CN212888086U - Automatic production line for splicing and gathering wood - Google Patents

Abstract

The utility model discloses a timber automatic production line that pieces together, including first conveyer belt, mill the mechanism, count pushing equipment, single feed mechanism, second conveyer belt, rubber coating mechanism, make-up mechanism rotatory makeup machine and finished product collection mechanism, mill the mechanism and install in the side of first conveyer belt, count pushing equipment locates the output of first conveyer belt, count pushing equipment's material pushing direction points to single feed mechanism, single feed mechanism locates the input of second conveyer belt, rubber coating mechanism locates the side of second conveyer belt, make-up mechanism locates the output of second conveyer belt, make-up mechanism's material pushing direction points to rotatory makeup machine and make-up mechanism is located one side of rotatory makeup machine, finished product collection mechanism is located the opposite side of rotatory makeup machine far away from make-up mechanism, the utility model discloses automatic counting, guarantee all can only operate when there is sufficient quantity of makeup, resource waste is avoided; secondly, the finished product is automatically collected, the material is not required to be manually taken, and the efficiency is improved.

Description

Automatic production line for splicing and gathering wood

Technical Field

The utility model relates to a wood treatment equipment technical field, concretely relates to timber pieces together automatic production line.

Background

In the process of producing wooden furniture, the wooden bed is often required to be cut. In this case, a large number of wood profiles of similar dimensions are produced, which are glued to form a board and can be reused.

The existing wood section bars are pieced together by counting the number of workers and then piecing together. However, the manual splicing is time-consuming and labor-consuming, and is not beneficial to large-scale production. There is therefore a need for a wood profile assembling line that can automatically count and assemble wood profiles.

Disclosure of Invention

The utility model aims at providing a connecting rod convenient to installation dismantlement's door closer.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an automatic production line for splicing and gathering wood comprises a first conveying belt, a milling mechanism, a counting and pushing mechanism, a single feeding mechanism, a second conveying belt, a gluing mechanism, a forming mechanism, a rotary board splicing machine and a finished product collecting mechanism, the milling mechanism is arranged on the side surface of the first conveying belt, the counting and pushing mechanism is arranged at the output end of the first conveying belt, the single feeding mechanism is arranged at the output end of the pushing mechanism and the single feeding mechanism is arranged at the input end of the second conveying belt, the material pushing direction of the counting material pushing mechanism points to the single feeding mechanism, the glue coating mechanism is arranged on the side surface of the second conveying belt, the forming mechanism is arranged at the output end of the second conveying belt, the material pushing direction of the forming mechanism points to the rotary board splicing machine, the forming mechanism is located on one side of the rotary board splicing machine, and the finished product collecting mechanism is located on the other side, far away from the forming mechanism, of the rotary board splicing machine.

Further, first conveyer belt is including treating workbin and centre gripping conveyor, treat that the workbin is located the top of centre gripping conveyor input, it is provided with the logical groove that only holds single timber section to pass through to treat workbin bottom.

Further, the milling mechanism comprises a first milling machine and a second milling machine, the first milling machine and the second milling machine are respectively arranged on two sides of the first conveying belt, and the first milling machine and the second milling machine are arranged in a staggered mode.

Furthermore, count pushing equipment includes infrared detector, connects the flitch, pushes away material cylinder and scraping wings, infrared detector locates one side of first conveyer belt output, connect the flitch to set firmly the output of first conveyer belt, it installs to push away the material cylinder one side of connecing the flitch, single feed mechanism locates connect the opposite side of flitch, the scraping wings set firmly push away on the piston rod of material cylinder, it is directional to push away the direction of release that pushes away the material cylinder single feed mechanism.

Further, single feed mechanism is including connecing workbin, first limiting plate, second limiting plate, first cylinder and second cylinder, it keeps away from to connect the workbin one side of count pushing equipment is provided with the baffle, it only can be through single wood section bar to connect the workbin, the side from the top down of the bottom of connecing the workbin establishes first limiting plate and second limiting plate in proper order, first cylinder drive first limiting plate is in connect the workbin is flexible, the second cylinder drive the second limiting plate is in connect the workbin is flexible, it locates to connect the workbin the top of second conveyer belt input.

Further, the rubber coating mechanism includes hot melt adhesive box, gluey box, glue spreader, rubber coating motor, carriage and slip cylinder, hot melt adhesive box, gluey box and rubber coating motor are all installed the side of second conveyer belt, the output of hot melt adhesive box with glue the box and connect, the output of rubber coating motor passes glue the box with the glue spreader is connected, the rubber coating motor is installed on the carriage, the drive of slip cylinder the carriage is close to and keeps away from the second conveyer belt.

Further, forming mechanism includes profiled sheeting, shaping clamp plate, shaping air cylinder, shaping limiting plate and shaping lift cylinder, the profiled sheeting is located the output of second conveyer belt, the shaping air cylinder is installed one side of profiled sheeting, rotatory makeup machine sets up the opposite side of profiled sheeting, the shaping clamp plate sets firmly on the piston rod of shaping air cylinder, the shaping limiting plate is located between profiled sheeting and the rotatory makeup machine, the drive of shaping lift cylinder the shaping limiting plate is in flexible on the profiled sheeting.

Further, the rotary plate splicing machine comprises a frame, a rotary plate, a plate splicing frame, a fixed pressing plate, a fixed air cylinder, a finished product push plate, a finished product air cylinder and a rotary plate motor, the machine frame is fixedly arranged on the ground, the rotary disc and the rotary disc motor are both arranged on the machine frame, the rotary disc motor drives the rotary disc to rotate, a plurality of splicing plate frames are circumferentially arrayed on the rotary disc, each splicing plate frame is provided with a fixed cylinder and a finished product cylinder, the fixed pressing plate is fixedly arranged on a piston rod of the fixed pressing plate, the fixed pressing plate drives the fixed pressing plate to move back and forth on the jointed board frame for pressing and loosening the formed wood board, the finished product push pedal sets firmly on the piston rod of finished product cylinder, the drive of finished product cylinder the finished product push pedal makes a round trip to slide and is used for pushing out the plank the makeup frame, the direction of pushing out of finished product cylinder with the direction of pushing out of fixed cylinder is perpendicular.

Further, the finished product collecting mechanism comprises a mounting frame, a stand column, a finished product lifting plate, a finished product motor, a finished product screw rod and a finished product nut, wherein the mounting frame and the stand column are both mounted on the ground, the finished product lifting plate is in sliding connection with the stand column, the finished product motor is mounted on the mounting frame, the finished product screw rod is connected with the output end of the finished product motor, the finished product nut is in threaded connection with the finished product screw rod, and the finished product nut is fixedly connected with the finished product lifting plate.

The utility model discloses following beneficial effect has:

the automatic production line for splicing and gathering wood automatically counts, ensures that the operation can be carried out when a sufficient number of spliced plates are available, and avoids resource waste; secondly, the finished product is automatically collected, the material is not required to be manually taken, and the efficiency is improved.

Drawings

FIG. 1 is a schematic top view of an automatic production line for splicing and gathering wood materials according to the present invention;

fig. 2 is a front view of the first conveyor belt, the milling mechanism and the infrared detector of the present invention after being engaged;

FIG. 3 is a schematic side view of the material waiting box of the present invention;

fig. 4 is a schematic front view of the single feeding mechanism, the second conveying belt, the glue coating mechanism and the forming mechanism of the present invention;

FIG. 5 is a schematic side view of the material waiting box of the present invention;

FIG. 6 is a schematic side view of the glue application mechanism of the present invention;

FIG. 7 is a schematic side view of the panel sorter of the present invention in combination with a product collection mechanism;

FIG. 8 is a sectional view of the assembled plate rack, the fixed pressing plate, the fixed cylinder, the finished push plate and the finished cylinder;

fig. 9 is a schematic side view of the finished product collecting mechanism of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea claimed in the present invention.

As shown in fig. 1-9 the utility model relates to an automatic production line for timber makeup, including first conveyer belt 1, mill mechanism 2, count pushing equipment 3, single feed mechanism 4, second conveyer belt 5, rubber coating mechanism 6, forming mechanism 7, rotatory makeup machine 8 and finished product collection mechanism 9, mill mechanism 2 and install first conveyer belt 1's side, count pushing equipment 3 locates first conveyer belt 1's output, single feed mechanism 4 locates pushing equipment 3's output just single feed mechanism 4 locates second conveyer belt 5's input, count pushing equipment 3's pushing equipment direction is directional single feed mechanism 4, rubber coating mechanism 6 locates second conveyer belt 5's side, forming mechanism 7 locates the output of second conveyer belt 5, forming mechanism 7's pushing equipment direction is directional rotatory makeup machine 8 just forming mechanism 7 is located rotatory makeup machine 8 And the finished product collecting mechanism 9 is positioned on the other side of the rotary plate splicing machine 8 far away from the forming mechanism 7 on one side of the plate splicing machine 8.

It should be noted that the first conveyor belt 1 is used for orderly inputting wood sections, the milling mechanism 2 is used for milling and leveling two sides of the wood sections, the counting and pushing mechanism 3 is used for counting the wood sections and then pushing out the wood sections, the single feeding mechanism 4 is used for outputting the wood sections one by one, the second conveyor belt 5 is used for conveying the wood sections, the gluing mechanism 6 is used for gluing the gluing surfaces of the wood sections, the forming mechanism 7 is used for pressing and forming the wood sections and pushing out the formed glued wood sections at one time, the rotary board splicing machine 8 is used for placing the spliced boards until the gluing of the boards is completed and then pushing out the finished boards, and the finished product collecting mechanism 9 is used for collecting the finished boards.

As shown in fig. 1, the milling mechanism 2 is disposed on a side surface of the first conveying belt 1 in the conveying direction, the single feeding mechanism 4 is located on a right side of the pushing mechanism 3 in the conveying direction of the first conveying belt 1, the conveying directions of the first conveying belt 1 and the second conveying belt 5 are parallel, the conveying directions of the first conveying belt 1 and the second conveying belt 5 are both from the left side to the right side, the glue spreading mechanism 6 is mounted on the right side of the conveying direction of the second conveying belt 5, the board splicing machine 8 is located on a right side of the pushing mechanism 7 in the conveying direction of the second conveying belt 5, and the finished product collecting mechanism 9 is disposed on a right side of the rotating board splicing machine 8 in the conveying direction of the second conveying belt 5.

As shown in fig. 1, when the utility model is used, a worker puts a wood section into the first conveyor belt 1, the first conveyor belt 1 conveys the wood section to the counting pushing mechanism 3 from left to right, during the conveying process, the wood section passes through the milling mechanism 2, the milling mechanism 2 mills the side surface of the wood section, so as to flatten both sides of the wood section, then the first conveyor belt 1 sends the wood sections into the counting pushing mechanism 3 one by one, the counting pushing mechanism 3 counts the wood sections, assuming that X wood sections can be spliced into one plate, the counting pushing mechanism 3 pushes X wood sections into the single feeding mechanism 4 one by one (the push-out direction of the pushing mechanism 3 is perpendicular to the conveying direction of the first conveyor belt 1, specifically, the left side along the conveying direction of the first conveyor belt 1 points to the right side along the conveying direction of the first conveyor belt 1), after X wood sections enter the single feeding mechanism 4, the first conveying belt 1 stops working, the single feeding mechanism 4 starts to send the wood sections into the second conveying belt 5 one by one, the second conveying belt 5 sends the wood sections to the forming mechanism 7 from left to right, in the process, the wood sections pass through the gluing mechanism 6, the gluing mechanism 6 performs gluing treatment on one side (specifically, the right side along the conveying direction of the second conveying belt 5) of the wood sections (it needs to be noted that in the X wood sections, the first wood section does not need to be subjected to gluing treatment), the wood sections with single-side gluing are sent to the forming mechanism 7, and the forming mechanism 7 pushes the non-gluing surface (specifically, the surface of the wood section far away from the gluing surface) of the wood section so that the gluing surface of the wood section is tightly attached to the non-gluing surface of the other wood section to glue the two wood sections, repeating the above steps until the X wood sections are bonded together, then pushing the primarily-formed plates bonded by the forming mechanism 7 toward the rotary panel splicing machine 8 (the pushing direction of the forming mechanism 7 is perpendicular to the conveying direction of the second conveying belt 5, and specifically, the left side of the conveying direction of the second conveying belt 5 points to the right side of the conveying direction of the second conveying belt 5), after the pushing is completed, continuing to work by the first conveying belt 1, after a period of time, rotating the plates of the products by the rotary panel splicing machine 8 to the finished product collecting device 9, pushing the products by the rotary panel splicing machine 9 to the finished product collecting device 9 for collection, and repeating the above steps.

The utility model has the advantages that: 1. automatic counting is carried out, operation is guaranteed when a sufficient number of jointed boards exist, and resource waste is avoided; 2. finished products are automatically collected, manual material taking is not needed, and efficiency is improved.

Further, first conveyer belt 1 is including treating workbin 11 and centre gripping conveyor 12, treat that workbin 11 locates the top of centre gripping conveyor 12 input, treat that workbin 11 bottom is provided with the logical groove 13 that only holds single wood section and pass through.

It should be noted that the height of the through groove 13 is greater than or equal to the height of one wood profile, the height of the through groove 13 is less than the heights of two wood profiles, and the width of the through groove 13 is equal to the width of one wood profile, so that only one wood profile passing through the through groove 13 at a time is realized.

As shown in fig. 1, a worker puts wood sections into the material waiting box 11, when the wood sections are in the material waiting box 11, two milling surfaces of the wood sections are in a vertical state, and the clamping and conveying device 12 conveys the wood sections forward to enable the wood sections to leave the material waiting box 11 from the through groove 13 one by one, so that how to ensure that the positions of the wood sections are accurate simultaneously is ensured.

It should be noted that the clamping and conveying device 12 is a clamping and conveying belt with upper and lower ends provided with conveying belts, the upper conveying belt of the clamping and conveying device 12 is shorter than the lower conveying belt and the upper and lower conveying belts are parallel and level at the output end, and the material box 11 is arranged above the lower conveying belt at the input end of the clamping and conveying device 12.

Further, the milling mechanism 2 includes a first milling machine 21 and a second milling machine 22, the first milling machine 21 and the second milling machine 22 are respectively disposed on two sides of the first conveyor belt 1, and the first milling machine 21 and the second milling machine 22 are arranged in a staggered manner.

It should be noted that the first milling machine 21 and the second milling machine 22 which are arranged in a staggered manner can avoid that the first milling machine and the second milling machine are installed at the same position, and avoid that the structure of one position is too complex and is not beneficial to manual assembly.

It should be noted that each of the first milling machine 21 and the second milling machine 22 includes a milling cutter, a mounting cover, and a motor, the milling cutter is mounted in the mounting cover, and the motor drives the milling cutter to rotate, which is used for milling two sides of the wood profile to flatten the two sides of the wood profile.

As shown in fig. 1, it should be noted that the first conveyor belt 1 conveys the wood profile toward the counting and pushing mechanism 3, and in the process, the wood profile sequentially passes through the first milling machine 21 and the second milling machine 22, and then the first milling machine 21 and the second milling machine 22 respectively mill two side surfaces of the wood profile, so that the two side surfaces of the wood profile are flat, and the subsequent gluing and bonding actions are facilitated.

Further, the counting and pushing mechanism 3 includes an infrared detector 31, a receiving plate 32, a pushing cylinder 33 and a pushing plate 34, the infrared detector 31 is disposed at one side of the output end of the first conveying belt 1, the receiving plate 32 is fixedly disposed at the output end of the first conveying belt 1, the pushing cylinder 33 is mounted at one side of the receiving plate 32, the single feeding mechanism 4 is disposed at the other side of the receiving plate 32, the pushing plate 34 is fixedly disposed on a piston rod of the pushing cylinder 33, and the pushing direction of the pushing cylinder 33 points to the single feeding mechanism 4.

As shown in fig. 1, the infrared detector 31 is located on the left side of the conveying direction of the first conveying belt 1, the material pushing cylinder 33 is located on the left side of the material pushing plate 32 along the conveying direction of the first conveying belt 1, the single feeding mechanism 4 is located on the right side of the material pushing plate 32 along the conveying direction of the first conveying belt 1, and the pushing direction of the material pushing cylinder 33 points to the single feeding mechanism 4.

When the counting and pushing mechanism 3 is used, the infrared detector 31 detects the number of the wood sections passing through, so that counting is performed, the wood sections are conveyed to the position of the material receiving plate 32 after passing through the infrared detector 31, the piston rod of the pushing cylinder 33 extends out, so that the pushing plate 34 pushes the wood sections into the single feeding mechanism, the steps are repeated, until the X wood sections are pushed into the single feeding mechanism 4, the first conveying belt 1 stops conveying until the single feeding mechanism 4 outputs all the X wood sections.

Further, single feed mechanism 4 is including connecing workbin 41, first limiting plate 42, second limiting plate 43, first cylinder 44 and second cylinder 45, it keeps away from to connect workbin 41 one side of count pushing equipment 3 is provided with baffle 46, it only can pass through single timber section to connect workbin 41, the side from the top down of the bottom of connecing workbin 41 establishes first limiting plate 42 and second limiting plate 43 in proper order, first cylinder 44 drive first limiting plate 42 is in it is flexible in the workbin 41, the drive of second cylinder 45 second limiting plate 43 is in it is flexible in the workbin 41, it locates to connect workbin 41 the top of second conveyer belt 5 input.

As shown in fig. 1, the material receiving box 41 is located on the right side of the counting and pushing mechanism 3 along the conveying direction of the first conveying belt 1.

When single feed mechanism 4 was used, X wooden section bar fell into in proper order connect the workbin 41, because baffle 46 is spacing, wooden section bar can not follow connect the top surface roll-off of workbin 41, and one of them wooden section bar gets into between first limiting plate 42 and the second limiting plate 43, at this moment second limiting plate 43 is in the state of stretching out, avoids the wooden section bar blanking, then first limiting plate 42 stretches out and separates other wooden section bars, has and only has single wooden section bar to be located this moment between first limiting plate 42 and the second limiting plate 43, then several second cylinders 45 shrink make second limiting plate 43 shrink, then single wooden section bar falls into second conveyer belt 5 from connecing workbin 41, and is so repeated until X wooden section bar falls into second conveyer belt 5 in proper order.

It should be noted that the second conveying belt 5 is a clamping conveying belt, and when a single wood section falls into the second conveying belt 5 from the material receiving box 41, the second conveying belt 5 clamps and conveys the single wood section, so as to ensure that the conveying position of the wood section is accurate.

It should be noted that the upper end of the second conveyor belt 5 is referred to as the lower end conveyor belt, the two conveyor belts of the second conveyor belt 5 are flush at the output end, and the material receiving box 41 is installed above the lower conveyor belt at the input end of the second conveyor belt 5.

Further, the gluing mechanism 6 comprises a hot melt adhesive box 61, an adhesive box 62, a gluing roller 63, a gluing motor 64, a sliding frame 65 and a sliding cylinder 66, the hot melt adhesive box 61, the adhesive box 62 and the gluing motor 64 are all installed on the side surface of the second conveying belt 5, the output end of the hot melt adhesive box 61 is connected with the adhesive box 62, the output end of the gluing motor 64 penetrates through the adhesive box 62 and the gluing roller 63, the gluing motor 64 is installed on the sliding frame 65, and the sliding cylinder 66 drives the sliding frame 65 to be close to and far away from the second conveying belt 5.

When the gluing mechanism 6 works, for X wood sections, a first wood section does not need to be glued, so that when the first wood section passes through the gluing mechanism 6, the sliding cylinder 66 drives the sliding frame 65 to be far away from the second conveying belt 5, the glue spreader 63 is far away from the second conveying belt 5, and when the first wood section passes through the gluing mechanism 6, the sliding cylinder 66 drives the sliding frame 65 to be close to the second conveying belt 5, so that the glue spreader 63 is close to the second conveying belt 5, and the glue spreader 63 can be in contact with the side face of the wood section, so that the side face of the wood section is glued.

Further, forming mechanism 7 includes profiled sheeting 71, shaping clamp plate 72, shaping air cylinder 73, shaping limiting plate 74 and shaping lift cylinder 75, profiled sheeting 71 locates the output of second conveyer belt 5, shaping air cylinder 73 installs one side of profiled sheeting 71, rotatory makeup machine 8 sets up the opposite side of profiled sheeting 71, shaping clamp plate 72 sets firmly on the piston rod of shaping air cylinder 73, shaping limiting plate 74 is located between profiled sheeting 71 and the rotatory makeup machine 8, the drive of shaping lift cylinder 75 shaping limiting plate 74 is in flexible on the profiled sheeting 71.

As shown in fig. 1, the glue spreader 63 is installed on the right side of the conveying direction of the second conveyor belt 5, and the molding air cylinder 73 of the molding mechanism 7 is located on the left side of the conveying direction of the plurality of second conveyor belts 5, so that after the glue spreader 63 coats the wood sections, the molding air cylinder 73 of the molding mechanism 7 drives the molding press plate 72 to push the wood sections, and the contact surface of the molding press plate 72 with the fish-wood sections is the surface of the wood sections away from the glue coating surface.

When the forming mechanism 7 works, the second conveyor belt 5 conveys the wood profiles to the forming plate 71, all subsequent wood profiles are conveyed to the same position, then the piston rod of the forming air cylinder 73 extends out to enable the forming press plate 72 to press the wood profiles against the forming limiting plate 74, the process is repeated, X wood profiles are tightly bonded together, then the lifting air cylinder 75 drives the forming limiting plate 74 to shrink, then the forming air cylinder 73 continues to push, and the formed wood profiles are pushed into the rotary veneer gluing machine 8.

Further, the rotary board splicing machine 8 comprises a rack 81, a rotary table 82, a board splicing frame 83, a fixed pressing plate 84, a fixed cylinder 85, a finished product pushing plate 86, a finished product cylinder 87 and a rotary table motor 88, wherein the rack 81 is fixedly arranged on the ground, the rotary table 82 and the rotary table motor 88 are both arranged on the rack 81, the rotary table motor 88 drives the rotary table 82 to rotate, the plurality of board splicing frames 83 are circumferentially arrayed on the rotary table 82, each board splicing frame 83 is provided with the fixed cylinder 85 and the finished product cylinder 87, the fixed pressing plate 84 is fixedly arranged on a piston rod of the fixed cylinder 85, the fixed cylinder 85 drives the fixed pressing plate 84 to move back and forth on the board splicing frames 83 so as to compress and loosen the formed boards, the finished product pushing plate 86 is fixedly arranged on a piston rod of the finished product cylinder 87, the finished product cylinder 87 drives the finished product pushing plate 86 to slide back and forth so as to push out the boards, the pushing-out direction of the finished product cylinder 87 is perpendicular to the pushing-out direction of the fixed cylinder 85.

As shown in fig. 7, when the rotary board splicing machine 8 is in use, the forming mechanism 7 pushes the glued and formed wood boards into the board splicing frame 83 on the left side of the rack 81, the stationary air cylinder 85 then drives the stationary platen 84 down so that the plank is pressed against the pallet 83, the turntable motor 88 rotates so that the puzzle frame 83 rotates with the rotation of the turntable 82, when the bonding time reaches the set time, the turntable motor 88 drives the turntable 82 to rotate, so that the splice rack 83 is positioned right opposite to the finished product collecting mechanism 9 (the splice rack 83 is positioned at the right side of the rack 81), then, the piston rod of the fixed cylinder 82 is contracted to lower the fixed pressing plate 84, at which time the finished wood is placed on the fixed pressing plate 84, the finished product cylinder 87 drives the finished product push plate 86 to move from left to right to push the wood board into the finished product collection mechanism 9 from the fixed press plate 84.

Further, finished product collection mechanism 9 includes mounting bracket 91, stand 92, finished product lifter plate 93, finished product motor 94, finished product screw rod 95 and finished product nut 96, mounting bracket 91 and stand 92 are all installed subaerial, finished product lifter plate 93 with stand 92 sliding connection, finished product motor 94 installs on mounting bracket 91, finished product screw rod 95 with finished product motor 94's output is connected, finished product nut 96 with finished product screw rod 95 threaded connection, finished product nut 96 with finished product lifter plate 93 fixed connection.

As shown in fig. 7, when the finished product collecting mechanism 9 is in use, the rotary board splicing machine 8 pushes a finished product plank from left to right onto the finished product lifting plate 93, and then the finished product motor 94 drives the finished product screw 95 to rotate (it should be noted that, since the finished product lifting plate 93 is slidably connected to the ground through a column, the finished product nut 96 is fixedly connected to the finished product lifting plate 93, the finished product screw 95 rotates to drive the finished product nut 96 to lift, and then the finished product lifting plate 93 to lift), so as to drive the finished product lifting plate 93 to descend by a height of one plank thickness, and this is repeated, so that a plurality of planks can be stacked on the finished product lifting plate 93, which is beneficial to collecting the finished product planks.

Various other changes and modifications may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such changes and modifications should fall within the scope of the present invention.

Claims (9)

1. The utility model provides a timber pieces together automatic production line which characterized in that: comprises a first conveying belt (1), a milling mechanism (2), a counting pushing mechanism (3), a single feeding mechanism (4), a second conveying belt (5), a gluing mechanism (6), a forming mechanism (7), a rotary plate splicing machine (8) and a finished product collecting mechanism (9), wherein the milling mechanism (2) is arranged at the side surface of the first conveying belt (1), the counting pushing mechanism (3) is arranged at the output end of the first conveying belt (1), the single feeding mechanism (4) is arranged at the output end of the pushing mechanism (3), the single feeding mechanism (4) is arranged at the input end of the second conveying belt (5), the pushing direction of the counting pushing mechanism (3) is directed to the single feeding mechanism (4), the gluing mechanism (6) is arranged at the side surface of the second conveying belt (5), the forming mechanism (7) is arranged at the output end of the second conveying belt (5), the material pushing direction of the forming mechanism (7) points to the rotary plate splicing machine (8), the forming mechanism (7) is located on one side of the rotary plate splicing machine (8), and the finished product collecting mechanism (9) is located on the other side, far away from the forming mechanism (7), of the rotary plate splicing machine (8).

2. An automatic production line for piecing together wood according to claim 1, characterized in that: first conveyer belt (1) is including treating workbin (11) and centre gripping conveyor (12), treat that workbin (11) are located the top of centre gripping conveyor (12) input, it is provided with logical groove (13) that only holds single wood section bar and pass through to treat workbin (11) bottom.

3. An automatic production line for piecing together wood according to claim 1, characterized in that: the milling mechanism (2) comprises a first milling machine (21) and a second milling machine (22), the first milling machine (21) and the second milling machine (22) are respectively arranged on two sides of the first conveying belt (1), and the first milling machine (21) and the second milling machine (22) are arranged in a staggered mode.

4. An automatic production line for piecing together wood according to claim 1, characterized in that: count pushing equipment (3) include infrared detector (31), connect flitch (32), push away material cylinder (33) and scraping wings (34), infrared detector (31) are located one side of first conveyer belt (1) output, connect flitch (32) to set firmly the output of first conveyer belt (1), push away material cylinder (33) and install connect one side of flitch (32), single feed mechanism (4) are located connect the opposite side of flitch (32), scraping wings (34) set firmly on the piston rod of pushing away material cylinder (33), it is directional to push away the direction of release of material cylinder (33) single feed mechanism (4).

5. An automatic production line for piecing together wood according to claim 1, characterized in that: single feed mechanism (4) are including connecing workbin (41), first limiting plate (42), second limiting plate (43), first cylinder (44) and second cylinder (45), connect workbin (41) to keep away from one side of count pushing equipment (3) is provided with baffle (46), connect workbin (41) only can be through single wooden section bar, connect the side from the top down of the bottom of workbin (41) to establish first limiting plate (42) and second limiting plate (43) in proper order, first cylinder (44) drive first limiting plate (42) are in connect workbin (41) internal flexible, second cylinder (45) drive second limiting plate (43) are in connect workbin (41) internal flexible, it locates to connect workbin (41) the top of second conveyer belt (5) input.

6. An automatic production line for piecing together wood according to claim 1, characterized in that: gluing mechanism (6) include hot melt adhesive case (61), glue box (62), glue spreader (63), rubber coating motor (64), carriage (65) and sliding cylinder (66), hot melt adhesive case (61), glue box (62) and rubber coating motor (64) are all installed the side of second conveyer belt (5), the output of hot melt adhesive case (61) with glue box (62) and connect, the output of rubber coating motor (64) passes glue box (62) with glue spreader (63) is connected, rubber coating motor (64) are installed on carriage (65), sliding cylinder (66) drive carriage (65) are close to and keep away from second conveyer belt (5).

7. An automatic production line for piecing together wood according to claim 1, characterized in that: forming mechanism (7) are including profiled sheeting (71), shaping clamp plate (72), shaping air cylinder (73), shaping limiting plate (74) and shaping lift cylinder (75), profiled sheeting (71) are located the output of second conveyer belt (5), shaping air cylinder (73) are installed one side of profiled sheeting (71), rotatory makeup machine (8) sets up the opposite side of profiled sheeting (71), shaping clamp plate (72) set firmly on the piston rod of shaping air cylinder (73), shaping limiting plate (74) are located between profiled sheeting (71) and rotatory makeup machine (8), shaping lift cylinder (75) drive shaping limiting plate (74) are in flexible on profiled sheeting (71).

8. An automatic production line for piecing together wood according to claim 1, characterized in that: the rotary board splicing machine (8) comprises a rack (81), a rotary table (82), board splicing frames (83), a fixed pressing plate (84), a fixed air cylinder (85), a finished product pushing plate (86), a finished product air cylinder (87) and a rotary table motor (88), wherein the rack (81) is fixedly arranged on the ground, the rotary table (82) and the rotary table motor (88) are both arranged on the rack (81), the rotary table motor (88) drives the rotary table (82) to rotate, a plurality of board splicing frames (83) are circumferentially arrayed on the rotary table (82), each board splicing frame (83) is provided with the fixed air cylinder (85) and the finished product air cylinder (87), the fixed pressing plate (84) is fixedly arranged on a piston rod of the fixed air cylinder (85), the fixed air cylinder (85) drives the fixed pressing plate (84) to move back and forth to press the formed boards and loosen the formed boards, finished product push pedal (86) set firmly on the piston rod of finished product cylinder (87), finished product cylinder (87) drive finished product push pedal (86) make a round trip to slide and are used for pushing out the plank makeup frame (83), the direction of pushing out of finished product cylinder (87) with the direction of pushing out of fixed cylinder (85) is perpendicular.

9. An automatic production line for piecing together wood according to claim 1, characterized in that: finished product collection mechanism (9) are including mounting bracket (91), stand (92), finished product lifter plate (93), finished product motor (94), finished product screw rod (95) and finished product nut (96), mounting bracket (91) and stand (92) are all installed subaerial, finished product lifter plate (93) with stand (92) sliding connection, finished product motor (94) are installed on mounting bracket (91), finished product screw rod (95) with the output of finished product motor (94) is connected, finished product nut (96) with finished product screw rod (95) threaded connection, finished product nut (96) with finished product lifter plate (93) fixed connection.

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