CN217800847U - Wooden chair leg sand light numerical control machine - Google Patents

Abstract

The utility model provides a wooden chair leg sand light numerical control machine, including first conveyer belt, second conveyer belt, third conveyer belt and fourth conveyer belt, first conveyer belt, second send the area, third conveyer belt and fourth conveyer belt transverse arrangement in proper order set up, and the outer end of first conveyer belt is provided with first processing subassembly, is provided with second processing subassembly between first conveyer belt and the second conveyer belt, is provided with third processing subassembly between third conveyer belt and the second conveyer belt, is provided with fourth processing subassembly between third conveyer belt and the fourth conveyer belt. The work piece is in the time of through first processing subassembly, carries out the primary operation to it through the fixed second installing frame that sets up, and the work piece is the cylinder that varies through the second installing frame after the processing of polishing in the time of through third processing subassembly, and the second installing frame that the activity set up on the third processing subassembly this moment drives the inboard processing wheelset that sets up and reaches the effect that uses the work piece shape to polish processing to it.

Description

Wooden chair leg sand light numerical control machine

Technical Field

The utility model relates to a numerical control technical field, more specifically say, relate to a wooden chair leg sand light numerical control machine.

Background

Polishing is a processing method for obtaining a bright and flat surface by reducing the surface roughness of a workpiece by mechanical, chemical or electrochemical actions.

However, the conventional apparatus has the following problems in use:

1. the processing is influenced by the fact that the size of a clamp of a traditional grinding and polishing machine is too large, and the processing efficiency is reduced.

2. Because the traditional grinding and polishing crawler belt can not adjust the angle, certain angles can not be ground during processing.

Therefore, a new numerical control machine for sanding wooden chair legs is needed.

SUMMERY OF THE UTILITY MODEL

The purpose of the sanding numerical control machine for wooden chair legs is achieved by the following specific technical means:

the utility model provides a wooden chair leg sand light numerical control machine, including first conveyer belt, the second conveyer belt, third conveyer belt and fourth conveyer belt, first conveyer belt, the second is to send the area, third conveyer belt and fourth conveyer belt transverse arrangement in proper order set up, the outer end of first conveyer belt is provided with first processing subassembly, be provided with second processing subassembly between first conveyer belt and the second conveyer belt, be provided with third processing subassembly between third conveyer belt and the second conveyer belt, be provided with fourth processing subassembly between third conveyer belt and the fourth conveyer belt, first conveyer belt, the second conveyer belt, third conveyer belt and fourth conveyer belt surface all fixed are provided with the guide bar, the outside fixedly connected with connecting rod and the leading wheel of fourth processing subassembly, connecting rod and leading wheel fixed connection, first processing subassembly, second processing subassembly, third processing subassembly and fourth processing subassembly surface all fixed are provided with the transport wheelset, the surface of first processing subassembly and third processing subassembly all is provided with the second installing frame, the second installing frame that the second processing subassembly surface set up and the second processing subassembly surface all are provided with the embedding control frame, the second processing subassembly and the adjacent control roller that the processing subassembly set up and the adjacent processing roller set up the control frame, the control roller and the adjacent control roller that the processing roller set up in the processing base.

Further preferred embodiments: the surface of guide bar at first conveyer belt, fourth conveyer belt and second conveyer belt is the same side position slope setting, and is opposite side position slope setting on the surface of third conveyer belt, and the inclination of guide bar outer end is no longer than the transfer chain between two parties on conveyer belt structure surface.

Further preferred embodiments: the connecting rod and the whole supporting setting of leading wheel set up relatively in the outer end slope of fourth processing subassembly two sets of, and leading wheel outer end inclination does not exceed the transfer chain placed in the middle on transfer chain structure surface.

Further preferred embodiments: the connecting rod and the guide wheel are simultaneously arranged at the outer end of the third processing component in a sleeved mode.

Further preferred embodiments: the conveying wheel set is all set up to four and is a set of on every group processing subassembly structure surface, and every group conveying wheel set bottom is supporting to be set up drive arrangement and adjustment mechanism, and every group processing subassembly structure's surface of group corresponds every group conveying wheel set and sets up the bar adjustment tank simultaneously.

Further preferred embodiments: the second installing frame that first processing subassembly surface set up sets up for fixed, and the processing wheelset sets up two sets ofly relatively, sets up to the dull polish wheel.

Further preferred embodiments: the second installing frame that first processing subassembly surface set up all sets up two sets ofly relatively with the second installing frame that third processing subassembly surface set up, and the supporting telescopic machanism that sets up in second installing frame bottom that third processing subassembly surface set up with be the activity setting between the third processing subassembly.

Further preferred embodiments: the control roller corresponds a set of regulation base and sets up two sets ofly, distributes in the both sides position of adjusting the base, and the bottom is supporting sets up drive arrangement.

Further preferred embodiments: adjust the base front end and be the outstanding setting of arc, and the outstanding position is with horizontal position with the front end of carrying the wheelset, adjusts the supporting telescopic link that sets up in base outer end simultaneously, and the control roll setting of base both sides is adjusted in the winding of processing area sets up to the abrasive band.

Has the beneficial effects that:

1. this kind of wooden chair leg sand light numerical control machine reaches the effect that the control work piece carried the mid point through the guide bar that the slope set up, avoids the work piece to carry the skew, and the work piece is after processing through the processing subassembly structure of difference, and connecting rod and leading wheel through the slope setting reach the effect of correcting it carries the mid point, avoid the work piece to carry the skew.

2. This kind of wooden chair leg sand light numerical control machine, the work piece is carrying when processing, reaches the transport operation that carries out the pan feeding and the ejection of compact to the work piece through the transport wheelset, reaches the effect of polishing the processing to the work piece through the relative processing wheelset that sets up.

3. This kind of wooden chair leg sand light numerical control machine, the work piece is when first processing subassembly, carries out the primary processing operation to it through the second installing frame of fixed setting, and the work piece is when the third processing subassembly, and the work piece after the processing of polishing is the cylinder that varies, and the second installing frame that sets up through the activity on the third processing subassembly this moment drives the inboard processing wheelset that sets up and reaches the effect that uses the work piece shape to polish processing to it.

4. This kind of wooden chair leg sand light numerical control machine reaches the effect in drive processing area through the control roller, through the regulation base of adjustable setting, reaches the control processing area and processes the effect of the degree of polishing to the work piece, reaches the effect of processing the polishing to the workpiece surface through the processing area.

Drawings

Fig. 1 is a top view of the overall structure of the present invention.

Fig. 2 is a top view of the first processing assembly connection structure of the present invention.

Fig. 3 is an enlarged view of the structure at a in fig. 1 of the present invention.

Fig. 4 is an enlarged view of the structure at B in fig. 1 according to the present invention.

In FIGS. 1-4: the processing device comprises a first processing assembly 1, a second processing assembly 2, a third processing assembly 3, a fourth processing assembly 4, a first conveying belt 5, a second conveying belt 6, a third conveying belt 7, a fourth conveying belt 8, a guide rod 9, a conveying wheel set 10, a processing wheel set 11, a first mounting frame 12, an adjusting base 13, a control roller 14, a processing belt 15, a connecting rod 16, a guide wheel 17 and a second mounting frame 18.

Detailed Description

As shown in figures 1 to 4:

the utility model provides a wooden chair leg sanding numerical control machine, which comprises a first conveyer belt 5, a second conveyer belt 6, a third conveyer belt 7 and a fourth conveyer belt 8, wherein the first conveyer belt 5, the second conveyer belt 6, the third conveyer belt 7 and the fourth conveyer belt 8 are sequentially and transversely arranged, the outer end of the first conveyer belt 5 is provided with a first processing component 1, a second processing component 2 is arranged between the first conveyer belt 5 and the second conveyer belt 6, a third processing component 3 is arranged between the third conveyer belt 7 and the second conveyer belt 6, a fourth processing component 4 is arranged between the third conveyer belt 7 and the fourth conveyer belt 8, guide rods 9 are fixedly arranged on the surfaces of the first conveyer belt 5, the second conveyer belt 6, the third conveyer belt 7 and the fourth conveyer belt 8, the outer side of the fourth processing component 4 is fixedly connected with a connecting rod 16 and a guide wheel 17, connecting rod 16 and leading wheel 17 fixed connection, first processing subassembly 1, second processing subassembly 2, third processing subassembly 3 and fourth processing subassembly 4 surface all fixed conveying wheelset 10 that is provided with, the surface of first processing subassembly 1 and third processing subassembly 3 all is provided with second installing frame 18, the inside all embedding of second installing frame 18 that the second installing frame 18 that first processing subassembly 1 surface set up and third processing subassembly 3 surface set up is provided with processing wheelset 11, the surface of second processing subassembly 2 and fourth processing subassembly 4 all is provided with first installing frame 12, the inside embedding of first installing frame 12 is provided with adjusting base 13, control roller 14 and processing area 15, adjusting base 13 and control roller 14 adjacent distribution, processing area 15 distributes and sets up in adjusting base 13 and control roller 14 outside.

The guide bar 9 is disposed obliquely at the same side position on the surfaces of the first conveyor belt 5, the fourth conveyor belt 8, and the second conveyor belt 6, and at the opposite side position on the surface of the third conveyor belt 7.

Wherein, the inclination of the 9 outer ends of guide bar is no longer than the transfer chain placed in the middle on transfer belt structure surface, and the guide bar 9 that sets up through the slope reaches the effect that the centre point was carried to the control work piece, avoids the work piece to carry the skew.

Wherein, connecting rod 16 and the whole supporting setting of leading wheel 17 set up two sets ofly relatively in the outer end slope of fourth processing subassembly 4, and 17 outer end inclination angles of leading wheel are no longer than the transfer chain placed in the middle on conveyer belt structure surface.

Wherein, connecting rod 16 and leading wheel 17 are furnished with the setting simultaneously and are being processed the outer end of subassembly 3 at the third, and the work piece is after processing through the processing subassembly structure of difference, and connecting rod 16 and leading wheel 17 through the slope setting reach and carry the mid point to it and carry the effect of correcting, avoid the work piece to carry the skew.

Wherein, carry wheelset 10 all to set up to four a set ofly on every group processing subassembly structure surface, and every group carries wheelset 10 bottom to form a complete set and sets up drive arrangement and adjustment mechanism, and every group processing subassembly structure's of surface corresponds every group and carries wheelset 10 to set up the bar adjustment tank simultaneously, and the work piece is carrying when carrying processing, reaches the transport operation of carrying out the pan feeding and the ejection of compact to the work piece through carrying wheelset 10.

Wherein, the second installing frame 18 that first processing subassembly 1 surface set up is fixed setting, and processing wheelset 11 sets up two sets ofly relatively, sets up to the emery wheel, reaches the effect of carrying out the processing of polishing to the work piece through the processing wheelset 11 that sets up relatively.

Wherein, the second installing frame 18 that the first processing subassembly 1 surface set up and the second installing frame 18 that the third processing subassembly 3 surface set up are all set up two sets ofly relatively, and the supporting telescopic machanism that sets up in the second installing frame 18 bottom that the third processing subassembly 3 surface set up, and be the activity setting between the third processing subassembly 3, the work piece is in the time of through first processing subassembly 1, the second installing frame 18 through fixed setting carries out the primary processing operation to it, and the work piece is in the time of through third processing subassembly 3, work piece after the processing of polishing is the cylinder that varies, the second installing frame 18 that sets up through the activity on the third processing subassembly 3 this moment, the processing wheelset 11 that drives inboard setting reaches the effect that uses the work piece shape to polish it.

Wherein, control roll 14 corresponds a set of regulation base 13 and sets up two sets ofly, distributes in the both sides position of adjusting base 13, and the bottom is supporting to be set up drive arrangement, reaches the effect of drive processing area 15 through control roll 14.

Wherein, adjust 13 front ends of base and be the outstanding setting of arc, and the outstanding position is with horizontal position with the front end of conveying wheelset 10, adjusts 13 outer ends of base simultaneously and sets up the telescopic link in a supporting manner, through the regulation base 13 of adjustable setting, reaches the effect of control processing area 15 to the work piece processing degree of polishing.

Wherein, the processing belt 15 is wound around the control rollers 14 on the two sides of the adjusting base 13 and is set as a grinding belt, and the effect of processing and grinding the surface of a workpiece is achieved through the processing belt 15.

The working principle is as follows:

the specific use mode and effect of this embodiment, the processing work piece is at first carried the processing through first processing subassembly 1, carry out processing through first processing subassembly 1, second processing subassembly 2, third processing subassembly 3 and fourth processing subassembly 4 and polish it, carry the processing work piece through first conveyer belt 5 wherein, second conveyer belt 6, third conveyer belt 7 and fourth conveyer belt 8, carry the in-process of carrying out the transport, carry out the correction processing to the position of processing work piece through guide bar 9 and leading wheel 17 on corresponding conveyer belt structure, wherein carry the wheelset 10 completion in the processing subassembly structure to the transport of work piece, the processing wheelset 11 cooperation among them is adjusted base 13, control roll 14 and processing area 15 and is carried out a lot of processing to the work piece and polish, the processing of final completion work piece is polished and is handled.

Claims (9)

1. The utility model provides a wooden chair leg sand light numerical control machine, includes first conveyer belt (5), second conveyer belt (6), third conveyer belt (7) and fourth conveyer belt (8), and first conveyer belt (5), second send area (6), third conveyer belt (7) and fourth conveyer belt (8) transversely arrange setting, its characterized in that in proper order: the outer end of first conveyer belt (5) is provided with first processing subassembly (1), be provided with second processing subassembly (2) between first conveyer belt (5) and second conveyer belt (6), be provided with third processing subassembly (3) between third conveyer belt (7) and second conveyer belt (6), be provided with fourth processing subassembly (4) between third conveyer belt (7) and fourth conveyer belt (8), first conveyer belt (5), second conveyer belt (6), third conveyer belt (7) and fourth conveyer belt (8) surface all fixed be provided with guide bar (9), the outside fixedly connected with connecting rod (16) and leading wheel (17) of fourth processing subassembly (4), connecting rod (16) and leading wheel (17) fixed connection, first processing subassembly (1), second processing subassembly (2), third processing subassembly (3) and fourth processing subassembly (4) surface all fixed be provided with transport wheelset (10), the surface of first processing subassembly (1) and third processing subassembly (3) all is provided with second installation frame (18), the surface all is provided with the processing subassembly (18) of second processing subassembly (18) and the processing subassembly (18) surface all is provided with second processing subassembly (11), the processing subassembly (18) that the surface all is provided with second processing subassembly (18), the processing subassembly (18) and the processing subassembly (11) all is provided with second processing subassembly (18), the processing subassembly (11) of fourth processing subassembly (18), the processing subassembly (18) is provided with the processing subassembly (11), the processing subassembly (1), the processing subassembly (11) of the processing subassembly (4), the surface all is provided with the processing subassembly (18), the processing subassembly (12) The adjusting base (13), the control roller (14) and the processing belt (15) are embedded in the first mounting frame (12), the adjusting base (13) and the control roller (14) are distributed adjacently, and the processing belt (15) is distributed on the outer sides of the adjusting base (13) and the control roller (14).

2. The wooden chair leg sanding numerical control machine according to claim 1, characterized in that: the surface of guide bar (9) at first conveyer belt (5), fourth conveyer belt (8) and second conveyer belt (6) is with the side position slope setting, and is opposite side position slope setting on the surface of third conveyer belt (7), and the inclination of guide bar (9) outer end is not more than the transfer chain between two parties on conveyer belt structure surface.

3. The wooden chair leg sanding numerical control machine according to claim 1, characterized in that: connecting rod (16) and leading wheel (17) wholly form a complete set and set up, set up two sets ofly relatively in the outer end slope of fourth processing subassembly (4), and leading wheel (17) outer end inclination does not exceed the conveyer line placed in the middle on conveyer belt structure surface.

4. The wooden chair leg sanding numerical control machine according to claim 1, characterized in that: the connecting rod (16) and the guide wheel (17) are simultaneously arranged at the outer end of the third machining component (3) in a sleeved mode.

5. The wooden chair leg sanding numerical control machine according to claim 1, characterized in that: the conveying wheel sets (10) are all set to four in every group processing assembly structure surface and are organized, and every group conveying wheel set (10) bottom is supporting to be set up drive arrangement and adjustment mechanism, and the surface of every group processing assembly structure corresponds every group conveying wheel set (10) simultaneously and sets up the bar adjustment tank.

6. The wooden chair leg sanding numerical control machine according to claim 1, characterized in that: the second mounting frame (18) arranged on the surface of the first machining assembly (1) is fixedly arranged, and the machining wheel sets (11) are oppositely arranged in two groups and are arranged to be grinding wheels.

7. The wooden chair leg sanding numerical control machine according to claim 1, characterized in that: the second installing frame (18) that first processing subassembly (1) surface set up and second installing frame (18) that third processing subassembly (3) surface set up all set up two sets of relatively, and the supporting telescopic machanism that sets up in second installing frame (18) bottom that third processing subassembly (3) surface set up with be the activity setting between third processing subassembly (3).

8. The wooden chair leg sanding numerical control machine according to claim 1, characterized in that: the control rollers (14) are arranged in two groups corresponding to one group of adjusting bases (13) and distributed at the positions of the two sides of the adjusting bases (13), and driving devices are arranged at the bottom ends of the control rollers in a matched mode.

9. The wooden chair leg sanding numerical control machine according to claim 1, characterized in that: the front end of the adjusting base (13) is in an arc-shaped protruding arrangement, the protruding position and the front end of the conveying wheel set (10) are in the same horizontal position, the outer end of the adjusting base (13) is simultaneously matched with a telescopic rod, and the processing belt (15) is wound on the control rollers (14) on two sides of the adjusting base (13) and is arranged as a sanding belt.

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