CN112809871A

CN112809871A - Wooden door production process and production equipment thereof

Info

Publication number: CN112809871A
Application number: CN202011636337.3A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-18

Abstract

The invention relates to a wooden door production process and production equipment thereof, wherein the process comprises the steps of drying, tightening, processing, polishing, assembling, wood wool removing, cleaning, paint spraying, drying and the like.

Description

Wooden door production process and production equipment thereof

Technical Field

The invention relates to a wooden door production process and production equipment thereof.

Background

The door has a very important position in family life, which is called as indispensable in home, especially a wooden door, which is widely applied to indoor room doors, with the improvement of living standard of people, the demand of people on the multifunction of the indoor room wooden door is higher and higher, although the surface of the wooden door is finely planed and sanded, especially mechanically polished, and the smoothness can reach a certain requirement in the production process, careful observation still exists some wooden hair on the surface of the wood, most of the wood can generate the wooden hair, the wooden hair can be curled, fallen and hidden under the action of grinding pressure, once the wooden door is coated with water absorption or other solvents such as dye solution, shellac varnish and the like, the wooden door can be severely wet and expanded and erected, so that the uneven and rough surface of the wood is caused, and the smoothness degree of a paint film is influenced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a wooden door production process and production equipment thereof, which can remove wooden hair, and has low energy consumption and high production efficiency.

The technical scheme of the invention is realized as follows: a wood door production process is characterized by comprising the following steps:

s1, drying: drying the plate until the water content is 12% -15%;

s2, tightening: pressing the dried board to enable the board to be tightened;

s3, processing: processing the tightened plate into a door edge and a door core plate;

s4, polishing: polishing the surfaces of the door edge and the door core plate;

s5, assembling: assembling the door edge and the door core plate into a wooden door;

s6, wood and wool removal: sequentially coating a primer layer, a middle coating and an upper polyurethane external light curing varnish surface layer with the thickness of 0.3-0.5mm on the surface of the wooden door, standing for 15 minutes, and spraying fiber digesting enzyme on the upper layer after the upper layer is cured;

s7, cleaning: cleaning the surface of the wooden door and drying;

s8, spray painting: spraying paint on the surface of the cleaned wooden door;

s9, drying: and drying the painted wooden door.

By adopting the technical scheme, the board is firstly put into a drying box for drying, the dried board is pressed and tightened by a thicknesser, the tightened board is processed into the specific door edge and the door core board by a sawing machine, the door edge and the door core board are polished by a polishing machine, then the door edge and the door core board are assembled into the required wooden door, then a primer layer with the thickness of 0.3-0.5mm is sequentially coated on the surface of the wooden door, the middle coating and the upper polyurethane external light curing clear paint surface layer absorb water and expand, the wooden hair gradually stands to expose the upper surface, stands for 15-20 minutes, the upper layer is sprayed with fiber digesting enzyme after the upper layer is cured, the wooden hair is composed of micro lignin fibers, the fiber digesting enzyme can dissolve the lignin fibers and eliminate the wooden hair, and the fiber digesting enzyme has extremely strong oil discharging and dirt removing capacity and can be easily washed away in water, compared with the prior art, the wood cleaning agent has the advantages that wood wool on wood can be well removed, the surface of the wood is flat and smooth, and a paint film is smoother.

The invention also discloses production equipment suitable for the wood door production process, which is characterized in that: comprises a drying box, the drying box comprises a box body with an opening at one end, an opening and closing door is arranged at the opening, an air outlet is arranged on the opening and closing door, a track is horizontally arranged at the bottom in the box body, a moving frame is arranged on the track in a sliding manner, a storage rack is arranged on the upper surface of the moving frame, a handle is arranged on the side wall of the storage rack close to one side of the opening and closing door, a plurality of storage plates are arranged on the storage rack at intervals along the vertical direction, a plurality of through holes are arranged on the storage plates and penetrate through the upper surface and the lower surface of the storage plates, a plurality of ventilation pipes are arranged in the box body, a dispersion chamber is arranged on the outer wall of the box body, an electric heating box is arranged at the top outside the box body, an air blower is arranged at one side of the, one end of the ventilation pipe penetrates through the inner wall of the box body and then is communicated with an outlet of the dispersing chamber, a drying agent box is arranged at the top in the box body, drying agents are stored in the drying agent box, and a vent hole communicated with the inside of the drying agent box is formed in the outer wall of the drying agent box.

By adopting the technical scheme, the opening and closing door is hinged with the opening of the box body, the opening can be opened or closed through the opening and closing door, the air outlet holes are a row of mesh holes, the steam evaporated in the drying process can be ensured to pass through the air outlet holes, the external dust or impurities can be prevented from entering the box body through the air outlet holes, the track is fixed on the bottom surface in the box body, the bottom surface of the moving frame is provided with the slide block, the moving frame is arranged on the track in a sliding manner through the slide block, the storage rack is fixed above the moving frame, the handle is fixed on the side wall of one side, close to the opening and closing door, of the storage rack, the storage board is fixed on the storage rack, the board is placed on the storage board during drying, the position, the quantity and the size of the storage board can be selected according to the size of the box body and the size of the board, the plate is convenient to place before drying and take out after drying, the air blower and the electric heating box are fixed at the top of the box body, the dispersion chamber is fixed on the side wall of one side of the box body, which is far away from the opening and closing door, the air blower and the electric heating box are matched to produce hot air, the hot air enters the dispersion chamber through an air inlet pipeline, a plurality of outlets side by side are arranged in the dispersion chamber, one end of a ventilation pipe in the box body penetrates through the inner wall of the box body and then is communicated with the outlets of the dispersion chamber, the ventilation pipes are distributed at intervals in the box body, the dispersion chamber disperses the hot air into a plurality of strands of hot air flow, the hot air flow enters the box body through the ventilation pipes to dry the plate, the drying effect is improved, the drying agent is fixed at the top in the box body, when the, compared with the prior art, the invention pulls the commodity shelf out of the box body for loading and unloading, improves the space utilization in the box body, saves energy and reduces the use cost of enterprises.

The invention is further configured to: the desiccant box is characterized in that an inclined accommodating channel is arranged in the desiccant box, the desiccant is movably arranged in the accommodating channel, the vent hole is communicated with the accommodating channel, the aperture of the vent hole is smaller than the diameter of the desiccant, a gear component used for controlling whether the desiccant moves in the accommodating channel is movably arranged at the bottom of the accommodating channel, and the top of the accommodating channel is connected with a material adding component used for introducing the desiccant into the accommodating channel.

By adopting the technical scheme, the drying agent is a columnar or spherical drying agent and can roll downwards along the inclined accommodating channel under the action of gravity, the material adding component can introduce the drying agent into the accommodating channel, the gear component blocks the drying agent, the drying agent and the gear component are abutted and static to absorb moisture in the accommodating channel, a humidity sensor for detecting the humidity of the drying agent is arranged in the drying agent box, after the drying agent absorbs excessive moisture and loses efficacy, the gear component is controlled not to block the drying agent, the drying agent rolls downwards along the inclined accommodating channel under the action of gravity and is discharged through the bottom end of the accommodating channel, after the drying agent is completely discharged, the gear component is controlled to be in a state of blocking the drying agent, and the material adding component introduces new drying agent into the accommodating channel. The machine does not need to be stopped and replaced, and the production efficiency is improved.

The invention is further configured to: keep off the position subassembly including moving back a groove, electro-magnet, iron plate, sliding block, dog, move back a groove and establish in the drier box and one end and hold the passageway intercommunication, the electro-magnet is fixed and is kept away from the one end that holds the passageway in moving back a groove, the sliding block slides along moving back a groove length direction and sets up in moving back a groove, the sliding block is close to and is equipped with the iron plate on the lateral wall of electro-magnet one side, be equipped with reset spring between iron plate and the electro-magnet, reset spring one end and electro-magnet fixed connection, the reset spring other end and iron plate fixed connection, one side lateral wall fixed connection that the iron plate was kept away from to dog and sliding block.

Through adopting above-mentioned technical scheme, move back position groove lower extreme and hold the passageway intercommunication, the electro-magnet is fixed and is kept away from the tip that holds passageway one end in moving back the position groove, sliding block and the groove lateral wall sliding connection that moves back, one side fixed connection that iron plate and sliding block are close to the electro-magnet, when keeping off the position subassembly and being the state that blocks the drier, reset spring is the extension state, dog one end is located and holds the passageway and blocks the drier, after the drier became invalid, the electro-magnet circular telegram produces magnetism and attracts the iron plate, the iron plate drives the sliding block and is close to the electro-magnet and extrudees reset spring simultaneously in moving back the position groove under the suction of electro-magnet, the sliding block drives the dog and removes to being close to the electro-magnet direction, the dog does not block the drier again in.

The invention is further configured to: the feeding assembly comprises a sealing box, the sealing box is fixed at the top of the box body, an inclined slide way is arranged in the sealing box, the upper end of the slide way is fixedly connected with the inner wall of one side of the sealing box, a groove is arranged at the bottom end of the slide way, a rotating shaft is horizontally arranged in the groove, two ends of the rotating shaft are respectively rotatably connected with two side walls opposite to the groove, three first limiting plates are arranged on the outer wall of the rotating shaft along the circumferential direction at intervals, a 120-degree included angle is formed between every two adjacent first limiting plates, a second limiting plate is arranged at the inner top of the sealing box in a downward extending mode, the bottom end of the second limiting plate is positioned right above the groove, the vertical distance from the second limiting plate to the groove is 1.5 times of the diameter of a drying agent, a third limiting plate is movably arranged on the inner wall of one side of the sealing box, which is far away, the improved drying box is characterized in that a first spring is arranged below the third limiting plate, one end of the first spring is fixedly connected with the inner wall of the sealing box, the other end of the first spring is fixedly connected with the third limiting plate far away from the stepping motor, a feeding channel is arranged at the bottom of the sealing box, a feeding valve used for controlling the feeding channel to be opened and closed is arranged in the feeding channel, a guide plate inclined is arranged at the bottom of the sealing box, the lower end of the guide plate extends to the outer edge of the upper end of the feeding channel, and the top of the accommodating channel is communicated with the lower end of the feeding channel after sequentially penetrating through the drying.

By adopting the technical scheme, the groove at the bottom end of the slide way penetrates through the upper surface and the lower surface of the slide way, the length and the size of the three first limiting plates are the same, the three first limiting plates are distributed in 120 degrees, so that the stress of the rotating shaft in the rotating process is more uniform, the rotating shaft rotates more stably, the rotating shaft drives the three first limiting plates to rotate when rotating, the first limiting plates just can penetrate through the groove, the columnar or spherical drying agent is positioned above the slide way, the second limiting plate is matched with the first limiting plates to block the drying agent at the position above the second limiting plate, the vertical distance from the second limiting plate to the groove is 1.1-1.5 times of the diameter of the drying agent, at most one drying agent is allowed to pass through each time, the first limiting plate can carry one drying agent to pass through each time in the rotating process along with the rotating shaft, the drying agent rotates to the position above the third limiting plate along with the first limiting, under the support of the first spring, the third limit plate props against the first limit plate, the step motor is electrically connected with the control plate, when a drying agent needs to be added, the control plate transmits a pulse signal to the step motor, the step motor drives the third limit plate to rotate downwards and simultaneously extrude the first spring after receiving the electric signal, the first spring is extruded and then shortens to accumulate elastic potential energy, the first limit plate drives the drying agent to rotate downwards under the action of gravity after losing the support of the third limit plate, the drying agent gradually separates from the first limit plate and falls on the inclined guide plate, the elastic potential energy of the first spring is converted into kinetic energy to push the third limit plate to reset after the drying agent successfully falls down, the first limit plate continuously rotates to drive another drying agent to come above the third limit plate, the drying agent falling on the baffle plate rolls downwards along the guide plate to enter the feeding channel, and the feeding valve is opened in a feeding, the desiccant enters the accommodating channel through the feeding channel, new desiccant is continuously added into the accommodating channel through the process, after a proper amount of desiccant is added, the feeding valve is closed, and the feeding valve can be controlled by the control panel or can be controlled by an independent single chip microcomputer.

The invention is further configured to: a reduction chamber is arranged on one side of the drying agent box, a reduction plate with good heat conductivity is horizontally arranged in the reduction chamber, the lower end of the accommodating channel is communicated with the reduction chamber, the drying agent can roll to the upper surface of the reduction plate along the accommodating channel, a drying agent reduction assembly for reducing the drying agent is arranged at the bottom in the reduction chamber, the drying agent reduction assembly comprises a shell, a first heat-conducting plate, a second heat-conducting plate, a heater and a power supply, the shell is fixed at the bottom in the reduction chamber, the shell is hollow, an opening is arranged at the top of the shell, an outward convex bayonet is formed on the inner wall of the opening, the first heat-conducting plate is fixed in the shell, one end face of the first heat-conducting plate is abutted against the bottom face of the reduction plate after penetrating through the bayonet, the second heat-conducting plate is arranged at one end of the first heat-conducting plate far away from the reduction plate, and one, the heating device is characterized in that the second heat-conducting plate is provided with an accommodating groove for accommodating the heater, the heater is fixed in the accommodating groove, one side of the second heat-conducting plate, which is far away from the first heat-conducting plate, is provided with a power supply, the power supply is filled with heat-insulating materials, the power supply is electrically connected with the heater through a lead, and the side wall of the reduction chamber, which is positioned above the reduction plate, is provided with a plurality of radiating.

By adopting the technical scheme, the shell is made of heat insulating materials, the inner wall of the opening at the top of the shell forms a bayonet which protrudes outwards, the bayonet is in a hollow column shape, the reduction plate is made of heat conducting materials, the side wall of the first heat conducting plate is abutted against the inner wall of the bayonet, the connection is firm and stable, the second heat conducting plate is fixed in the shell, one side of the second heat conducting plate, which is far away from the first heat conducting plate, is provided with a heat insulating area, the power supply is arranged in the heat insulating area, the heat insulating area is filled with the heat insulating materials, the safety of the power supply in use is ensured, the power supply is detachably connected with the shell, the power supply is convenient to charge and maintain, after absorbing water failure in the accommodating channel, the drying agent rolls downwards along the accommodating channel and enters the reduction chamber through the lower end of the accommodating channel, the drying agent enters the reduction chamber, the second heat conducting plate transfers heat to the first heat conducting plate, the first heat conducting plate transfers heat to the reduction plate, the reduction plate transfers heat to the drying agent on the upper surface of the reduction plate, the drying agent is heated, the water absorbed inside the drying agent is evaporated, the evaporated water is discharged from the reduction chamber through a plurality of radiating holes, and then is discharged out of the box body through the air outlet holes in the opening and closing door, the radiating holes are formed in the side wall of the reduction chamber above the reduction plate, the water is evaporated and rises upwards, the water can be smoothly discharged from the radiating holes without external force, the radiating holes are distributed on the side wall of the reduction chamber at intervals, the evaporated water is discharged more uniformly and quickly, and the reduction efficiency of the drying agent is improved.

The invention is further configured to: one side that the drying agent box was kept away from to the reduction room is equipped with the recovery tube, recovery tube one end run through behind the reduction room outer wall with the inside intercommunication of reduction room, the box top is equipped with the transfer case, the one end that the reduction room was kept away from to the recovery tube runs through in proper order behind box inner wall, the lateral wall of transfer case one side with the inside intercommunication of transfer case, be equipped with the negative pressure pump on the recovery tube, one side and the seal box top intercommunication of recovery tube are kept away from to the transfer case.

Through adopting above-mentioned technical scheme, transfer case and box top fixed connection, recovery tube one end is located the box and restores the room intercommunication and with being located the reduction board upper surface with reducing, the other end run through behind the box inner wall with the inside intercommunication of transfer case, after the reduction of the indoor drier of reduction, the negative pressure pump starts to make and produces the negative pressure in the recovery tube, the drier on the reduction board passes through the recovery tube under the effect of negative pressure and gets into the transfer case and store, transfer case opposite side and seal box top intercommunication, when the deposit drier in the seal box is not enough, the drier of storing in the transfer case can get into the seal box, and stop in the position deposit of slide above the second limiting plate, prepare for adding new drier in holding the passageway towards, make the drier process of adding sustainable.

The invention is further configured to: a three-way connecting valve is arranged between the air blower and the electric heating box, a first connecting port, a second connecting port and a third connecting port are arranged on the three-way connecting valve, an air outlet of the air blower is communicated with the first connecting port of the three-way connecting valve, the third connecting port of the three-way connecting valve is communicated with an inlet of the electric heating box, an air inlet component for auxiliary air inlet is connected onto the second connecting port of the three-way connecting valve, the air inlet component comprises an air inlet cylinder which is vertically arranged, the upper half part of the air inlet cylinder is a horizontal first air inlet section, the first air inlet section extends to the outside and is communicated with the atmosphere, an unpowered air cap is arranged on the first air inlet section, a second air inlet section is arranged on the side wall of the lower half part of the air inlet cylinder, one end of the second air inlet section is communicated with the inside of the air inlet cylinder, and one end, the bottom of the lower half part of the air inlet cylinder is provided with a trash discharge port communicated with the outside, and the trash discharge port is in a cone barrel shape.

By adopting the technical scheme, each connecting port of the three-way connecting valve has opening and closing functions, when natural wind power exists outdoors, the first connecting port is closed, the second connecting port is opened, the unpowered hood is blown and generates suction force to discharge air in the air inlet cylinder, so that negative pressure is formed in the air inlet cylinder, outdoor natural wind enters the air inlet cylinder through the first air inlet section under the action of the negative pressure, and enters the electric heating box through the second connecting port and the third connecting port through the second air inlet section to be heated, so as to provide hot wind for drying of the plates, compared with the prior art, the invention better utilizes the natural wind power to dry and supply air for the plates, reduces the energy consumption of equipment, saves the use cost, is suitable for popularization in areas with developed wind power, when the external wind power is low, the first connecting port is opened, the second connecting port is closed, and supplies air through the air blower, so that the practicability of the equipment is improved, a detection device for detecting the wind power is arranged outside the first air inlet section, when the wind power detected by the detection device is greater than a preset value, the first connector is closed, the second connector is opened, natural wind power is used for supplying wind, when the wind power detected by the detection device is less than the preset value, the first connector is opened, the second connector is closed, a blower is used for supplying wind, the air inlet cylinder is vertically arranged, the joint of the second air inlet section and the air inlet cylinder is horizontally arranged, a trash discharge port is arranged at the bottom end of the lower half part of the air inlet cylinder, sundries such as rain, snow, hail and sand dust can be doped in natural wind, when the natural wind enters the air inlet cylinder through the first air inlet section, the natural wind enters the second air inlet section from the inner wall of the air inlet cylinder, the sundries such as rain, snow, hail and sand dust fall out from the trash discharge port at the bottom end of the lower half part of the air inlet cylinder due to self weight, and the trash discharge port is in, the natural wind is forced to enter the second air inlet section from the air inlet barrel better, the natural wind is filtered, and the blockage of impurities and the damage to other parts of the equipment are avoided.

The invention is further configured to: the upper half part of the air inlet cylinder is rotatably connected with the lower half part, fins are arranged on the upper half part of the air inlet cylinder along the vertical direction of the first air inlet section, the fins are fixedly connected with the upper half part of the air inlet cylinder, and the fixed center line in the vertical direction of the fins is coincided with the rotating axis line of the upper half part of the air inlet cylinder.

By adopting the technical scheme, the windward side of the fin is vertical to the air inlet of the first air inlet section, the fixed center line of the fin is positioned at the edge of one side of the windward side close to the air inlet of the first air inlet section, when the wind power in one direction is stronger, the windward side of the fin drives the upper half part of the air inlet cylinder to rotate under the action of the wind power, the length direction of the windward side is parallel to the wind direction, the air inlet of the first air inlet section is just opposite to the wind direction at the moment, the air inlet effect is improved, the fixed center line in the vertical direction of the fin is superposed with the rotating axis of the upper half part of the air inlet cylinder, and the upper half part.

The invention also discloses a using method suitable for the production equipment, which is characterized by comprising the following steps:

s1, placing the plate: the opening and closing door is opened, the storage rack is pulled outwards towards the box body through the handle, the storage rack drives the storage plate to move outwards towards the box body, when the storage rack and the storage plate are positioned outside the box body, the plate is placed on the storage plate, then the storage rack is pushed towards the inside of the box body through the handle, the storage rack drives the storage plate and the plate to move towards the inside of the box body, the moving rack slides on the rail in the moving process of the storage rack and the storage plate, and when the storage rack is completely positioned in the box body, the opening and closing door is;

s2, drying the board: when outdoor natural wind power is strong, the first connecting port on the three-way connecting valve is closed, the second connecting port is opened, the unpowered hood is blown to rotate and enables negative pressure to be formed in the first air inlet section, outside air enters the air inlet barrel through the first air inlet section, enters the three-way connecting valve from the second connecting port through the second air inlet section and enters the electric heating box through the third connecting port for heating, when outdoor natural wind power is weak, the second connecting port on the three-way connecting valve is closed, the first connecting port is opened, the air blower is started to convey flowing air to the electric heating box through the first connecting port and the third connecting port in sequence for heating, the heated hot air enters the dispersion chamber through the air inlet pipeline and is dispersed into a plurality of hot air strands through the dispersion chamber, the plurality of hot air strands respectively enter the box body through the plurality of ventilation pipes, and the hot air is contacted with the plate to dry the, the generated water vapor is discharged through an air outlet hole on the opening and closing door, the air is stopped from being supplied after the plate is dried to a certain degree, and the plate is continuously dried by using the waste heat in the box body and the drying agent;

s3, desiccant replacement: when the desiccant reaches a certain humidity, the electromagnet is electrified to generate magnetism to attract the iron block and extrude the reset spring at the same time, the iron block drives the sliding block to slide in the retreating groove towards the direction close to the electromagnet, the sliding block drives the stop block to move towards the retreating groove, when the stop block completely enters the retreating groove, the desiccant in the accommodating channel rolls downwards under the action of gravity to enter the reduction chamber, when the desiccant in the accommodating channel completely enters the reduction chamber, the electromagnet is powered off and loses magnetism, the elastic force of the reset spring pushes the iron block towards the direction away from the electromagnet, the iron block drives the sliding block to slide in the retreating groove towards the direction away from the electromagnet, the sliding block drives the stop block to move towards the direction close to the accommodating channel, when the stop block is positioned in the accommodating channel again, the feed valve is opened, the feed channel is opened, new desiccant is positioned on the slide way, one new desiccant pushes one first limiting plate to rotate and is finally clamped on the third, other new drying agents are stopped on the slide rail by the matching of the second limiting plate and the other first limiting plate, the stepping motor is started to drive the third limiting plate to rotate downwards through the output shaft and extrude the first spring, at the moment, the first limiting plate clamped on the third limiting plate rotates downwards to transport the new drying agents downwards, the new drying agents enter the accommodating channel through the feeding channel under the guiding action of the guide plate and abut against the stop block, the stepping motor stops rotating after driving the third limiting plate to rotate downwards, the first spring drives the third limiting plate to reset, the first limiting plate can carry a new drying agent to stop on the third limiting plate in the rotating process, the process is repeated, the new drying agents with proper amount are added into the accommodating channel, the feeding valve is closed after the addition is completed, and the feeding channel is closed;

s4, drying agent reduction: the drying agent enters the reduction chamber and then is placed above the reduction plate, the heater is communicated with the power supply, the heater starts to heat under the power supply of the power supply, heat is transferred to the reduction plate through the second heat conduction plate and the first heat conduction plate, the reduction plate transfers the heat to the drying agent to carry out drying reduction on the drying agent, water vapor generated in the reduction process is diffused into the box body through the diffusion hole and then is discharged through the air outlet hole in the opening and closing door, the heater is disconnected with the power supply after the drying is finished, the negative pressure pump on the recovery pipe is started to form negative pressure in the recovery pipe at the moment, the drying agent on the reduction plate enters the transfer box through the recovery pipe under the action of the negative pressure, and then enters the sealing box from the top of the sealing box through the transfer box and is;

s5, taking out the plate: when panel is dry to the degree of needs, open the opening and closing door, draw the supporter outward to the box through the handle, the supporter area is put thing board and panel and is moved to the box outside, when panel lies in the box completely outside, takes off panel, rethread handle pushes away the supporter in to the box, the supporter area is put the thing board and is moved in to the box, when the supporter lies in the box completely, closes the opening and closing door.

By adopting the technical scheme, the plates are placed outside the box body and taken out, so that the use space inside the box body is increased, the quantity of the plates capable of being dried each time is increased, and the overall production efficiency is improved; the plate is finally dried by the drying agent and the waste heat, so that the energy consumption is saved, and the use cost is reduced; the machine does not need to be stopped in the process of replacing the drying agent, so that the production continuity is ensured; the drying agent that can be to the inefficacy is retrieved the reduction, has prolonged the life of drying agent, can in time supplement the drying agent to the seal box, has guaranteed the sustainability that the drying agent added, under long-time use, can greatly reduced the manufacturing cost of enterprise, the benefit of improving production.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and 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 these drawings without creative efforts.

Fig. 1 is a schematic structural view of a drying box according to an embodiment of the present invention.

Fig. 2 is a schematic view of a part a of fig. 1.

Fig. 3 is a schematic view of a part of the enlarged structure at B in fig. 1.

Fig. 4 is a schematic structural diagram of a feeding assembly according to an embodiment of the present invention.

FIG. 5 is a schematic view of an air intake assembly according to an embodiment of the present invention.

The labels in the figures are:

101-box body, 102-opening and closing door, 103-air outlet hole, 104-rail, 105-moving frame, 106-shelf, 107-handle, 108-shelf board, 109-through hole, 1010-ventilation pipe, 1011-dispersing chamber, 1012-electric heating box, 1013-blower, 1014-air inlet pipe, 201-drying agent box, 202-vent hole, 203-containing channel, 3-gear component, 301-retreat groove, 302-electromagnet, 303-iron block, 304-sliding block, 305-stop block, 306-return spring, 4-material adding component, 401-sealing box, 402-slideway, 403-groove, 404-rotating shaft, 405-first limiting board, 406-second limiting board, 407-third limiting board, 408-a stepping motor, 409-a first spring, 4010-a feeding channel, 4011-a feeding valve, 4012-a guide plate, 501-a reduction chamber, 502-a reduction plate, 503-a shell, 504-a first heat-conducting plate, 505-a second heat-conducting plate, 506-a heater, 507-a power supply, 508-a divergence hole, 601-a recovery pipe, 602-a transfer box, 603-a negative pressure pump, 701-a three-way connection valve, 702-an air inlet cylinder, 703-a first air inlet section, 704-an unpowered hood, 705-a second air inlet section, 706-a impurity discharging port and 707-fins.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-5, the present invention discloses a wood door production process, which comprises the following steps:

s1, drying: drying the plate until the water content is 12% -15%;

s2, tightening: pressing the dried board to enable the board to be tightened;

s4, polishing: polishing the surfaces of the door edge and the door core plate;

s7, cleaning: cleaning the surface of the wooden door and drying;

s8, spray painting: spraying paint on the surface of the cleaned wooden door;

s9, drying: and drying the painted wooden door.

The invention also discloses production equipment suitable for the wood door production process, and in the specific embodiment of the invention: including the drying cabinet, the drying cabinet includes that one end is equipped with open-ended box 101, the opening part is equipped with opens and shuts door 102, it is equipped with venthole 103 to open and shut door 102, bottom level is equipped with track 104 in the box 101, it removes frame 105 to slide on the track 104, it is equipped with supporter 106 to remove frame 105 upper surface, be equipped with handle 107 on the lateral wall that supporter 106 is close to open and shut door 102 one side, be equipped with a plurality of storage plate 108 along vertical direction interval on the supporter 106, a plurality of through hole 109 has been seted up on the storage plate 108, through hole 109 runs through storage plate 108 upper and lower surface, the inside a plurality of ventilation pipe 1010 that is equipped with of box 101, be equipped with dispersion chamber 1011 on the box 101 outer wall, box 101 outer top is equipped with electric heat box 1012, electric heat box 1012 one side is equipped with air-blower 1013, the air outlet and the, the outlet of the electric heating box 1012 is communicated with the inlet of the dispersion chamber 1011 through an air inlet pipe 1014, one end of the ventilation pipe 1010 penetrates through the inner wall of the box body 101 and then is communicated with the outlet of the dispersion chamber 1011, a drying agent box 201 is arranged at the top inside the box body 101, drying agents are stored in the drying agent box 201, and the outer wall of the drying agent box 201 is provided with a vent hole 202 communicated with the inside of the drying agent box 201.

By adopting the technical scheme, the opening and closing door 102 is hinged with the opening of the box body 101, the opening can be opened or closed through the opening and closing door 102, the air outlet holes 103 are a row of mesh holes, the evaporated water vapor in the drying process can be ensured to pass through and simultaneously external dust or impurities can be prevented from entering the box body 101 through the air outlet holes 103, the track 104 is fixed on the inner bottom surface of the box body 101, the bottom surface of the moving frame 105 is provided with a sliding block, the moving frame 105 is arranged on the track 104 in a sliding way through the sliding block, the object placing frame 106 is fixed above the moving frame 105, the handle 107 is fixed on the side wall of the object placing frame 106 close to one side of the opening and closing door 102, the object placing plate 108 is fixed on the object placing plate 108, the plate is placed on the object placing plate 108 during drying, the position, the number and the size of the object placing plate, the drying of the board is more uniform, the rack 106 and the movable rack 105 can be pulled out of the box 101 through the pull handle 107, the board can be placed before drying and taken out after drying conveniently, the blower 1013 and the electric heating box 1012 are fixed at the top of the box 101, the dispersion chamber 1011 is fixed on the side wall of the box 101 far away from the opening and closing door 102, the blower 1013 and the electric heating box 1012 are matched to produce hot air, the hot air enters the dispersion chamber 1011 through the air inlet pipe 1014, a plurality of outlets are arranged in the dispersion chamber 1011 side by side, one end of the ventilation pipe 1010 in the box 101 penetrates through the inner wall of the box 101 and then is communicated with the outlets of the dispersion chamber 1011, the ventilation pipes 1010 are distributed at intervals in the box 101, the dispersion chamber 1011 disperses the hot air into a plurality of hot air flows and enters the box 101 through the plurality of ventilation pipes 1010 to dry the board, the drying effect is improved, the drying, the blower 1013 and the electric heating box 1012 are turned off, the plate is finally dried by using the residual heat in the box body 101 and the drying agent in the drying agent box 201, a large amount of energy can be saved after long-time use, compared with the prior art, the invention pulls the commodity shelf 106 out of the box body 101 for loading and unloading, the space utilization in the box body 101 is improved, the energy is also saved, and the use cost of enterprises is reduced.

In a specific embodiment of the invention: the desiccant box 201 is internally provided with an inclined accommodating channel 203, the desiccant is movably arranged in the accommodating channel 203, the vent hole 202 is communicated with the accommodating channel 203, the aperture of the vent hole 202 is smaller than the diameter of the desiccant, the bottom of the accommodating channel 203 is movably provided with a blocking component 3 for controlling whether the desiccant moves in the accommodating channel 203, and the top of the accommodating channel 203 is connected with a filler component 4 for guiding the desiccant into the accommodating channel 203.

By adopting the technical scheme, the drying agent is a cylindrical or spherical drying agent and can roll downwards along the inclined accommodating channel 203 under the action of gravity, the material adding component 4 can introduce the drying agent into the accommodating channel 203, the gear component 3 blocks the drying agent, the drying agent and the gear component 3 abut against and stand still in the accommodating channel 203 to absorb moisture, a humidity sensor for detecting the humidity of the drying agent is arranged in the drying agent box 201, after the drying agent absorbs excessive moisture and loses efficacy, the gear component 3 is controlled not to block the drying agent, the drying agent rolls downwards along the inclined accommodating channel 203 under the action of gravity and is discharged through the bottom end of the accommodating channel 203, after the drying agent is completely discharged, the gear component 3 is controlled to be in a state of blocking the drying agent, and the material adding component 4 introduces a new drying agent into the accommodating channel 203, compared with the prior art, the drying agent is more convenient to replace, the drying agent can be replaced in the drying process, the drying agent does not need to be replaced after shutdown, and the production efficiency is improved.

In a specific embodiment of the invention: keep off position subassembly 3 including moving back groove 301, electro-magnet 302, iron plate 303, sliding block 304, dog 305, move back groove 301 and establish in drying agent box 201 and one end and hold the passageway 203 intercommunication, electro-magnet 302 is fixed and is being kept away from the one end of holding passageway 203 at moving back groove 301, sliding block 304 slides along moving back groove 301 length direction and sets up in moving back groove 301, sliding block 304 is equipped with iron plate 303 on being close to the lateral wall on one side of electro-magnet 302, be equipped with reset spring 306 between iron plate 303 and the electro-magnet 302, reset spring 306 one end and electro-magnet 302 fixed connection, reset spring 306 other end and iron plate 303 fixed connection, dog 305 and one side lateral wall fixed connection that iron plate 303 was kept away from to sliding block 304.

By adopting the technical scheme, the lower end of the retreat groove 301 is communicated with the accommodating channel 203, the electromagnet 302 is fixed at the end part of the retreat groove 301 far away from the accommodating channel 203, the sliding block 304 is in sliding connection with the side wall of the retreat groove 301, the iron block 303 is fixedly connected with one side of the sliding block 304 near the electromagnet 302, when the gear assembly 3 is in the state of blocking the desiccant, the return spring 306 is in the extended state, one end of the stopper 305 is located in the accommodating channel 203 to block the desiccant, when the desiccant fails, the electromagnet 302 is energized to generate magnetic attraction to the iron block 303, the iron block 303 drives the sliding block 304 to be close to the electromagnet 302 in the retreat groove 301 under the attraction of the electromagnet 302 and simultaneously press the return spring 306, the sliding block 304 drives the stopper 305 to move towards the direction close to the electromagnet 302, the stopper 305 retreats into the retreat groove 301 and no longer blocks the desiccant, and the desiccant rolls downwards along the inclined accommodating channel 203 under the action of gravity to be discharged.

In a specific embodiment of the invention: the feeding component 4 comprises a seal box 401, the seal box 401 is fixed at the top of the box body 101, an inclined slide way 402 is arranged inside the seal box 401, the upper end of the slide way 402 is fixedly connected with the inner wall of one side of the seal box 401, a groove 403 is arranged at the bottom end of the slide way 402, a rotating shaft 404 is horizontally arranged in the groove 403, two ends of the rotating shaft 404 are respectively rotatably connected with two side walls opposite to the groove 403, three first limiting plates 405 are circumferentially arranged on the outer wall of the rotating shaft 404 at intervals, an included angle of 120 degrees is formed between every two adjacent first limiting plates 405, a second limiting plate 406 is arranged in the seal box 401 in a manner that the top extends downwards, the bottom end of the second limiting plate 406 is positioned right above the groove 403, the vertical distance from the second limiting plate 406 to the groove 403 is 1.5 times of the diameter of a drying agent, and a third limiting plate 407 is movably, third limiting plate 407 one side is equipped with step motor 408, step motor 408's output shaft and third limiting plate 407 one end fixed connection, third limiting plate 407 below is equipped with first spring 409, first spring 409 one end and seal box 401 inner wall fixed connection, step motor 408's one end fixed connection is kept away from to the first spring 409 other end and third limiting plate 407, seal box 401 bottom is equipped with pay-off passageway 4010, be equipped with feed valve 4011 that is used for controlling pay-off passageway 4010 to open and close in the pay-off passageway 4010, the bottom is equipped with the baffle 4012 of slope in the seal box 401, the baffle 4012 lower extreme extends to pay-off passageway 4010 upper end outer edge department, hold behind drier box 201, the box 101 inner wall in proper order run through at passageway 203 top and feed passage 4010 lower extreme intercommunication.

By adopting the technical scheme, the groove 403 at the bottom end of the slide way 402 penetrates through the upper surface and the lower surface of the slide way 402, the three first limit plates 405 are the same in length and size, the three first limit plates 405 are distributed at 120 degrees, so that the stress of the rotating shaft 404 is more uniform in the rotating process and the rotation is more stable, the rotating shaft 404 drives the three first limit plates 405 to rotate when rotating, the first limit plates 405 can just pass through the groove 403, the columnar or spherical drying agent is positioned above the slide way 402, the second limit plate 406 is matched with the first limit plates 405 to stop the drying agent at the position of the slide way 402 above the second limit plate 406, the vertical distance from the second limit plate 406 to the groove 403 is 1.1-1.5 times of the diameter of the drying agent, at most one drying agent is allowed to pass through each time, the first limit plate 405 can carry one drying agent to pass through each time in the rotating process along with the rotating shaft 404, the drying agent, the bottom surface of the first limit plate 405 is abutted against the upper surface of the third limit plate 407, the third limit plate 407 is abutted against the first limit plate 405 under the support of a first spring 409, a stepping motor 408 is electrically connected with a control board, when a drying agent needs to be added, the control board transmits a pulse signal to the stepping motor 408, the stepping motor 408 receives the electrical signal and drives the third limit plate 407 to rotate downwards and simultaneously extrude the first spring 409, the first spring 409 is shortened after being extruded and accumulates elastic potential energy, the first limit plate 405 drives the drying agent to rotate downwards under the action of gravity after losing the support of the third limit plate 407, the drying agent moves downwards gradually to separate from the first limit plate 405 and falls on an inclined 4012, the elastic potential energy of the first spring 409 is converted into elastic potential energy to push the third limit plate 407 to reset after the drying agent successfully falls off, the first limit plate 405 continues to rotate and drive another drying agent to come above the third limit plate 407, the drying agent that falls on the baffle rolls downwards along guide plate 4012 and gets into in pay-off passageway 4010, pay-off valve 4011 opens under the material adding state, the drying agent gets into through pay-off passageway 4010 and holds in the passageway 203, continue to add new drying agent to holding in the passageway 203 through the process above-mentioned, after adding the drying agent of suitable quantity, pay-off valve 4011 closes, pay-off valve 4011 can be controlled through the control panel, also can be controlled through solitary singlechip, compared with prior art, the invention can realize adding the drying agent automatically, it is convenient to add the drying agent, degree of automation is high.

In a specific embodiment of the invention: a reducing chamber 501 is arranged on one side of the drying agent box 201, a reducing plate 502 with good heat conductivity is horizontally arranged in the reducing chamber 501, the lower end of the accommodating channel 203 is communicated with the reducing chamber 501, the drying agent can roll to the upper surface of the reducing plate 502 along the accommodating channel 203, a drying agent reducing component for reducing the drying agent is arranged at the bottom in the reducing chamber 501, the drying agent reducing component comprises a shell 503, a first heat conducting plate 504, a second heat conducting plate 505, a heater 506 and a power supply 507, the shell 503 is fixed at the bottom in the reducing chamber 501, the shell 503 is hollow, an opening is arranged at the top of the shell 503, a bayonet protruding outwards is formed on the inner wall of the opening, the first heat conducting plate 504 is fixed in the shell 503, one end face of the first heat conducting plate 504 is abutted against the bottom surface of the reducing plate 502 after penetrating through the bayonet, and a second heat conducting plate 505 is arranged at one end of the first heat conducting plate, one end face of the second heat conduction plate 505 is abutted against the end face of the first heat conduction plate 504 far away from one end of the reduction plate 502, an accommodating groove for accommodating the heater 506 is arranged on the second heat conduction plate 505, the heater 506 is fixed in the accommodating groove, a power supply 507 is arranged on one side of the second heat conduction plate 505 far away from the first heat conduction plate 504, a heat insulating material is filled outside the power supply 507, the power supply 507 is electrically connected with the heater 506 through a lead, and a plurality of radiating holes 508 are arranged on the side wall of the reduction chamber 501 above the reduction plate 502.

By adopting the technical scheme, the shell 503 is made of heat insulating material, a bayonet which protrudes outwards is formed on the inner wall of the opening at the top of the shell 503, the bayonet is in a hollow column shape, the reduction plate 502 is made of heat conducting material, the side wall of the first heat conducting plate 504 is abutted against the inner wall of the bayonet, the connection is firm and stable, the second heat conducting plate 505 is fixed in the shell 503, one side of the second heat conducting plate 505, which is far away from the first heat conducting plate 504, is provided with a heat insulating area, the power supply 507 is arranged in the heat insulating area, the heat insulating area is filled with heat insulating material, the use safety of the power supply 507 is ensured, the power supply 507 is detachably connected with the shell 503, the power supply 507 is convenient to charge and maintain, after absorbing water failure in the accommodating channel 203, the drying agent rolls downwards along the accommodating channel 203 and enters the reduction chamber 501 through the lower end of the accommodating channel 203, the drying agent is scattered, the heat is transferred to the second heat conducting plate 505, the second heat conducting plate 505 transfers the heat to the first heat conducting plate 504, the first heat conducting plate 504 transfers the heat to the reducing plate 502, the reducing plate 502 transfers the heat to the drying agent on the upper surface, the moisture absorbed by the drying agent after being heated is evaporated, the evaporated moisture is discharged out of the reducing chamber 501 through a plurality of radiating holes 508 and then discharged out of the box body 101 through the air outlet holes 103 on the opening and closing door 102, the radiating holes 508 are arranged on the side wall of the reducing chamber 501 above the reducing plate 502, the moisture is evaporated and rises upwards, the moisture can be smoothly discharged from the radiating holes 508 without external force, and the radiating holes 508 are distributed on the side wall of the reducing chamber 501 at intervals, so that the evaporated moisture is discharged more uniformly and quickly, and the efficiency of the drying agent reduction is improved.

In a specific embodiment of the invention: one side that drying agent box 201 was kept away from to reduction room 501 is equipped with recovery tube 601, recovery tube 601 one end run through behind the reduction room 501 outer wall with the inside intercommunication of reduction room 501, the box 101 top is equipped with transfer case 602, the one end that reduction room 501 was kept away from to recovery tube 601 runs through in proper order behind box 101 inner wall, the lateral wall of transfer case 602 one side with the inside intercommunication of transfer case 602, be equipped with negative pressure pump 603 on the recovery tube 601, one side and the seal box 401 top intercommunication of recovery tube 601 are kept away from to transfer case 602.

By adopting the technical scheme, the transfer box 602 is fixedly connected with the top of the box 101, one end of the recovery pipe 601 is positioned in the box 101, is communicated with the reduction chamber 501 and is positioned on the upper surface of the reduction plate 502, the other end of the recovery pipe penetrates through the inner wall of the box 101 and is communicated with the interior of the transfer box 602, after the desiccant in the reduction chamber 501 is reduced, the negative pressure pump 603 is started to generate negative pressure in the recovery pipe 601, the desiccant on the reduction plate 502 enters the transfer box 602 through the recovery pipe 601 under the action of the negative pressure for storage, the other side of the transfer box 602 is communicated with the top of the sealing box 401, when the reserved desiccant in the sealing box 401 is insufficient, the desiccant stored in the transfer box 602 enters the sealing box 401 and stays at the position of the slide way 402 above the second limiting plate 406 for storage, and sustainable preparation is made for adding new desiccant into the accommodating channel 203, so that the desiccant is added.

In a specific embodiment of the invention: a three-way connection valve 701 is arranged between the blower 1013 and the electric heating box 1012, a first connection port, a second connection port and a third connection port are arranged on the three-way connection valve 701, an air outlet of the blower 1013 is communicated with the first connection port of the three-way connection valve 701, the third connection port of the three-way connection valve 701 is communicated with an inlet of the electric heating box 1012, an air inlet component for auxiliary air inlet is connected to the second connection port of the three-way connection valve 701, the air inlet component comprises an air inlet cylinder 702 which is vertically arranged, the upper half part of the air inlet cylinder 702 is a horizontal first air inlet section 703, the first air inlet section 703 extends to the outdoor and is communicated with the atmosphere, an unpowered air cap 704 is arranged on the first air inlet section 703, a second air inlet section 705 is arranged on the side wall of the lower half part of the air inlet cylinder 702, one end of the second air inlet section 705 is communicated with the inside of the air inlet cylinder 702, one end of the second air inlet section 705, the bottom end of the lower half part of the air inlet cylinder 702 is provided with a trash discharge port 706 communicated with the outside, and the trash discharge port 706 is in a cone barrel shape.

By adopting the technical scheme, each connecting port of the three-way connecting valve 701 has opening and closing functions, when natural wind exists outdoors, the first connecting port is closed, the second connecting port is opened, the unpowered hood 704 is blown and generates suction force, air in the air inlet cylinder 702 is discharged, negative pressure is formed in the air inlet cylinder 702, outdoor natural wind enters the air inlet cylinder 702 through the first air inlet section 703 under the action of the negative pressure, and enters the electric heating box 1012 through the second air inlet section 705 and the third connecting port to be heated, and hot wind is provided for drying plates. The practicability of the equipment is improved, a detection device for detecting the wind power is arranged outside the first air inlet section 703, when the wind power detected by the detection device is larger than a preset value, the first connecting port is closed, the second connecting port is opened, natural wind power is supplied, when the wind power detected by the detection device is smaller than the preset value, the first connecting port is opened, the second connecting port is closed, air is supplied by an air blower 1013, the air inlet cylinder 702 is vertically arranged, the joint of the second air inlet section 705 and the air inlet cylinder 702 is horizontally arranged, the bottom of the lower half part of the air inlet cylinder 702 is provided with a trash discharging port 706, rain, snow, hail, sand and other debris can be doped in the natural wind, when the natural wind enters the air inlet cylinder 702 through the first air inlet section 703, the natural wind enters the second air inlet section 705 from the inner wall of the air inlet cylinder 702, the rain, snow, hail, sand and other debris fall out from the trash discharging port 706 at the bottom of the lower half part of the air, the ventilation area is reduced, so that wind pressure is formed between the second air inlet section 705 and the inside of the air inlet barrel 702, natural wind is forced to enter the second air inlet section 705 from the air inlet barrel 702 better, the natural wind is filtered, and the blockage of impurities and the damage to other parts of the equipment are avoided.

In a specific embodiment of the invention: the upper half part of the air inlet cylinder 702 is rotatably connected with the lower half part, the upper half part of the air inlet cylinder 702 is provided with a fin 707 along the vertical direction of the first air inlet section 703, the fin 707 is fixedly connected with the upper half part of the air inlet cylinder 702, and the fixed center line of the fin 707 in the vertical direction is superposed with the rotating axis center line of the upper half part of the air inlet cylinder 702.

By adopting the technical scheme, the windward side of the fin 707 is perpendicular to the air inlet of the first air inlet section 703, and the fixed center line of the fin 707 is positioned at the edge of the windward side close to one side of the air inlet of the first air inlet section 703, when the wind power in one direction is strong, the windward side of the fin 707 drives the upper half part of the air inlet drum 702 to rotate under the action of the wind power, so that the length direction of the windward side is parallel to the wind direction, at the moment, the air inlet of the first air inlet section 703 is opposite to the wind direction, the air inlet effect is improved, the fixed center line in the vertical direction of the fin 707 coincides with the rotating axis of the upper half part of the air inlet drum 702, and the upper half part.

The invention also discloses a use method suitable for the production equipment, and in the specific embodiment of the invention, the use method comprises the following steps:

s1, placing the plate: opening the opening and closing door 102, pulling the commodity shelf 106 to the outside of the box body 101 through the handle 107, enabling the commodity shelf 106 to carry the commodity placing plate 108 to move towards the outside of the box body 101, placing a plate on the commodity placing plate 108 after the commodity shelf 106 and the commodity placing plate 108 are located on the outside of the box body 101, then pushing the commodity shelf 106 to the inside of the box body 101 through the handle 107, enabling the commodity shelf 106 to carry the commodity placing plate 108 and the plate to move towards the inside of the box body 101, enabling the moving frame 105 to slide on the rail 104 in the moving process of the commodity shelf 106 and the commodity placing plate 108, and closing the opening and closing door 102 when the commodity shelf 106;

s2, drying the board: when outdoor natural wind power is strong, the first connecting port on the three-way connecting valve 701 is closed, the second connecting port is opened, the unpowered hood 704 is blown to rotate and enables negative pressure to be formed in the first air inlet section 703, outside air enters the air inlet cylinder 702 through the first air inlet section 703 and then enters the three-way connecting valve 701 from the second connecting port through the second air inlet section 705 and then enters the electric heating box 1012 through the third connecting port to be heated, when outdoor natural wind power is weak, the second connecting port on the three-way connecting valve 701 is closed, the first connecting port is opened, the air blower 1013 is started to convey flowing air to the electric heating box 1012 through the first connecting port and the third connecting port in sequence to be heated, the heated hot air enters the dispersion chamber 1011 through the pipeline 1014 to be supplied with air and is dispersed into a plurality of hot air through the dispersion chamber 1011, and the plurality of hot air enters the box body 101 through the plurality of ventilation pipes 1010, the hot air is contacted with the plate to dry the plate, the generated water vapor is discharged through the air outlet 103 on the opening and closing door 102, the air is stopped from being supplied after the plate is dried to a certain degree, and the plate is continuously dried by utilizing the residual heat in the box body 101 and the drying agent;

s3, desiccant replacement: when the desiccant reaches a certain humidity, the electromagnet 302 is electrified to generate magnetic attraction to the iron block 303 and simultaneously press the return spring 306, the iron block 303 drives the sliding block 304 to slide in the retreat groove 301 towards the direction close to the electromagnet 302, the sliding block 304 drives the stop block 305 to move towards the retreat groove 301, when the stop block 305 completely enters the retreat groove 301, the desiccant in the accommodating channel 203 rolls downwards under the action of gravity to enter the reduction chamber 501, when all the desiccant in the accommodating channel 203 enters the reduction chamber 501, the electromagnet 302 is powered off and loses magnetism, the iron block 303 is pushed towards the direction far away from the electromagnet 302 by the elasticity of the return spring 306, the iron block 303 drives the sliding block 304 to slide in the retreat groove 301 towards the direction far away from the electromagnet 302, the sliding block 304 drives the stop block 305 to move towards the direction close to the accommodating channel 203, when the stop block 305 is located in the accommodating channel 203 again, the feeding valve 4011 is opened, and the feeding channel 401, the new drying agent is positioned on the slide way 402, wherein one new drying agent pushes one first limit plate 405 to rotate and finally is clamped on the third limit plate 407 together with the first limit plate 405, other new drying agents are blocked on the slide way 402 by the cooperation of the second limit plate 406 and the other first limit plate 405, the stepping motor 408 is started to drive the third limit plate 407 to rotate downwards through the output shaft and extrude the first spring 409, at the moment, the first limit plate 405 clamped on the third limit plate 407 rotates downwards to transport the new drying agent downwards, the new drying agent enters the accommodating channel 203 through the feeding channel 4010 under the guiding action of the guide plate 4012 and is abutted against the block 305, the stepping motor 408 stops rotating after driving the third limit plate 407 to rotate downwards, the first spring 409 drives the third limit plate 407 to reset, the first limit plate 405 can carry one new drying agent to stop on the third limit plate 407 in the rotating process, the process is repeated, a proper amount of new drying agent is added into the accommodating channel 203, the feeding valve 4011 is closed after the addition is finished, and the feeding channel 4010 is closed;

s4, drying agent reduction: the drying agent enters the reduction chamber 501 and then is placed above the reduction plate 502, the heater 506 is communicated with the power supply 507, the heater 506 starts to heat under the power supply of the power supply 507, heat is transferred to the reduction plate 502 through the second heat conduction plate 505 and the first heat conduction plate 504, the reduction plate 502 transfers the heat to the drying agent to dry and reduce the drying agent, water vapor generated in the reduction process is diffused into the box body 101 through the diffusion hole 508 and then is discharged through the air outlet hole 103 on the opening and closing door 102, the heater 506 is disconnected with the power supply 507 after the drying is finished, at the moment, the negative pressure pump 603 on the recovery pipe 601 starts to form negative pressure in the recovery pipe 601, the drying agent on the reduction plate 502 enters the transfer box 602 through the recovery pipe 601 under the action of the negative pressure, and then enters the sealing box 401 from the top of the sealing box 401 through the transfer box 602 and is positioned on the slide way 402;

s5, taking out the plate: when the plates are dry to a required degree, the opening and closing door 102 is opened, the handle 107 pulls the storage rack 106 outwards of the box body 101, the storage rack 106 carries the storage plate 108 and the plates to move outwards of the box body 101, when the plates are completely positioned outside the box body 101, the plates are taken down, then the handle 107 pushes the storage rack 106 inwards of the box body 101, the storage rack 106 carries the storage plate 108 to move into the box body 101, and when the storage rack 106 is completely positioned in the box body 101, the opening and closing door 102 is closed.

By adopting the technical scheme, the plates are placed outside the box body 101 when taken out, so that the use space inside the box body 101 is increased, the quantity of the plates capable of being dried each time is increased, and the overall production efficiency is improved; the plate is finally dried by the drying agent and the waste heat, so that the energy consumption is saved, and the use cost is reduced; the machine does not need to be stopped in the process of replacing the drying agent, so that the production continuity is ensured; the desiccant recycling device has the advantages that the desiccant which is out of work can be recycled, the service life of the desiccant is prolonged, the desiccant can be supplemented into the seal box 401 in time, the sustainability of desiccant addition is guaranteed, the production cost of enterprises can be greatly reduced under the long-time use, and the production benefit is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A wood door production process is characterized by comprising the following steps:

s1, drying: drying the plate until the water content is 12% -15%;

s2, tightening: pressing the dried board to enable the board to be tightened;

s4, polishing: polishing the surfaces of the door edge and the door core plate;

s7, cleaning: cleaning the surface of the wooden door and drying;

s8, spray painting: spraying paint on the surface of the cleaned wooden door;

s9, drying: and drying the painted wooden door.

2. A production apparatus suitable for the wooden door production process of claim 1, characterized in that: comprises a drying box, the drying box comprises a box body with an opening at one end, an opening and closing door is arranged at the opening, an air outlet is arranged on the opening and closing door, a track is horizontally arranged at the bottom in the box body, a moving frame is arranged on the track in a sliding manner, a storage rack is arranged on the upper surface of the moving frame, a handle is arranged on the side wall of the storage rack close to one side of the opening and closing door, a plurality of storage plates are arranged on the storage rack at intervals along the vertical direction, a plurality of through holes are arranged on the storage plates and penetrate through the upper surface and the lower surface of the storage plates, a plurality of ventilation pipes are arranged in the box body, a dispersion chamber is arranged on the outer wall of the box body, an electric heating box is arranged at the top outside the box body, an air blower is arranged at one side of the, one end of the ventilation pipe penetrates through the inner wall of the box body and then is communicated with an outlet of the dispersing chamber, a drying agent box is arranged at the top in the box body, drying agents are stored in the drying agent box, and a vent hole communicated with the inside of the drying agent box is formed in the outer wall of the drying agent box.

3. The production equipment of the wooden door production process according to claim 2, characterized in that: the desiccant box is characterized in that an inclined accommodating channel is arranged in the desiccant box, the desiccant is movably arranged in the accommodating channel, the vent hole is communicated with the accommodating channel, the aperture of the vent hole is smaller than the diameter of the desiccant, a gear component used for controlling whether the desiccant moves in the accommodating channel is movably arranged at the bottom of the accommodating channel, and the top of the accommodating channel is connected with a material adding component used for introducing the desiccant into the accommodating channel.

4. The production equipment of the wooden door production process according to claim 3, characterized in that: keep off the position subassembly including moving back a groove, electro-magnet, iron plate, sliding block, dog, move back a groove and establish in the drier box and one end and hold the passageway intercommunication, the electro-magnet is fixed and is kept away from the one end that holds the passageway in moving back a groove, the sliding block slides along moving back a groove length direction and sets up in moving back a groove, the sliding block is close to and is equipped with the iron plate on the lateral wall of electro-magnet one side, be equipped with reset spring between iron plate and the electro-magnet, reset spring one end and electro-magnet fixed connection, the reset spring other end and iron plate fixed connection, one side lateral wall fixed connection that the iron plate was kept away from to dog and sliding block.

5. The production equipment of the wooden door production process according to claim 3, characterized in that: the feeding assembly comprises a sealing box, the sealing box is fixed at the top of the box body, an inclined slide way is arranged in the sealing box, the upper end of the slide way is fixedly connected with the inner wall of one side of the sealing box, a groove is arranged at the bottom end of the slide way, a rotating shaft is horizontally arranged in the groove, two ends of the rotating shaft are respectively rotatably connected with two side walls opposite to the groove, three first limiting plates are arranged on the outer wall of the rotating shaft along the circumferential direction at intervals, a 120-degree included angle is formed between every two adjacent first limiting plates, a second limiting plate is arranged at the inner top of the sealing box in a downward extending mode, the bottom end of the second limiting plate is positioned right above the groove, the vertical distance from the second limiting plate to the groove is 1.5 times of the diameter of a drying agent, a third limiting plate is movably arranged on the inner wall of one side of the sealing box, which is far away, the improved drying box is characterized in that a first spring is arranged below the third limiting plate, one end of the first spring is fixedly connected with the inner wall of the sealing box, the other end of the first spring is fixedly connected with the third limiting plate far away from the stepping motor, a feeding channel is arranged at the bottom of the sealing box, a feeding valve used for controlling the feeding channel to be opened and closed is arranged in the feeding channel, a guide plate inclined is arranged at the bottom of the sealing box, the lower end of the guide plate extends to the outer edge of the upper end of the feeding channel, and the top of the accommodating channel is communicated with the lower end of the feeding channel after sequentially penetrating through the drying.

6. The production equipment of the wooden door production process according to claim 3, characterized in that: a reduction chamber is arranged on one side of the drying agent box, a reduction plate with good heat conductivity is horizontally arranged in the reduction chamber, the lower end of the accommodating channel is communicated with the reduction chamber, the drying agent can roll to the upper surface of the reduction plate along the accommodating channel, a drying agent reduction assembly for reducing the drying agent is arranged at the bottom in the reduction chamber, the drying agent reduction assembly comprises a shell, a first heat-conducting plate, a second heat-conducting plate, a heater and a power supply, the shell is fixed at the bottom in the reduction chamber, the shell is hollow, an opening is arranged at the top of the shell, an outward convex bayonet is formed on the inner wall of the opening, the first heat-conducting plate is fixed in the shell, one end face of the first heat-conducting plate is abutted against the bottom face of the reduction plate after penetrating through the bayonet, the second heat-conducting plate is arranged at one end of the first heat-conducting plate far away from the reduction plate, and one, the heating device is characterized in that the second heat-conducting plate is provided with an accommodating groove for accommodating the heater, the heater is fixed in the accommodating groove, one side of the second heat-conducting plate, which is far away from the first heat-conducting plate, is provided with a power supply, the power supply is filled with heat-insulating materials, the power supply is electrically connected with the heater through a lead, and the side wall of the reduction chamber, which is positioned above the reduction plate, is provided with a plurality of radiating.

7. The production equipment of the wooden door production process according to claim 6, characterized in that: one side that the drying agent box was kept away from to the reduction room is equipped with the recovery tube, recovery tube one end run through behind the reduction room outer wall with the inside intercommunication of reduction room, the box top is equipped with the transfer case, the one end that the reduction room was kept away from to the recovery tube runs through in proper order behind box inner wall, the lateral wall of transfer case one side with the inside intercommunication of transfer case, be equipped with the negative pressure pump on the recovery tube, one side and the seal box top intercommunication of recovery tube are kept away from to the transfer case.

8. The production equipment of a wooden door production process according to any one of claims 2 to 7, characterized in that: a three-way connecting valve is arranged between the air blower and the electric heating box, a first connecting port, a second connecting port and a third connecting port are arranged on the three-way connecting valve, an air outlet of the air blower is communicated with the first connecting port of the three-way connecting valve, the third connecting port of the three-way connecting valve is communicated with an inlet of the electric heating box, an air inlet component for auxiliary air inlet is connected onto the second connecting port of the three-way connecting valve, the air inlet component comprises an air inlet cylinder which is vertically arranged, the upper half part of the air inlet cylinder is a horizontal first air inlet section, the first air inlet section extends to the outside and is communicated with the atmosphere, an unpowered air cap is arranged on the first air inlet section, a second air inlet section is arranged on the side wall of the lower half part of the air inlet cylinder, one end of the second air inlet section is communicated with the inside of the air inlet cylinder, and one end, the bottom of the lower half part of the air inlet cylinder is provided with a trash discharge port communicated with the outside, and the trash discharge port is in a cone barrel shape.

9. The production equipment of the wooden door production process according to claim 8, characterized in that: the upper half part of the air inlet cylinder is rotatably connected with the lower half part, fins are arranged on the upper half part of the air inlet cylinder along the vertical direction of the first air inlet section, the fins are fixedly connected with the upper half part of the air inlet cylinder, and the fixed center line in the vertical direction of the fins is coincided with the rotating axis line of the upper half part of the air inlet cylinder.

10. A method of using production equipment suitable for the wood door production process of claim 9, comprising the steps of: