CN108927865A - A kind of improved method of wood preservation - Google Patents

Abstract

The invention discloses a kind of improved methods of wood preservation, including apparatus main body, it is set to the intracorporal anti-corrosive apparatus of described device master and is set to the intracorporal feeding device of described device master, the anti-corrosive apparatus includes being set in described device main body and the first cavity of opening upwards, the second cavity is symmetrically arranged in the left and right sides inner wall of first cavity, the first sliding block is slidably provided in second cavity, what is be connected in the inner wall of second cavity far from first cavity side is provided with third cavity, first motor is fixedly installed in the downside inner wall of the third cavity, the upper end power of the first motor is connected with the first lead screw；The present invention is directed to design one kind and can be filled timber inner wall gap by immersion liquid to reinforce timber hardness, and the device that the worm's ovum inside timber is killed and then is modified to timber.

Description

A kind of improved method of wood preservation

Technical field

The present invention relates to wood preservation technical field, the improved method of specifically a kind of wood preservation.

Background technique

It often can all use to wood materials when we fit up in order to increase the Original of finishing and fit up, But phenomena such as aoxidizing blackening, damaging by worms can all occur after these timber are using one end time, therefore, made in these timber Used time needs to carry out spray painting processing, at that time even if spray painting after only by Wood surface and air exclusion, can not change in timber Therefore the structure in portion designs one kind and can be filled by immersion liquid to timber inner wall gap and reinforce timber hardness, and will Worm's ovum inside timber kill so that the improved method of a kind of wood preservation that timber is modified it is really necessary to.

Summary of the invention

Technical problem to be solved by the invention is to provide a kind of improved methods of wood preservation, are able to solve above-mentioned existing In the art the problem of.

The present invention is achieved through the following technical solutions: a kind of improved method of wood preservation of the invention, including Apparatus main body is set to the intracorporal anti-corrosive apparatus of described device master and is set to the intracorporal feeding device of described device master, institute Stating anti-corrosive apparatus includes being set in described device main body and the first cavity of opening upwards, the left and right sides of first cavity It is symmetrically arranged with the second cavity in inner wall, the first sliding block, second cavity are slidably provided in second cavity What is be connected in inner wall far from first cavity side is provided with third cavity, consolidates in the downside inner wall of the third cavity Surely it is provided with first motor, the upper end power of the first motor is connected with the first lead screw, the left side of first sliding block Extension is fixedly connected on end face to be passed through in the third cavity and be connected with the second sliding block, institute with first threads of lead screw It states and is fixedly installed the second motor in the first sliding block, the upper end of second motor is connected with the first cone by shaft power Gear, the lower end of second motor are connected with second bevel gear by shaft power, the downside of first sliding block and It is rotatably provided with the first rotating block in second cavity, is provided with opening upwards in first rotating block and can First to be meshed with the second bevel gear bores tooth socket, is provided with the 4th cavity, institute in the downside inner wall of second cavity The downside end face for stating the first rotating block is connected with the second lead screw that can be rotated in the 4th cavity by shaft secure fit, The third sliding block being cooperatively connected with second threads of lead screw, the 4th cavity are slidably provided in 4th cavity What is be connected between the inner wall and first cavity of first cavity side is provided with first sliding groove, and the third is sliding Block is fixedly connected with the Four-slider for extending and being passed through in the first sliding groove, left and right on the end face of first cavity side Can slide up and down in first cavity is fixedly connected between the opposing end surface of the symmetrically arranged Four-slider Five sliding blocks on the upside of first sliding block and are located in second cavity and are rotatably provided with the second rotating block, and described second The second cone tooth socket that Open Side Down and can be meshed with the first bevel gear, the second cavity upside are provided in rotating block Described device main body left and right sides end face on be fixedly connected with the first fixed block, be provided with opening in the described first solid motion block It is directed away from the 5th cavity of first cavity side, passes through shaft secure fit on the upside end face of second rotating block It is connected with the third lead screw for extending and being passed through in the 5th cavity, is slidably provided with and the third in the 5th cavity The 6th sliding block that threads of lead screw is cooperatively connected, the 6th sliding block are fixedly connected on the end face far from first cavity side The 7th sliding block mutually abutted with first fixed block far from the end face of first cavity side, wherein left side it is described Third rotating block is rotatably provided in the upper inside walls of 5th cavity, and the upper end of the third lead screw in left side extends through institute In the upper inside walls for stating the 5th cavity for being rotatablely connected with left side by bearing after third rotating block, the 5th of left side the What cavity was connected in the rear side inner wall of upper inside walls is provided with the 6th cavity, the upside of the 7th sliding block in left side It is fixedly connected with the first elevator on face, cover board, the right side of the cover board are fixedly connected in the right end face of first elevator It is fixedly connected with the second elevator on side end face, the first arc chute, first arc are provided in second elevator Perforative up and down in the downside inner wall of sliding slot to be provided with the second arc chute, the upper end of the 7th sliding block on right side extends through The third elevator that can be slided in first arc chute is fixedly installed after second arc chute.

The feeding device includes being set on the downside of the 4th cavity in left side in inner wall as a preferred technical solution, The 7th cavity, be slidably provided with the 8th sliding block in the 7th cavity, the left end face of the 8th sliding block with it is described The first spring is fixedly connected between the inner left wall of 7th cavity, the 7th cavity is in the upper inside walls of inner left wall What is be connected is provided with the 8th cavity being connected with the 4th cavity, is slidably provided with right end in the 8th cavity Extend the 9th sliding block that is passed into the 4th cavity, the downside of the 9th sliding block and be located at can in the 8th cavity Sliding is provided with the tenth sliding block, wherein is provided with opening upwards in the 8th sliding block and can match with the tenth sliding block The first groove closed, is fixedly connected with second between the upside end face of the tenth sliding block and the downside end face of the 9th sliding block Spring, what is be connected on the right side of the 7th cavity upper inside walls is provided with the first fluid-through tube, the upper end of first fluid-through tube First cavity is extended upwardly at the right side inner wall of upper end opening and is connected with first cavity, the described 7th What is be connected in the right side inner wall of cavity is provided with the second fluid-through tube, is fixedly connected with and prolongs in the right end face of the 8th sliding block Stretch the first sliding shoe being passed through in second fluid-through tube, be connected in the downside inner wall of the 7th cavity be provided with and institute The third fluid-through tube that the second fluid-through tube is connected is stated, the right end of the third fluid-through tube extends to the right and extends described device master Outside the right end face of body, being provided with for being connected in the downside inner wall of the first sliding groove on right side first is begun to speak, wherein right side The Four-slider downside end face on be fixedly connected with and can begin to speak the second sliding shoe matched with described first, described It is provided in two sliding shoes and the Four-slider up and down in the first through hole of setting, the inner left wall of the first through hole Left and right is perforative to be provided with the second through-hole, described first begin to speak it is interior be slidably provided with third sliding shoe, first begins to speak left side What is be connected between the lower end of inner wall and the upper inside walls of the third fluid-through tube is provided with the 4th fluid-through tube.

Leading due to the 5th cavity inner wall when the 6th sliding block is in the 5th cavity as a preferred technical solution, Sliding effect can not rotate in the 6th sliding block and be only capable of moving up, and when the 6th sliding block in left side rise to 6th sliding block described in when the lower end surface of the third rotating block abuts against is transferred in the 6th cavity, at this time the 6th sliding block without Method continues to rise and no longer generates relative motion with the third lead screw, drives the described 6th under the rotation of third lead screw at this time Sliding block rotates backward, and first brings the 6th sliding block into when the reversion of third lead screw in the 5th cavity and in the 6th sliding block The 6th sliding block can move down in the 5th cavity when abutting against with the front end face of the 5th cavity.

The first check valve is fixedly installed in the 4th fluid-through tube as a preferred technical solution, described first is unidirectional Valve action be only make the liquid in the third fluid-through tube enter described first begin to speak in and can not reverse circulated.

As a preferred technical solution, in the 5th sliding block left and right array have respectively front and back through setting and be open to On card slot, when carrying out anticorrosive work, plank can be stuck in the card slot by user of service.

Inlet tube, the feed liquor are provided with and communicated in the inner left wall of the 7th cavity as a preferred technical solution, The effective immersion liquid supplementary device to be connected to the external world.

That wants to be connected in the described first right side inner wall begun to speak as a preferred technical solution, is provided with the first slide guide Slot is fixedly connected with the first slider guide for extending and being passed through in first guide runner in the right end face of the third sliding shoe.

Specific works method:

Firstly, the second electric motor starting, and then first bevel gear rotation is driven by shaft, and then drives the by the second rotating block Three lead screws rotation, and then drive the 6th sliding block rise in the 5th cavity, when the 6th sliding block in the 5th cavity to greatest extent on When rising, the back end surface of the 6th sliding block in left side loses constraint, at this time second motor stalls on right side, and the second of left side Motor continues to rotate, and the 6th sliding block in left side follows the third lead screw in left side to continue to rotate at this time, and then is transferred to the 6th cavity It is interior and stop operating when the back end surface of the 6th sliding block in left side and the right side inner wall of the 6th cavity abut against, in this process In, the 6th sliding block drives cover board rotation and the upper end opening of the first cavity to be staggered by the 7th sliding block；

Secondly, timber can be placed on card slot by user of service at this time, first motor is inverted at this time, and then passes through the first lead screw band Dynamic second sliding block moves down, and then the second motor is driven to move down, and then second bevel gear is driven to be caught in the first cone tooth socket Interior, the second motor drives second bevel gear rotation by shaft at this time, and then drives the rotation of the second lead screw by the first rotating block, And then third sliding block is driven to move down, and then drive the decline of the 5th sliding block by Four-slider, and then drive and be placed in card slot Interior timber decline is immersed in the immersion liquid in the first cavity, in the process, the promotion when the second lead screw drops to certain position 9th sliding block moves down, so by second spring push the tenth sliding block protrude into the 7th cavity, and the 5th sliding block gradually During decline, when liquid level is lower than the upper end opening of the first fluid-through tube in the first cavity, the 8th sliding block is in original state, The liquid in inlet tube is entered in third fluid-through tube by the 7th cavity at this time, and the Four-slider on right side drops to second Sliding shoe is caught in first when beginning to speak interior, and the liquid in third fluid-through tube is entered by the 4th fluid-through tube, the second through-hole, first through hole It is supplemented in the first cavity, when the liquid level in the first cavity is higher than the upper end opening of the first fluid-through tube, in the first cavity Liquid entered in the 7th cavity on the left of the 8th sliding block by the first fluid-through tube, at this time due to the first fluid-through tube of atmospheric pressure Interior the 8th sliding block of liquid-driving moves through the 8th sliding block to the left and separates inlet tube with third fluid-through tube, at this time Third fluid-through tube stops the feed flow into the first cavity, and is moved to when the first groove is connected with the 8th cavity in the 8th sliding block Ten sliding blocks are caught in the movement in the first groove and then limiting the 8th sliding block, while the first sliding shoe detaches the second fluid-through tube, this When the 7th cavity be connected with the second fluid-through tube, the liquid in the first fluid-through tube enters third fluid-through tube by the second fluid-through tube It is interior and flow out；

Finally, first motor is again started up when the 5th sliding block drops to extreme lower position in the first cavity, and then pass through first Lead screw drives the second sliding block to move up, and then first bevel gear is driven to engage into the second cone tooth socket, at this time the second of left side Electric motor starting, and then the rotation of the 6th sliding block is driven by third lead screw, the downside end face of the 6th sliding block is by the 6th cavity at this time The constraint of downside inner wall rotates forward, and then the 6th sliding block is driven to go in the 5th cavity in the 6th cavity to preceding rotation, when the The second electric motor starting on the right side of when the front inner wall of the front end face of six sliding blocks and the 5th cavity abuts against, and then drive the 7th to slide Block drops to original state, and the upper end opening of the first cavity is sealed by cover board at this time, the third elevator in cover board rotation It can slide into the first arc chute and form the constraint slided up and down to the second elevator, at this time in the mistake of third elevator decline Cheng Zhongke drives the decline of the second elevator.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, when carrying out wood preservation by the present apparatus, Second electric motor starting, and then first bevel gear rotation is driven by shaft, and then drive third lead screw to turn by the second rotating block It is dynamic, and then the 6th sliding block is driven to rise in the 5th cavity, when the 6th sliding block rises to greatest extent in the 5th cavity, left side The back end surface of the 6th sliding block lose constraint, second motor stalls on right side at this time, and second motor in left side continues Rotation, the 6th sliding block in left side follows the third lead screw in left side to continue to rotate at this time, and then is transferred in the 6th cavity and on a left side The back end surface of the 6th sliding block and the right side inner wall of the 6th cavity of side stop operating when abutting against, and in the process, the 6th is sliding Block drives cover board rotation and the upper end opening of the first cavity to be staggered by the 7th sliding block, and timber can be placed in by user of service at this time On card slot, first motor is inverted at this time, and then drives the second sliding block to move down by the first lead screw, and then drives the second motor It moves down, and then second bevel gear is driven to be caught in the first cone tooth socket, the second motor drives the second cone tooth by shaft at this time Wheel rotation, and then the rotation of the second lead screw is driven by the first rotating block, and then drive third sliding block to move down, and then pass through the Four-slider drives the decline of the 5th sliding block, and then the timber decline being placed in card slot is driven to immerse in the immersion liquid in the first cavity, In the process, it pushes the 9th sliding block to move down when the second lead screw drops to certain position, and then is pushed away by second spring Dynamic tenth sliding block protrudes into the 7th cavity, and during the 5th sliding block is gradually reduced, when in the first cavity liquid level lower than the When the upper end opening of one fluid-through tube, the 8th sliding block is in original state, and the liquid in inlet tube is entered by the 7th cavity at this time Into third fluid-through tube, and when the Four-slider on right side drops to the second sliding shoe and is caught in first and begins to speak interior, third fluid-through tube Interior liquid is entered in the first cavity and is supplemented by the 4th fluid-through tube, the second through-hole, first through hole, when in the first cavity Liquid level when being higher than the upper end opening of the first fluid-through tube, the liquid in the first cavity enters the 8th sliding block by the first fluid-through tube In 7th cavity in left side, at this time since the 8th sliding block of liquid-driving in the first fluid-through tube of atmospheric pressure moves and leads to the left The 8th sliding block is crossed to separate inlet tube and third fluid-through tube, third fluid-through tube stops the feed flow into the first cavity at this time, and The tenth sliding block when the first groove is connected with the 8th cavity, which is moved to, in the 8th sliding block is caught in the first groove limitation the 8th in turn The movement of sliding block, while the first sliding shoe detaches the second fluid-through tube, the 7th cavity is connected with the second fluid-through tube at this time, and first Liquid in fluid-through tube is entered in third fluid-through tube and is flowed out by the second fluid-through tube, under the 5th sliding block is in the first cavity First motor is again started up when minimizing position, and then drives the second sliding block to move up by the first lead screw, and then is driven First bevel gear engages into the second cone tooth socket, at this time second electric motor starting in left side, and then drives the 6th by third lead screw Sliding block rotation, the downside end face of the 6th sliding block is rotated forward by the constraint of inner wall on the downside of the 6th cavity at this time, and then drives the Six sliding blocks are gone in the 5th cavity in the 6th cavity to preceding rotation, when in the front end face of the 6th sliding block and the front side of the 5th cavity The second electric motor starting on the right side of when wall abuts against, and then the 7th sliding block is driven to drop to original state, cover board is empty by first at this time The upper end opening of chamber is sealed, and in cover board rotation, third elevator can be slid into the first arc chute and to the second elevator The constraint slided up and down is formed, the second elevator can be driven to decline during third elevator declines at this time, by this dress Setting can carry out impregnating to wood board product modified processing, while can be in carrying out soaking process, as the consumption of immersion liquid is to it It is supplemented, while the woodwork for completing modified work can be sent out and be detached from soak, and then personnel convenient to use are removed, Structure is simple but work efficiency is high, is worth being recommended to use.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is a kind of schematic diagram of internal structure of the improved method of wood preservation of the invention；

Fig. 2 is the enlarged diagram of " A " in Fig. 1；

Fig. 3 is the enlarged diagram of " B " in Fig. 2；

Fig. 4 is the enlarged diagram of " C " in Fig. 1；

Fig. 5 is the enlarged diagram of " D " in Fig. 1

Fig. 6 is the enlarged diagram of " E " in Fig. 1；

Fig. 7 is the direction structure schematic diagram of " F-F " in Fig. 4；

Fig. 8 is the direction structure schematic diagram of " G-G " in Fig. 4.

Specific embodiment

As Figure 1-Figure 8, the improved method of a kind of wood preservation of the invention, including apparatus main body 11, it is set to institute The feeding device stating the anti-corrosive apparatus in apparatus main body 11 and being set in described device main body 11, the anti-corrosive apparatus include It is set in described device main body 11 and the first cavity 21 of opening upwards, it is right in the left and right sides inner wall of first cavity 21 What is claimed is provided with the second cavity 20, and the first sliding block 45, second cavity 20 are slidably provided in second cavity 20 What is be connected in inner wall far from 21 side of the first cavity is provided with third cavity 55, in the downside of the third cavity 55 It is fixedly installed first motor 53 in wall, the upper end power of the first motor 53 is connected with the first lead screw 54, and described Extension is fixedly connected in the left end face of one sliding block 45 to be passed through in the third cavity 55 and match with 54 screw thread of the first lead screw Conjunction is connected with the second sliding block 56, and the second motor 46, the upper end of second motor 46 are fixedly installed in first sliding block 45 It is connected with first bevel gear 44 by shaft power, the lower end of second motor 46 is connected with by shaft power Second bevel gear 47, the downside of first sliding block 45 and be located at second cavity 20 in be rotatably provided with the first rotation Block 49, the first cone tooth socket that is provided with opening upwards in first rotating block 49 and can be meshed with the second bevel gear 47 48, the 4th cavity 29 is provided in the downside inner wall of second cavity 20, and the downside end face of first rotating block 49 passes through Shaft secure fit is connected with the second lead screw 31 that can be rotated in the 4th cavity 29, in the 4th cavity 29 slidably Be provided with the third sliding block 51 that connection is threadedly engaged with second lead screw 31, the 4th cavity 29 is empty close to described first What is be connected between the inner wall of 21 side of chamber and first cavity 21 is provided with first sliding groove 28, and the third sliding block 51 is close The Four-slider 50 for extending and being passed through in the first sliding groove 28, left and right are fixedly connected on the end face of first cavity, 21 side Being fixedly connected between the opposing end surface of the symmetrically arranged Four-slider 50 can slide up and down in first cavity 21 The 5th sliding block 23, first sliding block, 45 upside and be located in second cavity 20 and be rotatably provided with the second rotating block 43, the second cone tooth socket that Open Side Down and can be meshed with the first bevel gear 44 is provided in second rotating block 43 42, the first fixed block 72 is fixedly connected on the left and right sides end face of the described device main body 11 of second cavity, 21 upside, It is provided with to be open in described first solid motion block 72 and is directed away from the 5th cavity 26 of 21 side of the first cavity, described second turn The third lead screw 27 for extending and being passed through in the 5th cavity 26 is connected with by shaft secure fit on the upside end face of motion block 43, Slidably it is provided with the 6th sliding block 38 that connection is threadedly engaged with the third lead screw 27 in 5th cavity 26, described Six sliding blocks 38 are fixedly connected with first fixed block 72 far from described on the end face far from 21 side of the first cavity The 7th sliding block 32 that the end face of one cavity, 21 side mutually abuts, wherein in the upper inside walls of the 5th cavity 26 in left side It rotatably is provided with third rotating block 71, and after the upper end of the third lead screw 27 in left side extends through the third rotating block 71 It is rotatablely connected with by bearing in the upper inside walls of the 5th cavity 27 in left side, the 5th cavity 26 in left side is close to upper What is be connected in the rear side inner wall of side inner wall is provided with the 6th cavity 69, consolidates on the upside end face of the 7th sliding block 32 in left side Surely it is connected with the first elevator 73, cover board 33 is fixedly connected in the right end face of first elevator 73, the cover board 33 It is fixedly connected with the second elevator 34 in right end face, the first arc chute 35 is provided in second elevator 34, it is described It is perforative up and down in the downside inner wall of first arc chute 35 to be provided with the second arc chute 37, the 7th sliding block 32 on right side Upper end extend through second arc chute 37 after be fixedly installed can slide in first arc chute 35 Three elevators 36.

Valuably, the feeding device includes the 7th cavity being set in the 29 downside inner wall of the 4th cavity in left side 63, slidably it is provided with the 8th sliding block 65 in the 7th cavity 63, the left end face of the 8th sliding block 65 and described the The first spring 64 is fixedly connected between the inner left wall of seven cavitys 63, the 7th cavity 63 is in the upside of inner left wall What is be connected in wall is provided with the 8th cavity 58 being connected with the 4th cavity 29, slidable in the 8th cavity 58 It is provided with right end and extends the 9th sliding block 57 that is passed into the 4th cavity 29, the downside of the 9th sliding block 57 and be located at The tenth sliding block 61 is slidably provided in 8th cavity 58, wherein is provided with opening upwards in the 8th sliding block 65 And the first groove 60 that can be matched with the tenth sliding block 61, the upside end face of the tenth sliding block 61 and the 9th sliding block Second spring 59, the setting being connected on the right side of 63 upper inside walls of the 7th cavity are fixedly connected between 57 downside end face There is the first fluid-through tube 25, the upper end of first fluid-through tube 25 extends upwardly to first cavity 21 close to the right side of upper end opening It is connected at the inner wall of side and with first cavity 21, what is be connected in the right side inner wall of the 7th cavity 63 is provided with second Fluid-through tube 68 is fixedly connected with first for extending and being passed through in second fluid-through tube 68 in the right end face of the 8th sliding block 65 Sliding shoe 67, what is be connected in the downside inner wall of the 7th cavity 63 is provided with to be connected with second fluid-through tube 68 The right end of three fluid-through tubes 22, the third fluid-through tube 22 extends to the right and extends outside the right end face of described device main body 11, Being provided with for being connected in the downside inner wall of the first sliding groove 28 on right side first begins to speak 77, wherein the described 4th of right side Being fixedly connected on the downside end face of sliding block 50 can begin to speak 77 the second sliding shoes 82 matched with described first, and described second is sliding It is provided in motion block 82 and the Four-slider 50 up and down in the first through hole 83 of setting, the left side of the first through hole 83 Left and right is perforative in wall is provided with the second through-hole 84, and described first, which begins to speak, is slidably provided with third sliding shoe 74 in 77, and One begin to speak 77 inner left walls lower end and the upper inside walls of the third fluid-through tube 22 between be connected be provided with four-way liquid Pipe 79.

Valuably, since the slide guide of 26 inner wall of the 5th cavity is made when the 6th sliding block 38 is in the 5th cavity 26 With, can not rotate in the 6th sliding block 38 and be only capable of moving up, and when left side the 6th sliding block 38 rise to 6th sliding block 38 described in when the lower end surface of the third rotating block 71 abuts against is transferred in the 6th cavity 69, and at this time the 6th Sliding block 38 can not continue to rise and no longer generate relative motion with the third lead screw 27, at this time under the rotation of third lead screw 27 It drives the 6th sliding block 38 to rotate backward, first brings the 6th sliding block 38 to the 5th cavity into when third lead screw 27 inverts 6th sliding block 38 can be described the in 26 and when the front end face of the 6th sliding block 38 and the 5th cavity 26 abuts against It is moved down in five cavitys 26.

Valuably, the first check valve 81 is fixedly installed in the 4th fluid-through tube 79, first check valve 81 acts on It begins to speak in 77 and can not reverse circulated only to make the liquid in the third fluid-through tube 22 enter described first.

Valuably, in the 5th sliding block 23 left and right array have respectively front and back through setting and opening upwards card slot 24, when carrying out anticorrosive work, plank can be stuck in the card slot 24 by user of service.

Valuably, be provided with and communicated with inlet tube 62 in the inner left wall of the 7th cavity 63, the inlet tube 62 to It is connected to extraneous immersion liquid supplementary device.

Valuably, described first begin to speak 77 right side inner wall in want to be connected be provided with the first guide runner 78, described The first slider guide 75 for extending and being passed through in first guide runner 78 is fixedly connected in the right end face of three sliding shoes 74.

Specific works method:

Firstly, the second motor 46 starts, and then drives first bevel gear 44 to rotate by shaft, and then pass through the second rotating block 43 It drives third lead screw 27 to rotate, and then the 6th sliding block 38 is driven to rise in the 5th cavity 26, when the 6th sliding block 38 is in the 5th sky When rising to greatest extent in chamber 26, the back end surface of the 6th sliding block 38 in left side loses constraint, at this time second motor 46 on right side It stops operating, and second motor 46 in left side continues to rotate, the 6th sliding block 38 in left side follows the third lead screw 27 in left side at this time It continues to rotate, and then is transferred in the 6th cavity 69 and on the right side of the back end surface of the 6th sliding block 38 in left side and the 6th cavity 69 Side inner wall stops operating when abutting against, and in the process, the 6th sliding block 38 drives the rotation of cover board 33 and the by the 7th sliding block 32 The upper end opening of one cavity 21 is staggered；

Secondly, timber can be placed on card slot 24 by user of service at this time, first motor 53 is inverted at this time, and then passes through first Thick stick 54 drives the second sliding block 56 to move down, and then the second motor 46 is driven to move down, and then second bevel gear 47 is driven to block Enter in the first cone tooth socket 48, the second motor 46 drives second bevel gear 47 to rotate by shaft at this time, and then passes through the first rotation Block 49 drives the rotation of the second lead screw 31, and then third sliding block 51 is driven to move down, and then drives the 5th by Four-slider 50 Sliding block 23 declines, and then the timber decline being placed in card slot 24 is driven to immerse in the immersion liquid in the first cavity 21, in this process In, push the 9th sliding block 57 to move down when the second lead screw 31 drops to certain position, and then push by second spring 59 Tenth sliding block 61 protrudes into the 7th cavity 63, and during the 5th sliding block 23 is gradually reduced, when liquid level in the first cavity 21 Lower than the first fluid-through tube 25 upper end opening when, the 8th sliding block 65 is in original state, and the liquid in inlet tube 62 passes through at this time 7th cavity 63 enters in third fluid-through tube 22, and the Four-slider 50 on right side drops to the second sliding shoe 82 and is caught in first When beginning to speak in 77, liquid in third fluid-through tube 22 enters the by the 4th fluid-through tube 79, the second through-hole 84, first through hole 83 It is supplemented in one cavity 21, when the liquid level in the first cavity 21 is higher than the upper end opening of the first fluid-through tube 25, the first cavity Liquid in 21 is entered by the first fluid-through tube 25 in the 7th cavity 63 in 65 left side of the 8th sliding block, at this time due to atmospheric pressure The 8th sliding block 65 of liquid-driving in first fluid-through tube 25 moves through the 8th sliding block 65 for inlet tube 62 and third to the left Fluid-through tube 22 is separated, and third fluid-through tube 22 stops the feed flow into the first cavity 21 at this time, and is moved in the 8th sliding block 65 The tenth sliding block 61 is caught in the first groove 60 and then limits the 8th sliding block 65 when first groove 60 is connected with the 8th cavity 58 It is mobile, while the first sliding shoe 67 detaches the second fluid-through tube 68, the 7th cavity 63 is connected with the second fluid-through tube 68 at this time, the Liquid in one fluid-through tube 25 is entered in third fluid-through tube 22 and is flowed out by the second fluid-through tube 68；

Finally, first motor 53 is again started up when the 5th sliding block 23 drops to extreme lower position in the first cavity 21, Jin Ertong Crossing the first lead screw 54 drives the second sliding block 56 to move up, and then first bevel gear 44 is driven to engage into the second cone tooth socket 42, Second motor 46 in left side starts at this time, and then drives the rotation of the 6th sliding block 38 by third lead screw 27, at this time the 6th sliding block 38 Downside end face rotated forward by the constraint of 69 downside inner wall of the 6th cavity, and then drive the 6th sliding block 38 in the 6th cavity 69 Rotation is gone in the 5th cavity 26 before introversive, when the front inner wall of the front end face of the 6th sliding block 38 and the 5th cavity 26 abuts against Second motor 46 on right side starts, and then the 7th sliding block 32 is driven to drop to original state, and cover board 33 is by the first cavity 21 at this time Upper end opening be sealed, when cover board 33 rotates, third elevator 36 can be slid into the first arc chute 35 and to second liter Drop block 34 forms the constraint slided up and down, can be driven under the second elevator 34 during third elevator 36 declines at this time Drop.

When original state, the upside end face of third sliding block 51 and the upper inside walls of the 4th cavity 29 are abutted against, and at this time the 5th Sliding block 23 rises to greatest extent in the first cavity 21, the upside end face of the second sliding block 56 and the upper inside walls phase of third cavity 55 It abuts, the first sliding block 45 rises to greatest extent in the second cavity 20 at this time, and first bevel gear 44 is engaged in the second cone tooth socket 42 Interior, the downside end face of third elevator 36 and the downside inner wall of the 5th cavity 26 abut against, and cover board 33 is by the first cavity 21 at this time Upper end opening closing, while the upside end face of the 9th sliding block 57 and the upper inside walls of the 8th cavity 58 abut against, the tenth cunning Block 61 rises to greatest extent in the 8th cavity 58, and the 8th sliding block 65 moves to right to greatest extent in the 7th cavity 63, the first sliding Block 67 is caught in the second fluid-through tube 68 and separates the 7th cavity 63 and the second fluid-through tube 68, while third sliding shoe 74 is first It begins to speak to rise to greatest extent in 77.

When carrying out wood preservation by the present apparatus, the starting of the second motor 46, and then first bevel gear 44 is driven by shaft Rotation, and then drive third lead screw 27 to rotate by the second rotating block 43, and then drive the 6th sliding block 38 in the 5th cavity 26 Rise, when the 6th sliding block 38 rises to greatest extent in the 5th cavity 26, the back end surface of the 6th sliding block 38 in left side is lost Constraint, second motor 46 on right side stops operating at this time, and second motor 46 in left side continues to rotate, and the 6th of left side is sliding at this time Block 38 follows the third lead screw 27 in left side to continue to rotate, and then is transferred in the 6th cavity 69 and in the 6th sliding block 38 in left side Back end surface and the right side inner wall of the 6th cavity 69 stop operating when abutting against, and in the process, the 6th sliding block 38 passes through the 7th Sliding block 32 drives the rotation of cover board 33 and the upper end opening of the first cavity 21 to be staggered, and timber can be placed in card slot by user of service at this time On 24, first motor 53 is inverted at this time, and then drives the second sliding block 56 to move down by the first lead screw 54, and then drives second Motor 46 moves down, and then second bevel gear 47 is driven to be caught in the first cone tooth socket 48, and the second motor 46 passes through shaft at this time It drives second bevel gear 47 to rotate, and then the rotation of the second lead screw 31 is driven by the first rotating block 49, and then drive third sliding block 51 move down, and then drive the decline of the 5th sliding block 23 by Four-slider 50, and then drive the timber being placed in card slot 24 Decline is immersed in the immersion liquid in the first cavity 21, in the process, the 9th is pushed when the second lead screw 31 drops to certain position Sliding block 57 moves down, and then pushes the tenth sliding block 61 to protrude into the 7th cavity 63 by second spring 59, and in the 5th sliding block During 23 are gradually reduced, when liquid level is lower than the upper end opening of the first fluid-through tube 25 in the first cavity 21, the 8th sliding block 65 In original state, the liquid in inlet tube 62 is entered in third fluid-through tube 22 by the 7th cavity 63 at this time, and on right side Four-slider 50 when dropping to the second sliding shoe 82 and being caught in first and begin to speak in 77, the liquid in third fluid-through tube 22 passes through the 4th Fluid-through tube 79, the second through-hole 84, first through hole 83 are entered in the first cavity 21 and are supplemented, the liquid level in the first cavity 21 Higher than the first fluid-through tube 25 upper end opening when, the liquid in the first cavity 21 enters the 8th sliding block by the first fluid-through tube 25 In 7th cavity 63 in 65 left sides, to the left due to the 8th sliding block 65 of liquid-driving in the first fluid-through tube of atmospheric pressure 25 at this time It moves through the 8th sliding block 65 to separate inlet tube 62 and third fluid-through tube 22, third fluid-through tube 22 stops at this time Feed flow in one cavity 21, and be moved to the tenth sliding block 61 when the first groove 60 is connected with the 8th cavity 58 in the 8th sliding block 65 and block Enter in the first groove 60 and then limit the movement of the 8th sliding block 65, while the first sliding shoe 67 detaches the second fluid-through tube 68, this When the 7th cavity 63 be connected with the second fluid-through tube 68, the liquid in the first fluid-through tube 25 enters the by the second fluid-through tube 68 It in three fluid-through tubes 22 and flows out, when the 5th sliding block 23 drops to extreme lower position in the first cavity 21, first motor 53 opens again It is dynamic, and then drive the second sliding block 56 to move up by the first lead screw 54, and then first bevel gear 44 is driven to engage into the second cone In tooth socket 42, the second motor 46 starting in left side at this time, and then the rotation of the 6th sliding block 38 is driven by third lead screw 27, at this time the The downside end face of six sliding blocks 38 is rotated forward by the constraint of 69 downside inner wall of the 6th cavity, and then drives the 6th sliding block 38 the It is gone in the 5th cavity 26 in six cavitys 69 to preceding rotation, when the front end face of the 6th sliding block 38 and the front inner wall of the 5th cavity 26 The second motor 46 starting on the right side of when abutting against, and then the 7th sliding block 32 is driven to drop to original state, cover board 33 is by the at this time The upper end opening of one cavity 21 is sealed, and when cover board 33 rotates, third elevator 36 can be slid into the first arc chute 35 simultaneously The constraint slided up and down is formed to the second elevator 34, can drive the second lifting during third elevator 36 declines at this time Block 34 declines.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, when carrying out wood preservation by the present apparatus, Second electric motor starting, and then first bevel gear rotation is driven by shaft, and then drive third lead screw to turn by the second rotating block It is dynamic, and then the 6th sliding block is driven to rise in the 5th cavity, when the 6th sliding block rises to greatest extent in the 5th cavity, left side The back end surface of the 6th sliding block lose constraint, second motor stalls on right side at this time, and second motor in left side continues Rotation, the 6th sliding block in left side follows the third lead screw in left side to continue to rotate at this time, and then is transferred in the 6th cavity and on a left side The back end surface of the 6th sliding block and the right side inner wall of the 6th cavity of side stop operating when abutting against, and in the process, the 6th is sliding Block drives cover board rotation and the upper end opening of the first cavity to be staggered by the 7th sliding block, and timber can be placed in by user of service at this time On card slot, first motor is inverted at this time, and then drives the second sliding block to move down by the first lead screw, and then drives the second motor It moves down, and then second bevel gear is driven to be caught in the first cone tooth socket, the second motor drives the second cone tooth by shaft at this time Wheel rotation, and then the rotation of the second lead screw is driven by the first rotating block, and then drive third sliding block to move down, and then pass through the Four-slider drives the decline of the 5th sliding block, and then the timber decline being placed in card slot is driven to immerse in the immersion liquid in the first cavity, In the process, it pushes the 9th sliding block to move down when the second lead screw drops to certain position, and then is pushed away by second spring Dynamic tenth sliding block protrudes into the 7th cavity, and during the 5th sliding block is gradually reduced, when in the first cavity liquid level lower than the When the upper end opening of one fluid-through tube, the 8th sliding block is in original state, and the liquid in inlet tube is entered by the 7th cavity at this time Into third fluid-through tube, and when the Four-slider on right side drops to the second sliding shoe and is caught in first and begins to speak interior, third fluid-through tube Interior liquid is entered in the first cavity and is supplemented by the 4th fluid-through tube, the second through-hole, first through hole, when in the first cavity Liquid level when being higher than the upper end opening of the first fluid-through tube, the liquid in the first cavity enters the 8th sliding block by the first fluid-through tube In 7th cavity in left side, at this time since the 8th sliding block of liquid-driving in the first fluid-through tube of atmospheric pressure moves and leads to the left The 8th sliding block is crossed to separate inlet tube and third fluid-through tube, third fluid-through tube stops the feed flow into the first cavity at this time, and The tenth sliding block when the first groove is connected with the 8th cavity, which is moved to, in the 8th sliding block is caught in the first groove limitation the 8th in turn The movement of sliding block, while the first sliding shoe detaches the second fluid-through tube, the 7th cavity is connected with the second fluid-through tube at this time, and first Liquid in fluid-through tube is entered in third fluid-through tube and is flowed out by the second fluid-through tube, under the 5th sliding block is in the first cavity First motor is again started up when minimizing position, and then drives the second sliding block to move up by the first lead screw, and then is driven First bevel gear engages into the second cone tooth socket, at this time second electric motor starting in left side, and then drives the 6th by third lead screw Sliding block rotation, the downside end face of the 6th sliding block is rotated forward by the constraint of inner wall on the downside of the 6th cavity at this time, and then drives the Six sliding blocks are gone in the 5th cavity in the 6th cavity to preceding rotation, when in the front end face of the 6th sliding block and the front side of the 5th cavity The second electric motor starting on the right side of when wall abuts against, and then the 7th sliding block is driven to drop to original state, cover board is empty by first at this time The upper end opening of chamber is sealed, and in cover board rotation, third elevator can be slid into the first arc chute and to the second elevator The constraint slided up and down is formed, the second elevator can be driven to decline during third elevator declines at this time, by this dress Setting can carry out impregnating to wood board product modified processing, while can be in carrying out soaking process, as the consumption of immersion liquid is to it It is supplemented, while the woodwork for completing modified work can be sent out and be detached from soak, and then personnel convenient to use are removed, Structure is simple but work efficiency is high, is worth being recommended to use.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention Protection scope should be determined by the scope of protection defined in the claims.

Claims (7)

1. a kind of improved method of wood preservation, including apparatus main body, be set to the intracorporal anti-corrosive apparatus of described device master and It is set to the intracorporal feeding device of described device master, the anti-corrosive apparatus includes being set in described device main body and opening upwards The first cavity, be symmetrically arranged with the second cavity in the left and right sides inner wall of first cavity, can in second cavity Sliding is provided with the first sliding block, and what is be connected in the inner wall of second cavity far from first cavity side is provided with the Three cavitys are fixedly installed first motor, the upper end power cooperation of the first motor in the downside inner wall of the third cavity Be connected with the first lead screw, be fixedly connected in the left end face of first sliding block extension be passed through in the third cavity and with it is described First threads of lead screw is connected with the second sliding block, and the second motor, second motor are fixedly installed in first sliding block Upper end first bevel gear is connected with by shaft power, the lower end of second motor is cooperatively connected by shaft power There is a second bevel gear, the downside of first sliding block and be located in second cavity and be rotatably provided with the first rotating block, The the first cone tooth socket that is provided with opening upwards in first rotating block and can be meshed with the second bevel gear, described second The 4th cavity is provided in the downside inner wall of cavity, the downside end face of first rotating block is connected with by shaft secure fit The second lead screw that can be rotated in the 4th cavity is slidably provided with and the second lead screw spiral shell in the 4th cavity The third sliding block that line is cooperatively connected, the 4th cavity is between the inner wall and first cavity of first cavity side What is be connected is provided with first sliding groove, and the third sliding block is fixedly connected with extension on the end face of first cavity side The Four-slider being passed through in the first sliding groove is fixedly connected between the opposing end surface for the Four-slider being symmetrical set There is the 5th sliding block that can be slided up and down in first cavity, on the upside of first sliding block and be located at can in second cavity Rotation is provided with the second rotating block, is provided with that Open Side Down and can mutually nibble with the first bevel gear in second rotating block Second closed bores tooth socket, and it is solid that first is fixedly connected on the left and right sides end face of the described device main body on the upside of second cavity Determine block, is provided with the 5th cavity that opening is directed away from first cavity side in the described first solid motion block, described second turn It is connected on the upside end face of motion block by shaft secure fit and extends the third lead screw that is passed through in the 5th cavity, described the The 6th sliding block being cooperatively connected with the third threads of lead screw is slidably provided in five cavitys, the 6th sliding block is far from institute State the end face phase being fixedly connected on the end face of the first cavity side with first fixed block far from first cavity side The 7th sliding block mutually abutted, wherein it is rotatably provided with third rotating block in the upper inside walls of the 5th cavity in left side, And the upper end of the third lead screw in left side extends through the institute for being rotatablely connected with left side after the third rotating block by bearing In the upper inside walls for stating the 5th cavity, what the 5th cavity in left side was connected in the rear side inner wall of upper inside walls is provided with Six cavitys are fixedly connected with the first elevator, the right side of first elevator on the upside end face of the 7th sliding block in left side It is fixedly connected with cover board on side end face, the second elevator, second elevator are fixedly connected in the right end face of the cover board It is inside provided with the first arc chute, upper and lower perforative second arc that is provided with is slided in the downside inner wall of first arc chute Slot, the upper end of the 7th sliding block on right side extend through that be fixedly installed after second arc chute can be in first arc The third elevator slided in shape sliding slot.

2. a kind of improved method of wood preservation according to claim 1, it is characterised in that: the feeding device includes setting It is placed in the 7th cavity on the downside of the 4th cavity in left side in inner wall, it is sliding that the 8th is slidably provided in the 7th cavity Block is fixedly connected with the first spring between the left end face of the 8th sliding block and the inner left wall of the 7th cavity, described What the 7th cavity was connected in the upper inside walls of inner left wall is provided with the 8th cavity being connected with the 4th cavity, It is slidably provided with right end in 8th cavity and extends the 9th sliding block that is passed into the 4th cavity, the described 9th The downside of sliding block and it is located in the 8th cavity and is slidably provided with the tenth sliding block, wherein setting in the 8th sliding block The first groove that has opening upwards and can be matched with the tenth sliding block, the upside end face and the described 9th of the tenth sliding block Second spring is fixedly connected between the downside end face of sliding block, what is be connected on the right side of the 7th cavity upper inside walls is provided with First fluid-through tube, the upper end of first fluid-through tube extend upwardly to first cavity at the right side inner wall of upper end opening And be connected with first cavity, what is be connected in the right side inner wall of the 7th cavity is provided with the second fluid-through tube, described The first sliding shoe for extending and being passed through in second fluid-through tube is fixedly connected in the right end face of 8th sliding block, the described 7th is empty What is be connected in the downside inner wall of chamber is provided with the third fluid-through tube being connected with second fluid-through tube, the third fluid-through tube Right end extend to the right and extend outside the right end face of described device main body, in the downside inner wall of the first sliding groove on right side Being provided with for being connected first is begun to speak, wherein be fixedly connected on the downside end face of the Four-slider on right side can with it is described First begins to speak the second sliding shoe matched, is provided in the second sliding shoe and the Four-slider up and down through setting First through hole, left and right is perforative in the inner left wall of the first through hole is provided with the second through-hole, described first begin to speak in can slide It is dynamic to be provided with third sliding shoe, first begin to speak inner left wall lower end and the upper inside walls of the third fluid-through tube between be connected Logical is provided with the 4th fluid-through tube.

3. a kind of improved method of wood preservation according to claim 1, it is characterised in that: the 6th sliding block is described Since the slide guide of the 5th cavity inner wall acts on when in the 5th cavity, it can not rotate in the 6th sliding block and be only capable of to moving up It is dynamic, and when the 6th sliding block in left side rises to and abuts against with the lower end surface of the third rotating block described in the 6th sliding block turn Entering into the 6th cavity, the 6th sliding block can not continue to rise and no longer generate relative motion with the third lead screw at this time, The 6th sliding block is driven to rotate backward under the rotation of third lead screw at this time, it is first sliding by the described 6th when the reversion of third lead screw Block is brought into the 6th sliding block can in the 5th cavity and when the front end face of the 6th sliding block and the 5th cavity abuts against It is moved down in the 5th cavity.

4. a kind of improved method of wood preservation according to claim 1, it is characterised in that: solid in the 4th fluid-through tube Surely it is provided with the first check valve, the first unidirectional valve action is that enter the liquid in the third fluid-through tube described First begin to speak in and can not reverse circulated.

5. a kind of improved method of wood preservation according to claim 1, it is characterised in that: left and right in the 5th sliding block Array has front and back through setting and the card slot of opening upwards respectively, and when carrying out anticorrosive work, user of service can be by plank card In in the card slot.

6. a kind of improved method of wood preservation according to claim 1, it is characterised in that: the left side of the 7th cavity Inlet tube is provided with and communicated in inner wall, the inlet tube is to be connected to extraneous immersion liquid supplementary device.

7. a kind of improved method of wood preservation according to claim 1, it is characterised in that: the described first right side begun to speak That wants to be connected in inner wall is provided with the first guide runner, is fixedly connected with extension in the right end face of the third sliding shoe and is passed through The first slider guide in first guide runner;Specific works method:

Firstly, the second electric motor starting, and then first bevel gear rotation is driven by shaft, and then drives the by the second rotating block Three lead screws rotation, and then drive the 6th sliding block rise in the 5th cavity, when the 6th sliding block in the 5th cavity to greatest extent on When rising, the back end surface of the 6th sliding block in left side loses constraint, at this time second motor stalls on right side, and the second of left side Motor continues to rotate, and the 6th sliding block in left side follows the third lead screw in left side to continue to rotate at this time, and then is transferred to the 6th cavity It is interior and stop operating when the back end surface of the 6th sliding block in left side and the right side inner wall of the 6th cavity abut against, in this process In, the 6th sliding block drives cover board rotation and the upper end opening of the first cavity to be staggered by the 7th sliding block；

Secondly, timber can be placed on card slot by user of service at this time, first motor is inverted at this time, and then passes through the first lead screw band Dynamic second sliding block moves down, and then the second motor is driven to move down, and then second bevel gear is driven to be caught in the first cone tooth socket Interior, the second motor drives second bevel gear rotation by shaft at this time, and then drives the rotation of the second lead screw by the first rotating block, And then third sliding block is driven to move down, and then drive the decline of the 5th sliding block by Four-slider, and then drive and be placed in card slot Interior timber decline is immersed in the immersion liquid in the first cavity, in the process, the promotion when the second lead screw drops to certain position 9th sliding block moves down, so by second spring push the tenth sliding block protrude into the 7th cavity, and the 5th sliding block gradually During decline, when liquid level is lower than the upper end opening of the first fluid-through tube in the first cavity, the 8th sliding block is in original state, The liquid in inlet tube is entered in third fluid-through tube by the 7th cavity at this time, and the Four-slider on right side drops to second Sliding shoe is caught in first when beginning to speak interior, and the liquid in third fluid-through tube is entered by the 4th fluid-through tube, the second through-hole, first through hole It is supplemented in the first cavity, when the liquid level in the first cavity is higher than the upper end opening of the first fluid-through tube, in the first cavity Liquid entered in the 7th cavity on the left of the 8th sliding block by the first fluid-through tube, at this time due to the first fluid-through tube of atmospheric pressure Interior the 8th sliding block of liquid-driving moves through the 8th sliding block to the left and separates inlet tube with third fluid-through tube, at this time Third fluid-through tube stops the feed flow into the first cavity, and is moved to when the first groove is connected with the 8th cavity in the 8th sliding block Ten sliding blocks are caught in the movement in the first groove and then limiting the 8th sliding block, while the first sliding shoe detaches the second fluid-through tube, this When the 7th cavity be connected with the second fluid-through tube, the liquid in the first fluid-through tube enters third fluid-through tube by the second fluid-through tube It is interior and flow out；

Finally, first motor is again started up when the 5th sliding block drops to extreme lower position in the first cavity, and then pass through first Lead screw drives the second sliding block to move up, and then first bevel gear is driven to engage into the second cone tooth socket, at this time the second of left side Electric motor starting, and then the rotation of the 6th sliding block is driven by third lead screw, the downside end face of the 6th sliding block is by the 6th cavity at this time The constraint of downside inner wall rotates forward, and then the 6th sliding block is driven to go in the 5th cavity in the 6th cavity to preceding rotation, when the The second electric motor starting on the right side of when the front inner wall of the front end face of six sliding blocks and the 5th cavity abuts against, and then drive the 7th to slide Block drops to original state, and the upper end opening of the first cavity is sealed by cover board at this time, the third elevator in cover board rotation It can slide into the first arc chute and form the constraint slided up and down to the second elevator, at this time in the mistake of third elevator decline Cheng Zhongke drives the decline of the second elevator.