CN111438789A - Machining equipment and machining method for anti-deformation wooden door - Google Patents

Abstract

The invention relates to the field of wood door processing, in particular to processing equipment and a processing method of an anti-deformation wood door, wherein the method comprises the following steps: A. preparing materials: preparing a sealing plate, two door plates and a plurality of battens according to the actual size requirements of customers, wherein the lengths of the battens are smaller than that of the door plates; B. filling: filling a plurality of battens between two door plates, wherein a gap is formed between every two adjacent battens; C. after filling, a closing plate is used for closing the gap between the edges of the two door panels; D. according to the actual requirements of customers, processing steps such as drilling, door pocket line corner cutting and the like are carried out in a factory, the wooden door is directly processed into a finished product in the factory, and the processing equipment is used for drilling during drilling; E. installing an upper door: after the wooden door is sent to the home of a customer, an installer directly uses an installation tool to install the wooden door. This scheme makes the difficult deformation that takes place of the timber of processing out.

Description

Machining equipment and machining method for anti-deformation wooden door

Technical Field

The invention relates to the field of wooden door processing, in particular to processing equipment and a processing method for an anti-deformation wooden door.

Background

Traditional timber comprises two door plants and stopping, and the stopping is filled between two timber, and current stopping is mostly paper material, like cardboard or refill, because paper material is lighter, therefore the benefit of doing so is that the weight of the timber of processing out is lighter, is convenient for carry and installation etc.. However, because the paper material has low hardness and is relatively flexible, the processed wood door is easy to deform, and the quality of the wood door needs to be enhanced.

In addition, the wood door produced at present is a semi-finished product, and when the wood door is sent to a client for installation, the processing steps of drilling, door pocket line corner cutting and the like need to be carried out on the spot by an installer, so that the operation is more complicated, and the rapid installation of the wood door is not facilitated. In addition, the installer can drill holes on site, the generated noise is high, the silence around the installer is not facilitated, and the normal life and rest of people are influenced.

Disclosure of Invention

The invention aims to provide a method for processing an anti-deformation wooden door, so that the processed wooden door is not easy to deform.

In order to achieve the purpose, the invention adopts the following technical scheme: the processing method of the deformation-preventing wood door comprises the following steps:

A. preparing materials: preparing a sealing plate, two door plates and a plurality of battens according to the actual size requirements of customers, wherein the lengths of the battens are smaller than that of the door plates;

B. filling: filling a plurality of battens between two door plates, wherein a gap is formed between every two adjacent battens;

C. after filling, a closing plate is used for closing the gap between the edges of the two door panels;

D. according to the actual requirements of customers, processing steps such as drilling, door pocket line corner cutting and the like are carried out in a factory, the wooden door is directly processed into a finished product in the factory, and the processing equipment is used for drilling during drilling;

E. installing an upper door: after the wooden door is sent to the home of a customer, an installer directly uses an installation tool to install the wooden door.

The principle and the advantages of the scheme are as follows: the internal filling material of the existing wooden door is filled with paper materials, such as paperboards, paper cores and the like, so that the weight of the wooden door can be reduced, and the wooden door is lighter and more convenient; but the paper material is low in hardness and easy to deform in the using process, so that the service life of the wooden door is short. And adopting the processing steps of the steps A-C of the scheme, the wood strips are filled between the two door plates, and the hardness of the wood strips is greater than that of the paper material, so that the filler is fixed in the two door plates to support the wooden door, the deformation of the wooden door can be reduced, and the service life of the wooden door is prolonged. In addition, because the gaps are formed between the adjacent battens, the space between the two door plates can not be completely filled with the battens, the battens can not be filled tightly, the filling quantity of the battens can not be too much, and the condition that the weight of the wooden door is too heavy due to the adoption of wooden filling materials can be avoided.

In addition, the wooden door produced in the prior art is a semi-finished product, and when the wooden door is sent to a client for installation, an installer needs to perform processing steps such as drilling (such as a lock hole), corner cutting of a door pocket line and the like on site. Therefore, in the step D-E, the actual size requirements of customers are firstly known, the wooden door is directly processed into a finished product in a factory, and then the wooden door is sent to the houses of the customers, and an installer can directly use an installation tool to install the wooden door. Compared with the prior art, the scheme has the following effects: 1. an installer does not need to carry out field processing in a customer home, the installation can be carried out by directly using an installation tool, and the installation is convenient and quick; 2. compare installer scene and process, it is more accurate to the machining dimension of door, because complete, the processing condition is more perfect of equipment in the mill.

Preferably, as a modification, in step B, glue is applied to the sides of the two door panels, and then the wood strips are bonded to the sides of the door panels. From this, glue the stuff on the door plant through glue, compare other fixed mode, for example the fixed mode of screw, can not lead to the fact great destruction to stuff and door plant, do benefit to the life who improves the timber.

Preferably, as a modification, a painting step is further provided between step D and step E. In the prior art, operations such as cutting, drilling and the like need to be carried out on site, so that a notch is easily formed in the wooden door, the surface of the wooden door is damaged by paint sprayed in advance, and particularly the lower end part of the wooden door is easily soaked by water and is easily rotten. This scheme sprays paint after drilling, cutting again, can guarantee that the incision homoenergetic on the timber is protected by paint, is favorable to improving the life of timber.

Preferably, as an improvement, the closing plate and the door panel are fixed by screws. From this, link together shrouding and door plant through the screw, the shrouding not only can plug up the clearance between two door plant borders, and the shrouding still can be in the same place two door plant firm fixes.

In addition, the invention also provides a processing device applied to the processing method, which comprises a fixed shaft and a bidirectional lead screw, wherein the bidirectional lead screw is coaxially and rotatably connected to the fixed shaft, the fixed shaft is fixedly connected with a fixed block, the bidirectional lead screw is in threaded connection with a first moving block and a second moving block, the fixed block is fixedly connected with a guide rod, the first moving block and the second moving block are both in sliding connection with the guide rod, and a plurality of drilling mechanisms are arranged between the first moving block and the second moving block; the drilling mechanism comprises a tool apron, a first connecting rod, a second connecting rod and a drilling motor, wherein the drilling motor is positioned on the tool apron, the first connecting rod and the second connecting rod are arranged in a crossed manner, the crossed part of the first connecting rod and the second connecting rod is rotatably connected, one side of the tool apron close to the fixed shaft is slidably connected with a second sliding plate and a first sliding plate, two ends of the first connecting rod are respectively rotatably connected to the second moving block and the second sliding plate, and two ends of the second connecting rod are respectively rotatably connected to the first moving block and the first sliding plate; the outside of fixed axle is equipped with the timber mount, and the timber mount includes around a plurality of fixed frames of fixed axle evenly distributed, and timber mount and fixed axle rotate relatively and set up.

The principle and the advantages of the scheme are as follows: the drilling motor is used for drilling. The fixed frame is used for fixing the wooden door. Through the relative rotation of timber mount and fixed axle to make the timber on the fixed frame can be relative with drilling mechanism. During drilling, the bidirectional screw rod is rotated, the bidirectional screw rod, the first moving block and the second moving block form a screw rod pair, the bidirectional screw rod converts rotation into movement of the first moving block and the second moving block, the first moving block and the second moving block are close to each other, and the guide rod guides the movement of the first moving block and the second moving block. When first movable block and second movable block are close to each other, make first connecting rod and the equal looks rotation of second connecting rod on a plurality of drilling mechanisms, the one end that the fixed axle was kept away from to first connecting rod and the one end that the fixed axle was kept away from to the second connecting rod are close to each other, first connecting rod and second connecting rod impel the knife rest and remove to being close to fixed frame direction, drilling motor on a plurality of drilling mechanisms all removes to the direction that is close to fixed frame simultaneously like this, a plurality of drilling motors carry out the feed, thereby to fixed timber drilling simultaneously on a plurality of fixed frames, compare prior art, need not singly to drill a plurality of timber, the batch drilling of a plurality of timber has been realized, the drilling efficiency of timber has been improved. After drilling finishes, the two-way lead screw of antiport, the two-way lead screw drives first movable block and second movable block and keeps away from each other, thereby make first connecting rod and the mutual antiport of second connecting rod on a plurality of drilling mechanisms, the one end that the fixed axle was kept away from to first connecting rod and the one end that the fixed axle was kept away from to the second connecting rod are kept away from each other, first connecting rod and second connecting rod push away the tool rest and move to being close to the fixed axle direction, drilling motor on a plurality of drilling mechanisms all removes to the direction of keeping away from fixed frame simultaneously like this, a plurality of drilling motors move back the sword simultaneously, the efficiency of moving back of drilling motor on a plurality of timber is improved.

In this scheme, because timber mount and fixed axle rotate the setting relatively, consequently the accessible makes timber mount and fixed axle rotate relatively to can make the timber on the fixed frame of difference relative with drilling motor, thereby can drill to the timber on the fixed frame of difference.

Preferably, as an improvement, be connected with first motor on the guide arm, be connected with first belt between first motor and the two-way lead screw. From this, first motor drives two-way lead screw through first belt and rotates, need not the manual work like this and rotates two-way lead screw, and is more laborsaving, and is more automatic.

Preferably, as an improvement, the blade holder is fixedly connected with an air cylinder for driving the drilling motor to move, and the drilling motor is slidably connected to the blade holder. From this, slide on the blade holder through cylinder drive drilling motor to make drilling motor along fixed axle axial displacement on the blade holder, can drill to the different positions of the length direction of timber.

Preferably, as an improvement, the fixing frame is u-shaped, and the inner wall of the fixing frame is provided with a fixing groove. From this, the one end of fixed frame is equipped with the opening, and the timber of being convenient for inserts fixed frame in, back in the timber inserts fixed frame, and the fixed slot is fixed the border of timber, avoids the timber to break away from fixed frame. In addition, when the fixed frame of "u" shape made drilling motor to drill the side of timber, the fixed frame can not cause the side of timber to block for drilling motor can drill the timber.

Preferably, as an improvement, the fixed shaft is transversely placed, the wooden door fixing frame rotates around the axial direction of the fixed shaft, and the conveying mechanism is arranged below the wooden door fixing frame. From this, through rotating the timber mount for fixed frame rotates transport mechanism department, transmits the timber to fixed frame through transport mechanism, need not the manual work and puts into fixed frame with the timber, and the operation is fairly simple, laborsaving.

Preferably, as an improvement, transport mechanism includes the transfer roller that pneumatic cylinder, conveyer belt and a plurality of level set up, and the outside of transfer roller is equipped with the roller frame, and the transfer roller rotates to be connected on the roller frame, and the hydraulic stem fixed connection of pneumatic cylinder is on the roller frame. From this, on the conveyer belt conveyed the timber to the transfer roller, the transfer roller conveyed the timber again in the fixed frame. Can make the transfer roller go up and down through the pneumatic cylinder, when the timber mount rotates, make the high decline of transfer roller through the pneumatic cylinder like this, the transfer roller can not be arranged in fixed frame to can not influence the rotation of timber mount. When the fixed frame of timber mount below rotates for the horizontality, makes the transfer roller rise through the pneumatic cylinder, the top of transfer roller can be relative with the bottom of fixed slot to can make the transfer roller accurately transport fixed frame with the timber.

Drawings

Fig. 1 is a front sectional view of the processing equipment for a deformation prevention wood door in example 1.

Fig. 2 is a perspective view of the fixing frame.

FIG. 3 is a sectional view of the apparatus for processing a deformation preventing wooden door according to example 2.

Fig. 4 is a perspective view of the fixing frame and the conveying roller.

FIG. 5 is the right view of the wooden door fixing frame and the supporting plate.

Fig. 6 is a right side view of the fixing frame and the conveying roller in embodiment 3.

Fig. 7 is a schematic structural view of the door panel and the batten before assembly.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a rack 1, a supporting plate 2, a shaft disc 3, a fixed shaft 4, a second belt 5, a second motor 6, a second moving block 7, a first moving block 8, a first motor 9, a first belt 10, a bidirectional screw 11, a guide rod 12, a tool apron 13, a first connecting rod 14, a cylinder 15, a sliding plate 16, a drilling motor 17, a fixed frame 18, an upper fixed part 181, a fixed groove 182, a lower fixed part 183, a push rod 184, a tension spring 185, a second magnet 186, a vertical groove 187, a rotating ring 19, a third motor 20, a connecting rod 21, an edge part 22, a driving box 23, a hydraulic cylinder 24, a conveying belt 25, a roller frame 26, a conveying roller 27, a door plate 28 and a batten 29.

Example 1

The processing method of the deformation-preventing wood door comprises the following steps:

A. preparing materials: according to the actual size requirement of a customer, referring to fig. 7, preparing a sealing plate, two door plates 28 and a plurality of battens 29, wherein the length of each batten 29 is smaller than that of each door plate 28;

B. filling: gluing opposite sides of the two door panels 28, then adhering battens 29 to the sides of the door panels 28, specifically, in the embodiment, gluing is applied to the upper side of the lower door panel 28 and the lower side of the upper door panel 28 in fig. 7, a plurality of battens 29 are adhered to the upper side of the lower door panel 28 along the length direction of the door panels 28, then the upper door panel 28 is buckled on the lower door panel 28, and the upper door panel 28 is adhered to the battens 29, so that through the step, the battens 29 are filled between the two door panels 28, and gaps are reserved between the adjacent battens 29 in the embodiment;

C. after filling, the sealing plate is used for sealing the gap between the edges of the two door panels 28, specifically, the width of the sealing plate is equal to the distance between the two door panels 28, and after the sealing plate is filled into the gap between the edges of the two door panels 28, the sealing plate and the door panels 28 are fixed through screws; the closure plate thus closes the gap between the edges of the two panels 28 and the strips 29 between the panels 28 are not exposed.

D. The actual requirements of customers are known through telephone or visit, the processing steps such as drilling, door pocket line corner cutting and the like are carried out in a factory according to the requirements of the customers, the wooden door is directly processed into a finished product in the factory, and the processing equipment is used for drilling during drilling; after the wooden door is processed, painting on the surface of the wooden door;

E. installing an upper door: after the wooden door is sent to the customer's home, the installer directly installs the wooden door using an installation tool (e.g., a screwdriver).

Referring to fig. 1 and 2, the processing apparatus in this embodiment includes a frame 1, a supporting plate 2, a fixing shaft 4, and a bidirectional screw 11, where the supporting plate 2 is vertically disposed, and the supporting plate 2 is welded to the right end of the frame 1. The centre of a circle position of the right side of the supporting disk 2 is welded with a shaft disk 3, and the left end of the fixed shaft 4 is connected to the shaft disk 3. Two-way lead screw 11 and the coaxial setting of fixed axle 4, two-way lead screw 11 is located the right side of fixed axle 4, two-way lead screw 11's left end passes through the bearing and rotates the connection on fixed axle 4, the welding has annular fixed block on fixed axle 4, threaded connection has annular first movable block 8 and second movable block 7 on two-way lead screw 11, two guide arms 12 have been welded on the right flank of fixed block, two guide arms 12 are located fixed axle 4, lower both sides, first movable block 8 and second movable block 7 sliding connection are on guide arm 12, it is specific, all be equipped with the hole on first movable block 8 and the second movable block 7, guide arm 12 passes the hole, thereby make first movable block 8 and second movable block 7 can be on the guide arm relative slip. The right end of the guide rod 12 is fixedly connected with a first motor 9 through a screw, and a first belt 10 is connected between an output shaft of the first motor 9 and the bidirectional screw rod 11.

A plurality of drilling mechanisms are arranged between the first moving block 8 and the second moving block 7, four drilling mechanisms (two drilling mechanisms are shown in fig. 1 due to the view angle) in the embodiment are respectively positioned on the periphery of the fixed shaft 4; drilling mechanism includes blade holder 13, first connecting rod 14, second connecting rod and drilling motor 17 in this embodiment, and drilling motor 17 is located blade holder 13 and keeps away from on the side of fixed axle 4, and blade holder 13 is used for driving the cylinder 15 that drilling motor 17 removed through fixedly connected with on the screw, and is concrete, and drilling motor 17 has slide 16 through the cooperation lateral sliding connection of spout and slider, and drilling motor 17 is located slide 16 through the screw, and the cylinder pole of cylinder 15 passes through the fix with screw on drilling motor 17. First connecting rod 14 and second connecting rod cross arrangement, the crossing position of first connecting rod 14 and second connecting rod is connected through the round pin axle rotation, and blade holder 13 is close to the first sliding plate of horizontal sliding connection respectively and second sliding plate in both ends about on the side of fixed axle 4, and concrete sliding mode is: the tool apron 13 is provided with a transverse groove, the first sliding plate and the second sliding plate are both provided with a convex block, and the convex block is positioned in the sliding groove. Two ends of the first connecting rod 14 are respectively and rotatably connected to the second sliding plates at the right ends of the second moving block 7 and the tool apron 13 through pin shafts, and two ends of the second connecting rod are respectively and rotatably connected to the first sliding plates at the left ends of the first moving block 8 and the tool apron 13 through pin shafts.

The fixed shaft 4 is provided with a wooden door holder on its outer side, which includes a plurality of fixed frames 18 uniformly distributed around the fixed shaft 4, the number of the fixed frames 18 in this embodiment is eight, and thus, as shown in fig. 5, the right side view of the wooden door holder is octagonal. Four of the eight fixing frames 18 can be opposed to the four drilling mechanisms, and as shown in fig. 2, the fixing frame 18 in this embodiment is u-shaped, the fixing frame 18 is integrally formed with an upper fixing portion 181 and a lower fixing portion 183, a side portion is integrally formed between the upper fixing portion 181 and the lower fixing portion 183, and a fixing groove 182 is formed between the upper fixing portion 181 and the lower fixing portion 183. Timber mount and fixed axle 4 relative rotation set up, adopt the timber mount motionless in this embodiment, fixed axle 4 pivoted mode, and is specific, and the left end welding of fixed frame 18 is on supporting disk 2, and the left end of fixed axle 4 passes through the bearing and rotates the connection on arbor plate 3, has second motor 6 through the fix with screw on supporting disk 2, is equipped with between the output shaft of second motor 6 and the fixed axle 4 to be used for driving fixed axle 4 pivoted second belt 5.

The specific implementation process using the processing equipment is as follows: the wooden doors are inserted into the fixing grooves 182 of the fixing frame 18 from the right end of the fixing frame 18 so that eight wooden doors surround the fixing shaft 4 with the support of the fixing frame 18, and the ends of the wooden doors are held by the fixing grooves 182 so that the wooden doors do not fall off the fixing frame 18. During drilling, the first motor 9 is started, the first motor 9 drives the bidirectional screw rod 11 to rotate through the first belt 10, the bidirectional screw rod 11, the first moving block 8 and the second moving block 7 form a screw rod pair, the bidirectional screw rod 11 converts rotation into movement of the first moving block 8 and the second moving block 7, the first moving block 8 and the second moving block 7 are close to each other on the guide rod 12, and the guide rod 12 guides the movement of the first moving block 8 and the second moving block 7. When the first moving block 8 and the second moving block 7 are close to each other, so that the first connecting rods 14 and the second connecting rods on the plurality of drilling mechanisms rotate mutually, one end, away from the fixed shaft 4, of the first connecting rod 14 and one end, away from the fixed shaft 4, of the second connecting rod are close to each other, the first connecting rod 14 and the second connecting rod push the tool apron 13 to move towards the direction close to the fixed frame 18, the drilling motors 17 on the plurality of drilling mechanisms move towards the direction close to the fixed frame 18 at the same time, the drilling motors 17 feed, and accordingly the wooden doors fixed on the four fixed frames 18 right opposite to the drilling mechanisms are drilled at the same time.

After the drilling of the four wooden doors is finished, the first motor 9 rotates reversely, the first motor 9 drives the bidirectional screw rod 11 to rotate reversely through the first belt 10, the bidirectional screw rod 11 drives the first moving block 8 and the second moving block 7 to be away from each other, so that the first connecting rods 14 and the second connecting rods on the drilling mechanisms all rotate reversely, one end, away from the fixed shaft 4, of the first connecting rod 14 and one end, away from the fixed shaft 4, of the second connecting rod are away from each other, the first connecting rod 14 and the second connecting rod drive the tool apron 13 to move towards the direction close to the fixed shaft 4, the drilling motors 17 on the drilling mechanisms all move towards the direction away from the fixed frame 18 at the same time, and the drilling motors 17 retract simultaneously.

After the tool retracting is finished, the second motor 6 is started, the second motor 6 drives the fixing shaft 4 to rotate through the second belt 5, so that the fixing shaft 4 and the fixing frame 18 rotate relatively, and when the fixing shaft 4 rotates, the fixing shaft 4 drives the drilling mechanism to rotate together. By rotating the fixed shaft 4 through a suitable angle, the drilling mechanism can be aligned with the other four fixed frames 18, and the above operation is repeated, so that the wood boards on the remaining other four fixed frames 18 can be drilled.

It is easy to understand, in order to avoid the fixed shaft 4 from rotating freely during drilling and ensure the accuracy of drilling, in this embodiment, a fixing structure for fixing the fixed shaft 4 may be provided, for example, a clamping block capable of sliding transversely on the frame is provided on the right side of fig. 1, and the clamping block can clamp and fix the right end of the guide rod 12, so that when drilling a wooden door, the clamping block slides leftwards to clamp the right end of the guide rod 12, thereby avoiding the fixed shaft 4 from rotating freely and ensuring the accuracy of drilling. The fixing of the fixing shaft 4 during the wood door drilling can be realized by other modes, for example, the fixing shaft 4 can be fixed by inserting a bolt between the fixing shaft 4 and the shaft disc 3; other detailed structures for fixing the fixing shaft 4 are not described in detail herein, and those skilled in the art can implement the detailed arrangement according to actual situations.

Example 2

Referring to fig. 3 to 4, the difference between this embodiment and embodiment 1 is that in this embodiment, the fixed shaft 4 is in an immobile state, and the wooden door fixing frame is in a rotating state, specifically, the left end of the fixed shaft 4 is welded to the shaft disc 3, the supporting disc 2 is provided with an annular cavity, the annular cavity divides the supporting disc 2 into a middle portion and an edge portion 22, a rotating ring 19 is rotatably connected to the annular cavity, and the left end of the wooden door fixing frame is welded to the rotating ring 19. In order to fix the edge portion 22 and the middle portion, the frame 1 is welded on the middle portion of the supporting plate 2, the connecting rod 21 is welded on the frame 1, and one end of the connecting rod 21 far away from the frame 1 is welded on the left end face of the edge portion 22. In this embodiment, a third motor 20 is disposed below the frame 1, and an output shaft of the third motor 20 is connected to the rotating ring 19 through a third belt. Therefore, the third motor 20 drives the third belt to drive, and the third belt drives the rotating ring 19 to rotate on the supporting disk 2, so as to drive the wooden door fixing frame to rotate around the fixing shaft 4.

The lower part of timber mount in this embodiment is equipped with transport mechanism. The conveying mechanism comprises a hydraulic cylinder 24, a conveying belt 25 and a plurality of conveying rollers 27 arranged horizontally, roller frames 26 are arranged on the outer sides of the conveying rollers 27, the conveying rollers 27 are connected to the roller frames 26 in a rotating mode, motors (not shown in the drawing) used for driving the conveying rollers 27 to rotate are arranged on the roller frames 26, a driving box 23 is arranged below the conveying rollers 27, the hydraulic cylinder 24 is fixed in the driving box 23 through screws, and hydraulic rods of the hydraulic cylinder 24 are fixedly connected to the roller frames 26 through screws. The conveyor belt 25 is located on the right side of the conveyor roller 27.

In this embodiment, start third motor 20, third motor 20 drives swivel becket 19 through the third belt and rotates, and swivel becket 19 drives the timber mount and rotates for fixed frame 18 rotates transport mechanism department (the fixed frame 18 of timber mount bottommost just in time is located the top of transfer roller 27), conveys the timber to the left through conveyer belt 25, conveys to the left in fixed frame 18 through the transfer roller 27, thereby has realized transferring the timber to fixed frame 18 automatically. Through the rotation of the fixed frame 18, different fixed frames 18 are rotated above the conveying rollers 27, so that the wooden doors sequentially enter different fixed frames 18, therefore, the wooden doors are not required to be manually placed in the fixed frames 18, and the operation is simple and labor-saving.

Can make transfer roller 27 go up and down through pneumatic cylinder 24 in this embodiment, when the timber mount rotates, make the high decline of transfer roller 27 through pneumatic cylinder 24 like this, transfer roller 27 highly can not be too high, and transfer roller 27 can not be located fixed frame 18 to can not influence the rotation of timber mount, rotation that the timber mount can be normal. When the fixed frame 18 at the lowest part of the wooden door fixed frame rotates to be in a horizontal state, the conveying roller 27 is lifted through the hydraulic cylinder 24, the top of the conveying roller 27 can be opposite to the bottom of the fixed groove 182, and therefore the conveying roller 27 can accurately convey the wooden door to the fixed frame 18.

It can be easily understood that, in order to avoid the timber mount free rotation during drilling, in this embodiment, the right side of the timber mount in fig. 3 can be provided with a fixing structure for the timber mount, for example, a clamping block capable of transversely sliding on the frame can clamp and fix the timber mount, so that when drilling the timber, the clamping block slides leftwards to clamp the right end of the timber mount, thereby avoiding the timber mount free rotation and ensuring the drilling precision. Certainly also can realize that timber door mount rotates when timber drills through other modes, no longer describe here to its detailed structure, and the specific setting of technical staff in the art can be according to actual conditions is implemented.

Example 3

Referring to fig. 6, the difference between the present embodiment and embodiment 1 is that the upper fixing portion 181 is vertically slidably connected to a side portion of the fixing frame 18, a vertical groove 187 is formed on an inner wall of the specific side portion, and a slider is welded to the upper fixing portion 181 and is located in the vertical groove. The lower fixing portion 183 is provided with a through hole, the upper fixing portion 181 is welded with the push rod 184, the bottom end of the push rod 184 penetrates through the through hole in the lower fixing portion 183, the bottom end of the push rod 184 is fixed with a first magnet through a screw, the top of the driving box 23 is fixed with a second magnet 186 through a screw, and the magnetism of the opposite side surfaces of the second magnet 186 and the first magnet is the same. A tension spring 185 is connected between the upper fixing part 181 and the lower fixing part 183, and the tension spring 185 is sleeved on the push rod 184.

In this embodiment, when the fixing frame 18 of the wooden door fixing frame is rotated to approach the driving box 23, the distance between the first magnet and the second magnet 186 is reduced, the side of the first magnet far away from the push rod 184 is opposite to the upper side of the second magnet 186, repulsive force is generated between the first magnet and the second magnet 186, the repulsive force is larger than the pulling force of the tension spring 185, the push rod 184 pushes the upper fixing portion 181 to move upwards, so that the distance between the upper fixing portion 181 and the lower fixing portion 183 is increased, the width of the fixing groove 182 is increased, and the wooden door can enter the fixing groove 182 conveniently.

When the wooden door fixing frame is far away from the driving box 23, the first magnet and the second magnet 186 are far away from each other, the repulsive force between the first magnet and the second magnet 186 is reduced or disappears, and the upper fixing portion 181 and the lower fixing portion 183 are close to each other under the action of the tension spring 185, so that the wooden door is clamped by the upper fixing portion 181 and the lower fixing portion 183, the automatic fixing of the wooden door is realized, the wooden door is located on the fixing frame 18 stably, and the precision of drilling is improved.

It will be readily appreciated that in the above described embodiment it is not necessary to place wooden doors in all of the fixed frames 18, and that an appropriate number of wooden doors may be placed in the respective fixed frames 18 as the case may be.

The foregoing is merely an example of the present invention and common general knowledge in the art of designing and/or characterizing particular aspects and/or features is not described in any greater detail herein. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several variations and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. The processing method of the anti-deformation wooden door is characterized by comprising the following steps of: the method comprises the following steps:

A. preparing materials: preparing a sealing plate, two door plates and a plurality of battens according to the actual size requirements of customers, wherein the lengths of the battens are smaller than that of the door plates;

B. filling: filling a plurality of battens between two door plates, wherein a gap is formed between every two adjacent battens;

C. after filling, a closing plate is used for closing the gap between the edges of the two door panels;

D. according to the actual requirements of customers, processing steps such as drilling, door pocket line corner cutting and the like are carried out in a factory, the wooden door is directly processed into a finished product in the factory, and the processing equipment is used for drilling during drilling;

E. installing an upper door: after the wooden door is sent to the home of a customer, an installer directly uses an installation tool to install the wooden door.

2. The method for processing the deformation-preventing wood door according to claim 1, wherein the method comprises the following steps: and in the step B, gluing the side surfaces of the two door panels, and then bonding the battens on the side surfaces of the door panels.

3. The method for processing the deformation-preventing wood door according to claim 1, wherein the method comprises the following steps: and a paint spraying step is also arranged between the step D and the step E.

4. The method for processing the deformation-preventing wood door according to claim 1, wherein the method comprises the following steps: the sealing plate and the door plate are fixed through screws.

5. A processing apparatus used in the processing method according to any one of claims 1 to 4, characterized in that: the drilling machine comprises a fixed shaft and a bidirectional screw rod, wherein the bidirectional screw rod is coaxially and rotatably connected to the fixed shaft, a fixed block is fixedly connected to the fixed shaft, a first moving block and a second moving block are in threaded connection with the bidirectional screw rod, a guide rod is fixedly connected to the fixed block, the first moving block and the second moving block are both in sliding connection with the guide rod, and a plurality of drilling mechanisms are arranged between the first moving block and the second moving block; the drilling mechanism comprises a tool apron, a first connecting rod, a second connecting rod and a drilling motor, wherein the drilling motor is positioned on the tool apron, the first connecting rod and the second connecting rod are arranged in a crossed manner, the crossed part of the first connecting rod and the second connecting rod is rotatably connected, one side of the tool apron close to the fixed shaft is slidably connected with a second sliding plate and a first sliding plate, two ends of the first connecting rod are respectively rotatably connected to a second moving block and the second sliding plate, and two ends of the second connecting rod are respectively rotatably connected to the first moving block and the first sliding plate; the outside of fixed axle is equipped with the timber mount, and the timber mount includes around a plurality of fixed frames of fixed axle evenly distributed, timber mount and fixed axle rotate the setting relatively.

6. The processing equipment of the deformation-preventing wooden door according to claim 5, wherein: the guide rod is fixedly connected with a first motor, and a first belt is connected between the first motor and the bidirectional screw rod.

7. The processing equipment of the deformation-preventing wooden door according to claim 5, wherein: the drilling machine is characterized in that the cutter holder is fixedly connected with an air cylinder used for driving the drilling motor to move, and the drilling motor is connected to the cutter holder in a sliding mode.

8. The processing equipment of the deformation-preventing wooden door according to claim 5, wherein: the fixing frame is U-shaped, and the inner wall of the fixing frame is provided with a fixing groove.

9. The processing equipment of the deformation-preventing wooden door according to claim 8, wherein: the fixed shaft is transversely placed, the wooden door fixing frame rotates around the axial direction of the fixed shaft, and a conveying mechanism is arranged below the wooden door fixing frame.

10. The processing equipment of the deformation-preventing wooden door according to claim 9, wherein: transport mechanism includes the transfer roller that pneumatic cylinder, conveyer belt and a plurality of level set up, and the outside of transfer roller is equipped with the roller frame, the transfer roller rotates to be connected on the roller frame, the hydraulic stem fixed connection of pneumatic cylinder is on the roller frame.

Images