阅读说明：本技术 交错压折式棕板床垫四周翘起棕丝处理设备 (Crisscross pressure folding palm mattress perk palm treatment facility all around ) 是由 符颖鸿 于 2021-09-22 设计创作，主要内容包括：本发明涉及一种床垫领域,尤其涉及一种交错压折式棕板床垫四周翘起棕丝处理设备。本发明的技术问题：提供一种交错压折式棕板床垫四周翘起棕丝处理设备。本发明的技术实施方案是：一种交错压折式棕板床垫四周翘起棕丝处理设备,包括有支撑架、第一辅助板、第二辅助板和移动钩杆等；支撑架上方右侧安装有控制单元。本发明实现了对棕板床垫四周翘起的处理,处理时,通过对翘起棕丝的翘起程度的控制,使得棕丝相互盘结交错,压折之后进行涂胶能够更加牢固,不易出现杂乱抽丝现象,同时对其它位置翘起棕丝进行强力压折处理,使得翘起棕丝能够稳定弯折,并且能够在涂胶之后与边缘粘合更紧密,增加床垫的牢固程度。(The invention relates to the field of mattresses, in particular to crisscross folded palm fiber processing equipment with raised peripheries for palm plate mattresses. The technical problems of the invention are as follows: provides palm fiber processing equipment with raised periphery for a staggered and folded palm mattress. The technical implementation scheme of the invention is as follows: a crisscross palm fiber treatment facility that sticks up all around of folding palm board mattress, including support frame, first accessory plate, second accessory plate and moving hook bar, etc.; the right side above the supporting frame is provided with a control unit. According to the invention, the processing of warping of the periphery of the palm mattress is realized, during processing, the warping degree of the warped palm fibers is controlled, so that the palm fibers are mutually coiled and staggered, the gluing after the folding is firmer, the disordered fiber drawing phenomenon is not easy to occur, and meanwhile, the strong folding processing is performed on the warped palm fibers at other positions, so that the warped palm fibers can be stably bent, and can be bonded with the edge more tightly after the gluing, and the firmness degree of the mattress is increased.)

1. A crisscross palm fiber treatment facility that sticks up all around of folding palm board mattress, including support frame, moving hook lever, first wedge and slip orbit; a movable hook rod is arranged on the right side above the supporting frame; a sliding track is arranged on the upper side of the supporting frame close to the right side of the movable hook rod; a first wedge-shaped block is arranged on the sliding track; the method is characterized in that: the device also comprises a control unit and a processing unit; a control unit is arranged on the right side above the supporting frame and is in sliding connection with the sliding track; the control unit is fixedly connected with the processing unit; the control unit is used for controlling the processing position of the raised part on the side surface of the palm mattress; processing units are arranged above and at two sides of the placing table above the supporting frame; the processing unit is used for being controlled to process the side tilting part of the palm mattress.

2. The crisscross palm fiber processing equipment for the peripheral warping of the palm mattress according to claim 1, wherein the equipment comprises: the control unit comprises a driver, a first transmission shaft, a first bevel gear, a second bevel gear, a third transmission shaft, a first hexagonal slide bar, a second wedge-shaped block, a fourth transmission shaft, a first flat gear, a second flat gear, a fifth transmission shaft, a third flat gear, a sixth transmission shaft, a first transmission wheel, a second transmission wheel, a seventh transmission shaft, a third bevel gear, a fourth bevel gear, an eighth transmission shaft, a second hexagonal slide bar, a ninth transmission shaft, a fourth flat gear, an electric push rod, a connecting rod, a first bracket and a second bracket; the support frame is fixedly connected with the driver; the driver is fixedly connected with the first transmission shaft; the first transmission shaft is fixedly connected with the inner axis of the first bevel gear; the first transmission shaft is rotatably connected with the support frame through a bracket; the first bevel gear is meshed with the second bevel gear; the inner axis of the second bevel gear is fixedly connected with a third transmission shaft; the third transmission shaft is fixedly connected with the first hexagonal slide bar; the first hexagonal slide bar is in sliding connection with the fourth transmission shaft; a second wedge-shaped block is arranged above the first hexagonal slide bar; the second wedge-shaped block is rotatably connected with the fourth transmission shaft; the second wedge block is contacted with the first wedge block; the second wedge-shaped block is connected with the sliding track in a sliding manner; the fourth transmission shaft is fixedly connected with the inner axle center of the first flat gear; a second flat gear is arranged on the front side of the first flat gear; the first flat gear is meshed with the third flat gear; the inner axle center of the second flat gear is fixedly connected with a fifth transmission shaft; the fifth transmission shaft is rotatably connected with the support frame through a bracket; the inner axis of the third flat gear is fixedly connected with a sixth transmission shaft; the sixth transmission shaft is rotatably connected with the support frame through a bracket; the sixth transmission shaft is fixedly connected with the inner axle center of the first transmission wheel; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the inner axle center of the second driving wheel is fixedly connected with the seventh transmission shaft; the seventh transmission shaft is rotatably connected with the second bracket through a bracket; the seventh transmission shaft is fixedly connected with the inner axle center of the third bevel gear; the third bevel gear is meshed with the fourth bevel gear; the inner axis of the fourth bevel gear is fixedly connected with the eighth transmission shaft; the eighth transmission shaft is fixedly connected with the second hexagonal slide bar; the eighth transmission shaft is rotatably connected with the second bracket; the second hexagonal slide bar is in sliding connection with the ninth transmission shaft; the ninth transmission shaft is fixedly connected with the inner axle center of the fourth flat gear; the ninth transmission shaft is rotatably connected with the connecting rod; the fourth flat gear is meshed with the pressing and folding unit; the connecting rod is fixedly connected with the electric push rod; the electric push rod is fixedly connected with the first support; the first bracket and the second bracket are fixedly connected with the support frame; the first bracket and the second bracket are fixedly connected with the processing unit; the combination of the first transmission wheel, the second transmission wheel, the seventh transmission shaft, the third bevel gear, the fourth bevel gear, the eighth transmission shaft, the second hexagonal slide bar, the ninth transmission shaft, the fourth flat gear, the electric push rod, the connecting rod, the first bracket and the second bracket is symmetrically arranged at two sides of the driver and is driven to operate by the fifth transmission shaft; 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 flat gear is not meshed with the second flat gear, the first flat gear does not drive the second flat gear to rotate.

3. The crisscross palm fiber processing equipment for the peripheral warping of the palm mattress according to claim 2, wherein the equipment comprises: the processing unit comprises a first electric slide rail, a first electric slide block, a rolling rod, a fifth flat gear, a movable hook frame, a first extrusion block, a rolling wheel, a shifting sheet, a second extrusion block, a second electric slide rail, a first electric support and a second electric support; the first electric sliding rail is fixedly connected with the first electric bracket; the first electric sliding rail is in sliding connection with the first electric sliding block; the first electric sliding block is rotationally connected with the rolling rod through a bracket; the first electric sliding block is fixedly connected with the movable hook frame through a bracket; the rolling rod is fixedly connected with the inner axle center of the fifth flat gear; the rolling rod is rotationally connected with the movable hook frame; a plurality of groups of rolling wheels are arranged on the rolling rod at equal intervals; the rolling rod is rotationally connected with the second extrusion block through a bracket; the movable hook frame is fixedly connected with the first extrusion block; the first extrusion block is fixedly connected with the second extrusion block through a connecting rod; a plurality of shifting pieces are equidistantly arranged on two sides of the rolling wheel and are arranged in an annular array; the second extrusion block is fixedly connected with the second electric sliding block through a bracket; the second electric sliding block is connected with the second electric sliding rail in a sliding manner; the second electric sliding rail is fixedly connected with the second electric bracket; the first electric bracket and the second electric bracket are fixedly connected with the support frame; when the fifth flat gear is meshed with the fourth flat gear, the fourth flat gear drives the fifth flat gear to rotate; when the fifth flat gear is not meshed with the fourth flat gear, the fourth flat gear does not drive the fifth flat gear to rotate.

4. The crisscross palm fiber processing equipment for the peripheral warping of the palm mattress according to claim 1, wherein the equipment comprises: the inner sides of the first auxiliary plate and the second auxiliary plate are both provided with arc-shaped bulges.

5. The crisscross palm fiber processing equipment for the peripheral warping of the palm mattress according to claim 1, wherein the equipment comprises: two protruding blocks are arranged on the right side of the middle part of the movable hook rod, and a tenon joint is arranged at one end of the movable hook rod.

6. The crisscross palm fiber processing equipment for the peripheral warping of the palm mattress according to claim 1, wherein the equipment comprises: the sliding track is arranged to be L-shaped.

7. The criss-cross palm fiber mattress peripheral raised palm fiber treatment equipment according to claim 3, wherein the equipment comprises: an interface corresponding to the tenon interface at one end of the movable hook rod is arranged below the movable hook frame.

8. The criss-cross palm fiber mattress peripheral raised palm fiber treatment equipment according to claim 3, wherein the equipment comprises: grooves in an inclined state are arranged below the first extrusion block and the second extrusion block.

9. The criss-cross palm fiber mattress peripheral raised palm fiber treatment equipment according to claim 3, wherein the equipment comprises: the shifting sheet is arranged in an arc shape.

Technical Field

The invention relates to the field of mattresses, in particular to crisscross folded palm fiber processing equipment with raised peripheries for palm plate mattresses.

Background

Present palm board mattress processing technology, place the mattress at the bonding bench, use the hot melt adhesive rifle to carry out the spraying of hot melt adhesive after that, such spraying has the problem, the preparation of some palm board mattresses, it has the palm perk to make for a long time around the mattress, it is inhomogeneous to make the spraying when the spraying hot melt adhesive, lead to the subsequent quality of mattress impaired, it is healthy to influence people's sleep, and the palm of perk is loose state, loose degree can be enlarged to the palm of direct pressure perk, can cause the bonding insecure of palm board mattress at last, serious can lead to whole mattress to collapse even, endanger personal safety.

In summary, a crisscross palm fiber processing device with raised periphery of the palm mattress is needed to solve the above problems.

Disclosure of Invention

In order to overcome the technical problem of the prior palm mattress treatment, the mattress is placed on a bonding table, then a hot melt adhesive gun is used for spraying hot melt adhesive, and the spraying has the problems, the palm fiber warps around the mattress after a long time, so that the spraying is not uniform when the hot melt adhesive is sprayed, the subsequent quality of the mattress is damaged, the sleep health of people is influenced, the warped palm fiber is in a loose state, the loose degree can be enlarged by directly pressing the warped palm fiber, the adhesion of the palm mattress is not firm, and even the whole mattress can be loosened seriously, so that the personal safety is endangered, the palm mattress treatment method has the following technical problems: provides palm fiber processing equipment with raised periphery for a staggered and folded palm mattress.

The technical implementation scheme of the invention is as follows: a crisscross crimp type palm fiber processing device with raised palm fiber on the periphery of a palm mattress comprises a support frame, a placing table, an anti-slip mat, a first auxiliary plate, a second auxiliary plate, a movable hook rod, a first wedge-shaped block and a sliding track; a placing table is arranged in the middle above the supporting frame; four groups of anti-slip pads are fixedly connected below the supporting frame; a movable hook rod is arranged on the right side above the supporting frame; a sliding track is arranged on the upper side of the supporting frame close to the right side of the movable hook rod; a first auxiliary plate and a second auxiliary plate are symmetrically and fixedly connected to the two sides of the placing table; a first wedge-shaped block is arranged on the sliding track; a control unit is arranged on the right side above the supporting frame and is in sliding connection with the sliding track; the control unit is fixedly connected with the processing unit; the control unit is used for controlling the processing position of the raised part on the side surface of the palm mattress; processing units are arranged above and at two sides of the placing table above the supporting frame; the processing unit is used for being controlled to process the side tilting part of the palm mattress.

Optionally, the control unit includes a driver, a first transmission shaft, a first bevel gear, a second bevel gear, a third transmission shaft, a first hexagonal slide bar, a second wedge block, a fourth transmission shaft, a first flat gear, a second flat gear, a fifth transmission shaft, a third flat gear, a sixth transmission shaft, a first transmission wheel, a second transmission wheel, a seventh transmission shaft, a third bevel gear, a fourth bevel gear, an eighth transmission shaft, a second hexagonal slide bar, a ninth transmission shaft, a fourth flat gear, an electric push rod, a connecting rod, a first bracket and a second bracket; the support frame is fixedly connected with the driver; the driver is fixedly connected with the first transmission shaft; the first transmission shaft is fixedly connected with the inner axis of the first bevel gear; the first transmission shaft is rotatably connected with the support frame through a bracket; the first bevel gear is meshed with the second bevel gear; the inner axis of the second bevel gear is fixedly connected with a third transmission shaft; the third transmission shaft is fixedly connected with the first hexagonal slide bar; the first hexagonal slide bar is in sliding connection with the fourth transmission shaft; a second wedge-shaped block is arranged above the first hexagonal slide bar; the second wedge-shaped block is rotatably connected with the fourth transmission shaft; the second wedge block is contacted with the first wedge block; the second wedge-shaped block is connected with the sliding track in a sliding manner; the fourth transmission shaft is fixedly connected with the inner axle center of the first flat gear; a second flat gear is arranged on the front side of the first flat gear; the first flat gear is meshed with the third flat gear; the inner axle center of the second flat gear is fixedly connected with a fifth transmission shaft; the fifth transmission shaft is rotatably connected with the support frame through a bracket; the inner axis of the third flat gear is fixedly connected with a sixth transmission shaft; the sixth transmission shaft is rotatably connected with the support frame through a bracket; the sixth transmission shaft is fixedly connected with the inner axle center of the first transmission wheel; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the inner axle center of the second driving wheel is fixedly connected with the seventh transmission shaft; the seventh transmission shaft is rotatably connected with the second bracket through a bracket; the seventh transmission shaft is fixedly connected with the inner axle center of the third bevel gear; the third bevel gear is meshed with the fourth bevel gear; the inner axis of the fourth bevel gear is fixedly connected with the eighth transmission shaft; the eighth transmission shaft is fixedly connected with the second hexagonal slide bar; the eighth transmission shaft is rotatably connected with the second bracket; the second hexagonal slide bar is in sliding connection with the ninth transmission shaft; the ninth transmission shaft is fixedly connected with the inner axle center of the fourth flat gear; the ninth transmission shaft is rotatably connected with the connecting rod; the fourth flat gear is meshed with the pressing and folding unit; the connecting rod is fixedly connected with the electric push rod; the electric push rod is fixedly connected with the first support; the first bracket and the second bracket are fixedly connected with the support frame; the first bracket and the second bracket are fixedly connected with the processing unit; the combination of the first transmission wheel, the second transmission wheel, the seventh transmission shaft, the third bevel gear, the fourth bevel gear, the eighth transmission shaft, the second hexagonal slide bar, the ninth transmission shaft, the fourth flat gear, the electric push rod, the connecting rod, the first bracket and the second bracket is symmetrically arranged at two sides of the driver and is driven to operate by the fifth transmission shaft; 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 flat gear is not meshed with the second flat gear, the first flat gear does not drive the second flat gear to rotate.

Optionally, the processing unit includes a first electric slide rail, a first electric slide block, a rolling rod, a fifth flat gear, a movable hook frame, a first extrusion block, a rolling wheel, a shifting sheet, a second extrusion block, a second electric slide rail, a first electric support and a second electric support; the first electric sliding rail is fixedly connected with the first electric bracket; the first electric sliding rail is in sliding connection with the first electric sliding block; the first electric sliding block is rotationally connected with the rolling rod through a bracket; the first electric sliding block is fixedly connected with the movable hook frame through a bracket; the rolling rod is fixedly connected with the inner axle center of the fifth flat gear; the rolling rod is rotationally connected with the movable hook frame; a plurality of groups of rolling wheels are arranged on the rolling rod at equal intervals; the rolling rod is rotationally connected with the second extrusion block through a bracket; the movable hook frame is fixedly connected with the first extrusion block; the first extrusion block is fixedly connected with the second extrusion block through a connecting rod; a plurality of shifting pieces are equidistantly arranged on two sides of the rolling wheel and are arranged in an annular array; the second extrusion block is fixedly connected with the second electric sliding block through a bracket; the second electric sliding block is connected with the second electric sliding rail in a sliding manner; the second electric sliding rail is fixedly connected with the second electric bracket; the first electric bracket and the second electric bracket are fixedly connected with the support frame; when the fifth flat gear is meshed with the fourth flat gear, the fourth flat gear drives the fifth flat gear to rotate; when the fifth flat gear is not meshed with the fourth flat gear, the fourth flat gear does not drive the fifth flat gear to rotate.

Optionally, the inner sides of the first auxiliary plate and the second auxiliary plate are both provided with arc-shaped protrusions.

Optionally, the right side of the middle part of the movable hook rod is provided with two protruding blocks, and one end of the movable hook rod is provided with a tenon joint.

Optionally, the sliding track is provided in an "L" shape.

Optionally, an interface corresponding to the tenon interface at one end of the movable hook rod is arranged below the movable hook frame.

Optionally, grooves in an inclined state are arranged below the first extrusion block and the second extrusion block.

Optionally, the shifting piece is arranged in an arc shape.

The invention has the following advantages:

firstly, in order to solve the existing palm mattress processing technology, a mattress is placed on a bonding table, and then a hot melt adhesive gun is used for spraying hot melt adhesive, so that the spraying has problems, the palm fiber on the periphery of the mattress can be tilted after a long time in the production of some palm mattresses, the spraying is uneven when the hot melt adhesive is sprayed, the subsequent quality of the mattress is damaged, the sleep health of people is influenced, the tilted palm fiber is in a loose state, the loose degree can be enlarged by directly pressing the tilted palm fiber, the adhesion of the palm mattress is not firm, and even the whole mattress can be loosened seriously, so that the personal safety is threatened;

secondly, a control unit, a processing unit and a folding unit are designed; when the palm mattress is used, the support frame is horizontally placed, the anti-slip mat device is prevented from moving, then the palm mattress is externally connected with a power supply, then the palm mattress is placed on the placing table through the external device, the processing unit is enabled to face the palm mattress through the control unit to perform edge tilting processing, during processing, the tilting palm fibers are enabled to be different in tilting degree through the rolling wheels and the shifting pieces, so that the palm fibers are coiled together and are arranged in a staggered mode, then the rolling rods of the processing unit are moved to other positions to process edge tilting, when the movable hook rack is not contacted with the movable hook rod, the control unit drives the crimping unit to crimp the palm fibers staggered with the coils, then the movable hook rack continues to move, through linkage of the movable hook rack and the movable hook rod, the first wedge-shaped block and the control unit slide on the sliding track, the control unit is enabled to convert the meshing state, and the processing unit continues to control, meanwhile, the first extrusion block and the second extrusion block of the processing unit are pressed and folded towards the raised palm fibers at the edge of the palm mattress under the assistance of the first auxiliary plate and the second auxiliary plate, when the rolling rod moves to the raised position at the front side of the palm mattress, the processing unit is driven by the control unit to carry out processing again, then the rolling rod is controlled to move back for a certain distance, at the moment, the control unit drives the pressing and folding unit to move again, and finally the device is reset, so that the palm mattress is taken away for next processing; according to the invention, the processing of warping of the periphery of the palm mattress is realized, during processing, the warping degree of the warped palm fibers is controlled, so that the palm fibers are mutually coiled and staggered, the gluing after the folding is more firm, and the disordered fiber drawing phenomenon is not easy to occur, and meanwhile, the strong folding processing is carried out on the warped palm fibers at other positions, so that the warped palm fibers can be stably bent, and can be bonded with the edge more tightly after the gluing, and the firmness degree of the mattress is increased;

thirdly, the invention realizes the treatment of warping around the palm mattress, and the palm fibers are mutually coiled and staggered by controlling the warping degree of the warped palm fibers during the treatment, so that the gluing after the pressing and folding can be firmer, the disordered fiber drawing phenomenon is not easy to occur, and meanwhile, the strong pressing and folding treatment is carried out on the warped palm fibers at other positions, so that the warped palm fibers can be stably bent, and can be bonded with the edge more tightly after the gluing, and the firmness degree of the mattress is increased.

Drawings

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

FIG. 2 is a perspective view of the present invention in a second direction;

FIG. 3 is a schematic perspective view of the combination of the moving hook bar, the first wedge and the sliding track of the present invention;

FIG. 4 is a schematic perspective view of a first auxiliary plate according to the present invention;

FIG. 5 is a schematic perspective view of a control unit according to the present invention in a first orientation;

FIG. 6 is a partial perspective view of the control unit of the present invention;

FIG. 7 is a top view of the control unit of the present invention;

FIG. 8 is a schematic perspective view of a first orientation of the processing unit of the present invention;

FIG. 9 is a schematic perspective view of a second orientation of the processing unit of the present invention;

FIG. 10 is a perspective view of the third direction of the processing unit of the present invention;

FIG. 11 is a schematic perspective view of a combination of a first extrusion block and a second extrusion block of the present invention;

FIG. 12 is a schematic perspective view of the combination roller and paddle of the present invention;

FIG. 13 is a schematic perspective view of the movable hook holder of the present invention;

FIG. 14 is a front view of a processing unit of the present invention;

FIG. 15 is a schematic perspective view of a first direction of the folding unit of the present invention;

FIG. 16 is a schematic perspective view of a second direction of the folding unit of the present invention;

FIG. 17 is a schematic perspective view of a combination of a first pressing groove, a first scraping tooth and a first moving rod of the folding unit according to the present invention;

figure 18 is a top view of the crimping unit of the present invention.

The parts are labeled as follows: 1: support frame, 2: placing table, 3: non-slip mat, 4: first auxiliary plate, 5: second auxiliary plate, 6: moving hook rod, 7: first wedge block, 8: sliding rail, 201: driver, 202: first transmission shaft, 203: first bevel gear, 204: second bevel gear, 205: third drive shaft, 206: first hexagonal slide bar, 207: second wedge block, 208: fourth transmission shaft, 209: first spur gear, 2010: second spur gear, 2011: fifth transmission shaft, 2012: third spur gear, 2013: sixth propeller shaft, 2014: first drive wheel, 2015: second drive wheel, 2016: seventh propeller shaft, 2017: third bevel gear, 2018: fourth bevel gear, 2019: eighth drive shaft, 2020: second hexagonal slide bar, 2021: ninth propeller shaft, 2022: fourth spur gear, 2023: electric putter, 2024: connecting rod, 2025: first bracket, 2026: second bracket, 301: first motorized slide, 302: first electrical slider, 303: roll bar, 304: fifth spur gear, 305: moving hook frame, 306: first extrusion block, 307: rolling wheel, 308: plectrum, 309: second extrusion block, 3010: second electrical slider, 3011: second electrical slide, 3012: first motorized mount, 3013: second motorized support, 401: sixth flat gear, 402: tenth drive shaft, 403: fifth bevel gear, 404: sixth bevel gear, 405: eleventh drive shaft, 406: third transmission wheel, 407: fourth transmission wheel, 408: first bidirectional screw, 409: first indent, 4010: first scraping tooth, 4011: first moving bar, 4012: second moving bar, 4013: first compression leg, 4014: first polish rod, 4015: eighth spur gear, 4016: twelfth propeller shaft, 4017: seventh bevel gear, 4018: eighth bevel gear, 4019: thirteenth propeller shaft, 4020: fifth transmission wheel, 4021: sixth transmission wheel, 4022: second bidirectional screw, 4023: third travel bar, 4024: second indent, 4025: second scraping tooth, 4026: fourth moving bar, 4027: second compression leg, 4028: a second polished rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.

Examples

A crisscross press folding palm fiber processing equipment that rises all around of formula palm mattress, refer to fig. 1-4 and show, including support frame 1, place platform 2, slipmat 3, first accessory plate 4, second accessory plate 5, remove hook lever 6, first wedge 7 and slip track 8; a placing table 2 is arranged in the middle above the supporting frame 1; four groups of anti-skid pads 3 are fixedly connected below the support frame 1; a movable hook rod 6 is arranged on the right side above the support frame 1; a sliding track 8 is arranged above the support frame 1 and close to the right side of the movable hook rod 6; a first auxiliary plate 4 and a second auxiliary plate 5 are symmetrically and fixedly connected to two sides of the placing table 2; a first wedge block 7 is arranged on the sliding track 8; a control unit is arranged on the right side above the support frame 1 and is in sliding connection with the sliding track 8; the control unit is fixedly connected with the processing unit; the control unit is used for controlling the processing position of the raised part on the side surface of the palm mattress; processing units are arranged above and at two sides of the placing table 2 above the supporting frame 1; the processing unit is used for being controlled to process the side tilting part of the palm mattress.

When the palm fiber mattress is used, the support frame 1 is horizontally placed, the device is prevented from moving through the anti-slip mat 3, then a power supply is connected externally, then a palm mattress is placed on the placing table 2 through an external device, then the processing unit is enabled to face the palm mattress through the control unit to carry out edge tilting processing, during processing, the tilting degrees of the tilted palm fibers are different through the rolling wheel 307 and the poking piece 308, so that the palm fibers are coiled together and arranged in a staggered mode, then the rolling rod 303 of the processing unit is moved to other positions to process edge tilting, when the movable hook rack 305 is not in contact with the movable hook rod 6, the control unit drives the crimping unit to crimp the palm fibers staggered with the coils, then the movable hook rack 305 continues to move, through linkage of the movable hook rack 305 and the movable hook rod 6, the first wedge-shaped block 7 and the control unit slide on the sliding rail 8, so that the control unit can convert the meshing state, continuing to control the processing unit, meanwhile, pressing and folding palm fibers warped towards the edge of the palm mattress by a first extrusion block 306 and a second extrusion block 309 of the processing unit under the assistance of a first auxiliary plate 4 and a second auxiliary plate 5, driving the processing unit to perform processing again through the control unit when the rolling rod 303 moves to the front tilting position of the palm mattress, then controlling the rolling rod 303 to move back for a certain distance, driving the pressing and folding unit to move again through the control unit, finally resetting the device, and taking the palm mattress for next processing; according to the invention, the processing of warping of the periphery of the palm mattress is realized, during processing, the warping degree of the warped palm fibers is controlled, so that the palm fibers are mutually coiled and staggered, the gluing after the folding is firmer, the disordered fiber drawing phenomenon is not easy to occur, and meanwhile, the strong folding processing is performed on the warped palm fibers at other positions, so that the warped palm fibers can be stably bent, and can be bonded with the edge more tightly after the gluing, and the firmness degree of the mattress is increased.

Referring to fig. 5-7, the control unit includes a driver 201, a first transmission shaft 202, a first bevel gear 203, a second bevel gear 204, a third transmission shaft 205, a first hexagonal slide bar 206, a second wedge block 207, a fourth transmission shaft 208, a first flat gear 209, a second flat gear 2010, a fifth transmission shaft 2011, a third flat gear 2012, a sixth transmission shaft 2013, a first transmission wheel 2014, a second transmission wheel 2015, a seventh transmission shaft 2016, a third bevel gear 2017, a fourth bevel gear 2018, an eighth transmission shaft 2019, a second hexagonal slide bar 2020, a ninth transmission shaft 2021, a fourth flat gear 2022, an electric push rod 2023, a connecting rod 2024, a first bracket 2025 and a second bracket 2026; the support frame 1 is fixedly connected with the driver 201; the driver 201 is fixedly connected with the first transmission shaft 202; the first transmission shaft 202 is fixedly connected with the inner axis of the first bevel gear 203; the first transmission shaft 202 is rotatably connected with the support frame 1 through a bracket; the first bevel gear 203 is meshed with the second bevel gear 204; the inner axis of the second bevel gear 204 is fixedly connected with a third transmission shaft 205; the third transmission shaft 205 is fixedly connected with the first hexagonal slide bar 206; the first hexagonal slide bar 206 is slidably connected with the fourth transmission shaft 208; a second wedge-shaped block 207 is arranged above the first hexagonal slide bar 206; the second wedge block 207 is rotatably connected with the fourth transmission shaft 208; the second wedge-shaped block 207 is in contact with the first wedge-shaped block 7; the second wedge-shaped block 207 is connected with the sliding rail 8 in a sliding manner; the fourth transmission shaft 208 is fixedly connected with the inner axle center of the first flat gear 209; a second flat gear 2010 is arranged on the front side of the first flat gear 209; the first pinion 209 meshes with the third pinion 2012; the inner axis of the second flat gear 2010 is fixedly connected with a fifth transmission shaft 2011; the fifth transmission shaft 2011 is rotatably connected with the support frame 1 through a bracket; the inner axis of the third flat gear 2012 is fixedly connected with a sixth transmission shaft 2013; the sixth transmission shaft 2013 is rotatably connected with the support frame 1 through a bracket; the sixth transmission shaft 2013 is fixedly connected with the inner axis of the first transmission wheel 2014; the outer ring surface of the first driving wheel 2014 is in driving connection with a second driving wheel 2015 through a belt; the inner axis of the second driving wheel 2015 is fixedly connected with the seventh transmission shaft 2016; the seventh transmission shaft 2016 is rotatably connected with the second bracket 2026 through a bracket; the seventh transmission shaft 2016 is fixedly connected with the inner axis of the third bevel gear 2017; the third bevel gear 2017 is meshed with a fourth bevel gear 2018; the inner axis of the fourth bevel gear 2018 is fixedly connected with an eighth transmission shaft 2019; the eighth transmission shaft 2019 is fixedly connected with the second hexagonal slide bar 2020; the eighth transmission shaft 2019 is rotatably connected with the second bracket 2026; the second hexagonal slide bar 2020 is slidably connected with the ninth transmission shaft 2021; the ninth transmission shaft 2021 is fixedly connected with the inner axis of the fourth flat gear 2022; the ninth transmission shaft 2021 is rotatably connected with the connecting rod 2024; the fourth spur gear 2022 is engaged with the crimping unit; the connecting rod 2024 is fixedly connected with the electric push rod 2023; the electric push rod 2023 is fixedly connected with the first bracket 2025; the first bracket 2025 and the second bracket 2026 are fixedly connected with the support frame 1; the first bracket 2025 and the second bracket 2026 are fixedly connected with the processing unit; the combination of the first transmission wheel 2014, the second transmission wheel 2015, the seventh transmission shaft 2016, the third bevel gear 2017, the fourth bevel gear 2018, the eighth transmission shaft 2019, the second hexagonal slide bar 2020, the ninth transmission shaft 2021, the fourth flat gear 2022, the electric push rod 2023, the connecting rod 2024, the first bracket 2025 and the second bracket 2026 is symmetrically arranged at two sides of the driver 201 and is driven to operate by the fifth transmission shaft 2011; when the first flat gear 209 is meshed with the second flat gear 2010, the first flat gear 209 drives the second flat gear 2010 to rotate; when the first spur gear 209 is not meshed with the second spur gear 2010, the first spur gear 209 does not rotate the second spur gear 2010.

The palm mattress is placed on the placing table 2 by the peripheral device, then the electric push rod 2023 is controlled to extend to drive the connecting rod 2024 to move towards the direction of the fifth flat gear 304, the connecting rod 2024 drives the ninth transmission shaft 2021 to slide on the second hexagonal slide bar 2020 until the ninth transmission shaft 2021 drives the fourth flat gear 2022 to mesh with the fifth flat gear 304, then the driver 201 is controlled to drive the first transmission shaft 202 to rotate, the first transmission shaft 202 drives the first bevel gear 203 to rotate, the first bevel gear 203 drives the second bevel gear 204 to rotate, the second bevel gear 204 drives the third transmission shaft 205 to rotate, the third transmission shaft 205 drives the first hexagonal slide bar 206 to rotate, the first hexagonal slide bar 206 drives the fourth transmission shaft 208 to rotate, the fourth transmission shaft 208 drives the first flat gear 209 to rotate, and the first flat gear 209 drives the third flat gear 2012 to rotate, then, the third flat gear 2012 drives the sixth transmission shaft 2013 to rotate the first transmission wheel 2014, the outer annular surface of the first transmission wheel 2014 drives the second transmission wheel 2015 to rotate through the belt, the second transmission wheel 2015 drives the seventh transmission shaft 2016 to rotate, the seventh transmission shaft 2016 drives the third bevel gear 2017 to rotate, the third bevel gear 2017 drives the fourth bevel gear 2018 to rotate, the fourth bevel gear 2018 drives the eighth transmission shaft 2019 to rotate, the eighth transmission shaft 2019 drives the second hexagonal slide bar 2020 to rotate, the second hexagonal slide bar 2020 drives the ninth transmission shaft 2021 to rotate, the ninth transmission shaft 2021 drives the fourth flat gear 2022 to rotate, and the fourth flat gear 2022 drives the fifth flat gear 304 to rotate, so that the processing unit operates; when the processing unit is linked with the movable hook rod 6, the second wedge-shaped block 207 is driven by the first wedge-shaped block 7 to move upwards on the sliding track 8, the second wedge-shaped block 207 drives the fourth transmission shaft 208 to move upwards on the first hexagonal slide bar 206, and the fourth transmission shaft 208 drives the first flat gear 209 to move upwards, at this time, the first flat gear 209 is meshed with the second flat gear 2010, then the driver 201 is controlled to rotate the first transmission shaft 202, the first bevel gear 203, the second bevel gear 204, the third transmission shaft 205 and the first hexagonal sliding rod 206, so that the fourth transmission shaft 208 also rotates, the fourth transmission shaft 208 drives the first flat gear 209 to rotate, and the first flat gear 209 drives the second flat gear 2010 to rotate, the second flat gear 2010 drives the fifth transmission shaft 2011 to rotate, and finally the fifth transmission shaft 2011 drives the processing unit to process the raised part of the palm mattress again; this mechanism completes the process of switching the engagement state in response to the movement of the processing unit.

Referring to fig. 8-14, the processing unit includes a first electric slide rail 301, a first electric slider 302, a rolling rod 303, a fifth flat gear 304, a moving hook frame 305, a first pressing block 306, a rolling wheel 307, a shifting block 308, a second pressing block 309, a second electric slider 3010, a second electric slide rail 3011, a first electric support 3012, and a second electric support 3013; the first electric slide rail 301 is fixedly connected with the first electric support 3012; the first electric slide rail 301 is connected with the first electric slide block 302 in a sliding manner; the first electric sliding block 302 is rotatably connected with the rolling rod 303 through a bracket; the first electric slider 302 is fixedly connected with the movable hook frame 305 through a bracket; the roller 303 is fixedly connected with the inner axis of the fifth flat gear 304; the rolling rod 303 is rotatably connected with the movable hook frame 305; a plurality of groups of rolling wheels 307 are arranged on the rolling rod 303 at equal intervals; the rolling rod 303 is rotatably connected with a second extrusion block 309 through a bracket; the movable hook frame 305 is fixedly connected with the first extrusion block 306; the first extrusion block 306 is fixedly connected with the second extrusion block 309 through a connecting rod; a plurality of shifting pieces 308 are equidistantly arranged on two sides of the rolling wheel 307 and are arranged in an annular array; the second extrusion block 309 is fixedly connected with the second electric sliding block 3010 through a bracket; the second electrical slider 3010 is connected to the second electrical slide 3011 in a sliding manner; the second electric slide rail 3011 is fixedly connected to the second electric support 3013; the first electric support 3012 and the second electric support 3013 are both fixedly connected with the support 1; when the fifth flat gear 304 is engaged with the fourth flat gear 2022, the fourth flat gear 2022 drives the fifth flat gear 304 to rotate; when the fifth spur gear 304 is not engaged with the fourth spur gear 2022, the fourth spur gear 2022 does not rotate the fifth spur gear 304.

When the fourth flat gear 2022 is engaged with the fifth flat gear 304, the fourth flat gear 2022 drives the fifth flat gear 304 to rotate, the fifth flat gear 304 drives 303 the rolling rod to rotate the rolling wheel 307, and then the rolling wheel 307 drives the shifting piece 308 to rotate, so that the palm fiber warped by the palm mattress finishes the processing of up-down layering and uneven warping degree under the action of the rolling wheel 307, then the palm fiber with slightly low warping degree is shifted to the lower side of the palm fiber with higher warping degree by the shifting piece 308 to realize the disc-knot interlacing of the palm fiber, then the first electric slide rail 301 is controlled and drives the first electric slide block 302 to move towards the moving hook rod 6, meanwhile, the second electric slide rail 3011 is controlled to drive the second electric slide block 3010 to move, and then the rolling rod 303 is driven by the moving and the first electric slide block 302 together to move, and further drives the fifth flat gear 304, the moving hook rack 305, the first extrusion block 306, the rolling wheel 307, the shifting piece 308 and the second extrusion block 309 to move towards the moving hook rod 6, after the movable hook frame 305 is joggled with the movable hook rod 6, the movable hook frame 305 drives the movable hook rod 6 to continue moving until the rolling rod 303 moves to the edge of the palm mattress, at the moment, a protruding block on the movable hook rod 6 far away from the first wedge-shaped block 7 extrudes the first wedge-shaped block 7, so that the control unit switches the meshing state, then the control unit drives the fifth flat gear 304 to rotate, so that the processing unit performs the same previous processing on the edge tilting, meanwhile, in the moving process, the first extrusion block 306 and the second extrusion block 309 perform the pressing and folding processing on two sides of the palm mattress under the assistance of the first auxiliary plate 4 and the second auxiliary plate 5, during the pressing and folding, the tilted grooves of the first extrusion block 306 and the second extrusion block 309 enable the tilted palm fiber to be gradually folded after entering the grooves, and finally, the palm fiber is strongly folded when coming out of the grooves, so that the palm fiber is fixed in the bending state, after the combination of the rolling rod 303, the fifth flat gear 304, the movable hook frame 305, the first extrusion block 306, the rolling wheel 307, the shifting piece 308 and the second extrusion block 309 starts to be driven to move for a certain distance, the control unit drives the buckling unit to process the upwarp palm fibers which are not buckled at the edge of the palm mattress; the mechanism realizes the staggered folding treatment of the raised palm fibers.

Referring to fig. 15 to 18, the bending apparatus further includes a bending unit, the bending unit includes a sixth flat gear 401, a tenth transmission shaft 402, a fifth bevel gear 403, a sixth bevel gear 404, an eleventh transmission shaft 405, a third transmission wheel 406, a fourth transmission wheel 407, a first bidirectional screw 408, a first pressing groove 409, a first scraping tooth 4010, a first moving rod 4011, a second moving rod 4012, a first pressing column 4013, a first polish rod 4014, an eighth flat gear 4015, a twelfth transmission shaft 4016, a seventh bevel gear 4017, an eighth bevel gear 4018, a thirteenth transmission shaft 4019, a fifth transmission wheel 4020, a sixth transmission wheel 4021, a second bidirectional screw 4022, a third moving rod 4023, a second pressing groove 4024, a second scraping tooth 4025, a fourth moving rod 4026, a second pressing column 4027, and a second polish rod 4028; the sixth flat gear 401 meshes with the fourth flat gear 2022; the inner axis of the sixth flat gear 401 is fixedly connected with the tenth transmission shaft 402; the tenth transmission shaft 402 is rotatably connected with the support frame 1 through a bracket; the tenth transmission shaft 402 is fixedly connected with the inner axis of the fifth bevel gear 403; the fifth bevel gear 403 meshes with the sixth bevel gear 404; the inner axis of the sixth bevel gear 404 is fixedly connected with an eleventh transmission shaft 405; the eleventh transmission shaft 405 is fixedly connected with the inner axle center of the third transmission wheel 406; the eleventh transmission shaft 405 is rotatably connected with the support frame 1; the outer annular surface of the third driving wheel 406 is in transmission connection with a fourth driving wheel 407 through a belt; the inner axis of the fourth transmission wheel 407 is fixedly connected with the first bidirectional screw 408 through a sliding sleeve; the first bidirectional screw 408 is rotatably connected with the support frame 1; the first bidirectional screw 408 is screwed with the first moving rod 4011; the first bidirectional screw 408 is screwed with the second movable rod 4012; the first bidirectional screw 408 is rotatably connected with the first electric bracket 3012 through a bracket; a plurality of groups of first pressure grooves 409 are equidistantly arranged on the rear side of the first movable rod 4011; a plurality of groups of first scraping teeth 4010 are equidistantly arranged on the front side of the first movable rod 4011; the first pressure groove 409 is fixedly connected with the first scraping teeth 4010; a plurality of first pressing columns 4013 corresponding to the first pressing grooves 409 are equidistantly arranged below the second moving rod 4012; the first polish rod 4014 is slidably connected to both the first moving rod 4011 and the second moving rod 4012; the first polish rod 4014 is fixedly connected with the second electric bracket 3013 through a bracket; the first polish rod 4014 is fixedly connected with the support frame 1; a combination of a sixth flat gear 401, a tenth transmission shaft 402, a fifth bevel gear 403, a sixth bevel gear 404, an eleventh transmission shaft 405, a third transmission wheel 406, a fourth transmission wheel 407, a first bidirectional screw 408, a first indent 409, a first scraping tooth 4010, a first moving rod 4011, a second moving rod 4012, a first plunger 4013 and a first polish rod 4014 is provided with a combination of an eighth flat gear 4015, a twelfth transmission shaft 4016, a seventh bevel gear 4017, an eighth bevel gear 4018, a thirteenth transmission shaft 4019, a fifth transmission wheel 4020, a sixth transmission wheel 4021, a second bidirectional screw 4022, a third moving rod 4023, a second indent 4024, a second scraping tooth 4025, a fourth moving rod 4026, a second plunger 4027 and a second polish rod 4028 symmetrically with respect to the driver 201 as a symmetry axis; when the fourth flat gear 2022 is engaged with the sixth flat gear 401, the fourth flat gear 2022 drives the sixth flat gear 401 to rotate; when the fourth flat gear 2022 is not engaged with the sixth flat gear 401, the fourth flat gear 2022 does not rotate the sixth flat gear 401.

When the processing unit tilts, coils and interlocks the edge of the palm mattress, the control unit drives the fourth flat gear 2022 and the fifth flat gear 304 to be disengaged, at this time, the fourth flat gear 2022 and the sixth flat gear 401 are engaged, so that the control unit drives the fourth flat gear 2022 to rotate, so that the sixth flat gear 401 rotates, further the sixth flat gear 401 drives the tenth transmission shaft 402 to rotate, further the tenth transmission shaft 402 drives the fifth bevel gear 403 to rotate, further the fifth bevel gear 403 drives the sixth bevel gear 404 to rotate, further the sixth bevel gear 404 drives the eleventh transmission shaft 405 to rotate, further the eleventh transmission shaft 405 drives the third transmission wheel 406 to rotate, further the outer ring surface of the third transmission wheel 406 drives the fourth transmission wheel 407 to rotate through a belt, further the fourth transmission wheel 407 drives the first bidirectional screw rod 408 to rotate, then the first bidirectional screw rod 408 drives the first movable rod 4011 to slide upwards on the first polish rod 4014, then the first moving rod 4011 drives the first pressing groove 409 and the first scraping tooth 4010 to move upwards, then the first scraping tooth 4010 combs the palm fiber at the side of the palm mattress and inserts the palm fiber at the edge into the crisscross palm fiber, the firmness is increased, meanwhile, the first bidirectional screw 408 drives the second moving rod 4012 to slide downwards on the first polish rod 4014, then the second moving rod 4012 drives the first pressing column 4013 to slide downwards, then the first pressing column 4013 and the first pressing groove 409 carry out pressing and folding treatment on the palm fiber with the raised edge, after the movable hook frame 305 is joggled with the movable hook rod 6, the movable hook frame moves backwards for a certain distance until the protruding block closer to the first wedge block 7 extrudes the first wedge block 7, at the moment, the first flat gear 209 and the second flat gear 2010 are still in an engaged state, then the eighth flat gear 4015 is driven to rotate by the control unit, and then the eighth flat gear 4015 is driven to rotate to enable the seventh bevel gear 4017 by the twelfth transmission shaft 4016, the seventh bevel gear 4017 drives the eighth bevel gear 4018 to rotate so that the thirteenth transmission shaft 4019 rotates, the thirteenth transmission shaft 4019 drives the fifth transmission wheel 4020 to rotate, the outer annular surface of the fifth transmission wheel 4020 drives the sixth transmission wheel 4021 to rotate through a belt, then the sixth transmission wheel 4021 drives the second bidirectional screw 4022 to rotate, the third movable rod 4023 and the fourth movable rod 4026 slide in the opposite direction on the second polished rod 4028, the palm fibers are folded under the contact between the second pressing groove 4024 and the second pressing column 4027, and finally reset is performed through the reverse rotation of the driver 201, and the palm mattress is driven to continue the next operation; the mechanism completes the pressing and folding treatment of the raised palm fibers at the edge of the palm mattress.

The inner sides of the first auxiliary plate 4 and the second auxiliary plate 5 are provided with arc-shaped protrusions.

Matched with the bending palm plate mattress, the palm fiber is raised.

Two protruding blocks are arranged on the right side of the middle part of the movable hook rod 6, and a tenon joint is arranged at one end of the movable hook rod.

The operation of the processing unit is controlled by matching with the control unit, and the mortise interface can move by matching with the processing unit.

The slide rail 8 is provided in an "L" shape.

The assist control unit changes the engagement state.

An interface corresponding to a mortise interface of one end of the moving hook rod 6 is provided under the moving hook frame 305.

And completes the reset operation by matching with the movable hook rod 6.

Grooves in an inclined state are arranged below the first extrusion block 306 and the second extrusion block 309.

The raised palm fibers are folded.

The pick 308 is arranged in an arc shape.

The raised palm fibers are staggered together.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.