CN211440372U

CN211440372U - High numerical control one-time tenoning system for handicraft wood frame

Info

Publication number: CN211440372U
Application number: CN201922310310.4U
Authority: CN
Inventors: 廖治燕
Original assignee: Zhangzhou Yujia Industry And Trade Co ltd
Current assignee: Zhangzhou Yujia Industry And Trade Co ltd
Priority date: 2019-12-20
Filing date: 2019-12-20
Publication date: 2020-09-08
Anticipated expiration: 2029-12-20

Abstract

The utility model discloses a high numerical control of handicraft wooden frame once tenoning system, including workstation and riser, perpendicular welded connection has two risers on the top surface of workstation, and the top of two risers is run through respectively has first horizontal pole and second horizontal pole, the riser wholly is down "concave" column structure, and is provided with the fixed block in the notch of riser, and perpendicular welded connection has the second diaphragm on the lateral wall of riser, be antifriction bearing swing joint between first horizontal pole and second horizontal pole and the riser, and the one end welded connection of first horizontal pole has first anchor clamps to the other end key joint of first horizontal pole has the motor, a pot head of second horizontal pole has the second anchor clamps. This high numerical control of wooden frame of handicraft once tenoning system to wooden wares once tenoning can, need not twice tenoning, work efficiency is high, only needs a power supply can be to the tenoning simultaneously of wooden wares both ends simultaneously, has reduced use cost, is favorable to using widely, and the practicality is strong.

Description

High numerical control one-time tenoning system for handicraft wood frame

Technical Field

The utility model relates to a wood system frame processing technology field specifically is a tenoning system is once carried out in wooden frame of handicraft high numerical control.

Background

The tenoning machine is a wood working machine tool for processing wood tenon, the traditional tenoning machine is generally a structure of single-end tenoning, only single-end tenoning can be carried out on wood products, when meeting the wood products needing double-end tenoning, secondary tenoning is needed, the working efficiency is greatly influenced, in order to solve the problem, the solution mode of the prior art is provided with two sets of tenoning devices, and then double-end tenoning can be carried out on the wood products, but the mode needs two sets of power sources, and the whole equipment is complex, the operation cost is high, the popularization and the use are not facilitated, the practicability is not strong, the use requirements of people cannot be met, the defects existing in the prior art are considered, the further improvement is necessary, the practicability is better achieved, and the practical use condition can be met.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a tenoning system is once carried out in wooden frame of handicraft high numerical control to solve the current solution mode that provides in the above-mentioned background art, need two sets of power supplies, and make whole equipment comparatively complicated, the running cost is high, is unfavorable for using widely, the not strong problem of practicality.

In order to achieve the above object, the utility model provides a following technical scheme: a numerical control one-time tenoning system for a handicraft wood frame comprises a workbench and vertical plates, wherein the top surface of the workbench is vertically welded and connected with the two vertical plates, the top ends of the two vertical plates are respectively penetrated by a first transverse rod and a second transverse rod, the vertical plates are integrally of an inverted concave structure, a fixed block is arranged in a notch of each vertical plate, the side walls of the vertical plates are vertically welded and connected with a second transverse plate, the first transverse rod, the second transverse rod and the vertical plates are movably connected through rolling bearings, one end of the first transverse rod is welded and connected with a first clamp, the other end of the first transverse rod is in key connection with a motor, one end of the second transverse rod is sleeved with a second clamp, the other end of the second transverse rod and the top end of a second transmission rod are welded and connected with a first conical gear which is meshed with the other end of the second transverse rod, and the first transverse rod are both welded and connected with, the electric motor is fixed on the vertical plate through bolts, the second clamp and the second transverse rod are connected through splines, the second clamp is connected with a first threaded rod in a welding mode, the first threaded rod penetrates through the wall body of the first clamp, the top end of the first transmission rod is connected with the first transverse plate in a welding mode, the first transverse plate is fixed on the vertical plate in a welding mode, a second transmission rod is inserted into the first transmission rod, a third transverse rod penetrates through the fixed block, the two sides of the fixed block extend outwards horizontally to form a T-shaped sliding rail, the surface of the vertical plate opposite to the sliding rail is provided with a sliding groove matched with the sliding rail, a tenoning cutter head is fixed on the third transverse rod through a pin shaft, the third transverse rod is movably connected with the fixed block through a rolling bearing, and one end of the third transverse rod and the bottom end of the second transmission rod are both connected with second bevel gears which are meshed with each, the first straight-tooth gear is meshed with the second straight-tooth gear, a threaded sleeve is welded on the inner circle of the second straight-tooth gear, a second threaded rod meshed with the threaded sleeve is inserted into the threaded sleeve, the bottom end of the second threaded rod is movably connected with a third transverse plate surface rolling bearing, and a third transverse plate is welded to the top surface of the fixing block.

Furthermore, the third transverse rod and the second transmission rod are sleeved with fixing frames, the fixing frames are of rectangular frame-shaped structures, and the fixing frames are movably connected with the rolling bearings through the third transverse rod and the second transmission rod.

Furthermore, first anchor clamps are "concave" style of calligraphy, and the second anchor clamps are "protruding" style of calligraphy structure, and the bulge and the mutual block of first anchor clamps recess of second anchor clamps.

Furthermore, the first transmission rod is of a hollow structure with an open bottom end, and is connected with the second transmission rod through a spline.

Further, the first straight gear is an incomplete gear, and the arc length of the tooth blocks on the first straight gear is 1 cm.

Compared with the prior art, the beneficial effects of the utility model are that: this high numerical control of handicraft wooden frame once tenoning system is provided with first anchor clamps and second anchor clamps, when tenoning to the woodwork, can be fixed in the woodwork on first anchor clamps and the second anchor clamps, the motor can drive the woodwork through first anchor clamps and second anchor clamps and rotate, in the pivoted, can drive the tenoning blade disc and rotate, its both ends of rotatory woodwork can alternate with the contact of tenoning blade disc, and then can carry out the tenoning, and the woodwork does not rotate the round, the position of tenoning blade disc can rise, and then can carry out complete tenoning operation, this device once tenoning to the woodwork can, need not twice tenoning, high work efficiency, only need a power supply can be tenoned simultaneously to the woodwork both ends simultaneously, use cost is reduced, and is favorable to using widely, therefore, the clothes hanger is strong in practicability.

Drawings

FIG. 1 is a schematic front view of the present invention;

fig. 2 is a schematic side view of the second cross bar and the second clamp of the present invention;

FIG. 3 is a side view of the first straight gear of the present invention;

FIG. 4 is a schematic side view of the vertical plate and the fixing block of the present invention;

fig. 5 is a schematic view of the vertical plate and the fixing block of the present invention.

In the figure: 1. the workbench comprises a workbench, 2, a vertical plate, 3, a first cross rod, 4, a second cross rod, 5, a third cross rod, 6, a motor, 7, a first clamp, 8, a second clamp, 9, a first threaded rod, 10, a tenoning cutter head, 11, a first bevel gear, 12, a first transmission rod, 13, a second transmission rod, 14, a second bevel gear, 15, a fixed frame, 16, a first transverse plate, 17, a second transverse plate, 18, a third transverse plate, 19, a first straight gear, 20, a second straight gear, 21, a threaded sleeve, 22, a second threaded rod, 23, a fixed block, 24, a sliding rail, 25 and a sliding groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a high numerical control one-time tenoning system for a handicraft wooden frame comprises a workbench 1 and vertical plates 2, wherein the top surface of the workbench 1 is vertically welded with two vertical plates 2, the top ends of the two vertical plates 2 are respectively penetrated with a first cross rod 3 and a second cross rod 4, the vertical plates 2 are integrally of an inverted 'concave' structure, a fixed block 23 is arranged in a notch of each vertical plate 2, the side wall of each vertical plate 2 is vertically welded with a second cross rod 17, the first cross rod 3, the second cross rod 4 and the vertical plates 2 are movably connected through rolling bearings, one end of the first cross rod 3 is welded with a first clamp 7, the other end of the first cross rod 3 is in keyed connection with a motor 6, one end of the second cross rod 4 is sleeved with a second clamp 8, the other end of the second cross rod 4 and the top end of a second transmission rod 13 are welded with a first bevel gear 11 which is engaged, and the second cross rod 4 and the first cross rod 3 are both welded with a first straight gear 19, the motor 6 is fixed on the vertical plate 2 by bolts, the second clamp 8 is connected with the second cross rod 4 by splines, the second clamp 8 is connected with a first threaded rod 9 by welding, the first threaded rod 9 passes through the wall body of the first clamp 7, the top end of the first transmission rod 12 is connected with a first transverse plate 16 by welding, the first transverse plate 16 is fixed on the vertical plate 2 by welding, a second transmission rod 13 is inserted into the first transmission rod 12, a third cross rod 5 passes through the fixed block 23, two sides of the fixed block 23 horizontally extend outwards to form a T-shaped sliding rail 24, the surface of the vertical plate 2 opposite to the sliding rail 24 is provided with a sliding groove 25 matched with the sliding rail 24, a tenoning cutter head 10 is fixed on a pin shaft of the third cross rod 5, the third cross rod 5 is movably connected with the fixed block 23 by a rolling bearing, and one end of the third cross rod 5 and the bottom end of the second transmission rod 13 are both connected with a second bevel gear 14 which is engaged with each other by welding, the first straight gear 19 is meshed with the second straight gear 20, a threaded sleeve 21 is welded on the inner circle of the second straight gear 20, a second threaded rod 22 meshed with the threaded sleeve 21 is inserted into the threaded sleeve 21, the bottom end of the second threaded rod 22 is movably connected with a rolling bearing on the surface of the third transverse plate 18, and the third transverse plate 18 is welded with the top surface of the fixing block 23.

Furthermore, the third cross rod 5 and the second transmission rod 13 are sleeved with a fixing frame 15, the fixing frame 15 is of a rectangular frame-shaped structure, the fixing frame 15, the third cross rod 5 and the second transmission rod 13 are movably connected through rolling bearings, the fixing frame 15 is arranged so that the third cross rod 5 and the second transmission rod 13 can be connected, when the third cross rod 5 moves synchronously along with the fixing block 23, the second transmission rod 13 can also move synchronously, and the second bevel gears 14 on the third cross rod 5 and the second transmission rod 13 are always in a meshed state, so that the structure is reasonable.

Further, first anchor clamps 7 are "concave" word form, and second anchor clamps 8 are "convex" word column structure, and the bulge of second anchor clamps 8 and the mutual block of first anchor clamps 7 recess, like this when pressing from both sides tight woodwork, only need horizontal migration second anchor clamps 8 on second horizontal pole 4 for first anchor clamps 7 and second anchor clamps 8 draw close each other, just can press from both sides the woodwork tightly, first threaded rod 9 contacts nevertheless and is fixed with first anchor clamps 7, first threaded rod 9 also can be at the inside removal of first anchor clamps 7, at last the nut of screwing in on first threaded rod 9, just can be connected as an organic wholely first anchor clamps 7 and second anchor clamps 8, can not separate.

Furthermore, the first transmission rod 12 is a hollow structure with an open bottom, and is connected with the second transmission rod 13 through a spline, so that the second transmission rod 13 moves vertically upwards and can be inserted into the first transmission rod 12, and the first transmission rod 12 and the second transmission rod are connected in a manner that torsion can be generated when the first transmission rod 12 rotates, and then the second transmission rod 13 is driven to rotate synchronously.

Further, first spur gear 19 is incomplete gear, and tooth piece distribution arc length is 1cm on the first spur gear 19, and first spur gear 19 rotates the round like this, can only drive second spur gear 20 rotatory certain angle, and threaded sleeve 21 on the second spur gear 20 also can rotate certain angle, and threaded sleeve 21 can come in with second threaded rod 22 screw in when rotatory, makes every rotatory round of first spur gear 19 like this, and second threaded rod 22 rises certain distance.

The working principle is as follows: when the wood product tenoning machine is used, a wood product is clamped on the first clamp 7 and the second clamp 8, the motor 6 is connected with an external power supply and drives the wood product to operate, the motor 6 drives the first cross rod 3 to rotate, the first cross rod 3 drives the second cross rod 4 to rotate through the first clamp 7 and the second clamp 8, the second cross rod 4 can drive the first transmission rod 12 to rotate through the first bevel gear 11, the first transmission rod 12 drives the second transmission rod 13 to synchronously rotate, the second transmission rod 13 drives the third cross rod 5 to rotate on the fixing block 23 through the second bevel gear 14 and drives the tenoning cutter head 10 to rotate, and when the wood product is driven to rotate by the first clamp 7 and the second clamp 8, two ends of the wood product can be in contact with the tenoning cutter head 10 continuously and can be subjected to tenoning;

meanwhile, the first cross rod 3 and the second cross rod 4 can drive the first straight gear 19 to rotate, the first straight gear 19 drives the second straight gear 20 to rotate, the second straight gear 20 drives the threaded sleeve 21 to rotate on the second transverse plate 17, the second threaded rod 22 can be screwed in, the second threaded rod 22 can drive the fixing block 23 to ascend through the third transverse plate 18 when ascending vertically, so that the fixing block 23 can stably move on the vertical plate 2 through the sliding rail 24 and the sliding groove 25, the third cross rod 5 can move synchronously along with the fixing block 23, the position of the tenoning cutter head 10 continuously ascends, and continuous tenoning operation can be performed on two ends of a wooden product.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a high numerical control of wooden frame of handicraft is system of tenoning once, includes workstation (1), riser (2) and first transfer line (12), its characterized in that: the top surface of the workbench (1) is vertically welded with two vertical plates (2), the top ends of the two vertical plates (2) are respectively penetrated with a first transverse rod (3) and a second transverse rod (4), the vertical plates (2) are integrally of an inverted concave structure, a fixed block (23) is arranged in a notch of each vertical plate (2), the side walls of the vertical plates (2) are vertically welded with a second transverse plate (17), the first transverse rod (3) and the second transverse rod (4) are movably connected with the vertical plates (2) through rolling bearings, one end of the first transverse rod (3) is welded with a first clamp (7), the other end of the first transverse rod (3) is in keyed connection with a motor (6), one end of the second transverse rod (4) is sleeved with a second clamp (8), and the other end of the second transverse rod (4) and the top end of the second transmission rod (13) are welded with a first bevel gear (11) which is meshed with each other end of the second transmission rod (13), and the second cross bar (4) and the first cross bar (3) are all welded with a first straight gear (19), the motor (6) is fixed on the vertical plate (2) by bolts, the second clamp (8) is connected with the second cross bar (4) by splines, the second clamp (8) is welded with a first threaded rod (9), the first threaded rod (9) passes through the wall body of the first clamp (7), the top end of the first transmission rod (12) is welded with a first transverse plate (16), the first transverse plate (16) is welded and fixed on the vertical plate (2), a second transmission rod (13) is inserted into the first transmission rod (12), a third cross bar (5) passes through the fixed block (23), a T-shaped sliding rail (24) is formed by horizontally extending outwards at two sides of the fixed block (23), and a sliding groove (25) matched with the sliding rail (24) is formed on the surface of the vertical plate (2) opposite to the sliding rail (24), the round pin axle is fixed with tenoning blade disc (10) on third horizontal pole (5), and is antifriction bearing swing joint between third horizontal pole (5) and fixed block (23) to the equal welded connection in bottom of the one end of third horizontal pole (5) and second transfer line (13) has intermeshing's second bevel gear (14), first spur gear (19) mesh with second spur gear (20) mutually, and welded connection has threaded sleeve (21) on the interior circle of second spur gear (20), and threaded sleeve (21) inside insert have rather than meshed second threaded rod (22), the bottom and the surface antifriction bearing swing joint of third diaphragm (18) of second threaded rod (22), and the top surface welded connection of third diaphragm (18) and fixed block (23).

2. The artwork wood frame high numerical control one-time tenoning system of claim 1, wherein: the third cross rod (5) and the second transmission rod (13) are sleeved with a fixed frame (15), the fixed frame (15) is of a rectangular frame-shaped structure, and the fixed frame (15), the third cross rod (5) and the second transmission rod (13) are movably connected through rolling bearings.

3. The artwork wood frame high numerical control one-time tenoning system of claim 1, wherein: the first clamp (7) is in a concave shape, the second clamp (8) is in a convex structure, and the convex part of the second clamp (8) is clamped with the groove of the first clamp (7).

4. The artwork wood frame high numerical control one-time tenoning system of claim 1, wherein: the first transmission rod (12) is of a hollow structure with an open bottom end, and is connected with the second transmission rod (13) through a spline.

5. The artwork wood frame high numerical control one-time tenoning system of claim 1, wherein: the first straight gear (19) is an incomplete gear, and the arc length of the distribution of the blocks on the first straight gear (19) is 1 cm.