CN214925189U - Semi-automatic surface shaping equipment for wooden handicraft - Google Patents

Abstract

The utility model provides a semi-automatic surface molding device for wood artware, which comprises a rotation driving device arranged below one side of an installation platform, a cutting driving shaft arranged at the upper end of the installation platform and connected with the rotation driving device, a driving fixed head arranged at one end of the cutting driving shaft, an element clamping structure arranged at the upper end of the installation platform and horizontally opposite to the driving fixed head, a translation structure arranged at the lower end of the element clamping structure on the installation platform, a translation driving structure arranged below the installation platform and connected with the translation structure and a cutting device arranged at the upper end of the installation platform, the cutting device is provided with a cutting tool bit, a tool bit mounting seat which is detachably connected with the cutting tool bit and a cutting driving rod which is connected with the tool bit mounting seat and is used for driving the tool bit mounting seat to move towards an element to cut, the cutting driving rod is connected with a cutting driving device, and the rotating driving device is in signal connection with a control device. Through the utility model discloses can effectively improve production efficiency, save manufacturing cost.

Description

Semi-automatic surface shaping equipment for wooden handicraft

Technical Field

The utility model belongs to handicraft processing field especially relates to a wooden handicraft semi-automatic surface shaping equipment.

Background

The handicraft has certain artistic attributes, can meet the daily life needs of people, and has the functions of decoration and use. The handicraft comes from the life of people, but creates a value higher than the life. It is a crystal of human intelligence and modern industrial technology. In the processing and production process of the wooden handicraft, according to the setting requirements, the outer surface of the raw material of the wooden handicraft, such as a small wooden stick, needs to be shaped, so that the required shape is formed. However, in the existing machining process, the used machining device easily cuts the element into pieces, and meanwhile, the fixed installation is inconvenient, so that the working efficiency is low, the defective rate is high, the cost is high, and meanwhile, the application range is narrow. Thus, there is a need to improve existing production equipment to meet the needs of production and processing.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a wood artware semi-automatic surface moulding equipment can effectively improve production efficiency, save manufacturing cost.

For realizing the purpose, the semi-automatic surface shaping equipment for the wood artware comprises a mounting table, a rotation driving device arranged below one side of the mounting table, a cutting driving shaft arranged on the upper end of the mounting table and connected with the rotation driving device, a driving fixing head arranged at one end of the cutting driving shaft and used for fixing elements, an element clamping structure arranged on the upper end of the mounting table and horizontally opposite to the driving fixing head and used for horizontally fixing the elements, a translation structure arranged at the lower end of the element clamping structure on the mounting table and used for horizontally moving the driving element clamping structure, a translation driving structure arranged below the mounting table and connected with the translation structure and used for driving the translation structure, and a cutting device arranged on the upper end of the mounting table and used for cutting the elements, wherein the cutting device is provided with a cutting tool bit, a tool bit mounting seat connected with the cutting tool bit and a cutting tool bit mounting seat connected with the cutting tool bit mounting seat and used for driving the tool bit mounting seat to move to the elements for cutting The cutting driving rod is connected with the cutting driving device, and the rotation driving device is in signal connection with a control device.

Preferably, the cutting device is further including setting up the cutting mount pad on the mount table and setting up on the cutting mount pad and be used for the cutting spout of tool bit mount pad motion direction with tool bit mount pad sliding connection, the cutting actuating lever runs through the cutting mount pad and is connected and rotate with the tool bit mount pad with cutting mount pad threaded connection, cutting drive arrangement is the runner.

Preferably, the cutting mounting seat is provided with a limiting block for limiting the movement of the tool bit mounting seat, and the cutting driving rod penetrates through the limiting block.

Preferably, the cutter head mounting seat is provided with a plurality of fixed connecting holes which are used for being detachably connected with the cutting cutter head and adjusting the position of the cutting cutter head.

Preferably, the component clamping structure comprises a first supporting bearing arranged on the mounting table, a clamping shaft arranged on the first supporting bearing and slidably connected with the first supporting bearing through the first supporting bearing, a clamping fixing head arranged at the end opposite to the clamping shaft and the driving fixing head, and a second supporting bearing arranged at the other end of the clamping shaft and rotatably connected with the clamping shaft, wherein the lower end of the second supporting bearing is connected with the translation structure, and the clamping fixing head and the component contact end and the driving fixing head and the component contact end are both arranged to be pointed ends and are on the same horizontal straight line.

Preferably, the translation structure includes the translation slider who is connected with second support bearing lower extreme, set up on the mount table with translation slider sliding connection be used for translation slider motion direction's translation spout, with the pull rope of translation slider connection and with the pull rope contact be used for pulling the rope to pull the guide pulley that turns to, the guide pulley sets up on the mount table, be provided with in the translation spout and be connected with the translation slider and be used for the translation resetting means that resets after the translation slider motion.

Preferably, the translation drive structure includes the mount pad that pushes down, set up on the mount pad that pushes down with push down the mount pad and rotate the axis of rotation of being connected, with push down depression bar of pushing down the axis of rotation, both ends respectively with pull rope and the pull-down connecting rod of being connected of push down depression bar and set up in the pull-down resetting means of push down depression bar one end, the looks remote site of push down depression bar and pull-down resetting means link is for trampling the pull-down end, the pull-down connecting rod is located the one side that is close to trampling the pull-down end on the lower depression bar.

Preferably, the cutting drive shaft includes the rotation wheel that is used for being connected with rotation drive arrangement, be provided with on the mount table of the relative both ends of rotation wheel and rotate third support bearing and the fourth support bearing of being connected with the cutting drive shaft, the rotation wheel passes through the belt pulley with rotation drive arrangement and is connected, be provided with the drive connector that is used for the belt pulley to pass on the mount table.

Compared with the prior art, the utility model, its beneficial effect lies in:

the utility model discloses in carry out the component level through setting up component clamping structure, translation structure and translation drive structure and fix, rethread cutting device cuts for component installation rapid stabilization can effectively improve production efficiency, save manufacturing cost. The utility model discloses in cut control through the runner for the controllability is strong, and simultaneously, the setting up of stopper makes cutting accuracy high, avoids the component to be extruded the landing. The utility model discloses the drive structure that well component presss from both sides tight structure, translation structure and translation drive structure and constitute compresses tightly control through trampling the pushing down, can effectively save physical power, guarantees component fixed stability.

Drawings

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

fig. 2 is a schematic top view of the present invention;

fig. 3 is a side view schematic diagram of the middle translation driving structure of the present invention.

Detailed Description

The technical solution of the present invention is described in further detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following description.

As shown in FIGS. 1-3, the utility model provides a semi-automatic surface shaping device for wood craft, comprising a mounting table 1, a rotation driving device 2 arranged below one side of the mounting table 1, a cutting driving shaft 3 arranged at the upper end of the mounting table 1 and connected with the rotation driving device 2, a driving fixing head 32 arranged at one end of the cutting driving shaft 3 for fixing elements, an element clamping structure 4 arranged at the upper end of the mounting table 1 and horizontally opposite to the driving fixing head 32 for horizontally fixing the elements, a translation structure 5 arranged at the lower end of the element clamping structure 4 on the mounting table 1 for horizontally driving the element clamping structure 4, a translation driving structure 6 arranged below the mounting table 1 and connected with the translation structure 5 for driving the translation structure 5, and a cutting device 7 arranged at the upper end of the mounting table 1 for cutting the elements, the cutting device 7 is provided with a cutting head 73, a head mounting base 72 detachably connected with the cutting head 73, and a cutting driving rod 75 connected with the head mounting base 72 and used for driving the head mounting base 72 to move towards a component to cut, the cutting driving rod 75 is connected with a cutting driving device 74, and the rotation driving device 2 is in signal connection with a control device.

The cutting driving shaft 3 comprises a rotating wheel 31 connected with the rotating driving device 2, a third supporting bearing 11 and a fourth supporting bearing 12 which are rotatably connected with the cutting driving shaft 3 are arranged on the mounting tables 1 at two opposite ends of the rotating wheel 31, the rotating wheel 31 is connected with the rotating driving device 2 through a belt pulley 21, and a driving connecting port 13 for the belt pulley 21 to penetrate through is arranged on the mounting tables 1.

In the present embodiment, the rotation driving device 2 is a motor. The control device is a control switch. The shape of the cutting tip 73 is set by the shape of the element.

The cutting device 7 further comprises a cutting mounting seat 71 arranged on the mounting table 1 and a cutting chute 77 arranged on the cutting mounting seat 71 and connected with the cutter head mounting seat 72 in a sliding manner for guiding the movement of the cutter head mounting seat 72, a cutting driving rod 75 penetrates through the cutting mounting seat 71 and is connected with the cutting mounting seat 71 in a threaded manner and is connected with the cutter head mounting seat 72 in a rotating manner, and the cutting driving device 74 is a rotating wheel. The cutting mounting seat 71 is provided with a limiting block 78 for limiting the movement of the cutter head mounting seat 72, and the cutting driving rod 75 penetrates through the limiting block 78. The bit mounting base 72 is provided with a plurality of fixing connection holes 76 for detachably connecting with the cutting bit 73 and adjusting the position of the cutting bit 73. The fixing attachment holes 76 are fixed by screws, and the cutting head 73 is controlled in a fixed position by selecting the fixing attachment holes 76. The limiting block 78 enables the movement distance of the cutter head mounting seat 72 to be effectively controlled, so that the cutting precision can be effectively improved, and the elements are prevented from being extruded and sliding off.

The component clamping structure 4 comprises a first supporting bearing 41 arranged on the mounting table 1, a clamping shaft 42 arranged on the first supporting bearing 41 and penetrating through the first supporting bearing 41 to be connected with the first supporting bearing 41 in a sliding mode, a clamping fixing head 45 arranged at the end, opposite to the clamping shaft 42 and the driving fixing head 32, and a second supporting bearing 43 arranged at the other end of the clamping shaft 42 and rotatably connected with the clamping shaft 42, the lower end of the second supporting bearing 43 is connected with the translation structure 5, and the clamping fixing head 45 and a component contact end and the driving fixing head 32 and the component contact end are both arranged to be pointed ends and are on the same horizontal straight line.

The translation structure 5 comprises a translation sliding block 51 connected with the lower end of the second support bearing 43, a translation sliding groove 52 arranged on the mounting table 1 and connected with the translation sliding block 51 in a sliding mode and used for guiding the movement of the translation sliding block 51, a pulling rope 53 connected with the translation sliding block 51 and a guide pulley 54 in contact with the pulling rope 53 and used for pulling and turning the pulling rope 53, the guide pulley 54 is arranged on the mounting table 1, and a translation resetting device 55 connected with the translation sliding block 51 and used for resetting the translation sliding block 51 after movement is arranged in the translation sliding groove 52. The translational reset means 55 is a spring.

The translation driving structure 6 comprises a downward pressing mounting seat 61, a downward pressing rotating shaft 62 which is arranged on the downward pressing mounting seat 61 and is rotatably connected with the downward pressing mounting seat 61, a downward pressing rod 63 which is connected with the downward pressing rotating shaft 62, a downward pulling connecting rod 64 of which the two ends are respectively connected with the pulling rope 53 and the downward pressing rod 63, and a downward pulling resetting device 65 which is arranged at one end of the downward pressing rod 63, wherein the opposite end of the connecting end of the downward pressing rod 63 and the downward pulling resetting device 65 is a downward pulling end for being trampled, and the downward pulling connecting rod 64 is positioned on one side of the downward pressing rod 63 which is close to the downward pulling end for being trampled. The pull-down return device 65 is a spring. When the stepping and pulling-down end is stepped on, the pulling-down connecting rod 64 drags the pulling rope 53, so that the translation sliding block 51 moves to clamp and fix the element between the clamping and fixing head 45 and the driving and fixing head 32, and after the foot is lifted, the translation resetting device 55 and the pulling-down resetting device 65 work to reset the translation sliding block 51.

In this embodiment, in operation, the center of one end of the component is contacted with the clamping fixture head 45, and the pressing rod 63 is slowly pressed down, so that the center of the other end of the component is contacted and pressed with the driving fixture head 32. Then, the rotation driving device 2 is started to drive the element to rotate. The cutting driving device 74 is rotated, so that the cutter head mounting seat 72 drives the cutting cutter head 73 to slowly approach the element for cutting, and after the cutter head mounting seat 72 is contacted with the limiting block 78, the cutting driving device 74 can be rotated in opposite phases, so that the cutting cutter head 73 is far away from the element; the rotary drive 2 is turned off and the foot is lifted to reposition the element clamping structure 4 to enable the next round of element cutting. Through the utility model discloses can make the component installation rapid stabilization can effectively improve production efficiency, save manufacturing cost.

The foregoing is merely a preferred embodiment of the invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not intended to be exhaustive of other embodiments, and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the invention as expressed in the above teachings or as known to the person skilled in the relevant art. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (8)

1. The utility model provides a wooden handicraft semi-automatic surface shaping equipment, including mount table (1), a serial communication port, still including set up in rotation drive arrangement (2) of mount table (1) one side below, set up in cutting drive shaft (3) that mount table (1) upper end is connected with rotation drive arrangement (2), set up in cutting drive shaft (3) one end and be used for carrying out fixed drive fixed head (32) to the component, set up in mount table (1) upper end and drive fixed head (32) level relatively and be used for component horizontally fixed's component clamping structure (4), set up in translation structure (5) that component clamping structure (4) lower extreme is used for driving component clamping structure (4) horizontal migration on mount table (1), set up and be connected translation drive structure (6) that are used for driving translation structure (5) and set up in mount table (1) upper end and be used for carrying out the shaping cutting device (7) to the component with translation structure (5) below mounting table (1) ) The cutting device (7) is provided with a cutting bit (73), a detachable bit mounting seat (72) connected with the cutting bit (73) and a cutting driving rod (75) connected with the bit mounting seat (72) and used for driving the bit mounting seat (72) to move towards an element to cut, the cutting driving rod (75) is connected with a cutting driving device (74), and the rotating driving device (2) is in signal connection with a control device.

2. The semi-automatic surface shaping equipment for the wooden crafts as claimed in claim 1, wherein the cutting device (7) further comprises a cutting mounting seat (71) arranged on the mounting table (1) and a cutting chute (77) arranged on the cutting mounting seat (71) and slidably connected with the tool bit mounting seat (72) for guiding the movement of the tool bit mounting seat (72), the cutting driving rod (75) penetrates through the cutting mounting seat (71) to be in threaded connection with the cutting mounting seat (71) and is rotatably connected with the tool bit mounting seat (72), and the cutting driving device (74) is a rotating wheel.

3. The semi-automatic surface shaping equipment for the wooden crafts of claim 2, wherein the cutting installation seat (71) is provided with a limit block (78) for limiting the movement of the cutter head installation seat (72), and the cutting driving rod (75) penetrates through the limit block (78).

4. The semi-automatic surface profiling device for the wooden crafts according to claim 1 or 2, characterized in that the cutter head mounting seat (72) is provided with a plurality of fixing connection holes (76) for detachable connection with the cutting cutter head (73) and position adjustment of the cutting cutter head (73).

5. The semi-automatic surface shaping device for the wooden crafts as claimed in claim 1, wherein the element clamping structure (4) comprises a first supporting bearing (41) disposed on the mounting table (1), a clamping shaft (42) disposed on the first supporting bearing (41) and slidably connected with the first supporting bearing (41) through the first supporting bearing (41), a clamping fixing head (45) disposed at an end opposite to the end where the clamping shaft (42) and the driving fixing head (32) are opposite, and a second supporting bearing (43) disposed at the other end of the clamping shaft (42) and rotatably connected with the clamping shaft (42), wherein the lower end of the second supporting bearing (43) is connected with the translation structure (5), and the clamping fixing head (45) and the element contacting end and the driving fixing head (32) and the element contacting end are both disposed as tips and on the same horizontal straight line.

6. The semi-automatic surface shaping equipment for the wooden crafts is characterized in that the translation structure (5) comprises a translation sliding block (51) connected with the lower end of the second supporting bearing (43), a translation sliding groove (52) which is arranged on the mounting table (1) and is connected with the translation sliding block (51) in a sliding mode and used for motion guiding of the translation sliding block (51), a pulling rope (53) connected with the translation sliding block (51) and a guide pulley (54) which is in contact with the pulling rope (53) and used for pulling and turning of the pulling rope (53), the guide pulley (54) is arranged on the mounting table (1), and a translation resetting device (55) which is connected with the translation sliding block (51) and used for resetting after the translation sliding block (51) moves is arranged in the translation sliding groove (52).

7. The semi-automatic surface shaping equipment for the wooden crafts as claimed in claim 6, wherein the translation driving structure (6) comprises a pressing mounting base (61), a pressing rotating shaft (62) arranged on the pressing mounting base (61) and rotatably connected with the pressing mounting base (61), a pressing rod (63) connected with the pressing rotating shaft (62), a pulling connecting rod (64) with two ends respectively connected with the pulling rope (53) and the pressing rod (63), and a pull-down resetting device (65) arranged at one end of the pressing rod (63), wherein the opposite end of the connecting end of the pressing rod (63) and the pull-down resetting device (65) is a treaded pulling end, and the pulling connecting rod (64) is positioned on one side of the pressing rod (63) close to the treaded pulling end.

8. The semi-automatic surface shaping equipment for the wooden crafts as claimed in claim 1, characterized in that the cutting driving shaft (3) comprises a rotating wheel (31) used for being connected with the rotating driving device (2), a third supporting bearing (11) and a fourth supporting bearing (12) which are rotatably connected with the cutting driving shaft (3) are arranged on the mounting table (1) at the two opposite ends of the rotating wheel (31), the rotating wheel (31) is connected with the rotating driving device (2) through a belt pulley (21), and a driving connecting port (13) for the belt pulley (21) to pass through is arranged on the mounting table (1).

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