CN116061284A

CN116061284A - Assembly machine with intensity detection function for solid wood table production

Info

Publication number: CN116061284A
Application number: CN202310051834.4A
Authority: CN
Inventors: 方伟仁
Original assignee: Hangzhou Craftsman Furniture Co ltd
Current assignee: Shandong Chaoxiang Solid Wood Furniture Co ltd
Priority date: 2023-02-02
Filing date: 2023-02-02
Publication date: 2023-05-05
Anticipated expiration: 2043-02-02
Also published as: CN116061284B

Abstract

The invention discloses an assembly machine with a strength detection function for solid wood table production, and relates to the technical field of solid wood table production. The pressure sensor is internally provided with the pressure threshold, when the pressure transmitted by the table plate reaches the threshold, the surface table body is qualified in compression strength, after the table body is qualified in compression strength detection, the second electric push rod can work to drive the clamping column at the outer end of the positioning disc to displace, so that the clamping column can be inserted into the positioning hole at the inner side of the ratchet wheel, the rotation of the ratchet wheel can be limited through the clamping column and the positioning hole, the ratchet wheel is meshed with the rack groove, the displacement of the upper assembly surface and the lower assembly surface on the column body can be stopped by stopping the rotation of the ratchet wheel, and the table body damage caused by the fact that the first extrusion component and the second extrusion component continuously exert pressure on the upper assembly surface and the lower assembly surface due to the information transmission time difference can be avoided.

Description

Assembly machine with intensity detection function for solid wood table production

Technical Field

The invention relates to the technical field of solid wood table production, in particular to an assembling machine with a strength detection function for solid wood table production.

Background

The solid wood table is a table made of solid wood, and the solid wood table is attractive in appearance, firm, durable and moderate in price, so that the solid wood table is a table type with high utilization rate, and a tabletop and table corners are assembled by an assembling machine in the process of processing the solid wood table.

In the use process of the assembly machine for processing the common solid wood table on the market, the tabletop and the table corner are usually required to be fixed in the assembly machine, and then the tabletop and the table corner are fixed by the pressure component, but the tabletop and the table corner are usually fixed in the assembly machine for a long time, and the assembly machine cannot work in the assembly process of the tabletop and the table corner, so that the overall working efficiency of the assembly machine is low.

Accordingly, in view of the above, an assembly machine with strength detection function for producing a solid wood table has been proposed, which is improved in view of the conventional structure and the conventional drawbacks.

Disclosure of Invention

The invention aims to provide an assembling machine with a strength detection function for producing a solid wood table, so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an assembly machine with intensity detection function for wood table production, includes upper assembly face, first extrusion subassembly and lower assembly face, the inboard of upper assembly face is connected with first connecting seat, and the end-to-end connection of first connecting seat has first carousel, first extrusion subassembly is arranged in the top outside of upper assembly face, and the butt joint groove has been seted up at the top of upper assembly face, the intercommunicating pore has been seted up to the inside both sides of upper assembly face, and the inboard of intercommunicating pore is provided with first body of rod subassembly, the bottom inboard of upper assembly face is provided with compression spring, and compression spring keeps away from upper assembly face one side and settle there is the joint seat, the intercommunication groove has been seted up to the inboard of joint seat, and the bottom inboard of joint seat is settled there is automatically controlled sucking disc, the bottom inboard of going up the face of assembling is provided with the magnetism and inhales the post, and the magnetism is inhaled the bottom of post and is settled there is the staple, pressure sensor is settled to the inside both sides of joint seat, and the bottom inboard of joint seat is settled there is the table, the bottom outside of first body of rod subassembly is settled there is the second body of rod subassembly, the outer end of second body of rod subassembly is settled to the face of assembling down, the spout has been seted up to the top inboard of face of assembling down, and the inboard of spout is settled there is the fixture block, the inboard of fixture block is settled there is the table leg, the bottom outside of face of assembling down is settled there is the second extrusion subassembly, the next time of face of assembling is connected with the second connecting seat, and the end-to-end connection of second connecting seat has the second carousel.

Further, the first connecting seat is fixedly connected with the upper assembly surface and the first rotating disc, and the first rotating disc drives the upper assembly surface and the first connecting seat to rotate.

Further, the first extrusion subassembly includes fixed plate, pneumatic cylinder, stripper plate and buckling seat, the bottom outside of fixed plate is connected with the pneumatic cylinder, and the output of pneumatic cylinder is connected with the stripper plate, the bottom both sides of stripper plate are connected with buckling seat.

Further, the extrusion plate and the buckling seat are integrated, and the size of the buckling seat is consistent with the size of the butting groove.

Further, the first rod body component comprises an upper positioning seat, a column body, a rack groove and a lower positioning seat, wherein the column body is arranged on the outer side of the bottom of the upper positioning seat, the rack groove is formed in the front side and the rear side of the column body, and the lower positioning seat is arranged on the outer side of the bottom of the column body.

Further, the upper assembly surface is elastically connected with the clamping seat through a pressure spring, and the communication grooves are distributed in an array shape on the surface of the clamping seat.

Further, the positions of the communication grooves and the magnetic attraction columns are in one-to-one correspondence, and the diameters of the communication grooves are consistent with the diameters of the magnetic attraction columns.

Further, the inside first electric putter that has been settled of last equipment face, and the output of first electric putter is connected with the pivot seat, and the inboard of pivot seat is provided with the spring bar, the outer end of spring bar is connected with one-way rack, and the bottom outside of one-way rack is connected with the ratchet, the locating hole has been seted up to the inboard of ratchet, the inside of going up the equipment face is provided with the second electric putter, and the output of second electric putter is connected with the positioning disk, the outer end of positioning disk is connected with the card post.

Further, the ratchet wheel is meshed with the rack groove, and the ratchet wheels are symmetrically distributed along the vertical center line of the column body.

Further, the circle center of the positioning disc is mutually coincident with the circle center of the ratchet wheel. And the positioning disc and the clamping columns are integrated, and the positions of the clamping columns and the positioning holes are in one-to-one correspondence.

The invention provides an assembly machine with a strength detection function for producing a solid wood table, which has the following beneficial effects:

1. according to the invention, the pressing plate can drive the buckling seat to move downwards through the hydraulic cylinder, so that the buckling seat can push the upper assembly surface to move downwards, the upper assembly surface can slide at the outer end of the cylinder through the communicating hole in the downward moving process, the ratchet wheel in the upper assembly surface can be meshed with the rack groove at the outer end of the cylinder in the sliding process of the outer end of the cylinder, the upper assembly surface can plan a displacement path of the upper assembly surface through the first rod body component in the displacement process, the structure of the second pressing component is consistent with the structure of the first pressing component, the second rod body component on the inner side of the lower assembly surface can be driven to move upwards after the second pressing component works, the ratchet wheel is also arranged in the lower assembly surface, the first rod body component can position the lower assembly surface, and the first rod body component and the second rod body component are positioned on the same straight line, the upper assembly surface and the lower assembly surface can be effectively ensured to be directionally moved back through the first rod body component and the second rod body component, in addition, the situation that the assembling plate and the upper assembly surface cannot be assembled with the table leg can be reversely moved back due to the unidirectional rotation of the ratchet wheel, and the table leg can not be prevented from being assembled in the unidirectional direction, and the situation that the assembling accuracy is influenced when the table is assembled with the table is in the assembling process.

2. After the upper assembly surface and the lower assembly surface are close to each other, the table plate and the table legs can be attached, at the moment, the first extrusion assembly and the second extrusion assembly can continuously press the upper assembly surface and the lower assembly surface, after the clamping seat is continuously pressed, the pressure spring can be extruded to be close to the upper assembly surface, in the process of closing the upper assembly surface and the clamping seat, the magnetic attraction column can drive the fixing nail to pass through the communication groove, so that the fixing nail can be in contact with the table plate, at the moment, the first extrusion assembly and the second extrusion assembly continuously press the upper assembly surface and the lower assembly surface, the upper assembly surface and the clamping seat can be continuously closed, the magnetic attraction column can push the fixing nail to be completely nailed into the inner side of the table plate, the installation site of the fixing nail is positioned at the joint of the table plate and the table legs, after the fixing nail is completely nailed into the table plate, the joint of the table plate and the table legs can be completed, the nailing of the fixing nail can be realized in the assembling process of the table plate and the table legs through the operation, and the subsequent processing flow of the table body can be greatly simplified.

3. According to the invention, the first extrusion assembly and the second extrusion assembly continuously apply pressure to the upper assembly surface and the lower assembly surface, the equipment can detect the compression strength of the assembled table body by continuously applying pressure, the pressure sensor is arranged in the clamping seat, the pressure sensor can calculate the pressure born by the table body by collecting the pressure from the table plate, a pressure threshold value is arranged in the pressure sensor, when the pressure transmitted by the table plate reaches the threshold value, the compression strength of the table body on the surface is qualified, after the compression strength of the table body is detected to be qualified, the second electric push rod can work to drive the clamping column at the outer end of the positioning disc to displace, the clamping column can be inserted into the positioning hole at the inner side of the ratchet wheel, the rotation of the ratchet wheel can be limited by clamping the clamping column and the positioning hole, and the ratchet wheel is meshed with the rack groove, and the displacement of the upper assembly surface and the lower assembly surface on the column can be stopped by stopping the rotation of the ratchet wheel, so that the equipment can stop the displacement of the upper assembly surface and the lower assembly surface after the compression strength of the table body is confirmed to be detected to be qualified, and the condition that the upper assembly surface and the lower assembly surface can be continuously assembled due to the fact that the compression strength of the first extrusion assembly and the second extrusion assembly are damaged due to time difference is avoided.

4. According to the invention, the extruding plate is driven by the hydraulic cylinder to retract, the buckling seat and the butting groove can be separated, after the buckling seat and the butting groove are separated, the first connecting seat and the second connecting seat can drive the upper assembling surface and the lower assembling surface to rotate through synchronous rotation of the first rotating disc and the second rotating disc, four first connecting seats and four second connecting seats are arranged at the outer ends of the first rotating disc and the second rotating disc, each first connecting seat and each second connecting seat are connected with one upper assembling surface and one lower assembling surface, the upper assembling surface and the lower assembling surface can be rotated, the upper assembling surface and the lower assembling surface of the table body can be assembled at present, the outer ends of the first extruding assembly and the second extruding assembly can be removed, the other new upper assembling surface and the new lower assembling surface can be moved to the outer ends of the first extruding assembly and the second extruding assembly, in the process of assembling the table body, the upper assembling surface and the lower assembling surface of one group can be assembled with the table body, the loading plate, the unloading plate, the loading plate and other loading plate can be assembled, and the loading efficiency of the table body can be improved, and the loading device can be simultaneously.

Drawings

FIG. 1 is a schematic diagram showing the whole structure of an assembly machine with strength detection function for producing a solid wood table;

FIG. 2 is a schematic diagram of a first rotor structure of an assembly machine with strength detection function for solid wood table production according to the present invention;

FIG. 3 is a schematic view of a butt joint groove of an assembling machine with strength detection function for producing a solid wood table;

FIG. 4 is an enlarged schematic view of the assembly machine with strength detecting function in FIG. 1 for producing solid wood tables according to the present invention;

FIG. 5 is a schematic diagram showing a side view of a ratchet wheel of an assembling machine with strength detection function for producing solid wood tables;

fig. 6 is a schematic diagram of a front view of a ratchet wheel of an assembling machine with strength detecting function for producing a solid wood table;

fig. 7 is a schematic diagram of a second turntable of an assembling machine with strength detecting function for producing a solid wood table according to the present invention;

fig. 8 is a schematic top view of a lower assembly surface of an assembly machine with strength detection function for producing a solid wood table.

In the figure: 1. an upper assembly surface; 2. a first connection base; 3. a first turntable; 4. a first press assembly; 401. a fixing plate; 402. a hydraulic cylinder; 403. an extrusion plate; 404. a buckling seat; 5. a butt joint groove; 6. a communication hole; 7. a first rod assembly; 701. an upper positioning seat; 702. a column; 703. a rack slot; 704. a lower positioning seat; 8. a pressure spring; 9. a clamping seat; 10. a communication groove; 11. an electric control sucker; 12. a magnetic suction column; 13. fixing nails; 14. a pressure sensor; 15. a table plate; 16. a first electrical push rod; 17. a rotating shaft seat; 18. a spring rod; 19. a unidirectional toothed bar; 20. a ratchet wheel; 21. positioning holes; 22. a second electric push rod; 23. a positioning plate; 24. a clamping column; 25. a second rod assembly; 26. a lower assembly surface; 27. a chute; 28. a clamping block; 29. a table leg; 30. a second extrusion assembly; 31. a second connecting seat; 32. and a second turntable.

Detailed Description

Referring to fig. 1 to 8, the present invention provides the following technical solutions: the utility model provides an assembly machine with intensity detection function for wood table production, including last assembly face 1, first extrusion subassembly 4 and lower assembly face 26, the inboard of going up assembly face 1 is connected with first connecting seat 2, and the end-to-end connection of first connecting seat 2 has first rotating disc 3, first extrusion subassembly 4 is arranged in the top outside of last assembly face 1, and butt joint groove 5 has been seted up at the top of last assembly face 1, the intercommunicating pore 6 has been seted up to the inside both sides of last assembly face 1, and the inboard of intercommunicating pore 6 is provided with first body of rod subassembly 7, the bottom inboard of last assembly face 1 is provided with compression spring 8, and compression spring 8 is kept away from last assembly face 1 one side and is settled joint seat 9, the intercommunication groove 10 has been seted up to the inboard of joint seat 9's bottom inboard has been settled automatically controlled sucking disc 11, the bottom inboard of going up equipment face 1 is provided with the magnetism and inhale post 12, and the bottom of magnetism is inhaled the post 12 and is settled there is staple 13, the inside both sides of joint seat 9 are settled there is pressure sensor 14, and the bottom inboard of joint seat 9 is settled there is table 15, the bottom outside of first body of rod subassembly 7 is settled there is second body of rod subassembly 25, the outer end of second body of rod subassembly 25 is settled to lower equipment face 26, spout 27 has been seted up to the top inboard of lower equipment face 26, and the inboard of spout 27 is settled there is fixture block 28, the table leg 29 is settled to the inboard of fixture block 28, the bottom outside of lower equipment face 26 is settled there is second extrusion subassembly 30, the next time of lower equipment face 26 is connected with second connecting seat 31, and the end-to-end connection of second connecting seat 31 has second carousel 32.

Referring to fig. 1 to 8, a first connecting seat 2 is fixedly connected with an upper assembling surface 1 and a first rotating disc 3, the first rotating disc 3 drives the upper assembling surface 1 and the first connecting seat 2 to rotate, a first extruding assembly 4 comprises a fixing plate 401, a hydraulic cylinder 402, an extruding plate 403 and an opposite buckling seat 404, the outside of the bottom of the fixing plate 401 is connected with the hydraulic cylinder 402, the output end of the hydraulic cylinder 402 is connected with the extruding plate 403, two sides of the bottom of the extruding plate 403 are connected with the opposite buckling seat 404, the extruding plate 403 and the opposite buckling seat 404 are integrated, the size of the opposite buckling seat 404 is consistent with the size of the opposite buckling groove 5, a first rod body assembly 7 comprises an upper positioning seat 701, a column 702, a rack groove 703 and a lower positioning seat 704, the outside of the bottom of the upper positioning seat 701 is provided with the column 702, the front side and the rear side of the column 702 are provided with the rack groove 703, the outside of the bottom of the column 702 is provided with the lower positioning seat 704, the upper assembly surface 1 is elastically connected with the clamping seat 9 through the pressure spring 8, the communication grooves 10 are distributed on the surface of the clamping seat 9 in an array, the communication grooves 10 are in one-to-one correspondence with the positions of the magnetic attraction columns 12, the diameter of the communication grooves 10 is consistent with that of the magnetic attraction columns 12, the first electric push rod 16 is arranged inside the upper assembly surface 1, the output end of the first electric push rod 16 is connected with the rotating shaft seat 17, the spring rod 18 is arranged inside the rotating shaft seat 17, the outer end of the spring rod 18 is connected with the unidirectional toothed rod 19, the outer side of the bottom of the unidirectional toothed rod 19 is connected with the ratchet 20, the inner side of the ratchet 20 is provided with the positioning hole 21, the second electric push rod 22 is arranged inside the upper assembly surface 1, the output end of the second electric push rod 22 is connected with the positioning disc 23, the outer end of the positioning disc 23 is connected with the clamping column 24, the ratchet 20 is meshed with the rack groove 703, the ratchet 20 is symmetrically distributed with two along the vertical center line of the column 702, the center of the positioning disk 23 is coincident with the center of the ratchet 20. The positioning disc 23 and the clamping columns 24 are integrated, and the positions of the clamping columns 24 and the positioning holes 21 are in one-to-one correspondence;

the specific operation is as follows: after the desk plate 15 is arranged on the inner side of the clamping seat 9, the electric control sucker 11 on the inner side of the clamping seat 9 can work to absorb the desk plate 15, in addition, because the inner outline size of the clamping seat 9 is consistent with the size of the desk plate 15, the desk plate 15 can be clamped with the clamping seat 9, the desk plate 15 can be ensured to be stably jointed on the clamping seat 9 through the clamping of the clamping seat 9 and the electric control sucker 11, after the desk plate 15 is fixed, the desk legs 29 which are required to be butted with the desk plate 15 are arranged on the top of the lower assembly surface 26, the clamping blocks 28 can be displaced on the inner side of the sliding grooves 27 through pulling the clamping blocks 28, the clamping blocks 28 can move to the two sides of the desk legs 29 to clamp the desk legs 29, after the desk plate 15 and the desk legs 29 are fixed, the pressing plate 403 can drive the buckling seats 404 to move downwards through the hydraulic cylinders 402 at the bottom of the fixing plate 401, this allows the button seat 404 to push the upper assembly surface 1 to move downward, the upper assembly surface 1 can slide at the outer end of the cylinder 702 through the communication hole 6 in the process of moving downward, the ratchet 20 inside the upper assembly surface 1 can be meshed with the rack groove 703 at the outer end of the cylinder 702 in the process of sliding at the outer end of the cylinder 702, so that the upper assembly surface 1 can plan the displacement path of the upper assembly surface 1 through the first rod assembly 7 in the process of displacement, the structure of the second extrusion assembly 30 is consistent with the structure of the first extrusion assembly 4, after the second extrusion assembly 30 works, the lower assembly surface 26 can be driven to move upward, the structure of the second rod assembly 25 inside the lower assembly surface 26 is consistent with the structure of the first rod assembly 7, and the ratchet 20 is also arranged inside the lower assembly surface 26, so that the first rod assembly 7 can position the lower assembly surface 26, because the first rod body component 7 and the second rod body component 25 are positioned on the same straight line, the upper assembling surface 1 and the lower assembling surface 26 are oriented through the first rod body component 7 and the second rod body component 25, so that the position precision of the table plate 15 and the table leg 29 in the assembling process can be effectively ensured, in addition, the ratchet wheel 20 can only rotate in one direction when being meshed with the unidirectional toothed bar 19, the upper assembling surface 1 and the lower assembling surface 26 can not carry out the retreating operation, the situation that the upper assembling surface 1 and the lower assembling surface 26 are displaced and retreated due to the reaction force in the assembling process of the table plate 15 and the table leg 29, the assembling precision of the table plate 15 and the table leg 29 is influenced can be avoided, the table plate 15 and the table leg 29 can be attached after the upper assembling surface 1 and the lower assembling surface 26 are close, at the moment, the first extruding component 4 and the second extruding component 30 can continuously press the upper assembling surface 1 and the lower assembling surface 26, and the clamping seat 9 continuously are pressed, the magnetic attraction column 12 can drive the fixing nail 13 to pass through the communication groove 10 in the process of closing the pressure spring 8 and the upper assembly surface 1, so that the fixing nail 13 can be contacted with the table plate 15, the first extrusion component 4 and the second extrusion component 30 continuously press the upper assembly surface 1 and the lower assembly surface 26, the upper assembly surface 1 and the clamping seat 9 can be continuously closed, the magnetic attraction column 12 can push the fixing nail 13 to be completely nailed into the inner side of the table plate 15, the placement site of the fixing nail 13 is positioned at the joint of the table plate 15 and the table leg 29, the joint of the table plate 15 and the table leg 29 can be completed after the fixing nail 13 is completely nailed into the table plate 15, the nailing of the fixing nail 13 can be realized in the assembly process of the table plate 15 and the table leg 29 through the operations, the subsequent processing flow of the table body can be greatly simplified, after the fixing nails 13 are nailed into the table 15 and the table legs 29, the first extrusion component 4 and the second extrusion component 30 continuously apply pressure to the upper assembly surface 1 and the lower assembly surface 26, by continuously applying pressure, the equipment can detect the compression strength of the assembled table body, the pressure sensor 14 is arranged in the clamping seat 9, the pressure sensor 14 can calculate the pressure born by the table body by collecting the pressure from the table 15, the pressure sensor 14 is internally provided with a pressure threshold, when the pressure transmitted by the table 15 reaches the threshold, the compression strength of the table body on the surface is qualified, after the compression strength of the table body is detected to be qualified, the second electric push rod 22 works to drive the clamping column 24 at the outer end of the positioning disc 23 to displace, the clamping column 24 can be inserted into the positioning hole 21 at the inner side of the ratchet wheel 20, the clamping column 24 is clamped with the positioning hole 21, the rotation of the ratchet 20 can be limited, the ratchet 20 is meshed with the rack groove 703, the rotation of the ratchet 20 is stopped, the displacement of the upper assembling surface 1 and the lower assembling surface 26 on the column 702 can be stopped, the device can rapidly stop the displacement of the upper assembling surface 1 and the lower assembling surface 26 after confirming that the detection of the compressive strength of the table body is qualified, the situation that the table body is damaged due to the fact that the first extruding component 4 and the second extruding component 30 continuously press the upper assembling surface 1 and the lower assembling surface 26 due to the information transmission time difference can be avoided, after the processing of the table body is finished, the hydraulic cylinder 402 drives the extruding plate 403 to retract, the buckling seat 404 can be separated from the butting groove 5, the first connecting seat 2 and the second connecting seat 31 can drive the upper assembling surface 1 and the lower assembling surface 26 to rotate through the synchronous rotation of the first rotating disc 3 and the second rotating disc 32 after the buckling seat 404 is separated from the butting groove 5, four first connecting seats 2 and four second connecting seats 31 are arranged at the outer ends of the first rotating disc 3 and the second rotating disc 32, and each first connecting seat 2 and each second connecting seat 31 are connected with one upper assembling surface 1 and one lower assembling surface 26, by rotating the upper assembling surface 1 and the lower assembling surface 26, the upper assembling surface 1 and the lower assembling surface 26 of the currently assembled table body can be moved away from the outer ends of the first extruding component 4 and the second extruding component 30, and the other new upper assembling surface 1 and the new lower assembling surface 26 can be moved to the outer ends of the first extruding component 4 and the second extruding component 30, in this way, one group of upper assembling surface 1 and lower assembling surface 26 can be assembled in the table body assembling process, the other groups of the upper assembly surface 1 and the lower assembly surface 26 can perform unloading, loading of the table plate 15, table legs 29 and the like, so that the equipment assembly, the loading of the table plate 15, the table legs 29, unloading and the like can be performed simultaneously, the working efficiency of the equipment can be greatly improved, after the upper assembly surface 1 and the lower assembly surface 26 are moved away from the outer ends of the first extrusion assembly 4 and the second extrusion assembly 30, the first electric push rod 16 works, the rotating shaft seat 17 can drive the unidirectional toothed bar 19 to be separated from the ratchet 20, at the moment, the unidirectional locking of the ratchet 20 is released, at the moment, the upper assembly surface 1 and the lower assembly surface 26 can be reset by pulling, and the assembled table body can be unloaded in the resetting process.

In summary, when the assembly machine with the strength detection function is used for producing a solid wood table, firstly, after a worker places a table plate 15 on the inner side of a clamping seat 9, an electric control sucker 11 on the inner side of the clamping seat 9 can work to adsorb the table plate 15, in addition, the inner outline size of the clamping seat 9 is consistent with the size of the table plate 15, the table plate 15 can be clamped with the clamping seat 9, the table plate 15 can be ensured to be stably connected with the clamping seat 9 through the clamping of the clamping seat 9 and the adsorption of the electric control sucker 11, after the fixing of the table plate 15 is completed, a table leg 29 which needs to be in butt joint with the table plate 15 is placed on the top of a lower assembly surface 26, and the clamping block 28 can be displaced on the inner side of a chute 27 through pulling the clamping block 28, so that the clamping block 28 can move to the two sides of the table leg 29 to clamp the table leg 29.

After the fixing of the table 15 and the table leg 29 is completed, the hydraulic cylinder 402 at the bottom of the fixing plate 401 works to enable the extruding plate 403 to drive the buckling seat 404 to move downwards, so that the buckling seat 404 can push the upper assembly surface 1 to move downwards, the upper assembly surface 1 can slide at the outer end of the column 702 through the communication hole 6 in the process of moving downwards, the ratchet 20 in the upper assembly surface 1 can be meshed with the rack groove 703 at the outer end of the column 702 in the process of sliding the outer end of the column 702, the displacement path of the upper assembly surface 1 can be planned through the first rod body component 7 in the process of moving the upper assembly surface 1, the structure of the second extruding component 30 is consistent with that of the first extruding component 4, the lower assembly surface 26 can be driven to move upwards after the second extruding component 30 works, the second rod body assembly 25 on the inner side of the lower assembly surface 26 is consistent with the first rod body assembly 7 in structure, and the ratchet 20 is arranged in the lower assembly surface 26, so that the first rod body assembly 7 can position the lower assembly surface 26, the first rod body assembly 7 and the second rod body assembly 25 are positioned on the same straight line, the first rod body assembly 7 and the second rod body assembly 25 orient the upper assembly surface 1 and the lower assembly surface 26, the position precision of the table 15 and the table leg 29 in the assembly process can be effectively ensured, in addition, the ratchet 20 can only rotate in one direction when meshed with the unidirectional toothed bar 19, the upper assembly surface 1 and the lower assembly surface 26 cannot be retracted, and the situation that the assembly precision of the table 15 and the table leg 29 is influenced due to the fact that the upper assembly surface 1 and the lower assembly surface 26 are displaced and retracted due to reactive force in the assembly process of the table 15 and the table leg 29 can be avoided;

then, after the upper assembly surface 1 and the lower assembly surface 26 are close to each other, the table 15 and the table leg 29 can be attached, at this time, the first extrusion assembly 4 and the second extrusion assembly 30 can continuously press the upper assembly surface 1 and the lower assembly surface 26, after the clamping seat 9 is continuously pressed, the pressure spring 8 can be extruded to be close to the upper assembly surface 1, in the process of closing the upper assembly surface 1 and the clamping seat 9, the magnetic attraction post 12 can drive the fixing nail 13 to pass through the communication groove 10, so that the fixing nail 13 can be contacted with the table 15, at this time, the first extrusion assembly 4 and the second extrusion assembly 30 continuously press the upper assembly surface 1 and the lower assembly surface 26, at this time, the upper assembly surface 1 and the clamping seat 9 can be continuously closed, so that the magnetic attraction post 12 can push the fixing nail 13 to be completely nailed into the inner side of the table 15, the installation site of the fixing nail 13 is positioned at the joint of the table 15 and the table leg 29, after the fixing nail 13 is completely nailed into the table 15, the joint of the table 15 and the table leg 29 can be completed, through the above operation, the subsequent processing of the table body can be realized, and the subsequent processing of the fixing nail 13 can be simplified in the process of assembling the table leg 29;

after the fixing nails 13 are nailed into the table plate 15 and the table legs 29, the first extrusion component 4 and the second extrusion component 30 continuously apply pressure to the upper assembly surface 1 and the lower assembly surface 26, the equipment can detect the compression strength of the assembled table body by continuously applying pressure, the pressure sensor 14 is arranged in the clamping seat 9, the pressure sensor 14 can calculate the pressure born by the table body by collecting the pressure from the table plate 15, the pressure sensor 14 is internally provided with a pressure threshold, when the pressure transmitted by the table plate 15 reaches the threshold, the compression strength of the surface table body is qualified, after the compression strength of the table body is detected to be qualified, the second extrusion component 22 can work to drive the clamping column 24 at the outer end of the positioning disc 23 to displace, the clamping column 24 can be inserted into the positioning hole 21 at the inner side of the ratchet 20, the rotation of the ratchet 20 can be limited by the clamping column 24 and the positioning hole 21, the ratchet 20 is stopped rotating by the ratchet 20, the displacement of the upper assembly surface 1 and the lower assembly surface 26 on the column body 702 can be stopped, the displacement of the upper assembly surface 1 and the lower assembly surface 26 can be prevented from being damaged by continuously detecting the compression strength of the table body, and the second extrusion component 1 can be prevented from being damaged when the compression strength of the table plate 1 is detected, and the assembly surface is continuously damaged due to the compression strength of the second extrusion component 30 is detected;

after the table body is processed, the extruding plate 403 is driven to retract through the hydraulic cylinder 402, the buckling seat 404 and the butting groove 5 can be separated, after the buckling seat 404 and the butting groove 5 are separated, the first connecting seat 2 and the second connecting seat 31 can drive the upper assembling surface 1 and the lower assembling surface 26 to rotate through synchronous rotation of the first rotating disc 3 and the second rotating disc 32, four first connecting seats 2 and four second connecting seats 31 are arranged at the outer ends of the first rotating disc 3 and the second rotating disc 32, each first connecting seat 2 and each second connecting seat 31 are connected with one upper assembling surface 1 and one lower assembling surface 26, the upper assembling surface 1 and the lower assembling surface 26 of the table body can be moved away from the outer ends of the first extruding assembly 4 and the second extruding assembly 30 through synchronous rotation of the first rotating disc 3 and the second rotating disc 32, the other new upper assembling surface 1 and the new lower assembling surface 26 are moved to the outer ends of the first extruding assembly 4 and the second extruding assembly 30, and the table body can be assembled by the table body, the loading legs and the table body can be assembled by the table body 1 and the lower assembling surface 26, the loading legs can be assembled by the table body 29, the loading legs can be assembled by the table body 15, and the other table body can be assembled by the loading device 29;

finally, after the upper assembling surface 1 and the lower assembling surface 26 are moved away from the outer ends of the first extrusion assembly 4 and the second extrusion assembly 30, the first electric push rod 16 works, so that the rotating shaft seat 17 drives the unidirectional toothed bar 19 to be separated from the ratchet 20, at the moment, the unidirectional locking of the ratchet 20 is released, at the moment, the upper assembling surface 1 and the lower assembling surface 26 can be reset by pulling the upper assembling surface 1 and the lower assembling surface 26, and in the resetting process, the assembled table body can be unloaded.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides an assembly machine with intensity detection function for wood table production, its characterized in that includes equipment face (1), first extrusion subassembly (4) and lower equipment face (26), the inboard of equipment face (1) is connected with first connecting seat (2) and the end-to-end connection of first connecting seat (2) has first carousel (3), first extrusion subassembly (4) settle in the top outside of equipment face (1) on, and the top of equipment face (1) has been seted up butt joint groove (5), communication hole (6) have been seted up to the inside both sides of equipment face (1) on, and the inboard of communication hole (6) is provided with first body of rod subassembly (7), the bottom inboard of equipment face (1) is provided with pressure spring (8), and pressure spring (8) are kept away from equipment face (1) one side and are settled there are bayonet socket (9), the intercommunication groove (10) are seted up to the inboard of bayonet socket (9) on the bottom inboard, and settle automatically controlled sucking disc (11) on the bottom of equipment face (1) is provided with butt joint groove (5), the inside of equipment face (1) has been seted up intercommunicating pore (12), and the inboard of bottom (14) of bayonet socket (9) has bottom (13) of the inside of magnet pile (9) of magnet pile (13) settled, the magnet pile (13) is settled on the bottom of interior pile (9), the utility model discloses a novel multifunctional combined rod body structure, including first body of rod subassembly (7), second body of rod subassembly (25) are settled in the bottom outside of first body of rod subassembly (7), lower assembly face (26) is settled in the outer end of second body of rod subassembly (25), spout (27) have been seted up to the top inboard of lower assembly face (26), and fixture block (28) have been settled to the inboard of spout (27), table leg (29) have been settled to the inboard of fixture block (28), second extrusion subassembly (30) have been settled in the bottom outside of lower assembly face (26), the next time of lower assembly face (26) is connected with second connecting seat (31), and the end-to-end connection of second connecting seat (31) has second carousel (32).

2. The assembly machine with the strength detection function for solid wood table production according to claim 1, wherein the first connecting seat (2) is fixedly connected with the upper assembly surface (1) and the first rotating disc (3), and the first rotating disc (3) drives the upper assembly surface (1) and the first connecting seat (2) to rotate.

3. The assembly machine with the strength detection function for solid wood table production according to claim 1, wherein the first extrusion component (4) comprises a fixed plate (401), a hydraulic cylinder (402), an extrusion plate (403) and an opposite buckling seat (404), the hydraulic cylinder (402) is connected to the outer side of the bottom of the fixed plate (401), the extrusion plate (403) is connected to the output end of the hydraulic cylinder (402), and opposite buckling seats (404) are connected to the two sides of the bottom of the extrusion plate (403).

4. A solid wood table production assembling machine with a strength detecting function according to claim 3, wherein the extruding plate (403) and the butt-buckling seat (404) are integrated, and the size of the butt-buckling seat (404) is consistent with the size of the butt-buckling groove (5).

5. The assembly machine with the strength detection function for solid wood table production according to claim 1, wherein the first rod body component (7) comprises an upper positioning seat (701), a column body (702), a rack groove (703) and a lower positioning seat (704), the column body (702) is arranged on the outer side of the bottom of the upper positioning seat (701), the rack groove (703) is formed in the front side and the rear side of the column body (702), and the lower positioning seat (704) is arranged on the outer side of the bottom of the column body (702).

6. The assembly machine with the strength detection function for solid wood table production according to claim 1, wherein the upper assembly surface (1) is elastically connected with the clamping seat (9) through a pressure spring (8), and the communication grooves (10) are distributed in an array on the surface of the clamping seat (9).

7. The assembly machine with the strength detection function for solid wood table production according to claim 1, wherein the positions of the communication grooves (10) and the positions of the magnetic attraction posts (12) are in one-to-one correspondence, and the diameters of the communication grooves (10) are consistent with the diameters of the magnetic attraction posts (12).

8. The assembly machine with strength detection function for solid wood table production according to claim 5, wherein the first electric push rod (16) is arranged in the upper assembly surface (1), the output end of the first electric push rod (16) is connected with the rotating shaft seat (17), the inner side of the rotating shaft seat (17) is provided with the spring rod (18), the outer end of the spring rod (18) is connected with the unidirectional toothed rod (19), the outer side of the bottom of the unidirectional toothed rod (19) is connected with the ratchet wheel (20), the inner side of the ratchet wheel (20) is provided with the positioning hole (21), the second electric push rod (22) is arranged in the upper assembly surface (1), the output end of the second electric push rod (22) is connected with the positioning disc (23), and the outer end of the positioning disc (23) is connected with the clamping column (24).

9. The assembly machine with the strength detection function for solid wood table production according to claim 8, wherein the ratchet wheel (20) is meshed with the rack groove (703), and the ratchet wheels (20) are symmetrically distributed along the vertical center line of the column body (702).

10. The assembling machine with the strength detecting function for solid wood table production according to claim 8, wherein the circle center of the positioning disc (23) and the circle center of the ratchet wheel (20) are mutually coincident. And the positioning disc (23) and the clamping column (24) are integrated, and the positions of the clamping column (24) and the positioning hole (21) are in one-to-one correspondence.