阅读说明：本技术 一种浸胶纸材料复合板材杨木皮批量处理装置 (Gum dipping paper material composite board poplar skin batch processing device ) 是由 高德云 于 2021-06-04 设计创作，主要内容包括：本发明涉及一种建材领域,尤其涉及一种浸胶纸材料复合板材杨木皮批量处理装置。技术问题为：提供一种浸胶纸材料复合板材杨木皮批量处理装置。一种浸胶纸材料复合板材杨木皮批量处理装,包括有支撑架,脱糖脱脂机构和布板粘合机构等；支撑架与布板粘合机构相连接。本发明实现了对批量杨木皮的处理,处理时先将粘合的杨木皮分离开来,再通过蒸汽喷射的方式使得杨木皮能够全面接触到高压蒸汽,使其完成脱糖脱脂；接着将脱糖脱脂后的杨木皮利用离心力的原理来脱水,控制其含水率；同时完成对橡木板进行无纺布的贴合处理。(The invention relates to the field of building materials, in particular to a batch processing device for poplar bark of a gummed paper material composite board. The technical problem is as follows: provides a batch processing device for poplar bark of a gummed paper material composite board. A gum dipping paper material composite board poplar bark batch processing device comprises a support frame, a desugaring and degreasing mechanism, a cloth board bonding mechanism and the like; the support frame is connected with the cloth plate bonding mechanism. The method realizes the treatment of the poplar bark in batches, the bonded poplar bark is separated firstly during the treatment, and the poplar bark can be in full contact with high-pressure steam in a steam injection mode so as to complete desugaring and degreasing; dehydrating the desugarized and degreased poplar bark by utilizing the principle of centrifugal force, and controlling the water content of the poplar bark; and meanwhile, the gluing treatment of the non-woven fabric on the oak board is completed.)

1. A glue dipping paper material composite board poplar bark batch processing device comprises a support frame (1) and a controller (13); the method is characterized in that: the device also comprises a desugaring and degreasing mechanism (2), a cloth plate bonding mechanism (3), a dewatering mechanism (4), a filter screen (5), a water collecting barrel (6), a fixed framework (7), a first collecting box (8), a second collecting box (9), a first placing frame (10), a second placing frame (11), a stepping motor (12), a first electric push rod (14), a second electric push rod (15) and a transmission mechanism (16); the support frame (1) is connected with the desugaring and degreasing mechanism (2); the support frame (1) is connected with the cloth plate bonding mechanism (3); the support frame (1) is connected with the dehydration mechanism (4); the support frame (1) is fixedly connected with the filter screen (5); the support frame (1) is connected with the water collecting barrel (6); the support frame (1) is rotationally connected with the fixed framework (7); the support frame (1) is connected with the first collecting box (8); the support frame (1) is connected with the second collecting box (9); the support frame (1) is connected with a first placing frame (10); the support frame (1) is connected with a second placing frame (11); the support frame (1) is fixedly connected with the stepping motor (12); the support frame (1) is fixedly connected with the controller (13); the support frame (1) is fixedly connected with a first electric push rod (14); the support frame (1) is fixedly connected with a second electric push rod (15); the support frame (1) is connected with a transmission mechanism (16); the desugaring and degreasing mechanism (2) is connected with the cloth plate bonding mechanism (3); the desugaring and degreasing mechanism (2) is connected with the dewatering mechanism (4); the desugarizing and degreasing mechanism (2) is connected with the first placing rack (10); the desugaring and degreasing mechanism (2) is connected with the transmission mechanism (16); the cloth plate bonding mechanism (3) is connected with the transmission mechanism (16); the dehydration mechanism (4) is connected with a stepping motor (12).

2. The batch processing device of the poplar bark of the gummed paper material composite board as claimed in claim 1, which is characterized in that: the desugaring and degreasing mechanism (2) comprises a first support (201), a connecting rod (202), a second support (203), a high-pressure steam control box (204), a communicating rod (205), a steam spraying rod (206), a loading box (207), a steam spraying table (208), a conveying table (209), a separation guide sheet (210), a first conveying belt (211), a third support (212), a fourth support (213), a fifth support (214) and a sixth support (215); the first bracket (201) is fixedly connected with the support frame (1); the lower part of the first bracket (201) is fixedly connected with the upper part of the high-pressure steam control box (204); one side of the connecting rod (202) is fixedly connected with the first bracket (201); the other side of the connecting rod (202) is fixedly connected with a second bracket (203); the connecting rod (202) is fixedly connected with the support frame (1); the lower part of the second bracket (203) is fixedly connected with the upper part of the high-pressure steam control box (204); the lower part of the high-pressure steam control box (204) is fixedly connected with the upper part of the connecting rod (205); the lower part of the connecting rod (205) is fixedly connected with the upper part of the steam injection rod (206); a steam jet port at the lower part of the inner side of the steam jet rod (206) is contacted with the loading box (207); the side surface of the loading box (207) is inserted with the dewatering mechanism (4); one side of the steam spraying platform (208) is contacted with the loading box (207); the other side of the steam spraying platform (208) is fixedly connected with a conveying platform (209); the side surface of the conveying table (209) is fixedly connected with a multi-component separation guide sheet (210); the lower part of the side surface of the conveying table (209) is contacted with the side surface of the first conveying belt (211); a first corner of the first conveyor belt (211) is fixedly connected with the third bracket (212); a second corner of the first conveyor belt (211) is fixedly connected with a fourth bracket (213); the third corner of the first conveyor belt (211) is fixedly connected with a fifth bracket (214); the fourth corner of the first conveyor belt (211) is fixedly connected with the sixth bracket (215); the first conveyor belt (211) is rotationally connected with the transmission mechanism (16); the side surface of the fourth bracket (213) is rotationally connected with the transmission mechanism (16); the lower part of the third bracket (212) is fixedly connected with the support frame (1); the lower part of the fourth bracket (213) is fixedly connected with the support frame (1); the lower part of the fifth bracket (214) is fixedly connected with the support frame (1); the lower part of the sixth bracket (215) is fixedly connected with the support frame (1).

3. The batch processing device of the poplar bark of the gummed paper material composite board as claimed in claim 2, which is characterized in that: the cloth plate bonding mechanism (3) comprises a rolling rod (301), a seventh support (302), a first bearing table (303), a first water spraying box (304), a second bearing table (305), a second water spraying box (306), an eighth support (307), a first fixing rod (308), a ninth support (309), a second fixing rod (310), a storage box (311), a second conveyor belt (312), a third fixing rod (313), a fourth fixing rod (314), a tenth support (315), an eleventh support (316), a fifth fixing rod (317), a roller (318), a sixth fixing rod (319) and a seventh fixing rod (320); the rolling rod (301) is rotatably connected with the seventh bracket (302); the lower parts of the two seventh brackets (302) are fixedly connected with the support frame (1); one side of the group of seventh supports (302) is contacted with the first bearing table (303); the other side of the other group of seventh supports (302) is contacted with the second bearing table (305); one side of the first bearing platform (303) is fixedly connected with a first water spraying box (304); the other side of the first bearing table (303) is fixedly connected with the support frame (1); one side of the second bearing platform (305) is fixedly connected with a second water spraying box (306); the other side of the second bearing table (305) is fixedly connected with the support frame (1); an eighth bracket (307) is arranged on the side surface of the first water spraying box (304); the lower part of the eighth bracket (307) is fixedly connected with the support frame (1); the upper part of the side surface of the eighth bracket (307) is fixedly connected with one side of the first fixed rod (308); the other side of the first fixing rod (308) is fixedly connected with the storage box (311); a ninth bracket (309) is arranged on the side surface of the second water spraying box (306); the lower part of the ninth bracket (309) is fixedly connected with the support frame (1); the upper side of the side surface of the ninth bracket (309) is fixedly connected with one side of a second fixed rod (310); the other side of the second fixing rod (310) is fixedly connected with a storage box (311); a second conveyor belt (312) is arranged below the storage box (311); one side of the storage box (311) is fixedly connected with one side of the third fixing rod (313); the other side of the storage box (311) is fixedly connected with one side of a fifth fixing rod (317); the other side of the third fixed rod (313) is fixedly connected with the tenth bracket (315); the other side of the fifth fixed rod (317) is fixedly connected with an eleventh bracket (316); the second conveyor belt (312) is fixedly connected with a fourth fixed rod (314); the second conveyor belt (312) is fixedly connected with a sixth fixing rod (319); the second conveyor belt (312) is fixedly connected with a seventh fixed rod (320); the other side of the second conveyor belt (312) is fixedly connected with the transmission mechanism (16); one side of the tenth bracket (315) is rotatably connected with a fourth fixed rod (314); the other side of the tenth bracket (315) is rotatably connected with a sixth fixing rod (319); the tenth bracket (315) is fixedly connected with the support frame (1); the middle of the tenth bracket (315) is rotationally connected with one side of the roller (318); the other side of the roller (318) is rotationally connected with the middle of the eleventh bracket (316); one side of the eleventh bracket (316) is rotatably connected with a seventh fixed rod (320); the other side of the eleventh bracket (316) is rotationally connected with the transmission mechanism (16); the eleventh bracket (316) is fixedly connected with the support frame (1).

4. The batch processing device of the poplar bark of the gummed paper material composite board as claimed in claim 3, which is characterized in that: the dewatering mechanism (4) comprises a first transmission rod (401), a first bevel gear (402), a second bevel gear (403), a second transmission rod (404), a first flat gear (405), a first electric sliding rail (406), a first sliding rail track (407), a third transmission rod (408), a third electric push rod (409), a second sliding rail track (410), a fourth transmission rod (411), a second flat gear (412), a rotary fixing claw (413), a protective cover (414), a second electric sliding rail (415), a fifth transmission rod (416), a movable frame (417), a fourth electric push rod (418) and a fifth electric push rod (419); one side of the first transmission rod (401) is fixedly connected with the stepping motor (12); the other side of the first transmission rod (401) is fixedly connected with the inside of the first bevel gear (402); the first transmission rod (401) is rotatably connected with the support frame (1); a first electric slide rail (406) is arranged on the side surface of the first transmission rod (401); the first bevel gear (402) is meshed with the second bevel gear (403); one side of the second transmission rod (404) is fixedly connected with the inner axle center of the second bevel gear (403); the other side of the second transmission rod (404) is fixedly connected with the inner axle center of the first flat gear (405); the second transmission rod (404) is rotatably connected with the support frame (1); the first electric slide rail (406) is fixedly connected with the support frame (1); the first electric slide rail (406) is in sliding connection with the first slide rail track (407) through a slide block; the inner part of one side of the first slide rail track (407) is mutually contacted with the third transmission rod (408); the other side of the first slide rail track (407) is fixedly connected with a fifth transmission rod (416); the lower part of the third transmission rod (408) is fixedly connected with a third electric push rod (409); one side of the third electric push rod (409) is contacted with the second slide rail track (410) through a slide block; the other side of the third electric push rod (409) is rotationally connected with a fourth transmission rod (411); the upper parts of two sides of the second slide rail track (410) are fixedly connected with the support frame (1); the middle of the fourth transmission rod (411) is fixedly connected with the inner axle center of the second flat gear (412); the lower part of the fourth transmission rod (411) is fixedly connected with a rotary fixed claw (413); the rotary fixed claw (413) is fixedly connected with the protective cover (414); one side of the fifth transmission rod (416) is connected with the second electric slide rail (415) in a sliding manner through a slide block; the other side of the fifth transmission rod (416) is fixedly connected with the movable frame (417); the second electric slide rail (415) is fixedly connected with the support frame (1); one side of the lower end of the movable frame (417) is fixedly connected with a fourth electric push rod (418); the other side of the lower end of the movable frame (417) is fixedly connected with a fifth electric push rod (419); the movable frame (417) is contacted with the support frame (1); the fourth electric push rod (418) and the fifth electric push rod (419) are inserted into one side of the loading box (207); when the first flat gear (405) is meshed with the second flat gear (412), the first flat gear (405) drives the second flat gear (412) to rotate; when the first spur gear (405) is not engaged with the second spur gear (412), the second spur gear (412) does not rotate.

5. The batch processing device of the impregnated paper material composite board poplar bark as claimed in claim 4, which is characterized in that: the transmission mechanism (16) comprises a small motor (1601), a third bearing platform (1602), a sixth transmission rod (1603), a third bevel gear (1604), a fourth bevel gear (1605), a seventh transmission rod (1606), a first transmission wheel (1607), a second transmission wheel (1608), an eighth transmission rod (1609), a third transmission wheel (1610) and a fourth transmission wheel (1611); the small motor (1601) is fixedly connected with the third bearing table (1602); the third bearing table (1602) is fixedly connected with the support frame (1); one side of the sixth transmission rod (1603) is fixedly connected with the small motor (1601) in a rotating mode; the other side of the sixth transmission rod (1603) is fixedly connected with the inner axle center of the third bevel gear (1604); the sixth transmission rod (1603) is rotatably connected with the support frame (1); the third bevel gear (1604) is meshed with the fourth bevel gear (1605); the middle of the seventh transmission rod (1606) is fixedly connected with the inner axis of the fourth bevel gear (1605); one side of the seventh transmission rod (1606) is fixedly connected with the inner axle center of the first transmission wheel (1607); the other side of the seventh transmission rod (1606) is rotationally connected with the first transmission belt (211); the seventh transmission rod (1606) is rotatably connected with the support frame (1); the outer ring surface of the first transmission wheel (1607) is in transmission connection with a second transmission wheel (1608) through a belt; the eighth transmission rod (1609) is fixedly connected with the inner axle center of the second transmission wheel (1608); the eighth transmission rod (1609) is fixedly connected with the inner axle center of the third transmission wheel (1610); the eighth transmission rod (1609) is rotatably connected with the eleventh bracket (316); the eighth transmission rod (1609) is fixedly connected with the second conveyor belt (312); the eighth transmission rod (1609) is rotatably connected with the support frame (1); the outer ring surface of the third driving wheel (1610) is in transmission connection with a fourth driving wheel (1611) through a belt; the inner axle center of the fourth transmission wheel (1611) is fixedly connected with the roller (318).

6. The batch processing device of the poplar bark of the gummed paper material composite board as claimed in claim 2, which is characterized in that: an electric transmission rod is arranged in the steam spraying platform (208).

7. The batch processing device for the poplar bark of the gummed paper material composite board as claimed in claim 2 or 3, which is characterized in that: the inclined surface of the conveying table (209) is fixedly connected with the separation guide sheet (210) in a forty-five degree state, and the conveying table (209) is in a thirty degree state when being connected with the first conveying belt (211).

8. The batch processing device of the poplar bark of the gummed paper material composite board as claimed in claim 7, which is characterized in that: the claw of the rotary fixed claw (413) is tightly buckled around the loading box (207), and the inner side of the claw is provided with a flow guide groove.

9. The batch processing device of the poplar bark of the gummed paper material composite board as claimed in claim 8, which is characterized in that: the second conveyor belt (312) rotates in the opposite direction to the roller (318).

Technical Field

The invention relates to the field of building materials, in particular to a batch processing device for poplar bark of a gummed paper material composite board.

Background

The poplar bark is prepared by adopting natural poplar raw wood as a base material and processing the natural poplar raw wood into bark with uniform thickness through multiple processes such as slicing and the like, and has the characteristics of no toxicity, environmental protection, bright color, good elasticity and the like; are used in large quantities in the manufacture of building panels;

when the existing poplar bark is manufactured into a gummed paper material composite board, the composite board needs to be subjected to steam desugaring and degreasing treatment, and due to the fact that the poplar bark can be irregularly bent after being sliced, when a plurality of stacked poplar barks are treated, water vapor is easily accumulated in the stacked poplar barks, so that the poplar barks are not completely desugarized and degreased, and the desugaring and degreasing efficiency is further influenced; meanwhile, the poplar bark can be irregularly bent after being sliced, so that the poplar bark is inconvenient to separate after being stacked; and the moisture inside is difficult to be discharged after the moisture is collected.

In summary, there is a need for a batch processing device for poplar bark of gummed paper composite board to solve the above problems.

Disclosure of Invention

In order to overcome the defects that when the existing poplar bark is manufactured into a gumming paper material composite board, steam desugaring and degreasing treatment needs to be carried out on the poplar bark, and due to the fact that the poplar bark can be irregularly bent after being sliced, when a plurality of stacked poplar barks are treated, water vapor is easily accumulated in the stacked poplar barks, so that the poplar barks are not completely desugarized and degreased, and the efficiency of desugaring and degreasing is further influenced; meanwhile, the poplar bark can be irregularly bent after being sliced, so that the poplar bark is inconvenient to separate after being stacked; and the moisture inside is difficult to be discharged after the moisture is collected. The technical problem is as follows: provides a batch processing device for poplar bark of a gummed paper material composite board.

A gum dipping paper material composite board poplar bark batch processing device comprises a support frame, a desugaring and degreasing mechanism, a cloth board bonding mechanism, a dewatering mechanism, a filter screen, a water collecting barrel, a fixed framework, a first collecting box, a second collecting box, a first placing frame, a second placing frame, a stepping motor, a controller, a first electric push rod, a second electric push rod and a transmission mechanism; the supporting frame is connected with the desugaring and degreasing mechanism; the supporting frame is connected with the cloth plate bonding mechanism; the support frame is connected with the dehydration mechanism; the support frame is fixedly connected with the filter screen; the supporting frame is connected with the water collecting barrel; the supporting frame is rotationally connected with the fixed framework; the supporting frame is connected with the first collecting box; the support frame is connected with the second collection box; the support frame is connected with the first placing frame; the support frame is connected with the second placing frame; the support frame is fixedly connected with the stepping motor; the support frame is fixedly connected with the controller; the support frame is fixedly connected with the first electric push rod; the support frame is fixedly connected with the second electric push rod; the support frame is connected with the transmission mechanism; the desugaring and degreasing mechanism is connected with the cloth plate bonding mechanism; the desugarizing and degreasing mechanism is connected with the dehydration mechanism; the desugarizing and degreasing mechanism is connected with the first placing rack; the desugaring and degreasing mechanism is connected with the transmission mechanism; the cloth plate bonding mechanism is connected with the transmission mechanism; the dehydration mechanism is connected with the stepping motor.

As a further preferable scheme, the desugaring and degreasing mechanism comprises a first support, a connecting rod, a second support, a high-pressure steam control box, a connecting rod, a steam spraying rod, a loading box, a steam spraying platform, a conveying platform, a separation guide sheet, a first conveying belt, a third support, a fourth support, a fifth support and a sixth support; the first support is fixedly connected with the support frame; the lower part of the first bracket is fixedly connected with the upper part of the high-pressure steam control box; one side of the connecting rod is fixedly connected with the first bracket; the other side of the connecting rod is fixedly connected with the second bracket; the connecting rod is fixedly connected with the supporting frame; the lower part of the second bracket is fixedly connected with the upper part of the high-pressure steam control box; the lower part of the high-pressure steam control box is fixedly connected with the upper part of the communicating rod; the lower part of the connecting rod is fixedly connected with the upper part of the steam spraying rod; the steam jet port at the lower part of the inner side of the steam jet rod is contacted with the loading box; the side surface of the loading box is inserted with the dewatering mechanism; one side of the steam spraying platform is contacted with the loading box; the other side of the steam spraying platform is fixedly connected with the conveying platform; the side surface of the conveying table is fixedly connected with the multi-component separation guide sheet; the lower part of the side surface of the conveying table is contacted with the side surface of the first conveying belt; a first corner of the first conveyor belt is fixedly connected with the third bracket; a second corner of the first conveyor belt is fixedly connected with the fourth bracket; a third corner of the first conveyor belt is fixedly connected with the fifth bracket; the fourth corner of the first conveyor belt is fixedly connected with the sixth bracket; the first conveyor belt is rotationally connected with the transmission mechanism; the side surface of the fourth bracket is rotationally connected with the transmission mechanism; the lower part of the third bracket is fixedly connected with the support frame; the lower part of the fourth bracket is fixedly connected with the support frame; the lower part of the fifth bracket is fixedly connected with the support frame; the lower part of the sixth bracket is fixedly connected with the support frame.

As a further preferable scheme, the cloth plate bonding mechanism comprises a rolling rod, a seventh support, a first bearing table, a first water spray box, a second bearing table, a second water spray box, an eighth support, a first fixing rod, a ninth support, a second fixing rod, a storage box, a second conveyor belt, a third fixing rod, a fourth fixing rod, a tenth support, an eleventh support, a fifth fixing rod, a roller, a sixth fixing rod and a seventh fixing rod; the rolling rod is rotatably connected with the seventh bracket; the lower parts of the two seventh brackets are fixedly connected with the supporting frame; one side of the group of seventh supports is contacted with the first bearing table; the other side of the other group of seventh supports is contacted with the second bearing table; one side of the first bearing platform is fixedly connected with the first water spraying box; the other side of the first bearing platform is fixedly connected with the support frame; one side of the second bearing platform is fixedly connected with the second water spraying box; the other side of the second bearing table is fixedly connected with the support frame; an eighth bracket is arranged on the side surface of the first water spraying box; the lower part of the eighth bracket is fixedly connected with the support frame; the upper side of the side surface of the eighth bracket is fixedly connected with one side of the first fixed rod; the other side of the first fixed rod is fixedly connected with the storage box; a ninth bracket is arranged on the side surface of the second water spraying box; the lower part of the ninth bracket is fixedly connected with the support frame; the upper side of the side surface of the ninth bracket is fixedly connected with one side of the second fixed rod; the other side of the second fixed rod is fixedly connected with the storage box; a second conveying belt is arranged below the storage box; one side of the storage box is fixedly connected with one side of the third fixing rod; the other side of the storage box is fixedly connected with one side of the fifth fixing rod; the other side of the third fixed rod is fixedly connected with the tenth bracket; the other side of the fifth fixed rod is fixedly connected with the eleventh bracket; the second conveyor belt is fixedly connected with a fourth fixed rod; the second conveyor belt is fixedly connected with a sixth fixed rod; the second conveyor belt is fixedly connected with a seventh fixed rod; the other side of the second conveyor belt is fixedly connected with the transmission mechanism; one side of the tenth bracket is rotatably connected with a fourth fixed rod; the other side of the tenth bracket is rotatably connected with a sixth fixed rod; the tenth bracket is fixedly connected with the support frame; the middle of the tenth bracket is rotationally connected with one side of the roller; the other side of the roller is rotatably connected with the middle of the eleventh bracket; one side of the eleventh bracket is rotatably connected with a seventh fixed rod; the other side of the eleventh bracket is rotationally connected with the transmission mechanism; the eleventh bracket is fixedly connected with the support frame;

as a further preferable scheme, the dewatering mechanism comprises a first transmission rod, a first bevel gear, a second transmission rod, a first flat gear, a first electric slide rail, a first slide rail track, a third transmission rod, a third electric push rod, a second slide rail track, a fourth transmission rod, a second flat gear, a rotary fixed claw, a protective cover, a second electric slide rail, a fifth transmission rod, a moving frame, a fourth electric push rod and a fifth electric push rod; one side of the first transmission rod is fixedly connected with the stepping motor; the other side of the first transmission rod is fixedly connected with the inside of the first bevel gear; the first transmission rod is rotatably connected with the support frame; a first electric slide rail is arranged on the side surface of the first transmission rod; the first bevel gear is meshed with the second bevel gear; one side of the second transmission rod is fixedly connected with the inner axle center of the second bevel gear; the other side of the second transmission rod is fixedly connected with the inner axle center of the first flat gear; the second transmission rod is rotatably connected with the support frame; the first electric slide rail is fixedly connected with the support frame; the first electric slide rail is in sliding connection with the first slide rail track through the slide block; the inner part of one side of the first slide rail track is contacted with the third transmission rod; the other side of the first slide rail track is fixedly connected with a fifth transmission rod; the lower part of the third transmission rod is fixedly connected with a third electric push rod; one side of the third electric push rod is contacted with the second slide rail track through a slide block; the other side of the third electric push rod is rotationally connected with a fourth transmission rod; the upper parts of two sides of the second slide rail are fixedly connected with the support frame; the middle of the fourth transmission rod is fixedly connected with the inner axle center of the second flat gear; the lower part of the fourth transmission rod is fixedly connected with the rotary fixed claw; the rotary fixed claw is fixedly connected with the protective cover; one side of the fifth transmission rod is connected with the second electric slide rail in a sliding manner through a slide block; the other side of the fifth transmission rod is fixedly connected with the movable frame; the second electric slide rail is fixedly connected with the support frame; one side of the lower end of the movable frame is fixedly connected with a fourth electric push rod; the other side of the lower end of the movable frame is fixedly connected with a fifth electric push rod; the movable frame is contacted with the supporting frame; the fourth electric push rod and the fifth electric push rod are inserted into one side of the loading box; when the first flat gear is meshed with the second flat gear, the first flat gear drives the second flat gear to rotate; when the first and second spur gears are not engaged, the second spur gear does not rotate.

As a further preferable scheme, the transmission mechanism comprises a small motor, a third bearing platform, a sixth transmission rod, a third bevel gear, a fourth bevel gear, a seventh transmission rod, a first transmission wheel, a second transmission wheel, an eighth transmission rod, a third transmission wheel and a fourth transmission wheel; the small motor is fixedly connected with the third bearing table; the third bearing table is fixedly connected with the support frame; one side of the sixth transmission rod is rotationally and fixedly connected with the small motor; the other side of the sixth transmission rod is fixedly connected with the inner axle center of the third bevel gear; the sixth transmission rod is rotatably connected with the support frame; the third bevel gear is meshed with the fourth bevel gear; the middle of the seventh transmission rod is fixedly connected with the inner axis of the fourth bevel gear; one side of the seventh transmission rod is fixedly connected with the inner axle center of the first transmission wheel; the other side of the seventh transmission rod is rotatably connected with the first conveyor belt; the seventh transmission rod is rotatably connected with the support frame; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the eighth transmission rod is fixedly connected with the inner axle center of the second transmission wheel; the eighth transmission rod is fixedly connected with the inner axle center of the third transmission wheel; the eighth transmission rod is rotatably connected with the eleventh bracket; the eighth transmission rod is fixedly connected with the second conveyor belt; the eighth transmission rod is rotatably connected with the support frame; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the inner axle center of the fourth driving wheel is fixedly connected with the roller.

As a further preferred solution, an electrically driven transmission rod is arranged inside the gas injection platform.

As a further preferable mode, the inclined surface of the conveying table is fixed to the separation guide piece in a state of forty-five degrees, and the conveying table is in a state of thirty degrees when connected to the first conveyor belt.

As a further preferable scheme, the claws of the rotary fixing claws are tightly buckled around the loading box, and the inner sides of the claws are provided with guide grooves.

As a further preference, the second conveyor belt rotates in the opposite direction to the roller.

Has the advantages that: firstly, in order to solve the problems that when the existing poplar bark is manufactured into a gummed paper material composite board, steam desugaring and degreasing treatment needs to be carried out on the poplar bark, and due to the fact that the poplar bark can be irregularly bent after being sliced, when a plurality of stacked poplar barks are treated, water vapor is easily accumulated in the stacked poplar barks, so that the poplar barks are not completely desugarized and degreased, and the efficiency of desugaring and degreasing is further influenced; meanwhile, the poplar bark can be irregularly bent after being sliced, so that the poplar bark is inconvenient to separate after being stacked; and the water vapor inside is difficult to discharge after the water vapor is gathered;

secondly, a desugaring and degreasing mechanism, a cloth plate bonding mechanism and a dewatering mechanism are designed; when the device is used, a batch of poplar barks are placed on the first placing rack, a batch of non-woven fabrics are placed in the storage box, the oak boards are placed on the second placing rack, then the device is externally connected with a power supply, and the operation of the device is controlled by the controller; then manually conveying the batched poplar barks to a desugaring and degreasing mechanism for desugarizing and degreasing the poplar barks, wherein the desugaring and degreasing is to spray the batched poplar barks by using high-pressure steam, after a set time, moving the batched poplar barks which are desugarized and degreased to the center of a filter screen by using a dewatering mechanism, starting a stepping motor to drive the dewatering mechanism, discharging water vapor by using the dewatering mechanism and collecting the water vapor into a water collecting barrel; then the dehydrating mechanism pushes the poplar barks into the fixed framework, and the fixed framework is lifted up by the first electric push rod and the second electric push rod to unload the poplar barks and store the poplar barks in the first collecting box; then, manually conveying the oak plates to a cloth plate bonding mechanism for gluing the oak plates and the non-woven fabrics while conveying the batched poplar barks to the desugaring and degreasing mechanism through a transmission mechanism; finally, the oak board attached to the non-woven fabric is conveyed to a second collecting box by a cloth board bonding mechanism to be stored;

thirdly, the treatment of the poplar bark in batches is realized, the bonded poplar bark is separated firstly during the treatment, and the poplar bark can be in full contact with high-pressure steam in a steam injection mode so as to complete desugaring and degreasing; dehydrating the desugarized and degreased poplar bark by utilizing the principle of centrifugal force, and controlling the water content of the poplar bark; and meanwhile, the gluing treatment of the non-woven fabric on the oak board is completed.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a schematic perspective view of a first embodiment of the desugaring and defatting mechanism of the present invention;

FIG. 5 is a schematic diagram of a second perspective structure of the desugaring and defatting mechanism of the present invention;

FIG. 6 is an enlarged view of region G of the present invention;

FIG. 7 is a schematic perspective view of a steam spraying table of the desugaring and degreasing mechanism of the present invention;

FIG. 8 is a schematic perspective view of a first embodiment of the dewatering mechanism of the present invention;

FIG. 9 is a schematic perspective view of a second embodiment of the dewatering mechanism of the present invention;

FIG. 10 is a schematic perspective view of a third embodiment of the dewatering mechanism of the present invention;

FIG. 11 is a schematic view of a first three-dimensional structure of the cloth plate bonding mechanism of the present invention;

FIG. 12 is a schematic view of a second three-dimensional structure of the cloth plate bonding mechanism of the present invention;

FIG. 13 is a schematic view of a third embodiment of the cloth and plate bonding mechanism of the present invention;

FIG. 14 is a schematic perspective view of a first embodiment of the transmission mechanism of the present invention;

FIG. 15 is a schematic perspective view of a second embodiment of the actuator of the present invention;

fig. 16 is a third perspective view of the transmission mechanism of the present invention.

Wherein the figures include the following reference numerals: 1: support frame, 2: desugarization and degreasing mechanism, 3: cloth plate bonding mechanism, 4: dewatering mechanism, 5: a filter screen, 6: water collection bucket, 7: fixed skeleton, 8: first collection tank, 9: second collection tank, 10: first rack, 11: second rack, 12: stepping motor, 13: controller, 14: first electric putter, 15: second electric putter, 16: transmission mechanism, 201: first bracket, 202: connecting rod, 203: second bracket, 204: high pressure steam control box, 205: communication rod, 206: steam jet lever, 207: loading box, 208: steam jet platform, 209: conveying table, 210: separation guide piece, 211: first conveyor belt, 212: third bracket, 213: fourth bracket, 214: fifth bracket, 215: sixth bracket, 301: roll bar, 302: seventh support, 303: first stage, 304: first water jet tank, 305: second stage, 306: second water jet tank, 307: eighth bracket, 308: first fixing bar, 309: ninth support, 310: second fixing lever, 311: storage box, 312: second conveyor belt, 313: third fixing bar, 314: fourth fixing bar, 315: tenth bracket, 316: eleventh bracket, 317: fifth fixing lever, 318: roller, 319: sixth fixing bar, 320: seventh fixing lever, 401: first drive lever, 402: first bevel gear, 403: second bevel gear, 404: second transmission lever, 405: first spur gear, 406: first electrical slide, 407: first slide rail, 408: third transmission lever, 409: third electric putter, 410: second slide rail, 411: fourth transmission lever, 412: second flat gear, 413: rotating fixed jaw, 414: protective cover, 415: second electrical slide, 416: fifth transmission rod, 417: moving rack, 418: fourth electric putter, 419: fifth electric putter, 1601: small motor, 1602: third stage, 1603: sixth driving lever, 1604: third bevel gear, 1605: fourth bevel gear, 1606: seventh driving lever, 1607: first drive wheel, 1608: second drive wheel, 1609: eighth transfer bar, 1610: third transmission wheel, 1611: a fourth transmission wheel.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for completeness and fully convey the scope of the invention to the skilled person.

Example 1

A glue dipping paper material composite board poplar bark batch processing device, as shown in figures 1-16, comprising a support frame 1, a desugaring and degreasing mechanism 2, a cloth board bonding mechanism 3, a dewatering mechanism 4, a filter screen 5, a water collecting barrel 6, a fixed framework 7, a first collecting box 8, a second collecting box 9, a first placing frame 10, a second placing frame 11, a stepping motor 12, a controller 13, a first electric push rod 14, a second electric push rod 15 and a transmission mechanism 16; the support frame 1 is connected with the desugaring and degreasing mechanism 2; the support frame 1 is connected with the cloth plate bonding mechanism 3; the support frame 1 is connected with a dehydration mechanism 4; the support frame 1 is fixedly connected with the filter screen 5; the support frame 1 is connected with the water collecting barrel 6; the support frame 1 is rotatably connected with the fixed framework 7; the support frame 1 is connected with a first collecting box 8; the support frame 1 is connected with a second collecting box 9; the support frame 1 is connected with a first placing frame 10; the support frame 1 is connected with a second placing frame 11; the support frame 1 is fixedly connected with a stepping motor 12; the support frame 1 is fixedly connected with the controller 13; the support frame 1 is fixedly connected with a first electric push rod 14; the support frame 1 is fixedly connected with a second electric push rod 15; the support frame 1 is connected with a transmission mechanism 16; the desugaring and degreasing mechanism 2 is connected with the cloth plate bonding mechanism 3; the desugaring and degreasing mechanism 2 is connected with the dehydration mechanism 4; the desugaring and degreasing mechanism 2 is connected with the first placing rack 10; the desugaring and degreasing mechanism 2 is connected with the transmission mechanism 16; the cloth plate bonding mechanism 3 is connected with the transmission mechanism 16; the dewatering mechanism 4 is connected with a stepping motor 12.

The working steps are as follows: when the device is used, a batch of poplar barks are placed on the first placing rack 10, a batch of non-woven fabrics are placed in the storage box 311, the oak boards are placed on the second placing rack 11, then the device is externally connected with a power supply, and the controller 13 is used for controlling the device to operate; then, manually conveying the batched poplar barks to a desugaring and degreasing mechanism 2 for desugarizing and degreasing of the poplar barks, wherein the desugaring and degreasing is to spray the batched poplar barks by using high-pressure steam, after a set time, moving the batched and degreased poplar barks to the center of a filter screen 5 by a dewatering mechanism 4, then starting a stepping motor 12 to drive the dewatering mechanism 4, discharging water vapor by the dewatering mechanism 4 and collecting the water vapor into a water collecting barrel 6; then the dehydrating mechanism 4 pushes the poplar barks into the fixed framework 7, and the fixed framework 7 is lifted up by the first electric push rod 14 and the second electric push rod 15 to unload the poplar barks and store the poplar barks in the first collecting box 8; then, the oak plates are manually conveyed to the cloth plate bonding mechanism 3 to be bonded with the non-woven fabrics while the batched poplar barks are conveyed to the desugaring and degreasing mechanism 2 through the transmission mechanism 16; finally, the oak board attached with the non-woven fabric is conveyed to a second collecting box 9 by a cloth board bonding mechanism 3 for storage; the method realizes the treatment of the poplar bark in batches, the bonded poplar bark is separated firstly during the treatment, and the poplar bark can be in full contact with high-pressure steam in a steam injection mode so as to complete desugaring and degreasing; dehydrating the desugarized and degreased poplar bark by utilizing the principle of centrifugal force, and controlling the water content of the poplar bark; and meanwhile, the gluing treatment of the non-woven fabric on the oak board is completed.

The desugaring and degreasing mechanism 2 comprises a first bracket 201, a connecting rod 202, a second bracket 203, a high-pressure steam control box 204, a communicating rod 205, a steam spraying rod 206, a loading box 207, a steam spraying table 208, a conveying table 209, a separating guide piece 210, a first conveyor belt 211, a third bracket 212, a fourth bracket 213, a fifth bracket 214 and a sixth bracket 215; the first support 201 is fixedly connected with the support frame 1; the lower part of the first bracket 201 is fixedly connected with the upper part of the high-pressure steam control box 204; one side of the connecting rod 202 is fixedly connected with the first bracket 201; the other side of the connecting rod 202 is fixedly connected with a second bracket 203; the connecting rod 202 is fixedly connected with the support frame 1; the lower part of the second bracket 203 is fixedly connected with the upper part of the high-pressure steam control box 204; the lower part of the high-pressure steam control box 204 is fixedly connected with the upper part of the communicating rod 205; the lower part of the connecting rod 205 is fixedly connected with the upper part of the steam injection rod 206; the steam jet port at the lower part of the inner side of the steam jet rod 206 is contacted with the loading box 207; the side surface of the loading box 207 is inserted with the dewatering mechanism 4; one side of the steam spraying platform 208 is contacted with the loading box 207; the other side of the steam spraying platform 208 is fixedly connected with a conveying platform 209; the side surface of the conveying table 209 is fixedly connected with a multi-component separation guide sheet 210; the lower part of the side surface of the conveying table 209 is contacted with the side surface of the first conveying belt 211; a first corner of the first conveyor belt 211 is fixedly connected with the third bracket 212; a second corner of the first conveyor belt 211 is fixedly connected with the fourth bracket 213; a third corner of the first conveyor belt 211 is fixedly connected with the fifth bracket 214; the fourth corner of the first conveyor belt 211 is fixedly connected with the sixth bracket 215; the first conveyor belt 211 is rotatably connected with the transmission mechanism 16; the side surface of the fourth bracket 213 is rotationally connected with the transmission mechanism 16; the lower part of the third bracket 212 is fixedly connected with the support frame 1; the lower part of the fourth bracket 213 is fixedly connected with the support frame 1; the lower part of the fifth bracket 214 is fixedly connected with the support frame 1; the lower part of the sixth bracket 215 is fixedly connected with the support frame 1.

When the desugaring and degreasing are needed, firstly, poplar barks are placed on a first placing frame 10, then the poplar barks are manually conveyed to a first conveying belt 211, at the moment, the first conveying belt 211 is driven to run by a seventh conveying rod 1606, then, a batch of poplar barks are slowly conveyed towards a conveying platform 209 by the first conveying belt 211, then, the batch of poplar barks are separated from the adhered poplar barks by a separation guide sheet 210 fixedly connected to the inclined surface of the conveying platform 209 and enter the conveying platform 209, then, the poplar barks are slowly conveyed to a loading box 207 from the conveying platform 209 by an electric rolling rod in a steam spraying platform 208, and in the process, set high-pressure steam is released by a high-pressure steam control box 204 fixedly connected with a first support 201, a connecting rod 202 and a second support 203, and the set high-pressure steam is released by the high-pressure steam control box 204 through the connecting rod 205 and the steam spraying rod 206 to perform desugaring and degreasing operations on the poplar barks passing through the steam spraying platform 208; meanwhile, the eighth transmission rod 1609 of the transmission mechanism 16 drives the second conveyor belt 312 of the cloth plate bonding mechanism 3 to operate; the fourth transmission wheel 1611 drives the roller 318 to operate; the mechanism completes the desugaring and degreasing treatment of the batched poplar barks.

The cloth plate bonding mechanism 3 comprises a rolling rod 301, a seventh bracket 302, a first bearing platform 303, a first water spraying box 304, a second bearing platform 305, a second water spraying box 306, an eighth bracket 307, a first fixing rod 308, a ninth bracket 309, a second fixing rod 310, a storage box 311, a second conveyor belt 312, a third fixing rod 313, a fourth fixing rod 314, a tenth bracket 315, an eleventh bracket 316, a fifth fixing rod 317, a roller 318, a sixth fixing rod 319 and a seventh fixing rod 320; the rolling rod 301 is rotatably connected with the seventh bracket 302; the lower parts of the two seventh brackets 302 are fixedly connected with the support frame 1; one side of the group of seventh brackets 302 is contacted with the first bearing table 303; the other side of the seventh support 302 contacts with the second bearing table 305; one side of the first bearing platform 303 is fixedly connected with a first water spraying box 304; the other side of the first bearing table 303 is fixedly connected with the support frame 1; one side of the second bearing platform 305 is fixedly connected with the second water spraying box 306; the other side of the second bearing table 305 is fixedly connected with the support frame 1; an eighth bracket 307 is arranged on the side surface of the first water spraying box 304; the lower part of the eighth bracket 307 is fixedly connected with the support frame 1; the upper side of the side surface of the eighth bracket 307 is fixedly connected with one side of the first fixing rod 308; the other side of the first fixing rod 308 is fixedly connected with the storage box 311; a ninth bracket 309 is arranged on the side surface of the second water spraying box 306; the lower part of the ninth bracket 309 is fixedly connected with the support frame 1; the upper side of the lateral surface of the ninth bracket 309 is fixedly connected with one side of the second fixing rod 310; the other side of the second fixing rod 310 is fixedly connected with the storage box 311; a second conveyor belt 312 is arranged below the storage box 311; one side of the storage box 311 is fixedly connected with one side of the third fixing rod 313; the other side of the storage box 311 is fixedly connected with one side of the fifth fixing rod 317; the other side of the third fixing rod 313 is fixedly connected with the tenth bracket 315; the other side of the fifth fixing rod 317 is fixedly connected with an eleventh bracket 316; the second conveyor belt 312 is fixedly connected with a fourth fixing rod 314; the second conveyor belt 312 is fixedly connected with a sixth fixing rod 319; the second conveyor belt 312 is fixedly connected with a seventh fixing rod 320; the other side of the second conveyor belt 312 is fixedly connected with the transmission mechanism 16; one side of the tenth bracket 315 is rotatably connected with the fourth fixing rod 314; the other side of the tenth bracket 315 is rotatably connected with a sixth fixing rod 319; the tenth bracket 315 is fixedly connected with the support frame 1; the middle of the tenth bracket 315 is rotatably connected to one side of the roller 318; the other side of the roller 318 is rotatably connected with the middle of the eleventh bracket 316; one side of the eleventh bracket 316 is rotatably connected with a seventh fixing rod 320; the other side of the eleventh bracket 316 is rotatably connected with the transmission mechanism 16; the eleventh bracket 316 is fixedly connected with the support frame 1;

when the oak board non-woven fabric is attached, the oak board is slowly conveyed to the second conveyor belt 312 by the rolling rod 301, the first water spraying box 304 and the second water spraying box 306 at the two sides of the rolling rod 301 spray water towards the oak board in the conveying process of the oak board, thereby controlling the water content of the oak board, enabling the oak board and the non-woven fabric to be more easily and closely attached, then the oak board is conveyed to an output port of the storage box 311 to be attached with the non-woven fabric, the adsorption force of the oak board to the non-woven fabric after water spraying is enhanced, so as to take the non-woven fabric out of the storage box 311 completely and attach the non-woven fabric to the oak board, the non-woven oak board is then transported by the second conveyor 312 to below the rollers 318 for rolling, so as to promote the oak board and the non-woven fabric to further achieve the effect of complete lamination, and finally, the oak board laminated with the non-woven fabric after being rolled by the roller 318 is conveyed to the second collection box 9 by the second conveyor belt 312 for storage; meanwhile, the fourth electric push rod 418 and the fifth electric push rod 419 of the dehydration mechanism 4 are inserted and combined with the loading box 207 for loading the desugared and degreased poplar bark; this mechanism has accomplished the work of carrying out the non-woven fabrics laminating to the oak board.

The dewatering mechanism 4 comprises a first transmission rod 401, a first bevel gear 402, a second bevel gear 403, a second transmission rod 404, a first flat gear 405, a first electric slide rail 406, a first slide rail track 407, a third transmission rod 408, a third electric push rod 409, a second slide rail track 410, a fourth transmission rod 411, a second flat gear 412, a rotary fixing claw 413, a protective cover 414, a second electric slide rail 415, a fifth transmission rod 416, a moving frame 417, a fourth electric push rod 418 and a fifth electric push rod 419; one side of the first transmission rod 401 is fixedly connected with the stepping motor 12; the other side of the first transmission rod 401 is fixedly connected with the inside of the first bevel gear 402; the first transmission rod 401 is rotatably connected with the support frame 1; a first electric slide rail 406 is arranged on the side surface of the first transmission rod 401; the first bevel gear 402 meshes with the second bevel gear 403; one side of the second transmission rod 404 is fixedly connected with the inner axis of the second bevel gear 403; the other side of the second transmission rod 404 is fixedly connected with the inner axle center of the first flat gear 405; the second transmission rod 404 is rotatably connected with the support frame 1; the first electric slide rail 406 is fixedly connected with the support frame 1; the first electric slide rail 406 is slidably connected to the first slide rail track 407 via a slider; the inside of one side of the first slide rail track 407 contacts with the third transmission rod 408; the other side of the first slide rail 407 is fixedly connected with a fifth transmission rod 416; the lower part of the third transmission rod 408 is fixedly connected with a third electric push rod 409; one side of the third electric push rod 409 is contacted with the second slide rail 410 through a slide block; the other side of the third electric push rod 409 is rotatably connected with a fourth transmission rod 411; the upper parts of the two sides of the second slide rail 410 are fixedly connected with the support frame 1; the middle of the fourth transmission rod 411 is fixedly connected with the inner axis of the second flat gear 412; the lower part of the fourth transmission rod 411 is fixedly connected with a rotary fixed claw 413; the rotary fixing claw 413 is fixedly connected with the protective cover 414; one side of the fifth transmission rod 416 is connected with the second electric slide rail 415 in a sliding manner through a slide block; the other side of the fifth transmission rod 416 is fixedly connected with the movable frame 417; the second electric slide rail 415 is fixedly connected with the support frame 1; one side of the lower end of the movable frame 417 is fixedly connected with a fourth electric push rod 418; the other side of the lower end of the movable frame 417 is fixedly connected with a fifth electric push rod 419; the movable frame 417 and the support frame 1 are in contact with each other; the fourth electric push rod 418 and the fifth electric push rod 419 are inserted into one side of the loading box 207; when the first flat gear 405 is meshed with the second flat gear 412, the first flat gear 405 drives the second flat gear 412 to rotate; when the first spur gear 405 is not meshed with the second spur gear 412, the second spur gear 412 does not rotate.

The desugared and degreased poplar bark is conveyed to the loading box 207 and then needs to be dewatered, at the moment, the fourth electric push rod 418 and the fifth electric push rod 419 extend and are inserted into the loading box 207, then the second electric slide rail 415 drives the fifth transmission rod 416 to move through a slide block, further the fifth transmission rod 416 drives the moving frame 417 to move, further the moving frame 417 drives the fourth electric push rod 418 and the fifth electric push rod 419 to move, meanwhile, the fourth electric push rod 418 and the fifth electric push rod 419 drive the loading box 207 to move, and then the loading box 207 is moved to the center of the filter screen 5; meanwhile, the fifth transmission rod 416 drives the first slide rail 407 to move on the first electric slide rail 406 through the slider, so that the first slide rail 407 forces the third transmission rod 408 to move on the first slide rail 407, and simultaneously the third transmission rod 408 moves on the second slide rail 410 through the slider, so that the third transmission rod 408 drives the third electric push rod 409 to move, so that the third electric push rod 409 drives the fourth transmission rod 411 to move, so that the fourth transmission rod 411 drives the second flat gear 412 to move, and simultaneously the fourth transmission rod 411 drives the rotary fixing claw 413 to move, so that the rotary fixing claw 413 moves to drive the protective cover 414 to move, when moving right above the filter screen 5, the fourth electric push rod 418 and the fifth electric push rod 419 contract simultaneously, and simultaneously the third electric push rod 409 drives the fourth transmission rod 411 to move downwards, so that the fourth transmission rod 411 drives the second flat gear 412 to move downwards, so that the fourth transmission rod 411 drives the rotary fixing claw 413 to move downwards, simultaneously, the rotating fixing claw 413 moves downwards with the protection cover 414, so that the protection cover 414 is buckled on the loading box 207, and the second flat gear 412 is meshed with the first flat gear 405; then, the stepping motor 12 is started, the stepping motor 12 drives the first transmission rod 401 to rotate, the first transmission rod 401 drives the first bevel gear 402 to rotate, the first bevel gear 402 drives the second bevel gear 403 to rotate, the second bevel gear 403 drives the second transmission rod 404 to rotate, the second transmission rod 404 drives the first flat gear 405 to rotate, the first flat gear 405 drives the second flat gear 412 to rotate, the second flat gear 412 drives the fourth transmission rod 411 to rotate, the fourth transmission rod 411 drives the rotary fixing claw 413 to rotate, the rotary fixing claw 413 drives the protective cover 414 to rotate, the rotary fixing claw 413 drives the loading box 207 to rotate, the centrifugal force caused by the rotation of the loading box 207 is utilized to achieve the dewatering effect, a plurality of drainage holes are formed in the two sides of the loading box 207, and the drainage efficiency is improved; the inner side of the rotary fixed claw 413 is provided with a flow guide groove to prevent water vapor from gathering on the rotary fixed claw 413 during dehydration, the thrown water flows down along the flow guide groove on the inner side of the claw of the rotary fixed claw 413, and the rest water flows down along the inner wall of the protective cover 414; after the dewatering effect is achieved, the stepping motor 12 is turned off, then the third electric push rod 409 contracts to drive the fourth transmission rod 411 to move upwards, then the fourth transmission rod 411 drives the second flat gear 412 to move upwards, then the fourth transmission rod 411 drives the rotary fixing claw 413 to move upwards, further the rotary fixing claw 413 drives the protective cover 414 to move upwards, then the fourth electric push rod 418 and the fifth electric push rod 419 simultaneously push the loading box 207 to the fixed framework 7, the fixed framework 7 buckles the white parts on the two sides of the inlet and the outlet of the loading box 207 to ensure that the poplar skin is not blocked by the fixed framework 7 when being unloaded, then the first electric push rod 14 and the second electric push rod 15 simultaneously push the fixed framework 7 to lift the fixed framework 7 towards one end of the transmission mechanism 16, and finally all the poplar skins in the loading box 207 are stored in the first collecting box 8. The mechanism completes the control of the moisture content of the poplar bark.

The transmission mechanism 16 comprises a small motor 1601, a third plummer 1602, a sixth transmission rod 1603, a third bevel gear 1604, a fourth bevel gear 1605, a seventh transmission rod 1606, a first transmission wheel 1607, a second transmission wheel 1608, an eighth transmission rod 1609, a third transmission wheel 1610 and a fourth transmission wheel 1611; the small motor 1601 is fixedly connected with the third bearing platform 1602; the third bearing platform 1602 is fixedly connected with the support frame 1; one side of the sixth transmission rod 1603 is fixedly connected with the small motor 1601 in a rotating mode; the other side of the sixth driving rod 1603 is fixedly connected with the inner axis of the third bevel gear 1604; the sixth transmission rod 1603 is rotatably connected with the support frame 1; the third bevel gear 1604 meshes with a fourth bevel gear 1605; the middle of the seventh transmission rod 1606 is fixedly connected with the inner axis of the fourth bevel gear 1605; one side of the seventh transmission rod 1606 is fixedly connected with the inner axle center of the first transmission wheel 1607; the other side of the seventh transmission rod 1606 is rotatably connected with the first transmission belt 211; the seventh transmission rod 1606 is rotatably connected with the support frame 1; the outer ring surface of the first driving wheel 1607 is in transmission connection with a second driving wheel 1608 through a belt; an eighth driving rod 1609 is fixedly connected with the inner axle center of the second driving wheel 1608; the eighth driving rod 1609 is fixedly connected with the inner axle center of the third driving wheel 1610; the eighth driving link 1609 is rotatably connected to the eleventh bracket 316; the eighth driving rod 1609 is fixedly connected to the second conveyor belt 312; the eighth transmission rod 1609 is rotatably connected with the support frame 1; the outer annular surface of the third driving wheel 1610 is in transmission connection with a fourth driving wheel 1611 through a belt; the inner axis of the fourth transmission wheel 1611 is fixedly connected with the roller 318.

When the operation is started, the small motor 1601 drives the sixth transmission rod 1603 to rotate, then the sixth transmission rod 1603 drives the third bevel gear 1604 to rotate, then the third bevel gear 1604 drives the fourth bevel gear 1605 to rotate, at this time, the fourth bevel gear 1605 drives the seventh transmission rod 1606 to rotate, and then the seventh transmission rod 1606 drives the first transmission belt 211 to rotate; meanwhile, the seventh transmission rod 1606 drives the first transmission wheel 1607, the outer annular surface of the first transmission wheel 1607 drives the second transmission wheel 1608 to rotate through a belt, the second transmission wheel 1608 drives the eighth transmission rod 1609 to rotate, the eighth transmission rod 1609 drives the second transmission belt 312 to operate, the outer annular surface of the eighth transmission rod 1609 drives the third transmission wheel 1610 to rotate through a belt, at the moment, the third transmission wheel 1610 reversely drives the fourth transmission wheel 1611 to rotate, and the fourth transmission wheel 1611 drives the roller 318 to rotate when rotating; the mechanism realizes the operation of the linkage desugaring and degreasing mechanism 2 and the cloth plate bonding mechanism 3.

An electric drive rod is arranged inside the steam injection platform 208.

The electric roller can further convey the poplar bark into the loading bin 207.

The inclined surface of the conveying table 209 is fixed to the separation guide 210 at a forty-five degree angle, and the conveying table 209 is connected to the first conveyor belt 211 at a thirty degree angle.

The separation guide 210 can better separate the bonded poplar bark.

The claw of the rotary fixing claw 413 is tightly buckled around the loading box 207, and a flow guide groove is arranged on the inner side of the claw.

The water content of the poplar bark can be controlled more effectively, and resources are saved.

The second conveyor belt 312 rotates in the opposite direction of the roller 318.

The second conveyor belt 312 can roll the oak board by the roller 318 while conveying the poplar bark, so that the oak board is tightly attached to the non-woven fabric.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.