CN113368780A - Denitrification agent wet blank rotary cutter - Google Patents

Abstract

The invention provides a denitration agent wet blank rotary cutter, which relates to the technical field of rotary cutters, wherein a rotary cutter body comprises a mounting plate, lifting cylinders are arranged on two sides of the mounting plate, a transmission rack is fixedly arranged on one side, away from a cylinder body, of each lifting cylinder, a first transmission assembly is arranged on the upper surface of the mounting plate, each first transmission assembly comprises a rotating rod capable of rotating along the surface of the mounting plate, and transmission gears meshed with the transmission racks are coaxially rotated at two ends of each rotating rod; the tail end of the extension component moves synchronously and is provided with an elastic telescopic wire fixing rod, and a cutting rope which slides in two directions when the limiting slide block rotates is arranged between the two wire fixing rods. The wire fixing rod is stressed to contract when the cutting rope meets a denitration agent wet blank with overlarge hardness, so that the cutting rope is driven to be separated from a to-be-cut piece, and the cutting rope is protected; meanwhile, the cutting rope is low in replacement cost.

Description

Denitrification agent wet blank rotary cutter

Technical Field

The invention relates to the technical field of rotary cutters, in particular to a denitration agent wet blank rotary cutter.

Background

The rotary cutter is used for processing wood sections with certain length and diameter into continuous veneer strips for producing veneers of plywood, veneers of fine wood and other artificial boards.

In the production process of the denitrifying agent, a rotary cutter is needed, the conventional rotary cutter usually adopts a motor as a power source, a cutting rotary cutter is adopted to cut a wet blank of the denitrifying agent, the cutting blade is easy to damage, and the economic cost of the rotary cutter is high.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a denitration agent wet blank rotary cutter.

The invention solves the technical problems through the following technical means: the denitration agent wet blank rotary cutter comprises a rotary cutter body, wherein the rotary cutter body comprises a mounting plate, lifting cylinders are arranged on two sides of the mounting plate, a transmission rack is fixedly arranged on one side, away from a cylinder body, of each lifting cylinder, a first transmission assembly is arranged on the upper surface of the mounting plate, each first transmission assembly comprises a rotating rod capable of rotating along the surface of the mounting plate, and transmission gears meshed with the transmission racks are coaxially rotated at two ends of each rotating rod; an adjusting cavity is fixed on the surface of the mounting plate, two transmission screws are symmetrically arranged in the adjusting cavity, an extending component which can or cannot extend along the length direction is arranged at the tail end of each transmission screw, and a second transmission component is arranged between the rotating rod and the transmission screws and used for playing a transmission role between the rotating rod and the transmission screws; the tail end of the extension component moves synchronously and is provided with an elastic telescopic wire fixing rod, and a cutting rope which slides in two directions when the limiting slide block rotates is arranged between the two wire fixing rods.

Furthermore, a steering wheel is arranged at the bottom end of the wire fixing rod, the cutting rope is tightly abutted against the surface of the steering wheel, and a cylinder rod of the lifting cylinder is fixedly connected with the mounting plate through a connecting block; the upper surface of mounting panel is fixed with the fixed plate of symmetric distribution, rotates between two fixed plates and wears to be equipped with the bull stick.

Further, the second transmission assembly comprises a vertical worm wheel fixed on the outer side of the rotating rod, the bottom end of the vertical worm wheel is meshed with a horizontal worm wheel rotating along the surface of the adjusting cavity, the bottom end of the horizontal worm wheel penetrates through the adjusting cavity and extends into the adjusting cavity, an upper bevel gear is fixedly connected to the bottom end of the horizontal worm wheel, side bevel gears are meshed on two sides of the bottom end of the upper bevel gear, and the transmission screw and the side bevel gears rotate coaxially.

Furthermore, the outer sides of the two ends of the transmission screw rod are respectively provided with a wire collecting component with a wire collecting and releasing function, and the two ends of the cutting rope are contained in the corresponding wire collecting components.

Furthermore, receive the line subassembly including being fixed in the receipts line cavity of adjusting the cavity bottom surface, receive the inside of line cavity and acceptd the take-up pulley, the take-up pulley rotates with the drive screw is coaxial, the end of spacing slider runs through and adjusts cavity, take-up pulley, receives the line cavity and extends to the one side of keeping away from the regulation cavity.

Further, the extension assembly comprises an extension sleeve, the extension sleeve is screwed at the tail end of the transmission screw rod, and the extension sleeve can extend along the length direction of the adjusting cavity.

Furthermore, a limiting sliding block is fixed on one side, close to the bottom surface of the adjusting cavity, of the extending sleeve, a limiting sliding groove is formed in the surface, opposite to the limiting sliding block, of the adjusting cavity, and the limiting sliding block is matched with the limiting sliding groove.

Further, the thread fixing rod comprises an upper tube body fixed on the bottom surface of the extension sleeve, the inner top surface of the upper tube body is fixedly connected with a lower tube body through a buffer spring, and the lower tube body slides along the inside of the upper tube body.

Furthermore, the internal thread of the extension sleeve is screwed with a driving screw rod, and a connecting assembly is arranged between the driving screw rod and the transmission screw rod and used for detachably connecting the driving screw rod and the transmission screw rod.

Further, coupling assembling is including being fixed in the connecting rod of drive screw towards drive screw one side, the outside array distribution of connecting rod has the dovetail block, the spread groove has been seted up towards one side of connecting rod to drive screw, the one side inner wall that drive screw was kept away from to the spread groove is fixed with the connection lantern ring, the dovetail has been seted up on the surface that the connection lantern ring is relative with the dovetail block, dovetail and dovetail block looks adaptation.

The invention has the beneficial effects that:

the rotary cutter body utilizes the lifting cylinder as a power output source, utilizes the friction force generated by driving the cutting rope to slide to cut, is convenient to control the cutting force and good in safety, and has the advantages that the wire fixing rod has elastic telescopic capacity, so that when the cutting rope encounters a denitration agent wet blank with overlarge hardness, the wire fixing rod is stressed to contract to drive the cutting rope to be separated from a to-be-cut piece, and the cutting rope is protected; meanwhile, the cutting rope is low in replacement cost and good in economy, can cut denitration agent wet blanks with different thicknesses and widths, and is wide in application range.

Drawings

Fig. 1 is a schematic cross-sectional view of a rotary cutting machine body according to the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the structure at C in FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the structure at B in FIG. 1 according to the present invention;

FIG. 5 is a cross-sectional view of the connector assembly of the present invention;

FIG. 6 is another cross-sectional structural view of the connection assembly of the present invention;

fig. 7 is a schematic sectional view of the wire fixing rod of the present invention.

In the figure: 10. a peeler body; 11. mounting a plate; 12. a lifting cylinder; 121. connecting blocks; 13. a drive rack; 14. a wire fixing rod; 141. a lower rod body; 142. a buffer spring; 143. a pipe body is arranged; 15. a steering wheel; 16. cutting the rope; 21. a first transmission assembly; 211. a fixing plate; 212. a rotating rod; 213. a transmission gear; 22. a drive screw; 23. an extension assembly; 231. an extension sleeve; 232. a drive screw; 233. a limiting slide block; 234. a limiting chute; 24. a connecting assembly; 241. a connecting rod; 242. a dovetail block; 243. connecting grooves; 244. a connecting lantern ring; 245. a dovetail groove; 25. a second transmission assembly; 251. a vertical worm gear; 252. a transverse worm gear; 253. an upper bevel gear; 254. a side bevel gear; 31. adjusting the cavity; 32. a wire take-up assembly; 321. a take-up pulley; 322. a wire take-up cavity; 323. a limiting sheet.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Examples

As shown in fig. 1, fig. 2, and fig. 4, the denitration agent wet blank rotary cutting machine of the present embodiment includes a rotary cutting machine body 10, the rotary cutting machine body 10 includes a mounting plate 11, both sides of the mounting plate 11 are provided with lifting cylinders 12, one side of the lifting cylinder 12 away from the cylinder body is fixedly provided with a transmission rack 13, the upper surface of the mounting plate 11 is provided with a first transmission assembly 21, the first transmission assembly 21 includes a rotating rod 212 capable of rotating along the surface of the mounting plate 11, and both ends of the rotating rod 212 coaxially rotate transmission gears 213 engaged with the transmission rack 13; an adjusting cavity 31 is fixed on the surface of the mounting plate 11, two transmission screws 22 are symmetrically arranged in the adjusting cavity 31, an extending component 23 which can or cannot extend along the length direction is arranged at the tail end of each transmission screw 22, and a second transmission component 25 is arranged between the rotating rod 212 and the transmission screws 22 and used for playing a transmission role between the rotating rod 212 and the transmission screws 22; the end of the extension component 23 moves synchronously with the elastic telescopic wire fixing rod 14, and a cutting rope 16 sliding in two directions when the limit slider 233 rotates is arranged between the two wire fixing rods 14.

When the mounting plate 11 is lifted by the rod of the lifting cylinder 12, for example, when the mounting plate is lowered, the transmission gear 213 drives the rotating rod 212 to rotate by the engaging force between the gears, and the transmission screw 22 rotates along the inside of the adjusting cavity 31 by the transmission action of the second transmission assembly 25.

When the driving screw 22 cannot drive the extension sleeve 231 to extend, the cutting rope 16 slides between the two wire fixing rods 14, and the denitration agent wet blank can be cut by utilizing the friction force caused by the sliding of the cutting rope 16; when the transmission screw 22 can drive the extension sleeve 231 to extend, the distance between the two wire fixing rods 14 can be adjusted, so that the rotary cutter body 10 can cut denitration agent wet blanks with different widths, compared with a common rotary cutter, the rotary cutter body 10 disclosed by the invention utilizes the lifting cylinder 12 as a power output source, utilizes the friction force generated by driving the cutting rope 16 to slide to cut, and has the advantages of convenience in cutting force control and good safety, because the wire fixing rods 14 have elastic telescopic capability, when the cutting rope 16 meets the denitration agent wet blank with overlarge hardness, the wire fixing rods 14 are stressed to contract to drive the cutting rope 16 to be separated from a to-be-cut piece, and play a role in protecting the cutting rope 16; meanwhile, the cutting rope 16 is low in replacement cost and good in economy, can cut denitration agent wet blanks with different thicknesses and widths, and is wide in application range.

Referring to fig. 1, a steering wheel 15 is provided at the bottom end of the wire fixing rod 14, the cutting rope 16 abuts against the surface of the steering wheel 15, and the rod of the lifting cylinder 12 is fixedly connected to the mounting plate 11 through a connecting block 121.

When the cutting rope lifting device is used, the cutting rope 16 slides along the surface of the steering wheel 15, the steering wheel 15 can steer the cutting rope 16, and the cylinder rod of the lifting cylinder 12 can drive the mounting plate 11 to lift through the connecting block 121.

Referring to fig. 4, the second transmission assembly 25 includes a vertical worm gear 251 fixed to the outer side of the rotating rod 212, a horizontal worm gear 252 rotating along the surface of the adjustment cavity 31 is engaged with the bottom end of the vertical worm gear 251, the bottom end of the horizontal worm gear 252 penetrates through the adjustment cavity 31 and extends into the adjustment cavity 31, an upper bevel gear 253 is fixedly connected with the bottom end of the horizontal worm gear 252, side bevel gears 254 are engaged with both sides of the bottom end of the upper bevel gear 253, and the transmission screw 22 and the side bevel gears 254 rotate coaxially.

In use, when the rotating rod 212 rotates, the rotating rod 212 drives the vertical worm gear 251 to rotate, under the meshing action between the gears, the vertical worm gear 251 drives the horizontal worm gear 252 and the upper bevel gear 253 to rotate, and the upper bevel gear 253 drives the side bevel gear 254 to rotate.

Referring to fig. 3, a limiting piece 323 is fixedly disposed on one side of the adjusting cavity 31 close to the cutting rope 16, and the cutting rope 16 slides along the inside of the limiting piece 323.

When in use, the cutting cord 16 can be slid along the inside of the stopper piece 323, thereby stopping the cutting cord 16.

Referring to fig. 3, the outside of both ends of the driving screw 22 are provided with wire take-up assemblies 32 having a wire take-up and pay-off function, and both ends of the cutting cord 16 are accommodated in the corresponding wire take-up assemblies 32.

In use, as the drive screw 22 rotates, the cutting cord 16 is cinched or released by the wire takeup assembly 32.

Referring to fig. 3, the wire rewinding assembly 32 includes a wire rewinding cavity 322 fixed on the bottom surface of the adjusting cavity 31, a wire rewinding wheel 321 is accommodated inside the wire rewinding cavity 322, the wire rewinding wheel 321 and the driving screw 22 rotate coaxially, and the end of the limiting slider 233 penetrates through the adjusting cavity 31, the wire rewinding wheel 321 and the wire rewinding cavity 322 to extend to a side far away from the adjusting cavity 31.

When the cutting rope winding device is used, the transmission screw rods 22 drive the winding wheels 321 to rotate, the cutting rope 16 moves on the surfaces of the winding wheels 321 in the rotating process of the winding wheels 321, the rotating directions of the two transmission screw rods 22 are opposite, so that the rotating directions of the two winding wheels 321 are also opposite, one end of the cutting rope 16 is released from the outer side surface of one winding wheel 321, the other end of the cutting rope 16 is bunched from the outer side surface of the other winding wheel 321, the cutting rope 16 is in a one-way sliding state in the releasing and bunching processes of the two ends of the cutting rope 16, and when the rotating directions of the winding wheels 321 are opposite, the cutting rope 16 is in a sliding state in the opposite direction, so that the two-way sliding can be realized.

Referring to fig. 2, the extension assembly 23 includes an extension sleeve 231, the extension sleeve 231 is screwed on the end of the drive screw 22, and the extension sleeve 231 can extend along the length direction of the adjustment cavity 31.

When the transmission screw 22 rotates, the transmission screw 22 drives the extension sleeve 231 to slide along the length direction of the adjusting cavity 31 under the action of the meshing force between the threads, so that the length of the transmission screw 22 is extended.

Referring to fig. 2, a limiting slide block 233 is fixed on one side of the extension sleeve 231 close to the bottom surface of the adjusting cavity 31, a limiting slide groove 234 is formed on the surface of the adjusting cavity 31 opposite to the limiting slide block 233, and the limiting slide block 233 is matched with the limiting slide groove 234.

When the adjusting device is used, the limiting slide block 233 is matched with the limiting slide groove 234, the limiting slide block 233 slides along the inside of the limiting slide groove 234 to limit the extension sleeve 231, so that the extension sleeve 231 can only move along the length direction of the transmission screw 22 on the bottom surface of the adjusting cavity 31 and cannot synchronously rotate with the transmission screw 22.

Referring to fig. 7, the wire fixing rod 14 includes an upper body 143 fixed to a bottom surface of the extension sleeve 231, and a lower body 141 is fixedly coupled to an inner top surface of the upper body 143 through a buffer spring 142, and the lower body 141 slides along an inside of the upper body 143.

During the use, when the lower body of rod 141 receives the pressure that comes from cutting rope 16, body of rod 141 upward movement under cutting rope 16 drives, and buffer spring 142 atress that originally is under normal condition contracts for solidus pole 14 possesses the flexible function of elasticity, can form the effect of buffering.

Referring to fig. 1, fixed plates 211 are symmetrically arranged on the upper surface of the mounting plate 11, and a rotating rod 212 is rotatably arranged between the two fixed plates 211.

When the vertical worm gear 251 is used, when the transmission gears 213 at the two ends of the fixing plate 211 are forced to rotate, the fixing plate 211 rotates on the surface of the mounting plate 11, and the vertical worm gear 251 is driven to rotate.

Referring to fig. 5 and 6, the extension sleeve 231 is screwed with a driving screw 232 at its inner thread, and a connecting assembly 24 is disposed between the driving screw 232 and the driving screw 22 for detachably connecting the driving screw 232 and the driving screw 22;

the connecting assembly 24 comprises a connecting rod 241 fixed on one side of the driving screw 232 facing the driving screw 22, dovetail blocks 242 are distributed on the outer side of the connecting rod 241 in an array mode, a connecting groove 243 is formed in one side of the driving screw 22 facing the connecting rod 241, a connecting lantern ring 244 is fixed on the inner wall of one side, far away from the driving screw 232, of the connecting groove 243, a dovetail groove 245 is formed in the surface, opposite to the dovetail blocks 242, of the connecting lantern ring 244, and the dovetail groove 245 is matched with the dovetail blocks 242.

When the dovetail groove is used, when the drive screw 22 is required to drive the drive screw 232 to coaxially rotate, the extension sleeve 231 is pulled, so that the extension sleeve 231 and the drive screw 232 slide to one side of the drive screw 22 along the bottom surface of the adjusting cavity 31 until the dovetail block 242 is matched with the dovetail groove 245, and at the moment, when the drive screw 22 rotates, the connecting rod 241 and the drive screw 232 can be driven to coaxially rotate; when the drive screw 232 is not required to be driven by the drive screw 22 to rotate coaxially, the dovetail groove 245 is separated from the dovetail block 242, and two different working states are formed.

The working principle is as follows: when the cutting size of the cutting rope 16 is only required to be increased, the extension sleeves 231 drive the transmission screw 22 to slide along the inner wall of the limiting sliding groove 234, the two extension sleeves 231 are deviated from each other to move, until the wire fixing rod 14 is located at a proper position, the dovetail block 242 is not matched with the dovetail groove 245, the wire fixing rod 14 drives the cutting rope 16 to move, the length of the cutting rope 16 located outside the wire take-up assembly 32 is not changed due to the fact that the limiting sliding block 233 does not rotate, the wire fixing rod 14 gradually shrinks and shortens, the position of the bottom end of the cutting rope 16 is increased, and at the moment, the distance between the two wire fixing rods 14 is adjusted completely; when the dovetail block 242 and the dovetail groove 245 are not in a matching state, when the cylinder rod of the lifting cylinder 12 drives the mounting plate 11 to lift, the transmission gear 213 drives the rotating rod 212 to rotate, the transmission action of the second transmission assembly 25 drives the transmission screw 22 to rotate, the two ends of the cutting rope 16 are respectively bundled outside one transmission screw 22 and released outside the other transmission screw 22 under the action of the wire take-up assembly 32, the rope slides between the two wire fixing rods 14 in the bundling and releasing processes, and the denitration agent wet blank can be cut by using the friction force caused by the sliding of the cutting rope 16.

It is noted that, in this document, relational terms such as first and second, and the like, if any, are 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. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. Wet base peeler of denitrifier, including peeler body (10), peeler body (10) includes mounting panel (11), its characterized in that: lifting cylinders (12) are arranged on two sides of the mounting plate (11), a transmission rack (13) is fixedly arranged on one side, away from the cylinder body, of each lifting cylinder (12), a first transmission assembly (21) is arranged on the upper surface of the mounting plate (11), each first transmission assembly (21) comprises a rotating rod (212) capable of rotating along the surface of the mounting plate (11), and transmission gears (213) meshed with the transmission racks (13) are coaxially rotated at two ends of each rotating rod (212);

an adjusting cavity (31) is fixed on the surface of the mounting plate (11), two transmission screws (22) are symmetrically arranged in the adjusting cavity (31), an extending component (23) which can or cannot extend along the length direction is arranged at the tail end of each transmission screw (22), and a second transmission component (25) is arranged between the rotating rod (212) and the transmission screws (22) and used for playing a role in transmission between the rotating rod (212) and the transmission screws (22); the tail end of the extension component (23) synchronously moves to form an elastic telescopic wire fixing rod (14), and a cutting rope (16) which slides in two directions when the limiting sliding block (233) rotates is arranged between the two wire fixing rods (14).

2. The denitrifier wet green rotary cutter as claimed in claim 1, characterized in that: a steering wheel (15) is arranged at the bottom end of the wire fixing rod (14), the cutting rope (16) is tightly abutted to the surface of the steering wheel (15), and a cylinder rod of the lifting cylinder (12) is fixedly connected with the mounting plate (11) through a connecting block (121); the upper surface of mounting panel (11) is fixed with symmetric distribution's fixed plate (211), rotates between two fixed plate (211) and wears to be equipped with bull stick (212).

3. The denitrifier wet green rotary cutter as claimed in claim 1, characterized in that: second drive assembly (25) is including being fixed in vertical worm wheel (251) in bull stick (212) outside, vertical worm wheel (251) bottom meshing has along adjusting horizontal worm wheel (252) of the surface pivoted of cavity (31), the inside of adjusting cavity (31) is run through and is adjusted cavity (31) and extend into to the bottom of horizontal worm wheel (252), bevel gear (253) are gone up to the bottom fixedly connected with of horizontal worm wheel (252), the bottom both sides of going up bevel gear (253) all mesh has side bevel gear (254), drive screw (22) and side bevel gear (254) coaxial rotation.

4. The denitrifier wet green rotary cutter as claimed in claim 2, characterized in that: the outer sides of the two ends of the transmission screw rod (22) are respectively provided with a wire collecting component (32) with a wire collecting and releasing function, and the two ends of the cutting rope (16) are contained in the corresponding wire collecting components (32).

5. The denitrifier wet green rotary cutter as claimed in claim 4, characterized in that: receive line subassembly (32) including being fixed in receipts line cavity (322) of adjusting cavity (31) bottom surface, receive the inside of line cavity (322) and accept take-up pulley (321), take-up pulley (321) and drive screw (22) coaxial rotation, the end of spacing slider (233) runs through and adjusts cavity (31), take-up pulley (321), receives line cavity (322) and extends to the one side of keeping away from and adjusting cavity (31).

6. The denitrifier wet green rotary cutter as claimed in claim 5, characterized in that: the extension assembly (23) comprises an extension sleeve (231), the extension sleeve (231) is screwed at the tail end of the transmission screw rod (22), and the extension sleeve (231) can extend along the length direction of the adjusting cavity (31).

7. The denitrifier wet green rotary cutter as claimed in claim 6, characterized in that: one side of the extension sleeve (231) close to the bottom surface of the adjusting cavity (31) is fixed with a limiting slide block (233), the surface of the adjusting cavity (31) opposite to the limiting slide block (233) is provided with a limiting slide groove (234), and the limiting slide block (233) is matched with the limiting slide groove (234).

8. The denitrifier wet green rotary cutter as claimed in claim 6, characterized in that: the wire fixing rod (14) comprises an upper tube body (143) fixed to the bottom surface of the extension sleeve (231), the inner top surface of the upper tube body (143) is fixedly connected with a lower rod body (141) through a buffer spring (142), and the lower rod body (141) slides along the inner portion of the upper tube body (143).

9. The denitrifier wet green rotary cutter of claim 8, wherein: the extension sleeve (231) is internally screwed with a drive screw (232), and a connecting assembly (24) is arranged between the drive screw (232) and the transmission screw (22) and used for detachably connecting the drive screw (232) and the transmission screw (22).

10. The denitrifier wet green rotary cutter of claim 9, wherein: coupling assembling (24) including being fixed in connecting rod (241) of drive screw (232) towards drive screw (22) one side, the outside array distribution of connecting rod (241) has dovetail block (242), drive screw (22) have seted up connecting groove (243) towards one side of connecting rod (241), one side inner wall that drive screw (232) were kept away from in connecting groove (243) is fixed with and connects lantern ring (244), dovetail (245) have been seted up on the surface that connects lantern ring (244) and dovetail block (242) are relative, dovetail (245) and dovetail block (242) looks adaptation.

Images