CN111805644A - Pressing device for multi-size automatic distance-setting formed wood finger-joint machine - Google Patents

Abstract

The invention discloses a pressing device for a multi-size automatic distance-setting formed wood finger-joint machine. The conveying belt comprises a conveying belt II (21), a material blocking mechanism (22) is arranged at the tail end of the conveying belt II (21), a pair of positioning clamping side plates II (23) capable of moving in opposite directions are arranged on two sides of the conveying belt II (21), and a pressing mechanism (24) capable of moving vertically is arranged above the conveying belt II (21); the bottom of the pressing mechanism (24) is provided with a knurling wheel (25) capable of rotating. The invention has the characteristics of good splicing quality and flexible use.

Description

Pressing device for multi-size automatic distance-setting formed wood finger-joint machine

Technical Field

The invention relates to the field of wood processing, in particular to a pressing device for a multi-size automatic distance-fixed forming wood finger-joint machine.

Background

Wood is a very widely used material in daily life, but nowadays, the storage capacity of wood is seriously insufficient, so that it is necessary to achieve the maximum utilization of wood. The wood finger joint machine is equipment for splicing a plurality of small pieces of wood into larger wood, and small pieces of wood are spliced into usable finished wood by performing processes such as tenoning, gluing and pressing on the wood. At present, although the finger joint machine is widely used and is better in the aspect of wood board finger joint quality, the existing finger joint machine still has some defects. For example, the finger joint machine has large volume and large occupied space; many finger joint gluing methods adopt a glue spraying mode, which can cause adhesive to accumulate and not be uniformly distributed at joints, thereby affecting the finger joint quality; the finger jointed wood requires sanding, cutting, etc. with other equipment, thereby increasing the processing cost. In order to solve the technical problems, the applicant designs a multi-size automatic distance forming wood finger-joint machine; however, in order to improve the bonding quality when the finger joint machine is used, a pressing device is needed to be designed, and the bonding performance between tenons of the wood is improved while the pressure of the spliced wood is maintained.

Disclosure of Invention

The invention aims to provide a pressing device for a multi-size automatic distance-fixed formed wood finger-joint machine. The invention has the characteristics of good splicing quality and flexible use.

The technical scheme of the invention is as follows: a pressing device for a multi-size automatic distance-setting formed wood finger-joint machine comprises a conveyor belt II, wherein a material blocking mechanism is arranged at the tail end of the conveyor belt II, a pair of positioning clamping side plates II capable of moving in opposite directions are arranged on two sides of the conveyor belt II, and a pressing mechanism capable of moving vertically is arranged above the conveyor belt II; the bottom of the pressing mechanism is provided with a knurling wheel which can rotate.

In the pressing device for the multi-size automatic distance-fixing forming wood finger joint machine, the stop mechanism is a baffle which is arranged above the tail end of the conveying belt II and can vertically move.

In the pressing device for the multi-size automatic distance-fixing formed wood finger-joint machine, the pressing mechanism comprises an elastic transition pressing plate which is arranged above the conveying belt II and can vertically move; the knurling wheel is arranged at the bottom of the elastic transition pressing plate.

In the pressing device for the multi-size automatic distance-fixing formed wood finger-joint machine, the elastic transition pressing plate consists of two opposite channel steel, and a spring I is arranged between the two channel steel.

Among the aforementioned automatic distance shaping timber of many sizes indicates closing device for splicer, II head ends of conveyer belt still be equipped with the concatenation length measuring transducer I that is used for measuring timber.

In the pressing device for the multi-size automatic distance forming wood finger joint machine, the knurling wheels are fixed on the bottom surface of the pressing mechanism through the bearing seats, one ends of the knurling wheels are connected with the motor I through the speed reducer, and the motor I drives the knurling wheels to rotate.

Advantageous effects

Compared with the prior art, the tenon gluing device has the advantages that the tenon of the wood is glued and then directly sent into the pressing device for pressure maintaining, and meanwhile, the knurling wheels continuously push the spliced wood in the conveying direction in the pressure maintaining process, so that the tenon gluing device is more tightly bonded after finger joint, and the quality of the spliced part of the wood is effectively improved; and the splicing quality is improved.

The pressing device can splice spliced wood with various lengths and specifications according to requirements, and is more flexible to use and stronger in applicability.

When the wood is spliced, the splicing channel formed by the clamping side plates II is positioned, so that the accuracy and stability of tenon splicing can be effectively ensured, and the stability of the finger joint machine during production and operation is further improved; in addition, the positioning clamping side plate II can also compress the side wall of the spliced wood to realize the pressure maintaining effect during pressure maintaining; the arrangement structure of the positioning clamping side plate II realizes the diversity of the purposes; the structure makes the equipment structure more compact, and is beneficial to reducing the occupied area of the equipment.

In conclusion, the invention has the characteristics of good splicing quality and flexible use.

Drawings

FIG. 1 is a schematic structural view of the present invention after being installed in a direct-connection machine;

FIG. 2 is a schematic structural view of the present invention at another viewing angle after being installed in a direct-connection machine;

FIG. 3 is a schematic view of the glue application mechanism;

FIG. 4 is a schematic diagram of the construction of the resilient transition pressure plate;

fig. 5 is a schematic structural view of the stock stop;

FIG. 6 is a schematic structural view of the knurling wheel;

FIG. 7 is a schematic view of a sanding apparatus;

FIG. 8 is a schematic view of the structure of the cutting device;

fig. 9 is a schematic top view of another drive configuration for a sanding device.

The labels in the figures are: 1-feeding gluing device, 11-conveyor belts I and 12-gluing mechanism, 121-position sensor, 122-glue brush, 1221-motor II, 1222-slide block, 1223-guide rail, 1224-fixing frame, 1225-glue spraying hole, 13-positioning clamping side plate I, 14-hydraulic cylinder I;

2-a pressing device, 21-conveyor belts II, 22-a stop mechanism, 221-a baffle, 222-a baffle sliding rail, 223-a hydraulic cylinder III, 23-a positioning clamping side plate II, 24-a pressing mechanism, 241-an elastic transition pressing plate, 2411-channel steel, 2412-a spring I, 242-a hydraulic cylinder II, 25-a knurling wheel, 251-a bearing seat, 252-a speed reducer, 253-a motor I and 26-a length measuring sensor I;

3-cutting device, 31-cutting workbench, 32-lifting platform, 33-circular saw, 34-cutting groove, 35-length measuring sensor II, 36-cutting fixing mechanism, 361-pressing block, 362-vertical moving guide rod, 363-lever, 364-driving rod, 365-bracket and 366-spring II;

4-sanding device, 41-grinding carriage, 42-grinding wheel, 43-motor III, 44-synchronous belt mechanism and 45-tension wheel;

5-negative pressure dust collector.

Detailed Description

The invention is further illustrated by the following figures and examples, which are not to be construed as limiting the invention.

Examples are given. After the pressing device is arranged on a finger joint machine, the structure of the multi-size automatic distance forming wood finger joint machine is shown in figures 1-9, and comprises a feeding gluing device 1, wherein the tail end of the feeding gluing device 1 is connected with a pressing device 2; the feeding and gluing device 1 comprises a conveyor belt I11, a gluing mechanism 12 is arranged at the tail end of the conveyor belt I11, and a pair of positioning and clamping side plates I13 capable of moving in opposite directions are further arranged on two sides of the conveyor belt I11; the pressing device 2 comprises a conveyor belt II 21, the head end of the conveyor belt II 21 is connected with the gluing mechanism 12, the tail end of the conveyor belt II 21 is provided with a material blocking mechanism 22, two sides of the conveyor belt II are provided with a pair of positioning clamping side plates II 23 capable of moving in opposite directions, and a pressing mechanism 24 capable of moving vertically is arranged above the conveyor belt II; the bottom of the pressing mechanism 24 is provided with a knurling wheel 25 capable of rotating.

During splicing, wood with tenons processed at two ends is placed on the conveyor belt I11, and the positioning clamping side plates I13 are moved inwards to enable the wood to be centered; then, gluing the wood tenon by the gluing mechanism 12 conveyed to the tail end, conveying the glued wood into the conveying belt II 21, stopping the wood on the conveying belt II 21 by the stop mechanism 22 when the wood is conveyed to the tail end of the conveying belt II 21, and enabling the positioning clamping side plates II 23 to be drawn inwards to center the wood on the conveying belt II 21 to form a splicing channel; the subsequent wood tenons are sequentially glued and then sequentially sent into the splicing channel, and are sequentially bonded back and forth under the conveying of the conveying belt II 21 to realize the splicing of the wood; when the splicing length of the wood reaches the preset splicing length (the preset splicing lengths with different specifications can be set according to requirements), the conveyor belts I and II stop running, the pressing mechanism 24 above the conveyor belt II 21 descends to enable the knurling wheels 25 to press the top surface of the clamped and spliced wood, and the positioning clamping side plates II 23 tighten the side surfaces of the clamped and spliced wood towards the middle (the central axis of the conveyor belt), so that the pressure maintaining after the spliced wood is bonded is realized; meanwhile, the knurling wheels 25 rotate to apply pushing force in the conveying direction to the spliced wood, so that the tenon after finger joint is bonded more tightly.

In this embodiment, ligneous concatenation length is measured through setting up in I26 of the length measurement sensor of II 21 head ends of conveyer belt, and I26 of length measurement sensor adopts laser range sensor.

In the embodiment, the positioning clamping side plate I13 can be driven by a hydraulic cylinder I14, which is shown in figure 1; the vertical movement of the pressing mechanism 24 can be driven by an air cylinder or a hydraulic cylinder II 242, see figure 1; the knurling wheel 25 can be fixed on the bottom surface of the pressing mechanism 24 by a bearing seat 251, then one end of the knurling wheel 25 is connected with a motor I253 through a speed reducer 252, and the motor I253 drives the knurling wheel 25 to rotate, and the specific structure is shown in FIG. 6.

The gluing mechanism 12 comprises a position sensor 121 arranged on the side edge of the tail end of the conveyor belt I11 and a glue brush 122 which is arranged above the tail end of the conveyor belt I11 and can vertically move.

The gluing process of the gluing mechanism 12 is as follows: after the position sensor 121 detects that the tenon is located at the tail end of the conveyor belt I11, the conveyor belt I11 stops running, and the positioning clamping side plate I13 clamps the wood on the conveyor belt I11 to avoid shaking; at the moment, the tenon is just below the glue brush 122, the glue brush 122 moves downwards to coat the glue on the tenon, and then the glue is repeatedly moved up and down to be uniformly coated on the tenon; and then the positioning clamping side plate I13 releases the wood, the glue brush 122 moves upwards to reset, and the conveyor belt I11 starts to convey the glued wood to the conveyor belt II 21.

In this embodiment, the position sensor 121 is an infrared sensor.

In this embodiment, referring to fig. 3, the driving structure for the vertical movement of the glue brush 122 is composed of a motor ii 1221, a slider 1222, a screw rod pair (not shown in the figure), a guide rail 1223, and a fixing frame 1224, the glue brush 122 is connected with the bottom end of the fixing frame 1224, the top end of the fixing frame 1224 is connected with the slider 1222, the slider 1222 is connected with the vertically arranged screw rod pair, the screw rod pair is connected with the motor ii 1221, and the slider 1222 is further connected with the guide rail 1223 for vertical guiding; through slider 1222 and lead screw cooperation, drive the lead screw by motor II 1221 and rotate, slider 1222 slides from top to bottom in guide rail 1223 to make the brush 122 reciprocate.

In this embodiment, glue brush 122 is internally provided with glue spraying hole 1225, glue spraying hole 1225 connects with glue storage barrel through the pipeline (not shown in the figure), when gluing, firstly glue is sprayed out from glue spraying hole 1225 and attached to the tenon, then glue brush 122 reciprocates repeatedly to make the adhesive distribute evenly on the tenon, so as to enhance the bonding quality.

The material blocking mechanism 22 is a baffle 221 which is arranged above the tail end of the conveyor belt II 21 and can move vertically.

The baffle 221 of the stock stop 22 is vertically guided by a baffle slide rail 222 which is connected with the two sides of the stock stop in a sliding way, and is driven to vertically move by a hydraulic cylinder III 223.

The material blocking process is as follows: the time of the wood reaching the tail end of the conveyor belt II 21 can be calculated according to the conveying speed of the conveyor belt II 21, and after the wood reaches the tail end, the hydraulic cylinder III 223 drives the baffle 221 to move downwards along the baffle slide rail 222 to stop the wood, so that the wood is stopped on the conveyor belt II 21.

The pressing mechanism 24 comprises an elastic transition pressing plate 241 which is arranged above the conveyor belt II 21 and can move vertically; the knurling wheel 25 is arranged at the bottom of the elastic transition pressing plate 241.

The elastic transition pressing plate 241 is composed of two opposite channel steel 2411, and a spring I2412 is arranged between the two channel steel 2411. Through setting up excessive clamp plate 241 of elasticity can realize the pretension, can let pressure distribution more even.

The tail end of the conveyor belt II 21 is also connected with the cutting device 3; the structure of the cutting device 3 is shown in fig. 8, and the cutting device comprises a cutting workbench 31 connected with the tail end of the conveyor belt II 21, a lifting table 32 is arranged below the cutting workbench 31, a circular saw 33 is arranged on the lifting table 32, the circular saw 33 can penetrate through a cutting groove 34 formed in the cutting workbench 31 through the lifting of the lifting table 32, and a length measuring sensor II 35 used for measuring the passing length of wood is further arranged beside the cutting groove 34. Through this structure, can cut the concatenation timber according to the demand, integrate concatenation, cutting apparatus, finally make equipment compacter, also reduced the cost of equipment.

When the length sensor II 35 measures that the length of the passing cutting groove 34 reaches a preset cutting length, the lifting table 32 lifts the circular saw 33 and cuts through the cutting groove 34.

A cutting fixing mechanism 36 is arranged in front of the cutting groove 34; the cutting fixing mechanism 36 includes a pressing block 361 disposed in front of the cutting groove 34, two ends of the pressing block 361 are respectively connected with a vertical moving guide 362, the vertical moving guide 362 vertically passes through the cutting table 31 and is movably connected with one end of a lever 363, the other end of the lever 363 is movably connected with a driving rod 364, the driving rod 364 is connected with the lifting table 32, and a fulcrum point on the lever 363 is hinged with a bracket 365 fixedly disposed on the cutting table 31. Structure of the driving rod 364 connected to the elevating platform 32 is shown in fig. 8 to 9: the driving rod 364 is inserted into the lifting platform 32 and can vertically slide relative to the lifting platform 32, and a spring II is arranged between the driving rod 364 and the lifting platform 32; when the lifting platform 32 ascends, the driving rod 364 is jacked up through the spring II, and at the moment, the pressing block 361 is moved downwards to press wood through the linkage effect of the driving rod 364, the lever 363 and the vertical movement guide rod 362 to prevent the wood from shaking during cutting.

A grinding device 4 is further arranged on the cutting workbench 31 between the circular saw 33 and the tail end of the conveyor belt II 21; the grinding device 4 includes a grinding carriage 41, two pairs of grinding wheels 42 capable of rotating are provided in the grinding carriage 41, and the two pairs of grinding wheels 42 are arranged in the front-back direction in the feeding direction, one pair of the grinding wheels is vertically mounted, and the other pair of the grinding wheels is horizontally mounted (see fig. 7). The driving structure of each group of grinding wheels 42 consists of a motor III 43, a synchronous belt mechanism 44 and a tension wheel 45, and the specific structure is shown in FIG. 7; besides, the timing belt mechanism 44 and the tension pulley 45 may employ the arrangement in fig. 9; the structure can realize the roll-to-roll of the grinding wheel 42, and the grinding effect is better.

The sanding device is provided with a pipeline connected with a negative pressure dust collector 5 below to absorb wood chips generated in the sanding process.

Claims (6)

1. The utility model provides an automatic distance shaping timber of many sizes indicates closing device for splicer which characterized in that: the conveying belt comprises a conveying belt II (21), a material blocking mechanism (22) is arranged at the tail end of the conveying belt II (21), a pair of positioning clamping side plates II (23) capable of moving in opposite directions are arranged on two sides of the conveying belt II (21), and a pressing mechanism (24) capable of moving vertically is arranged above the conveying belt II (21); the bottom of the pressing mechanism (24) is provided with a knurling wheel (25) capable of rotating.

2. The hold-down device for a multi-dimensional automatic distance-setting wood finger-joint machine according to claim 1, characterized in that: the material blocking mechanism (22) is a baffle (221) which is arranged above the tail end of the conveyor belt II (21) and can vertically move.

3. The hold-down device for a multi-dimensional automatic distance-setting wood finger-joint machine according to claim 1, characterized in that: the pressing mechanism (24) comprises an elastic transition pressing plate (241) which is arranged above the conveyor belt II (21) and can vertically move; the knurling wheel (25) is arranged at the bottom of the elastic transition pressing plate (241).

4. The hold-down device for a multi-dimensional automatic distance-setting wood finger-joint machine according to claim 3, wherein: the elastic transition pressing plate (241) is composed of two opposite channel steel (2411), and a spring I (2412) is arranged between the two channel steel (2411).

5. The hold-down device for a multi-dimensional automatic distance-setting wood finger-joint machine according to claim 1, characterized in that: the head end of the conveyor belt II (21) is also provided with a splicing length measuring sensor I (26) for measuring wood.

6. The hold-down device for a multi-dimensional automatic distance-setting wood finger-joint machine according to claim 1, characterized in that: the knurling wheel (25) is fixed on the bottom surface of the pressing mechanism (24) through a bearing seat (251), then one end of the knurling wheel (25) is connected with a motor I (253) through a speed reducer (252), and the motor I (253) drives the knurling wheel (25) to rotate.

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