertical drilling motor and a vertical drilling package, the vertical drilling slide rail lifting assemblies are vertically arranged, the vertical drilling motors are vertically installed on the vertical drilling slide rail lifting assemblies, and the vertical drilling package is installed on an output shaft of the vertical drilling motor; the vertical drilling device is added, so that the top surface of the blank can be drilled vertically, and different requirements are met.

The invention has the beneficial effects that:

the dining table leg production line is simple and reasonable in structure, high in production efficiency, capable of adjusting a plurality of angles, capable of drilling inclined holes at a plurality of angles, accurate in numerical control and capable of effectively improving machining precision.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic structural diagram of the present invention.

Fig. 4 is a schematic structural diagram of the present invention.

Fig. 5 is a schematic structural diagram of the present invention.

Fig. 6 is a schematic view of the structure of the machined blank of the present invention.

Fig. 7 is a schematic view of the structure of the machined blank of the present invention.

Detailed Description

The invention is further illustrated with reference to the following figures and examples.

As shown in fig. 1 to 7, a dining table leg production line comprises a frame 1, two bottom plates 2 are mounted on two sides of the frame 1, the distance between the two bottom plates 2 is adjustable, a fixed workbench 3 extending along the feeding direction is fixedly arranged on each bottom plate 2, a feeding plate 4 sliding back and forth along the feeding direction is arranged on the inner side of each fixed workbench 3, and a storage rack 5 is mounted at one end of each fixed workbench 3;

one bottom plate 2 is fixed on the frame 1, and the other bottom plate 2 is movably arranged on the frame 1;

the fixedly arranged bottom plate 2 is provided with an inclined plane sawing device 6, a first inclined hole drilling device 7, a first chamfering device 8 and a second chamfering device 9 in sequence along the feeding direction;

the movably arranged bottom plate 2 is sequentially provided with an inclined plane sawing device 6, a first inclined hole drilling device 7 and a second inclined hole drilling device 10 along the feeding direction;

the two inclined plane sawing devices 6 on the two bottom plates 2 are symmetrically arranged and have the same structure, each inclined plane sawing device 6 comprises a multi-angle sawing adjusting mechanism 601, a saw blade motor 602 and a saw blade 603, the multi-angle sawing adjusting mechanism 601 is installed on the bottom plate 2, the saw blade motor 602 is installed on the multi-angle adjusting sawing mechanism 601, and the saw blade 603 is installed on an output shaft of the saw blade motor 602;

the two first inclined hole drilling devices 7 on the two bottom plates 2 are symmetrically arranged and have the same structure, each first inclined hole drilling device 7 comprises a first multi-angle drilling adjusting mechanism 701, a first drilling and wrapping motor 702 and a first drilling and wrapping motor 703, the first multi-angle drilling and wrapping adjusting mechanism 701 is installed on the bottom plate 2, the first drilling and wrapping motor 702 is installed on the first multi-angle drilling and wrapping mechanism 701, and the first drilling and wrapping motor 703 is installed on an output shaft of the first drilling and wrapping motor 702;

the first chamfering device 8 comprises a first multi-angle chamfering adjusting mechanism 801, a first chamfering motor 802 and a first chamfering tool 803, wherein the first multi-angle chamfering adjusting mechanism 801 is installed on the bottom plate 2, the first chamfering motor 802 is installed on the first multi-angle chamfering adjusting mechanism 801, and the first chamfering tool 803 is in driving connection with the first chamfering motor 802;

the second chamfering device 9 comprises a second multi-angle chamfering adjusting mechanism 901, a second chamfering motor 902 and a second chamfering knife 903, the second multi-angle chamfering adjusting mechanism 901 is installed on the bottom plate 2, the second chamfering motor 902 is installed on the second multi-angle chamfering adjusting mechanism 901, and the second chamfering knife 903 is in driving connection with the second chamfering motor 902;

the second inclined hole drilling device 10 comprises a second multi-angle drilling adjusting mechanism 1001, a pneumatic drill 1002 and a second drill package 1003, wherein the second multi-angle drilling adjusting mechanism 1001 is installed on the bottom plate 2, the pneumatic drill 1002 is installed on the second multi-angle drilling mechanism 1001, and the second drill package 1003 is installed at the output end of the pneumatic drill 1002.

Adopt the dining-table foot production line of this structure, through the incomplete symmetry of processingequipment on two bottom plates 2, the adaptation processes irregular or asymmetric hole on the dining-table foot, specifically: when processing, feeding: 4, the blank 11 on the storage rack 5 is conveyed to a position between the two bevel sawing devices 6, the front and back clamping is carried out through the material clamping assembly 12 on the feeding plate 4, then the multi-angle sawing adjusting mechanism 601 drives the saw blade motor 602, so that the saw blade motor 602 can carry out three-dimensional multi-angle adjustment (including horizontal sliding, horizontal circumferential angle adjustment, vertical lifting adjustment and the like), the saw blade 603 on the saw blade motor 602 saws the two ends of the blank 11 to form the bevel 1101, the inclination angle of the bevel 1101 is adjustable, and the adjustable range is large; after the inclined planes 1101 at two ends of the blank 11 are sawed, the feeding plate 4 is conveyed forwards continuously, the blank 11 is conveyed to a position between two first inclined hole drilling devices 7, the first multi-angle drilling adjusting mechanism 701 is used for adjusting different angles of the first drilling and wrapping motor 702, and as the first multi-angle drilling adjusting mechanism 701 can be used for three-dimensional multi-angle adjustment (including horizontal sliding, horizontal circumferential angle adjustment, vertical lifting adjustment and the like), regular blind holes or inclined blind holes 1102 can be drilled in the inclined planes 1101 according to the processing requirements; then the feeding plate 4 successively conveys the blank 11 to the front ends of the first chamfering device 8 and the second chamfering device 9, because the first chamfering device 8 and the second chamfering device 9 are not arranged on one bottom plate 2, the first chamfering device 8 and the second chamfering device 9 only need to chamfer one inclined surface of the blank 11, and the first chamfering tool 803 and the second chamfering tool 903 respectively chamfer one end of the blank 11 with the left edge 1103 and the right edge 1103 and chamfer the upper edge 1104 and the lower edge 1104; finally, the first chamfering device 8 and the second chamfering device 9 are correspondingly provided with a first multi-angle chamfering adjusting mechanism 801 and a second multi-angle chamfering adjusting mechanism 901, so that the first chamfering tool 803 and the second chamfering tool 903 can also be adjusted at different angles, and the details are similar to the above description and are not repeated; finally, the feeding plate 4 conveys the blank 11 to the second inclined hole drilling device 10, similarly, the second inclined hole drilling device 10 is only arranged on one of the bottom plates 2, the second inclined hole drilling device 10 is used for inclined hole machining on the top surface 1105 of the blank 11, the inclined angle is three-dimensionally adjusted by a second multi-angle drilling adjusting mechanism 1001, finally, the inclined hole 1106 machining is implemented by a second drill packet 1003 on a pneumatic drill 1002, namely, the whole dining table foot machining process is completed, the structure is mature, the machining efficiency is effectively improved, and the machining precision is effectively improved.

As a more specific embodiment of this example:

preferably, the multi-angle sawing adjustment mechanism 601 includes a first sawing rotary table 604, a sawing seat 605 and a second sawing rotary table 606, the first sawing rotary table 604 is horizontally mounted on the bottom plate 2 through a sawing horizontal planker assembly 607, the sawing seat 605 is fixed on the first sawing rotary table 604 to realize rotary adjustment, a sawing lifting planker assembly 608 is vertically mounted on the vertical surface of the sawing seat 605, the second sawing rotary table 606 is mounted on the sawing lifting planker assembly 608, a saw blade seat 609 is fixed on the second sawing rotary table 606, a saw blade seat guide rail sliding assembly 610 is mounted on the saw blade seat 609, and the saw blade seat guide rail sliding assembly 610 is slidably connected with a saw blade motor 602 through a saw blade seat sliding plate 611; the first sawing revolving platform 604 realizes horizontal plane rotation, the sawing horizontal planker component 607 realizes horizontal movement, the sawing lifting planker component 608 realizes vertical height lifting, the second sawing revolving platform 606 realizes vertical plane rotation, the saw blade seat guide rail sliding component 610 enables the saw blade motor 602 to further move on the vertical plane, the multi-angle adjustment greatly meets the three-dimensional angle adjustment of the saw blade 603, the adjustment range is large, and the three-dimensional inclined plane 1101 can be sawed.

Preferably, the first multi-angle drilling adjustment mechanism 701 comprises a first drilling rotary table 704, a first drilling seat 705 and a second drilling rotary table 706, the first drilling rotary table 704 is horizontally mounted on the bottom plate 2 through a first drilling horizontal planker component 707, the first drilling seat 705 is fixed on the first drilling rotary table 704 to realize rotation adjustment, a vertical surface of the first drilling seat 705 is vertically provided with a first drilling lifting planker component 708, the second drilling rotary table 706 is mounted on the first drilling lifting planker component 708, a first drilling bag seat 709 is fixed on the second drilling rotary table 706, the first drilling bag seat 709 is provided with a first drilling bag seat guide rail sliding component 710, and the first drilling bag seat guide rail sliding component 710 is slidably connected with a first drilling bag motor 702 through a first drilling bag seat sliding plate 711; the structure is simple, the adjusting principle is similar to that of the prior art, and multi-angle three-dimensional adjustment can be realized.

Preferably, the first multi-angle chamfering adjusting mechanism 801 comprises a first chamfering lower rotary table 804, a first chamfering seat 805 and a first chamfering upper rotary table 806, the first chamfering lower rotary table 804 is horizontally mounted on the base plate 2 through a first chamfering horizontal carriage assembly 807, the first chamfering seat 805 is fixed on the first chamfering lower rotary table 804, a vertical surface of the first chamfering seat 805 is vertically provided with a first chamfering lifting carriage assembly 808, the first chamfering upper rotary table 804 is mounted on the first chamfering lifting carriage assembly 808, a first chamfering fixing plate 809 is fixed on the first chamfering upper rotary table 806, a first chamfering guide rail sliding assembly 810 is mounted on the first chamfering fixing plate 809, the first chamfering guide rail sliding assembly 810 is slidably connected with a first chamfering motor 802 through a first chamfering sliding plate 812, a first chamfering cutter spindle sleeve 812 is further mounted on the first chamfering fixing plate 809, the first chamfering motor 802 is drivingly connected with the first chamfering cutter spindle sleeve 812 through a spindle belt 813, and the first chamfering cutter spindle sleeve 803 is mounted on the first chamfering cutter spindle sleeve 803; the structure is simple, the adjusting principle is similar to that of the prior art, and multi-angle three-dimensional adjustment can be realized.

Preferably, the second multi-angle chamfering adjusting mechanism 901 comprises a second chamfering lower rotary table 904, a second chamfering seat 905 and a second chamfering upper rotary table 906, the second chamfering lower rotary table 904 is horizontally mounted on the base plate 2 through a second chamfering horizontal carriage assembly 907, the second chamfering seat 905 is fixed on the second chamfering lower rotary table 904, the vertical surface of the second chamfering seat 905 is vertically provided with a second chamfering lifting carriage assembly 908, the second chamfering upper rotary table 906 is mounted on the second chamfering lifting carriage assembly 908, the second chamfering upper rotary table 906 is fixed on a second chamfering fixing plate 909, the second chamfering fixing plate 909 is provided with a second chamfering guide rail sliding assembly 910, the second chamfering guide rail sliding assembly 910 is slidably connected with a second chamfering motor 902 through a second chamfering sliding plate, the second chamfering fixing plate 909 is further provided with a second chamfering cutter spindle sleeve 912, the second chamfering motor is drivingly connected with a second chamfering cutter spindle sleeve 912 through a second chamfering cutter belt 912, and the second chamfering cutter spindle sleeve 903 is mounted on the second chamfering fixing plate 903; the structure is simple, the adjusting principle is similar to that of the prior art, and multi-angle three-dimensional adjustment can be realized.

As a preferred scheme, the second multi-angle drilling adjustment mechanism 1001 includes a second chamfer seat 1004, a vertical round tube 1005 and a horizontal round tube 1006, the second chamfer seat 1004 is fixed on the bottom plate 2, a second drilling horizontal planker assembly 1007 is installed at the top of the second chamfer seat 1004, the vertical round tube 1005 is fixed on the second chamfer horizontal planker assembly 1007, a cross sleeve 1008 is sleeved on the vertical round tube 1005, the horizontal round tube 1006 is sleeved on the cross sleeve 1008, and the other end of the horizontal round tube 1006 is connected with a pneumatic drill 1002 through a chuck 1009; one end of the cross sleeve 1008 is sleeved on the vertical round pipe 1005 to achieve lifting adjustment of the pneumatic drill 1002, the horizontal round pipe 1006 is sleeved on the other end of the cross sleeve 1008, and the horizontal round pipe 1006 can axially move along the cross sleeve 1008 to enable the pneumatic drill 1002 to form an inclined state, so that the second drill pack 1003 can drill the inclined hole 1006 on the top surface 1105 of the blank 11.

As a preferred scheme, a bottom plate guide rail 101 is transversely arranged on the frame 1, and a movably arranged bottom plate 2 is slidably arranged on the bottom plate guide rail 101; the base plate guide rail 101 enables the movably arranged base plate 2 to move relative to the fixedly arranged base plate 2, so as to adapt to processing of blanks 11 with different lengths.

As a preferred scheme, a gantry 13 is mounted on a frame 1, a transversely extending gantry planker 14 is mounted on the gantry 13, the gantry planker 14 is connected with a plurality of cross plankers 15 in a sliding manner, each cross planker 15 is connected with a longitudinal sliding base 16 in a sliding manner, the longitudinal sliding base 16 is vertically provided with a plurality of vertical drilling devices, each vertical drilling device comprises a vertical drilling slide rail lifting assembly 17, a vertical drilling motor 18 and a vertical drilling package 19, the vertical drilling slide rail lifting assembly 17 is vertically arranged, the vertical drilling motor 18 is vertically mounted on the vertical drilling slide rail lifting assembly 17, and the vertical drilling package 19 is mounted on an output shaft of the vertical drilling motor 18; vertical drilling devices are added, and vertical drilling 1107 can be performed on the top surface 1105 of the blank 11 to adapt to different requirements.

The above-described embodiments are merely preferred embodiments of the present invention, and all equivalent designs made in the claims of the present invention should be covered by the technology of the present invention.

Claims

1. A dining table leg production line comprises a rack, wherein two bottom plates are arranged on two sides of the rack, the distance between the two bottom plates is adjustable, a fixed workbench extending along the feeding direction is fixedly arranged on each bottom plate, a feeding plate sliding back and forth along the feeding direction is arranged on the inner side of each fixed workbench, and a storage rack is arranged at one end of each fixed workbench;

an inclined plane sawing device, a first inclined hole drilling device, a first chamfering device and a second chamfering device are sequentially arranged on the fixedly arranged bottom plate along the feeding direction;

2. The dining table foot production line as claimed in claim 1, wherein the multi-angle sawing adjustment mechanism comprises a first sawing rotary table, a sawing seat and a second sawing rotary table, the first sawing rotary table is horizontally mounted on the bottom plate through a sawing horizontal planker assembly, the sawing seat is fixed on the first sawing rotary table for rotary adjustment, a sawing lifting planker assembly is vertically mounted on the sawing seat, the second sawing rotary table is mounted on the sawing lifting planker assembly, a saw blade seat is fixed on the second sawing rotary table, a saw blade seat guide rail sliding assembly is mounted on the saw blade seat, and a saw blade motor is slidably connected onto the saw blade seat guide rail sliding assembly through a saw blade seat sliding plate.

3. The dining table foot production line as claimed in claim 1, wherein the first multi-angle drilling adjustment mechanism comprises a first drilling rotary table, a first drilling seat and a second drilling rotary table, the first drilling rotary table is horizontally mounted on the bottom plate through a first drilling horizontal planker component, the first drilling seat is fixed on the first drilling rotary table to realize rotation adjustment, the first drilling seat is vertically mounted with a first drilling lifting planker component, the second drilling rotary table is mounted on the first drilling lifting planker component, a first drilling bag seat is fixed on the second drilling rotary table, a first drilling bag seat guide rail sliding component is mounted on the first drilling bag seat guide rail sliding component, and a first drilling bag motor is slidably connected to the first drilling bag seat guide rail sliding component through a first drilling bag seat sliding plate.

4. The dining table foot production line according to claim 1, wherein the first multi-angle chamfer adjusting mechanism comprises a first chamfer lower rotary table, a first chamfer seat and a first chamfer upper rotary table, the first chamfer lower rotary table is horizontally installed on the bottom plate through a first chamfer horizontal planker assembly, the first chamfer seat is fixed on the first chamfer lower rotary table, the first chamfer seat is vertically installed on the first chamfer vertical planker assembly, the first chamfer upper rotary table is installed on the first chamfer vertical planker assembly, a first chamfer fixing plate is fixed on the first chamfer upper rotary table, a first chamfer guide rail sliding assembly is installed on the first chamfer fixing plate, the first chamfer guide rail sliding assembly is connected with a first chamfer motor in a sliding manner through a first chamfer sliding plate, a first chamfer cutter sleeve is further installed on the first chamfer fixing plate, the first chamfer motor is in driving connection with the first chamfer cutter main shaft sleeve through a belt, and the first chamfer cutter is installed on the first chamfer cutter main shaft sleeve.

5. The dining table leg production line as claimed in claim 1, wherein the second multi-angle chamfering adjustment mechanism comprises a second chamfering lower rotary table, a second chamfering seat and a second chamfering upper rotary table, the second chamfering lower rotary table is horizontally mounted on the base plate through a second chamfering horizontal dragging plate assembly, the second chamfering seat is fixed on the second chamfering lower rotary table, a vertical surface of the second chamfering seat is vertically mounted with a second chamfering lifting dragging plate assembly, the second chamfering upper rotary table is mounted on the second chamfering lifting dragging plate assembly, a second chamfering fixed plate is fixed on the second chamfering upper rotary table, a second chamfering guide rail sliding assembly is mounted on the second chamfering fixed plate, the second chamfering guide rail sliding assembly is slidably connected with a second chamfering motor through a second chamfering sliding plate, a second chamfering knife spindle sleeve is further mounted on the second chamfering fixed plate, the second chamfering motor is drivingly connected with the second chamfering knife sleeve through a belt, and the second chamfering knife is mounted on the second chamfering knife spindle sleeve.

6. The dining table foot production line as claimed in claim 1, wherein the second multi-angle drilling adjustment mechanism comprises a second chamfer seat, a vertical round tube and a horizontal round tube, the second chamfer seat is fixed on the bottom plate, a second drilling horizontal planker assembly is mounted at the top of the second chamfer seat, the vertical round tube is fixed on the second chamfer horizontal planker assembly, a cross sleeve is sleeved on the vertical round tube, the horizontal round tube is sleeved on the cross sleeve, and a pneumatic drill is connected to the other end of the horizontal round tube through a chuck.

7. The dining table foot production line of claim 1, wherein the frame is transversely mounted with a base plate rail, and the movably disposed base plate is slidably mounted on the base plate rail.

8. The dining table foot production line as claimed in claim 1, wherein a gantry is mounted on the frame, a gantry carriage extending transversely is mounted on the gantry, a plurality of cross carriages are slidably connected to the gantry carriage, a longitudinal slide is slidably connected to each cross carriage, a plurality of vertical drilling devices are vertically mounted on the longitudinal slide, each vertical drilling device comprises a vertical drilling slide rail lifting assembly, a vertical drilling motor and a vertical drilling bag, the vertical drilling slide rail lifting assembly is vertically arranged, the vertical drilling motor is vertically mounted on the vertical drilling slide rail lifting assembly, and the vertical drilling bag is mounted on an output shaft of the vertical drilling motor.