CN114303863B

CN114303863B - Prevent withered green transplanting device of sapling

Info

Publication number: CN114303863B
Application number: CN202111517322.XA
Authority: CN
Inventors: 雷婧
Original assignee: Lanshan Wuyi 18 Species Breeding Professional Cooperative
Current assignee: Lanshan Wuyi 18 Species Breeding Professional Cooperative
Priority date: 2021-12-13
Filing date: 2021-12-13
Publication date: 2023-04-11
Anticipated expiration: 2041-12-13
Also published as: CN114303863A

Abstract

The invention relates to the field of transplanting equipment, in particular to a green environment-friendly transplanting device for preventing tree seedlings from withering, which comprises a machine body structure, wherein roller structures are connected to the inner walls of two ends of a transverse symmetrical shaft at the bottom of the machine body structure, a control center structure is fixedly connected to the top of the machine body structure, a lifting structure is welded to the top end of the outer wall of one side of the control center structure, a power pivot structure is welded to one end of the lifting structure, limiting clamp block structures are welded to the top ends of the outer walls of two sides of the power pivot structure, and a support center structure is connected to the bottom end of the outer wall of the other side of a transplanting and transporting structure.

Description

Prevent withered green transplanting device of sapling

Technical Field

The invention relates to the field of transplanting equipment, in particular to a green environment-friendly transplanting device for preventing tree seedlings from withering.

Background

Transplanting can enlarge the nutrition space of seedling growth, such as illumination space, ventilation space and branch growth space, root growth, the space of absorbing moisture and nutrition, pruning to the root during transplanting can also stimulate seedling root system development, and the fibrous root that grows more improves the afforestation survival rate.

There are the following problems: the common sapling transplanting process of people, most are all directly carried the sapling branch and trunk and remove and plant, and at this in-process, the sapling root can receive the weight of earth to pull and cause the damage, still can lead to the sapling wither when serious, for this reason we propose a green transplanting device who prevents the sapling wither.

Disclosure of Invention

The invention aims to provide a green and environment-friendly transplanting device for preventing seedlings from withering, so as to solve the problems in the background technology.

For realizing above-mentioned purpose, a prevent green transplanting device of sapling wilt, including the organism structure, the horizontal symmetry axis both ends inner wall of organism structure bottom all is connected with the gyro wheel structure, organism structure top fixedly connected with control pivot structure, the welding of control pivot structure one side outer wall top has elevation structure, elevation structure one end welding has the power pivot structure, spacing clamp splice structure has all been welded on power pivot structure both sides outer wall top, power pivot structure both sides outer wall center department all welds and transplants the transportation structure, it all is connected with the supporting hub structure to transplant transportation structure opposite side outer wall bottom.

Preferably, the machine body structure comprises a machine case, a grab rail, a sunshade cover and a movable groove, wherein the bottom end of the outer wall at one side of the machine case is welded with two ends of the bottom of the grab rail, the top end of the outer wall at one side of the machine case is welded with the outer wall at the other side of the sunshade cover, and the bottom end of a vertical symmetrical shaft at one side of the inner wall of the machine case is provided with the movable groove; through setting up the grab bar, can play the effect that supplies the workman to have a rest, the workman of also being convenient for simultaneously promotes whole device, through setting up the sunshade lid, can provide the sunshade effect for the workman to improve workman's work efficiency.

Preferably, the roller structure comprises two bearing blocks, four spring shock absorption columns, a steering roller and a rubber pad, wherein the outer walls of the two bearing blocks are all embedded and welded on the inner walls at the two ends of the vertical symmetrical shaft at the bottom of the case; through setting up the bearing block, can let whole device more stable, through setting up gyro wheel, can play the effect that light removed whole device to further improve the flexibility and the work efficiency of whole device, through setting up the spring shock absorber post, be favorable to improving the shock attenuation effect when the removal of whole device, thereby let the process of transplanting more stable safety.

Preferably, the control center structure comprises a solar panel, an electronic element box, a first signal transmission shaft, a control box and a second signal transmission shaft, wherein the bottom of the solar panel is welded to the top of the chassis, the outer wall of the electronic element box is embedded and welded to the inner wall of the center of the top of the chassis, the top of the electronic element box is welded to the center of the bottom of the solar panel, the center of the bottom of the electronic element box is welded to the top of the first signal transmission shaft, the bottom of the first signal transmission shaft is welded to one end of the top of the control box, the outer wall of the control box is embedded and welded to the center of the other side of the inner wall of the chassis, and the top of the outer wall of one side of the electronic element box is welded to the bottom of the second signal transmission shaft; through setting up electronic component case and control box, can let whole device more intelligent, the operation of also being convenient for simultaneously, through setting up solar panel, can provide power continuous for the device to be favorable to improving the work efficiency of whole device.

Preferably, the lifting structure comprises a receiver, a power box, a lifting column, a first telescopic transmission line and a supporting block, the center of the outer wall of one side of the receiver is welded with the top of the second signal transmission shaft, the bottom of the receiver is welded with the top of the power box, the center of the bottom of the power box is welded with the top of the lifting column, the bottom of the lifting column is welded with the bottom of the outer wall of one side of the supporting block, the bottom of the outer wall of the supporting block is sleeved on the inner wall of the movable groove, and the center of the outer wall of the other side of the receiver is welded with the top of the first telescopic transmission line; through setting up the lift post, mainly play the effect that the structure goes up and down is transplanted in control, can let and transplant the structure more nimble, through setting up the receiver, can receive the operation result on the control box to implement.

Preferably, the power pivot structure comprises a power box, a junction block, a first telescopic shaft and a second telescopic shaft, wherein the center of the outer wall of one side of the power box is welded with the top of the supporting block, the center of the top of the power box is welded with the bottom of the junction block, the center of the top of the junction block is welded with the bottom of the first telescopic transmission line, the number of the first telescopic shafts is two, the outer walls of the first telescopic shafts are all embedded and welded at the centers of the two sides of the inner wall of the power box, and the number of the second telescopic shafts is two, and the outer walls of the second telescopic shafts are all embedded and welded at the top ends of the two sides of the inner wall of the power box; through setting up first telescopic shaft and second telescopic shaft, can play the effect of control clamp splice base member and transplanting the casing distance, through setting up the terminal block, can implement the instruction that the receiver received.

Preferably, the limiting clamping block structure comprises two supporting rods, two clamping block base bodies and two spongy cushions, one end of the outer wall of one side of each supporting rod is welded with the top of the second telescopic shaft, the other end of the outer wall of one side of each supporting rod is welded with one end of the outer wall of the clamping block base body, and the outer walls of the spongy cushions are all bonded on the inner walls of the clamping block base bodies; through setting up the clamp splice base member, mainly play the effect of restriction sapling branch, when the sapling was put into the hole, the clamp splice base member can be cliied sapling branch to prevent that the sapling from empting, also be convenient for simultaneously the labourer carries out other works, through setting up the foam-rubber cushion, can protect sapling branch.

Preferably, the transplanting transportation structure comprises two load carrying plates, two linking columns and two transplanting shells, wherein one end of the outer wall of one side of each load carrying plate is welded with the top of the first telescopic shaft, one end of the bottom of each load carrying plate is welded with the top of the linking column, and the inner wall of the bottom of the linking column is sleeved with one end of the outer wall of the transplanting shell; transplant the casing through setting up, can lift up the sapling root and earth together and carry out the year, just so avoided the sapling root to receive the damage to be favorable to preventing the sapling withering.

Preferably, the support center structure comprises two electric boxes, two telescopic columns, two connecting buckles and two second telescopic transmission lines, the bottom end of the outer wall of one side of each electric box is welded with one end of the outer wall of the other side of the load carrying plate, the center of the top of each electric box is welded with the bottom of the second telescopic transmission line, the top of each second telescopic transmission line is welded with two ends of the top of the wiring block, the bottom of each electric box is welded with the top of each telescopic column, the bottom of each connecting buckle is welded with the other end of the outer wall of the transplanting shell, and the inner wall of the bottom of each telescopic column is sleeved with the outer wall of the corresponding connecting buckle; through setting up flexible post, at the flexible in-process that makes a round trip to stretch out and draw back of flexible post, can control and transplant opening and closing of casing to further realize picking up and placing of sapling.

Compared with the prior art, the invention has the beneficial effects that:

1. through setting up flexible post, make a round trip flexible in-process at flexible post, can control and transplant opening and closure of casing to further realize picking up and placing of sapling, transplant the casing through the setting, can lift up together sapling root and earth and carry out the year and carry, not only avoided the sapling root to receive the damage, also prevented simultaneously that the sapling withered condition from taking place.

2. Through setting up the grab bar, can play the effect that supplies the workman to have a rest, the workman of also being convenient for simultaneously promotes whole device, through setting up the sunshade lid, can provide the sunshade effect for the workman to improve workman's work efficiency.

3. Through setting up gyro wheel, can play the effect that light removed whole device to further improve the flexibility and the work efficiency of whole device, through setting up spring shock absorber post, the shock attenuation effect when being favorable to improving the removal of whole device, thereby let the process of transplanting more stable safety.

4. Through setting up electronic component case and control box, can let whole device more intelligent, the operation of also being convenient for simultaneously, through setting up solar panel, can provide power continuous for the device to be favorable to improving the work efficiency of whole device.

5. Through setting up the clamp splice base member, mainly play the effect of restriction sapling branch, when the sapling was put into the hole, the clamp splice base member can be cliied sapling branch to prevent that the sapling from empting, also be convenient for simultaneously the labourer carries out other work, through setting up the foam-rubber cushion, can protect sapling branch.

Drawings

FIG. 1 is a three-dimensional view of a localized area of the invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a front cross-sectional view of the present invention;

FIG. 4 is a top view of the present invention;

FIG. 5 is an enlarged view of a portion of the area A in FIG. 3 according to the present invention;

FIG. 6 is an enlarged view of the area B of FIG. 3 according to the present invention;

FIG. 7 is an enlarged view of a portion of the area C of FIG. 2 according to the present invention.

In the figure: 1. a machine body structure; 2. a roller structure; 3. a control hub structure; 4. a lifting structure; 5. a power hub structure; 6. a limiting clamping block structure; 7. transplanting a transportation structure; 8. a support hub structure; 11. a chassis; 12. a grab rail; 13. a sunshade cover; 14. a movable groove; 21. a bearing block; 22. a spring shock-absorbing post; 23. a steering roller; 24. a rubber pad; 31. a solar panel; 32. an electronic component box; 33. a first signal transmission shaft; 34. a control box; 35. a second signal transmission shaft; 41. a receiver; 42. a power supply box; 43. a lifting column; 44. a first signal transmission shaft; 45. a support block; 51. a power box; 52. a junction block; 53. a first telescopic shaft; 54. a second telescopic shaft; 61. a support bar; 62. a clamp block base; 63. a sponge cushion; 71. a load board; 72. connecting the column; 73. transplanting a shell; 81. an electric box; 82. a telescopic column; 83. connecting buckles; 84. a second telescopic transmission line.

Detailed Description

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

Example 1:

please refer to fig. 1, fig. 2, fig. 3 and fig. 5, a green environmental transplanting device for preventing sapling withering, comprising a body structure 1, wherein inner walls of two ends of a horizontal symmetrical shaft at the bottom of the body structure 1 are both connected with roller structures 2, a control center structure 3 is fixedly connected to the top of the body structure 1, a lifting structure 4 is welded at the top end of the outer wall at one side of the control center structure 3, the body structure 1 comprises a case 11, a grab bar 12, a sunshade cover 13 and a movable groove 14, the roller structures 2 comprise a bearing block 21, a spring shock absorption column 22, a steering roller 23 and a rubber pad 24, the control center structure 3 comprises a solar panel 31, an electronic component box 32, a first signal transmission shaft 33, a control box 34 and a second signal transmission shaft 35, and the lifting structure 4 comprises a receiver 41, a power box 42, a lifting column 43, a first telescopic transmission line 44 and a supporting block 45.

The bottom end of the outer wall at one side of the case 11 is welded with the two ends of the bottom of the grab bar 12, the top end of the outer wall at one side of the case 11 is welded with the outer wall at the other side of the sunshade cover 13, the bottom end of the vertical symmetrical shaft at one side of the inner wall of the case 11 is provided with a movable groove 14, the two bearing blocks 21 are provided, the outer walls of the two bearing blocks are all embedded and welded with the inner walls at the two ends of the vertical symmetrical shaft at the bottom of the case 11, the four spring shock absorption columns 22 are provided, the outer walls of the four spring shock absorption columns are all embedded and welded with the inner walls at the two ends of the bottom of the bearing blocks 21, the bottom of the rubber pads 24 are provided, the four outer walls of the four spring shock absorption columns are all sleeved with the inner walls at the two ends of the top of the bearing blocks 21, the bottom of the solar panel 31 is welded at the top of the case 11, the outer wall of the electronic component case 32 is embedded and welded with the center of the bottom of the solar panel 31, the center of the bottom of the electronic component box 32 is welded with the top of the first signal transmission shaft 33, the bottom of the first signal transmission shaft 33 is welded with one end of the top of the control box 34, the outer wall of the control box 34 is embedded and welded at the center of the other side of the inner wall of the case 11, the top of the outer wall of one side of the electronic component box 32 is welded with the bottom of the second signal transmission shaft 35, the center of the outer wall of one side of the receiver 41 is welded with the top of the second signal transmission shaft 35, the bottom of the receiver 41 is welded with the top of the power box 42, the center of the bottom of the power box 42 is welded with the top of the lifting column 43, the bottom of the lifting column 43 is welded with the bottom of the outer wall of one side of the supporting block 45, the bottom of the outer wall of the supporting block 45 is sleeved on the inner wall of the movable groove 14, and the center of the outer wall of the other side of the receiver 41 is welded with the top of the first telescopic transmission line 44.

In the scheme: through the directive wheel 23 on the bearing block 21 at the bottom of the case 11, the whole device can be easily moved to a required position, and further the working efficiency of the whole device is improved, the spring shock absorption column 22 and the rubber pad 24 can improve the stability of the device when moving, the sunshade cover 13 and the grab bar 12 can be used for resting for workers, and meanwhile, the device is convenient for the workers to push, the solar panel 31 at the top of the case 11 can provide and store continuous power for the device, the whole device can be more conveniently operated by adjusting the control box 34, which is beneficial to further improving the efficiency of the whole transplanting work, the receiver 41 can receive and implement the instruction sent by the control box 34, and the lifting column 43 at the bottom of the power box 42 can drive the supporting block 45 to move in the movable groove 14.

Example 2:

please refer to fig. 1, fig. 3, fig. 4, fig. 6 and fig. 7, a green environmental transplanting device for preventing sapling withering, comprising a lifting structure 4, a power pivot structure 5 welded at one end of the lifting structure 4, a spacing clamp block structure 6 welded at the top end of the outer wall at both sides of the power pivot structure 5, a transplanting transportation structure 7 welded at the center of the outer wall at both sides of the power pivot structure 5, a supporting pivot structure 8 connected at the bottom end of the outer wall at the other side of the transplanting transportation structure 7, a power pivot structure 5 comprising a power box 51, a junction block 52, a first telescopic shaft 53 and a second telescopic shaft 54, a spacing clamp block structure 6 comprising a supporting rod 61, a clamp block base 62 and a sponge pad 63, and a transplanting transportation structure 7 comprising a loading plate 71, a joining column 72 and a transplanting shell 73, the supporting pivot structure 8 comprising an electric box 81, a telescopic column 82, a joining buckle 83 and a second telescopic transmission line 84.

The center of the outer wall at one side of the power box 51 is welded with the top of the supporting block 45, the center of the top of the power box 51 is welded with the bottom of the junction block 52, the center of the top of the junction block 52 is welded with the bottom of the first telescopic transmission line 44, two first telescopic shafts 53 are arranged, the outer walls of the two first telescopic shafts are all embedded and welded at the centers of the two sides of the inner wall of the power box 51, two second telescopic shafts 54 are arranged, the outer walls of the two second telescopic shafts are all embedded and welded at the top ends of the two sides of the inner wall of the power box 51, two supporting rods 61, two clamping block base bodies 62 and two sponge cushions 63 are arranged, one end of the outer wall at one side of the supporting rod 61 is all welded with the top of the second telescopic shaft 54, the other end of the outer wall at one side of the supporting rod 61 is all welded with one end of the outer wall of the clamping block base body 62, the outer walls of the sponge cushions 63 are all adhered to the inner wall of the clamping block base body 62, two loading plates 71, the linking columns 72 and the transplanting shell 73 are arranged, load board 71 one side outer wall one end all with the welding of first telescopic shaft 53 top, load board 71 bottom one end all with link up the welding of post 72 top, link up post 72 bottom inner wall all cup joints with transplanting casing 73 outer wall one end, electronic box 81, flexible post 82, link up and detain 83 and the flexible transmission line 84 of second and all be equipped with two, electronic box 81 one side outer wall bottom all with load board 71 opposite side outer wall one end welding, electronic box 81 top center department all with the flexible transmission line 84 bottom welding of second, the flexible transmission line 84 top of second all with the welding of lug 52 top both ends, electronic box 81 bottom all with flexible post 82 top welding, link up and detain 83 the bottom all with transplant casing 73 outer wall other end welding, flexible post 82 bottom inner wall all with link up to detain the outer wall of 83 and cup joint.

In the scheme: through controlling first telescopic shaft 53, can be with load board 71 zoom in, thereby make and transplant the coincidence of casing 73, come to wrap up and transport the sapling root in proper order, just when transplanting casing 73 bottom to the soil pit, can control lift post 43 and slowly descend, until will transplanting in the casing 73 immigration soil pit, control second telescopic shaft 54 this moment, let bracing piece 61 slowly zoom in, like this clamp splice base member 62 alright with carry the sapling branch, adjust electronic case 81 afterwards, let flexible post 82 slowly retrieve, transplant casing 73 this moment and can slowly perk, the sapling root can slowly descend, pull open a segment with bracing piece 61 distance this moment, clamp splice base member 62 can prevent that the sapling from toppling over this moment, the sapling root also can fall into the soil pit completely simultaneously, continue to pull away bracing piece 61 distance one end distance afterwards, guarantee simultaneously that clamp splice base member 62 still keeps the state that does not let the sapling over, control lift post 43 afterwards, let it slowly rise, transplant whole casing 73 soil pit, so the workman alright continue working.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims

1. The utility model provides a prevent withered green transplanting device of sapling, includes organism structure (1), its characterized in that: the machine body structure is characterized in that the inner walls of two ends of a transverse symmetrical shaft at the bottom of the machine body structure (1) are respectively connected with a roller structure (2), the top of the machine body structure (1) is fixedly connected with a control center structure (3), the top end of the outer wall of one side of the control center structure (3) is welded with a lifting structure (4), one end of the lifting structure (4) is welded with a power pivot structure (5), the top ends of the outer walls of two sides of the power pivot structure (5) are respectively welded with a limiting clamping block structure (6), the centers of the outer walls of two sides of the power pivot structure (5) are respectively welded with a transplanting transportation structure (7), and the bottom end of the outer wall of the other side of the transplanting transportation structure (7) is respectively connected with a supporting center structure (8);

transplant transport structure (7), including load board (71), join up post (72) and transplant casing (73), load board (71), join up post (72) and transplant casing (73) and all be equipped with two, load board (71) one side outer wall one end all with first telescopic shaft (53) top welding, load board (71) bottom one end all with join up post (72) top welding, join up post (72) bottom inner wall all with transplant casing (73) outer wall one end and cup joint.

2. The green environmental protection transplanting device for preventing the seedling from withering according to claim 1, wherein: organism structure (1), including quick-witted case (11), bar (12), sunshade lid (13) and activity groove (14), machine case (11) one side outer wall bottom and bar (12) bottom both ends welding, machine case (11) one side outer wall top and sunshade lid (13) opposite side outer wall welding, activity groove (14) have been seted up to vertical symmetry axle bottom in machine case (11) inner wall one side.

3. The green environmental protection transplanting device for preventing the seedling from withering according to claim 1, wherein: roller structure (2), including bearing block (21), spring shock absorber post (22), steering wheel (23) and rubber pad (24), bearing block (21) are equipped with two altogether and the outer wall all inlays and welds in quick-witted case (11) bottom vertical symmetry axis both ends inner wall, spring shock absorber post (22) are equipped with four altogether and the outer wall all inlays and welds in bearing block (21) bottom both ends inner wall, spring shock absorber post (22) bottom all with steering wheel (23) top welding, rubber pad (24) are equipped with four altogether and the outer wall all cup joints in bearing block (21) top both ends inner wall.

4. The green environmental protection transplanting device for preventing the withered saplings of claim 1, wherein: control center structure (3) including solar panel (31), electronic component case (32), first signal transmission axle (33), control box (34) and second signal transmission axle (35), solar panel (31) bottom welds in quick-witted case (11) top, electronic component case (32) outer wall inlays and welds in quick-witted case (11) top center department inner wall, electronic component case (32) top and solar panel (31) bottom center department welding, electronic component case (32) bottom center department and first signal transmission axle (33) top welding, first signal transmission axle (33) bottom and control box (34) top one end welding, control box (34) outer wall inlays and welds in quick-witted case (11) inner wall opposite side center department, electronic component case (32) one side outer wall top and second signal transmission axle (35) bottom welding.

5. The green environmental protection transplanting device for preventing the seedling from withering according to claim 1, wherein: the lifting structure (4) comprises a receiver (41), a power box (42), a lifting column (43), a first telescopic transmission line (44) and a supporting block (45), wherein the center of the outer wall of one side of the receiver (41) is welded with the top of a second signal transmission shaft (35), the bottom of the receiver (41) is welded with the top of the power box (42), the center of the bottom of the power box (42) is welded with the top of the lifting column (43), the bottom of the lifting column (43) is welded with the bottom end of the outer wall of one side of the supporting block (45), the bottom end of the outer wall of the supporting block (45) is sleeved on the inner wall of the movable groove (14), and the center of the outer wall of the other side of the receiver (41) is welded with the top of the first telescopic transmission line (44).

6. The green environmental protection transplanting device for preventing the seedling from withering according to claim 1, wherein: power pivot structure (5), including headstock (51), link (52), first telescopic shaft (53) and second telescopic shaft (54), headstock (51) one side outer wall center department and supporting shoe (45) top welding, headstock (51) top center department and link (52) bottom welding, link (52) top center department and first flexible transmission line (44) bottom welding, first telescopic shaft (53) are equipped with two altogether and the outer wall all inlays and welds in headstock (51) inner wall both sides center department, second telescopic shaft (54) are equipped with two altogether and the outer wall all inlays and welds in headstock (51) inner wall both sides top.

7. The green environmental protection transplanting device for preventing the seedling from withering according to claim 1, wherein: spacing clamp splice structure (6), including bracing piece (61), clamp splice base member (62) and foam-rubber cushion (63), bracing piece (61), clamp splice base member (62) and foam-rubber cushion (63) all are equipped with two, bracing piece (61) one side outer wall one end all with the welding of second telescopic shaft (54) top, bracing piece (61) one side outer wall other end all with clamp splice base member (62) outer wall one end welding, foam-rubber cushion (63) outer wall all bonds in clamp splice base member (62) inner wall.

8. The green environmental protection transplanting device for preventing the seedling from withering according to claim 1, wherein: support central structure (8), including electronic case (81), flexible post (82), link up and detain (83) and the flexible transmission line of second (84), electronic case (81), flexible post (82), link up and detain (83) and the flexible transmission line of second (84) all are equipped with two, electronic case (81) one side outer wall bottom all welds with load board (71) opposite side outer wall one end, electronic case (81) top center department all welds with the flexible transmission line of second (84) bottom, the flexible transmission line of second (84) top all welds with wiring block (52) top both ends, electronic case (81) bottom all welds with flexible post (82) top, link up and detain (83) bottom all with transplant casing (73) outer wall other end welding, flexible post (82) bottom inner wall all cup joints with linking knot (83) outer wall.