CN210939728U - Continuous pressing equipment for finger joint plates - Google Patents

Abstract

The utility model discloses a indicate fishplate bar to compress tightly equipment in succession, including setting up a table, the one end of setting up a table is equipped with longitudinal movement device, be equipped with lateral shifting device on the longitudinal movement device, the last ejector pin that is equipped with of lateral shifting device, the preceding top of ejector pin is equipped with first induction system, the side of ejector pin is equipped with second induction system, still be equipped with third induction system between ejector pin and the first induction system, third induction system is located first induction system's rear, longitudinal movement device, lateral shifting device, first induction system, second induction system, third induction system link to each other with the control system electrical property respectively. Theoretically, the finger joint plate with infinite length can be produced, the operation is simple, and the method is suitable for mass production of the finger joint plate. The utility model discloses be applied to and indicate fishplate bar production technical field.

Description

Continuous pressing equipment for finger joint plates

Technical Field

The utility model relates to a indicate fishplate bar production technical field, concretely relates to indicate fishplate bar to compress tightly equipment in succession.

Background

The finger joint board is formed by processing solid wood into small wood strips with certain width and thickness, then combing the small wood strips for tenoning, and gluing and splicing into plate wood. The wood blocks are spliced into wood blocks and then cut into wood with different specifications. The finger joint board among the prior art generates equipment can only produce about 6 meters long finger joint board at most, can't produce longer finger joint board, can't produce infinitely long finger joint board more, can not satisfy present wood processing's needs.

Patent document with application number CN201820182515.1 discloses a high-efficient finger joint board tenon device, including feed arrangement, splicing apparatus and PLC controller, the PLC controller is right feed arrangement reaches splicing apparatus controls, feed arrangement is including cutting a supporting bench and a fixed plate, it goes up and down through electric support rod to cut a supporting bench, the fixed plate is located cut one side of supporting bench, the fixed plate is equipped with pay-off gyro wheel and limit flitch, splicing apparatus includes concatenation limiting plate, striker rod, concatenation transportation area, push-on device and infrared counter, two distance between the concatenation limiting plate can be adjusted, and push-on device is used for promoting the tenon with finger joint board, striker device can cooperate push-on device to finger joint board tenon, infrared counter is used for controlling the length of finger joint board tenon. The utility model discloses a high-efficient finger joint board tenon device is applicable to the different finger joint boards of specification and carries out the tenon, is convenient for collect the finger joint board moreover.

The technical solution disclosed in the above patent still has the above drawbacks, and is complicated to operate and cannot be mass-produced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a indicate the fishplate bar to compress tightly equipment in succession can produce the long finger fishplate bar of infinity in theory, and easy operation is applicable to the mass production who indicates the fishplate bar.

In order to realize the above-mentioned purpose, the utility model provides a indicate fishplate bar to compress tightly equipment in succession, including setting up a table, the one end of setting up a table is equipped with longitudinal movement device, be equipped with lateral shifting device on the longitudinal movement device, the last ejector pin that is equipped with of lateral shifting device, the preceding top of ejector pin is equipped with first induction system, the side of ejector pin is equipped with second induction system, still be equipped with third induction system between ejector pin and the first induction system, third induction system is located first induction system's rear, longitudinal movement device, lateral shifting device, first induction system, second induction system, third induction system link to each other with the control system electrical property respectively.

In a further improvement, side pressing plates are respectively arranged on two sides of the placing table, at least one side pressing plate is connected with a telescopic driving piece in a transmission mode, and the pressing plates on the two sides are close to each other under the action of the telescopic driving piece.

In a further improvement, the other end of the placing table is in butt joint with a high-frequency press, the high-frequency press and the longitudinal moving device are respectively arranged at two opposite ends of the placing table, the ejector rod is positioned at one end of the transverse moving device close to the high-frequency press, and the high-frequency press is electrically connected with the control system.

In a further improvement, the longitudinal moving device comprises a moving seat arranged on the swing platform in a sliding manner, the moving seat is connected with a driving mechanism in a transmission manner, the transverse moving device is arranged on the moving seat, and the driving mechanism is electrically connected with the control system.

Further improved, the two sides of the swing table are respectively provided with a fixed seat, the fixed seats are provided with first slide rails, the first slide rails are provided with first slide blocks, and the movable seat is hung on the two first slide blocks.

In a further improvement, the driving mechanism comprises a first driving part and a rack arranged on the fixed seat, and the length direction of the rack is consistent with that of the first sliding rail; the movable seat is characterized in that transmission shafts are respectively arranged on two sides of the movable seat in a rotating mode, gears are respectively arranged at two ends of each transmission shaft, the gears at one ends of the two transmission shafts are respectively meshed with corresponding racks, the gears at the other ends of the two transmission shafts are respectively connected with a first driving piece in a transmission mode, and the first driving pieces are electrically connected with a control system.

Further improved, lateral shifting device includes two second slide rails that set up on removing the seat, and two second slide rails are parallel to each other, and the length direction of two second slide rails is perpendicular with the length direction of first slide rail, and the carriage is equipped with the second slider on two second slide rails, the ejector pin is established on the second slider, wear to be equipped with the transmission lead screw on the second slider, the transmission lead screw is not perpendicular with the second slide rail, the transmission lead screw transmission even has the second driving piece, the second driving piece links to each other with the control system electrical property.

In a further improvement, the fixed seat is provided with a sliding contact line, and the transverse moving device, the driving mechanism and the control system are electrically connected with the power supply equipment through the sliding contact line respectively.

The improved structure is characterized in that at least two supporting seats are respectively arranged on two sides of the moving seat, two transmission shafts are respectively rotatably erected on the supporting seats on the same side of the moving seat, and the length direction of the transmission shafts is perpendicular to that of the rack.

In a further improvement, the control system is a PLC controller.

Compared with the prior art, the utility model discloses technical scheme's beneficial effect:

tenons of small battens with certain length and thickness are placed on a placing table after comb teeth are opened, the small battens are spliced into a plurality of rows and a plurality of columns on the placing table, every two adjacent battens with opposite side edges are sequentially contacted and connected, every two adjacent battens with opposite comb teeth are sequentially connected through the comb teeth, glue is then applied to two sides of each batten, and a row of battens close to a high-frequency press is fixed; after the first sensing device senses battens close to one side end of the swing table, a mandril on the compressing equipment compresses the battens in the row of the battens through the comb teeth, the mandril moves to the next row of battens after the row of the battens are compressed, if the length of the next row of the battens is shorter than that of the compressed current row of the battens, the second sensing device cannot sense the battens after the mandril presses the current row of the battens, and the mandril moves to the next row of the battens and compresses the battens; if the length of the next row of battens is longer than that of the compressed current row of battens, after the ejector rod presses the current row of battens, the second sensing device can sense the battens, the ejector rod retreats until the second sensing device cannot sense the battens, and the ejector rod moves to the next row of battens and compresses the battens; repeating the steps until all the battens on the placing table are pressed; and (3) inducing the side pressure plate at the other side end of the placing table by a third induction device, resetting the ejector rod, repeating the steps again, synchronously feeding the compressed battens into a high-frequency press to cure the glue, and butting the subsequently placed battens with the previously placed battens through the comb teeth and compressing the battens through the steps.

The utility model discloses an above-mentioned scheme can be unlimited extension point fishplate bar, can produce the finger fishplate bar of unlimited length in theory, and above-mentioned step all is through the unified coordinated control of control system, and easy operation can be applicable to the mass production that multiple dimensions pointed the fishplate bar.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

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

fig. 2 is a right side view of the present invention;

fig. 3 is a left side view of the present invention;

fig. 4 is a top view of the present invention;

FIG. 5 is a schematic view of the next row of compressed sticks having a length greater than the length of the current row of compressed sticks;

FIG. 6 is a schematic view of the next row of compressed sticks having a shorter length than the current row of compressed sticks;

fig. 7 is a schematic diagram of the operation when the length of the next row of battens is almost the same as the length of the current row of compressed battens.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators in the embodiments of the present invention, such as upper, lower, left, right, front and rear … …, are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture as shown in the drawings, and if the specific posture is changed, the directional indicator is changed accordingly.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, the technical solutions between the embodiments of the present invention can be combined with each other, but it is necessary to be able to be realized by a person having ordinary skill in the art as a basis, and when the technical solutions are contradictory or cannot be realized, the combination of such technical solutions should be considered to be absent, and is not within the protection scope of the present invention.

Referring to fig. 1 to 7, a continuous pressing apparatus for a finger joint plate includes a placing table 1, a longitudinal moving device is disposed at one end of the placing table 1, a transverse moving device is disposed on the longitudinal moving device, a top rod 4 is disposed on the transverse moving device, a first sensing device 7 is disposed above the top rod 4, a second sensing device 8 is disposed on the side of the top rod 4, a third sensing device 9 is further disposed between the top rod 4 and the first sensing device 7, the third sensing device 9 is located behind the first sensing device 7, and the longitudinal moving device, the transverse moving device, the first sensing device 7, the second sensing device 8, and the third sensing device 9 are electrically connected to a control system respectively. The control system is a programmable controller, the first sensing device 7, the second sensing device 8 and the third sensing device 9 are all COMS laser sensors LR-ZB100N of Keynes corporation, the sensors have high-precision detection distances and are convenient to set, and the running of equipment is guaranteed.

In this embodiment, the two sides of the placing table 1 are respectively provided with a side pressing plate 5, at least one side pressing plate 5 is connected with a telescopic driving member 51 in a transmission manner, and the pressing plates 5 on the two sides are close to each other under the action of the telescopic driving member 51. The telescopic driving member 51 is an air cylinder or a hydraulic cylinder, the two side pressing plates 5 press the battens 101 between the two side pressing plates 5 under the action of the telescopic driving member 51, and when the battens 101 are pressed, the two side pressing plates 5 keep the state of pressing the battens 101.

In this embodiment, the other end of the placing table 1 is connected to a high frequency press, the high frequency press and the longitudinal moving device are respectively disposed at two opposite ends of the placing table 1, the ejector rod 4 is located at one end of the transverse moving device close to the high frequency press, and the high frequency press is electrically connected to the control system.

In this embodiment, the longitudinal moving device includes a moving seat 21 slidably disposed on the platform 1, the moving seat 21 is connected to a driving mechanism in a transmission manner, the transverse moving device is disposed on the moving seat 21, and the driving mechanism is electrically connected to the control system. The main body of the movable seat 21 is a flat plate, and the flat plate is slidably arranged on the swing table 1.

In this embodiment, fixing bases 11 are respectively arranged on two sides of the swing table 1, a first slide rail 12 is arranged on the fixing base 11, a first slide block 13 is arranged on the first slide rail 12, and the moving base 21 is hung on the two first slide blocks 13.

In this embodiment, the driving mechanism includes a first driving element 22 and a rack 23 disposed on the fixing seat 11, and a length direction of the rack 23 is consistent with a length direction of the first slide rail 12; the two sides of the movable seat 21 are respectively provided with a transmission shaft 24 in a rotating manner, two ends of each transmission shaft 24 are respectively provided with a gear 25, the gears 25 at one ends of the two transmission shafts 24 are respectively meshed with the corresponding racks 23, the gears 25 at the other ends of the two transmission shafts 24 are respectively connected with the first driving part 22 in a driving manner, and the first driving part 22 is electrically connected with the control system. The movable seat 21 is slidably arranged on the swing platform through the first slide rail 12 and the first slide block 13, and the power of the first driving part 22 is transmitted through the meshing of the gear 25 and the rack 23 to push the movable seat 21 to move on the platform. The first driving part 22 is a servo motor which has the characteristic of high precision, and can transmit larger torque through the meshing of the gear 25 and the rack 23, so that the wood strip 101 can be guaranteed to be compressed.

In this embodiment, the lateral shifting device includes two second slide rails 31 that set up on removing the seat 21, and two second slide rails 31 are parallel to each other, and the length direction of two second slide rails 31 is perpendicular with the length direction of first slide rail 12, and the carriage is equipped with second slider 32 on two second slide rails 31, ejector pin 4 is established on second slider 32, wear to be equipped with transmission lead screw 33 on the second slider 32, transmission lead screw 33 is not perpendicular with second slide rail 31, transmission lead screw 33 transmission even has second driving piece 34, second driving piece 34 links to each other with the control system electrical property. The second driving member 34 is a servo motor, and the servo motor is connected to the driving screw 33 through a belt. Preferably, the transmission screw 33 is parallel to the second slide rail 31, so that on one hand, the acting force for driving the transmission screw 33 is reduced, and on the other hand, the abrasion of the transmission screw 33 is reduced.

In this embodiment, the fixed seat 11 is provided with a sliding contact line 14, and the transverse moving device, the driving mechanism, and the control system are electrically connected to the power supply device through the sliding contact line 14. The moving seat 21 can maintain the normal supply of electric power through the trolley wire 14 while moving.

In this embodiment, at least two supporting seats 26 are respectively disposed on two sides of the moving seat 21, two transmission shafts 24 are respectively rotatably erected on the supporting seats 26 on the same side of the moving seat 21, and a length direction of the transmission shafts 24 is perpendicular to a length direction of the rack 23. Preferably, two supporting seats 26 are respectively disposed on both sides of the movable seat 21. The two transmission shafts 24 are parallel to the transmission screw rod 33 and perpendicular to the length direction of the first slide rail 12, and the transmission shafts 24 are supported by the two support bases 26, so that the transmission shafts 24 can transmit torque stably, and normal operation of the equipment is ensured.

A continuous production process of a finger-jointed board comprises the following steps:

s1: carrying out comb dent opening falcon on two ends of a plurality of wood strips 101 with equal width and thickness; after the toothcutting is finished, screening is carried out, and unqualified battens 101 are removed.

S2: splicing the battens 101 processed in the step S1 into a plurality of rows and a plurality of columns on the placing table 1, sequentially contacting and connecting every two adjacent battens 101 with opposite side edges, sequentially connecting every two adjacent battens 101 with opposite comb teeth through the comb teeth, then coating glue on two sides of the battens 101, and fixing a row of battens 101 close to the high-frequency press; when the first wheel presses the battens 101, a baffle needs to be arranged at one end close to the high-frequency press, and the baffle blocks the placed battens 101, so that the battens 101 can be conveniently pressed by the ejector rods 4; when the second round is used for pressing the battens 101, a baffle is not needed to be placed to block the battens 101, because the high-frequency press has a fixing function on the previous or first batch of battens 101 after the previous batch of battens enters the high-frequency press.

S3: after the first sensing device 7 on the pressing equipment senses the battens 101 close to one side end of the swing table 1, the ejector rods 4 on the pressing equipment press the battens 101, which are connected through comb teeth, on the row of the battens 101;

s4: after the row of battens 101 is pressed, the mandril 4 moves towards the next row of battens 101;

if the length of the next row of battens 101 is shorter than that of the current row of battens 101 to be pressed, after the ejector rod 4 pushes the current row of battens 101, the second sensing device 8 does not sense the battens 101, and the ejector rod 4 moves to the next row of battens 101 and presses the same;

if the length of the next row of battens 101 is longer than that of the current row of the compacted battens 101, after the ejector rod 4 pushes the current row of the battens 101, the second sensing device 8 can sense the battens 101, and after the ejector rod 4 retreats until the second sensing device 8 cannot sense the battens 101, the ejector rod 4 moves to the next row of the battens 101 and compacts the battens;

s5: repeating the step S4 until all the battens 101 placed on the placing table 1 in the step S2 are pressed;

in the step S2, after all the battens 101 placed on the placing table 1 are pressed, the third sensing device 9 senses the side pressing plate 5 at the other side end of the placing table 1, and the ejector rod 4 is reset;

s6: conveying the battens 101 processed in the step S5 to a high-frequency press, and curing the glue between the rows of battens 101 in the high-frequency press, so that the rows of battens 101 form a finger board;

s7; repeating the steps S1 to S6, and finally processing the finger joint plate into a finger joint plate with a specific length;

s8: the finger-jointed board processed at step S7 is cut into finger-jointed boards of various sizes by a cutting apparatus.

Preferably, side pressing plates 5 are respectively arranged at two side ends of the swing table 1, and at least one side pressing plate 5 is connected with a telescopic driving piece 51 in a transmission manner;

in steps S3 to S6, when the push rod 4 presses the batten 101, the two side pressing plates 5 press the batten 101 placed on the placing table 1 by the telescopic driving member 51.

Preferably, in step S4, when the difference between the length of the next row of wooden sticks 101 and the length of the current row of wooden sticks 101 being pressed is less than 10cm, the finger-joint plate continuous pressing device stops operating and gives an alarm signal.

Preferably, in steps S3 to S6, when the first sensing device 7 senses the wood strip 101, the ram 4 is changed from fast movement to slow movement, and the ram 4 is changed from forward mode to torque mode.

Preferably, in the steps S3 to S6, the holding time of the top bar 4 against the wooden stick 101 is at least 0.5S.

Preferably, in step S4, when the length of the next row of battens 101 is longer than the length of the pressed current row of battens 101, the first sensing device 7 senses the edge of the next row of battens 101 to form a rising edge signal, and after the rising edge signal is sent to the control system, the control system controls the top bar 4 to continue to move a set distance in the width direction of the battens 101;

when the length of the next row of battens 101 is shorter than that of the current row of the compacted battens 101, the first sensing device 7 senses that the edge of the current row of the compacted battens 101 forms a falling edge signal when leaving, and after the falling edge signal is sent to the control system, the control system controls the mandril 4 to continuously move for a set distance along the width direction of the battens 101.

Preferably, the set distance is half of the width of the batten 101, and after the ejector rod 4 moves the set distance along the width direction of the batten 101, the ejector rod 4 just reaches the center of the row of battens 101, so that the ejector rod can conveniently press the row of battens 101. The set distance may be set in an operation interface of the control system according to the width of the wooden strip 101.

Preferably, in step S8, the finger board processed in step S7 enters from the feed end of the cutting device, the finger board is cut by the slicing saw mechanism of the cutting device along the length direction of the finger board, and the cut finger board continues to move forward and is cut by the cutting saw mechanism.

Preferably, in step S8, after the incised finger joint plate moves forward and enters the sensing range of the fourth sensing device, the fourth sensing device sends the first position signal, which senses the incised finger joint plate, to the control system, and the control system controls the finger joint plate transmission mechanism to drive the incised finger joint plate to move to the designated position according to the received first position signal; after the finger-jointed plate is cut to reach the position close to the designated position, the fourth sensing device sends a second position signal which senses the finger-jointed plate to the control system, and the control system controls the finger-jointed plate transmission mechanism to finely adjust the position of the finger-jointed plate according to the received second position signal.

Preferably, in step S8, when the fifth sensing device senses the finger plate, the rotary driving device clamps the finger plate under the action of the second telescopic driving device, and the finger plate is moved forward by the rotation of the rotary driving device.

Please refer to fig. 5.

5a, when the mandril 4 approaches the batten 101, the first sensing device 7 is turned ON when detecting the batten 101, the advancing speed of the mandril 4 is changed from fast speed to slow speed, and the mandril 4 enters a torque control mode from an advancing mode.

And 5b, the wood strip 101 is pressed, and the set torque pressing time is kept to be 0.5S.

5c, since the push rod 4 is retracted and the next stick 101 is longer than the stick 101 being pressed in FIG. 1, the second sensor 8 is ON at this time, and therefore, the push rod 4 is stopped when the second sensor 8 is turned OFF by being rapidly retracted, and the first sensor 724 is also OFF at this time.

5d indicates that the second drive member 34 is operated and the ram 4 starts moving towards the next stick 101.

5e, the first sensor 7 detects the timing ON of the strip 101, and the control system uses the rising edge signal of the first sensor 7 as the edge of the next strip 101, and the second driving member 34 uses the edge of the strip 101 as the starting point for positioning control (positioning data can be set according to the width of the strip 101) to move the lift pin 4 to the center of the strip 101.

5f indicates that the ram 4 is advancing and pressing, and the first sensing device 7 is ON, so that the ram 4 is advancing and pressing is set to be slow.

Please refer to fig. 6.

And 6a shows that when the mandril 4 approaches the batten 101, the first sensing device 7 detects the batten 101, the position is ON, the advancing speed of the mandril 4 is changed from fast speed to slow speed, and the mandril 4 advances to enter a torque control mode.

And 6b, the wood strip 101 is pressed, and the set torque pressing time is kept to be 0.5S.

6c shows that the ram 4 is moving backward, and since the next stick 101 is shorter than the stick 101 being pressed in FIG. 6, the state of the second sensing device 8 is OFF, and the ram 4 is moving backward by 10-20mm slowly and stops, and the state of the first sensing device 7 is still ON. The second drive member 34 is operated and the ram 4 starts moving towards the next stick 101.

6d, the first sensor 7 detects no strip 101, the control system takes the falling edge pulse of the first sensor 7 as the edge of the next strip 101, and the second driving member 34 controls the positioning of the edge of the next strip 101 (the positioning data can be set according to the width of the strip 101) to move the lift pin 4 to the center of the strip 101. The push rod 4 advances, and because the state of the first sensing device 7 is OFF, the push rod 4 advances rapidly,

6e, when the ram 4 approaches the stick 101 and the first sensor 7 detects the stick 101, it is turned ON, the ram 4 advances from fast to slow,

and 6f, the compaction cycle.

Please refer to fig. 7.

And 7a shows that when the mandril 4 approaches the batten 101, the first sensing device 7 detects the batten 101, the position is ON, the advancing speed of the mandril 4 is changed from fast speed to slow speed, and the mandril 4 advances to enter a torque control mode.

And 7b, the wood strip 101 is pressed, and the set torque pressing time is kept to be 0.5S.

And 7c, since the push rod 4 is retreated, the next stick 101 is shorter than the stick 101 being pressed in fig. 1, and the state of the second sensing means 8 is OFF at this time, the push rod 4 is retreated slowly by 10-20mm and stopped, and the state of the first sensing means 7 is still ON at this time. The second drive member 34 is operated and the ram 4 starts moving towards the next stick 101.

And 7d, the first sensing device 7 does not detect the change of the wood strip 101 in the set distance, and the control system determines the state at this time as an error and stops the operation. And restarting after the error is modified by an operator.

The above only is the preferred embodiment of the present invention, not so limiting the patent scope of the present invention, all under the concept of the present invention, the equivalent structure transformation made by the contents of the specification and the drawings is utilized, or the direct/indirect application is included in other related technical fields in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a indicate fishplate bar to compress tightly equipment in succession, its characterized in that, including setting up platform (1), the one end of setting up platform (1) is equipped with longitudinal movement device, be equipped with lateral shifting device on the longitudinal movement device, be equipped with ejector pin (4) on the lateral shifting device, the preceding top of ejector pin (4) is equipped with first induction system (7), the side of ejector pin (4) is equipped with second induction system (8), still be equipped with third induction system (9) between ejector pin (4) and first induction system (7), third induction system (9) are located the rear of first induction system (7), longitudinal movement device, lateral shifting device, first induction system (7), second induction system (8), third induction system (9) link to each other with the control system electrical property respectively.

2. Continuous compression equipment for finger-jointed boards according to claim 1, wherein the two sides of the swing platform (1) are respectively provided with a side pressing plate (5), at least one side pressing plate (5) is in transmission connection with a telescopic driving part (51), and the two side pressing plates (5) are mutually closed under the action of the telescopic driving part (51).

3. The finger joint plate continuous pressing equipment according to claim 1, wherein a high frequency press is butted at the other end of the swing table (1), the high frequency press and the longitudinal moving device are respectively arranged at the two opposite ends of the swing table (1), the ejector rod (4) is positioned at one end of the transverse moving device close to the high frequency press, and the high frequency press is electrically connected with the control system.

4. Continuous finger-jointed board pressing apparatus according to any one of claims 1 to 3, wherein said longitudinal moving means comprise a moving base (21) slidably mounted on the swing-stand (1), said moving base (21) being drivingly connected to a driving mechanism, said transverse moving means being mounted on the moving base (21), said driving mechanism being electrically connected to a control system.

5. The finger joint plate continuous pressing equipment according to claim 4, wherein two sides of the swing table (1) are respectively provided with a fixed seat (11), the fixed seats (11) are provided with first sliding rails (12), the first sliding rails (12) are provided with first sliding blocks (13), and the movable seats (21) are hung on the two first sliding blocks (13).

6. Continuous finger-joint plate pressing device according to claim 5, characterized in that said driving mechanism comprises a first driving member (22) and a rack (23) provided on the fixed seat (11), the length direction of said rack (23) being identical to the length direction of the first sliding rail (12); remove seat (21) both sides and rotate respectively and be equipped with transmission shaft (24), the both ends of transmission shaft (24) are equipped with gear (25) respectively, and gear (25) of two transmission shaft (24) one end mesh with rack (23) that correspond respectively, and gear (25) of two transmission shaft (24) other ends link to each other with first driving piece (22) transmission respectively, first driving piece (22) link to each other with control system electrical property.

7. The finger joint plate continuous pressing device according to claim 5, wherein the transverse moving device comprises two second sliding rails (31) arranged on the moving base (21), the two second sliding rails (31) are parallel to each other, the length direction of the two second sliding rails (31) is perpendicular to the length direction of the first sliding rail (12), a second sliding block (32) is arranged on the two second sliding rails (31) in a sliding manner, the ejector rod (4) is arranged on the second sliding block (32), a transmission screw rod (33) is arranged on the second sliding block (32) in a penetrating manner, the transmission screw rod (33) is not perpendicular to the second sliding rails (31), a second driving part (34) is connected with the transmission screw rod (33), and the second driving part (34) is electrically connected with the control system.

8. The finger-jointed board continuous pressing device of claim 5, wherein the fixed seat (11) is provided with a sliding contact line (14), and the transverse moving device, the driving mechanism and the control system are respectively electrically connected with a power supply device through the sliding contact line (14).

9. The apparatus for continuous pressing of finger-jointed board according to claim 6, wherein said movable base (21) is provided at both sides thereof with at least two supporting seats (26), two driving shafts (24) are rotatably mounted on the supporting seats (26) at the same side of the movable base (21), respectively, and the length direction of said driving shafts (24) is perpendicular to the length direction of the rack (23).

10. The apparatus of claim 1, wherein the control system is a PLC controller.

Images