CN109680392B - Temple connecting member - Google Patents

Abstract

The present invention relates to a temple connecting member provided on a side where a temple base is connected to a temple cover base. The temple connecting member includes a press block and a bolt. The pressing block is fixedly connected to the temple base, and one end of the pressing block extends to the upper portion of the top surface of the temple cover base. At least the part corresponding to the upper part of the temple cover seat is provided with the bolt in a matching way, and the screw end of the bolt of the part can apply vertical downward pressure to the top surface of the temple cover seat. The setting of this temple connecting element has solved the connecting bolt that sets up between temple seat and the temple cover seat, because of constantly bearing the effort of shearing direction, produces fatigue easily, and intensity continuously weakens, easy cracked problem can show improvement connecting bolt's atress situation for temple connection structure is more stable, reliable, and life-span is showing and is prolonged.

Description

Temple connecting member

Technical Field

The invention relates to the field of weaving machines, in particular to a temple connecting member with the capability of improving the stability and reliability of a connecting structure between a temple seat and a temple cover seat.

Background

The patent number 200810130668.2, the text entitled temple device, relates to and discloses a solution for improving the support structure of a temple body of a loom in order to realize a stronger support structure, mainly solving the problems that the connecting bolts of the temple body fixed to the temple support portion are easy to gradually fatigue and finally break.

In the scheme of the patent, the connection strengthening improvement is made on the part of the temple main body fixed to the temple bracket, and the connection strength between the temple main body and the temple bracket is improved. However, according to production experience, when a fabric variety with larger tension such as a tooling fabric is made, the tension of a loom and the vibration of the loom are relatively larger, and meanwhile, the tension and the vibration of the loom are influenced by a cantilever support structure between a temple support and a temple bracket, the acting force of the temple support jacked up upwards by a licker is relatively larger, and the problem that a connecting bolt between the temple support (also known as a temple cover seat) and the temple bracket (also known as a temple seat) is fatigued and broken too quickly under the condition of continuously bearing the shearing force of circulation still exists. In addition, because the matching surface is in line contact between the fixed block at the tail end of the thorn shaft and the thorn shaft holder, the contact surface is smaller, the rigidity is poor, the mounting bolt at the position is easy to bear larger shearing force, and the problem of fatigue and excessively rapid fracture is easy to occur.

Disclosure of Invention

In order to solve the problems that the connecting bolt arranged between the temple seat and the temple cover seat is easy to fatigue, continuously weaken in strength and easily break due to the fact that the connecting bolt continuously bears the acting force in the shearing direction, the invention provides the temple member which is arranged at the joint of the temple seat and the temple cover seat in a certain way, and can obviously improve the stress condition of the connecting bolt at the joint, so that the temple connecting structure is more stable and reliable, and the service life is obviously prolonged. Meanwhile, the problem that the mounting bolts arranged on the fixing block at the tail end of the thorn shaft and the thorn shaft holder are easily broken due to fatigue caused by bearing larger shearing force under the existing matching structure is solved. The aim of reliable and stable structural connection and obviously prolonged service life of relevant parts of the temple connecting structure is comprehensively realized, the maintenance frequency is greatly reduced, the maintenance cost is reduced, and the production efficiency is obviously improved.

The invention aims at solving the problems, and adopts the following technical scheme:

a temple connection member is provided on a side of a temple base to which a temple cover base is connected, such as on a top surface of a standing wall of the temple base. The temple connecting member includes a press block and an adjustment member, which in particular embodiments may be a bolt. The number of the bolts arranged on the pressing block can be multiple, the bolts are arranged at different positions of the pressing block, the types of the bolts can be identical or different, generally, the bolts which are arranged at similar positions and have basically the same function are required to be identical, for example, the bolts which are used for connecting the pressing block with the temple seat are the same in number, and the bolts are of the same type; further, as for the bolts serving as the adjusting means, one bolt is generally required (in one set of the connecting members, a plurality of sets are generally used, so that the number of bolts serving as the adjusting means used in the whole machine is generally two or more), and when a plurality of bolts are used, the types are also generally uniform. The pressing block is fixedly connected to the temple base, and one end of the pressing block extends to the upper portion of the top surface of the temple cover base. The connection between the press block and the temple socket may in particular embodiments be by means of a detachable connection, for example by means of a screw connection. The adjusting component is arranged on the part (the concrete form can be a bolt) corresponding to the upper part of the temple cover seat, and the end part of the adjusting component can be operated to apply vertical downward acting force to the top surface of the temple cover seat, so that the term that the end part of the adjusting component can be operated to apply vertical downward acting force to the top surface of the temple cover seat includes the condition that the end part of the adjusting component is directly or indirectly pressed on the top surface of the temple cover seat to apply pressure, and the adjusting component is a bolt, for example, the size of the pressure applied by the temple cover seat can be adjusted by controlling the inner size of a bolt screwing-in pressing block.

In one embodiment, the pressing block comprises a root part and a head part, wherein the root part is fixedly connected to the top surface of the vertical wall of the temple base through a bolt, and the head part extends to the upper part of the top surface of the temple cover base and is provided with the adjusting part. In some embodiments, the lower end surface of the root portion of the pressing block is relatively lower than the lower end surface of the head portion, so that a step is formed at the junction transition between the root portion and the head portion of the lower end surface of the pressing block, and a vertical surface perpendicular to the lower end surface of the root portion or the lower end surface of the head portion can be a vertical surface perpendicular to the lower end surface of the root portion or an inclined surface inclined from the lower end surface of the head portion to the lower end surface of the root portion. The step structure is arranged at the joint position of the root part and the head part, so that the vertical distance between the lower end surfaces of the two parts can be increased, and the lower end surface of the root part is opposite to the top surface of the vertical wall of the temple seat, so that the relatively larger vertical distance is formed between the lower end surface of the head part and the top surface of the temple cover seat, and the height position of the lower end surface of an adjusting part (such as a bolt) arranged on the head part is conveniently adjusted, so that when the processing verticality error between the vertical wall matching surface of the temple cover seat and the vertical wall matching surface of the temple seat is larger, the height position of the lower end surface of the adjusting part (such as the bolt) can be adjusted, the correction can be rapidly completed, and the adjustment is unnecessary in a gasket plugging mode. Therefore, the design scheme can reduce the processing difficulty and improve the efficiency of assembly adjustment. In addition, the step structure is formed at the joint of the root lower end surface and the head lower end surface, and is not limited to the lower end surface of the root and/or the lower end surface of the head, and no step structure is necessarily required, for example, in some embodiments, a first-step or multi-step structure can be arranged on the lower end surface of the head according to the requirement of the field assembly environment; conversely, in some embodiments, a first-order or multi-order step structure may be disposed on the lower end surface of the heel according to the requirement of the field assembly environment; and even the lower end face of the head part and the lower end face of the heel part are additionally provided with step structures.

In some embodiment, the adjusting component is a bolt, the adjusting component is arranged on the head, a sliding block is arranged below the bolt, the upper end of the sliding block stretches into the head, the bolt corresponding to the upper portion of the sliding block is screwed, the sliding block can be driven to move downwards, and the lower end face of the sliding block is pressed on the top face of the temple cover seat. In a specific embodiment, the following design may be made: that is to say,

and a light hole is formed in the root, a bolt corresponding to the light hole is a fixing bolt, and the fixing bolt is matched with an internal threaded hole formed in the top surface of the vertical wall. The head is provided with a threaded hole, the lower end of the threaded hole is provided with a stepped unthreaded hole, a bolt (namely an adjusting part) corresponding to the threaded hole is a pressure bolt, a sliding block is arranged in the stepped unthreaded hole in a matching mode, and the upper end of the sliding block extends into the threaded hole. Screwing the pressure bolt can promote the sliding block to move downwards, so that the lower end face of the sliding block presses against the top face of the temple cover seat. The stroke that the slider moved downwards can not be too big, ladder unthreaded hole can replace with pure unthreaded hole, so set up to the ladder unthreaded hole, in order to guarantee the straightness that the slider vertically removed, correspond with the ladder unthreaded hole, the slider must be set up to the form that can correspond the matching with each ladder hole. When the sliding block moves downwards and acts on the top surface of the temple cover seat, the upper end of the sliding block cannot be separated from the stepped unthreaded hole.

In certain embodiments, the press block establishes a relatively fixed connection with the temple socket via the mounting block. The specific implementation means is as follows: the assembly block is fixedly connected to the temple base in a detachable mode. The assembly block is provided with a hole or a groove matched with the pressing block, and the pressing block can be in tight fit with the matched hole or groove, so that a relatively fixed assembly relationship is formed between the pressing block and the assembly block. Similar to the previous one: the adjusting part arranged on the part of the pressing block extending to the upper part of the temple cover seat is selected as a bolt, the lower part of the bolt is provided with a sliding block, the upper end of the sliding block stretches into the part of the pressing block extending to the upper part of the temple cover seat, the corresponding bolt above the pressing block is screwed, the sliding block can be driven to move downwards, and the lower end face of the sliding block is pressed on the top face of the temple cover seat. Reference is also made to the schemes shown in the preceding paragraph for specific forms.

In certain implementation mode, the pressing block is correspondingly arranged on one section above the temple seat, and clamping rails are respectively arranged on the front end face and the rear end face. The top surface of the vertical wall of the temple seat is provided with a clamping rail part correspondingly matched with the clamping rail. The clip rail is inserted into the clip rail portion in the horizontal direction and can form a tight fit relationship. In a specific embodiment, the temple seat is provided with a limiting bolt, and the limiting bolt can prevent the pressing block from moving in a direction opposite to the direction in which the clamping rail is inserted into the clamping rail portion.

In one embodiment, a holder is provided at an end of the spine shaft mounted on the temple, and a fixing block is mounted on the holder by a mounting bolt. The end face of the fixed block, which faces the holder, is provided with a concave cambered surface. The end face of the holder, which faces the fixed block, is provided with a convex cambered surface. The concave cambered surface and the convex cambered surface can be contacted.

The beneficial effects are that: the technical scheme that this patent relates to has solved the connecting bolt that sets up between temple seat and the temple cover seat, because of constantly bearing the effort of shearing direction, produces fatigue easily, and intensity continuously weakens, easy cracked problem can show improvement connecting bolt's atress situation for temple connection structure is more stable, reliable, and life-span is showing the extension.

Drawings

Fig. 1 is a schematic diagram of a front view structure of the present patent when applied to a temple portion of a loom:

fig. 2 is a schematic view of a rear view structure of the present patent applied to a temple portion of a loom:

fig. 3 is a schematic view of the left view structure of the present patent when applied to the temple portion of the loom:

fig. 4 is a schematic cross-sectional view of an embodiment of the present patent:

FIG. 5 is a schematic view of an assembled state of an embodiment of the present patent;

FIG. 6 is a schematic illustration of a vertical cross-section of three embodiments under the concept of the embodiment shown in FIG. 5:

FIG. 7 is a schematic view of an assembled state of an embodiment of the present patent;

fig. 8 is a schematic view of an improved structural assembly of the holder portion according to the present patent:

fig. 9 is a schematic view showing a split structure of the improved holder portion according to the present patent.

In the figure: 1 side support seat, 11 fixing plate, 12 connecting bolt, 13 clamping rail part, 2 side support cover seat, 3 pressing block, 3a root part, 3b head part, 31 fixing bolt, 311 unthreaded hole, 32 pressure bolt, 321 threaded hole, 33 sliding block, 331 stepped unthreaded hole, 34 assembling block, 35 clamping rail, 4a tail end holder, 4b head end holder, 5 fixing block, 51 mounting bolt, a concave arc surface, b convex arc surface, 6 thorn axle, 7 cloth guide plate, 8 layering

Detailed Description

The structures, proportions, sizes, etc. shown in the drawings are shown only in connection with the disclosure of the present invention, and are not intended to limit the scope of the invention, which is defined by the claims, but rather by the terms of modification, variation of proportions, or adjustment of sizes, without affecting the efficacy or achievement of the present invention, should be understood as falling within the scope of the present invention. Also, the terms such as "upper", "lower", "front", "rear", "middle", and the like are used herein for descriptive purposes only and are not intended to limit the scope of the invention for which the invention may be practiced or for which the relative relationships may be altered or modified without materially altering the technical context.

As shown in fig. 1 to 3, a temple device of a shuttleless loom. The technical scheme of this patent aims at improving the atress environment of connecting bolt 12 that establishes between temple seat 1 and temple cover seat 2 in the loom temple device to it is more stable, reliable to realize temple connection structure, and life obtains showing the purpose that prolongs. At the same time, the problem that the mounting bolts 51 arranged between the holders 4a, 4b of the thorn shaft 6 and the fixed block 5 are easily broken due to the overlarge shearing force is also carried. The cloth guide plate 7 and the (cloth guide plate) pressing bar 8 mounted on the temple base 1 and the fixing plate 11 configured on the temple base are shown in the drawings, and the effect of the cloth guide plate and the pressing bar is only to make the application environment of the scheme shown in the patent easier to understand, but not to limit the technical scheme of the patent necessarily.

As shown in fig. 1 to 3, the temple connecting member according to the present patent is provided on the side where the temple base 1 is connected to the temple cover base 2, that is, on the top surface of the standing wall of the temple base 1.

In a specific embodiment, the main body included in the temple connection member under the present patent proposal is a pressing block 3, and the pressing block 3 is fixedly connected to the temple seat 1 and has one end extending to the top surface of the temple cover seat 2. In the connection mode between the pressing block 3 and the temple base 1, in a specific embodiment, a detachable connection means may be selected, for example, the connection is performed through bolts as shown in fig. 1 to 6, and the number of bolts matched with the whole connection member is a plurality. Bolts (i.e., adjusting components) can be arranged on the part, above the temple cover seat 2, of the pressing block 3, corresponding to the temple cover seat 2, and the screw end of the bolt arranged on the part can apply vertical downward acting pressure to the top surface of the temple cover seat 2, so that the "the screw end of the bolt can apply vertical downward acting force to the top surface of the temple cover seat" includes the situation that the screw end is directly (shown in fig. 1 to 3, 5 and 7) or indirectly (shown in fig. 4) pressed on the top surface of the temple cover seat 2 to apply pressure, and the size of the pressure can be adjusted through controlling the screwing size of the bolt. The foregoing description is made in terms of the adjusting member being in the form of a bolt, and the bolt, which can act on the top surface of the temple cover seat to apply pressure and perform the preset function of the adjusting member, may be a conventional bolt, or a dedicated bolt designed separately or a deformation similar to the bolt. The adjusting part can be in a bolt form, other forms can be selected, for example, a rack sliding block form, a screw rod sliding block form and the like, and the end face of a certain part of the adjusting part can be adjusted to move up and down through screwing or rotating.

As shown in fig. 1 to 4, the pressing block 3 includes a root portion 3a and a head portion 3b, the root portion 3a is fixedly connected to the top surface of the standing wall of the temple base 1 via a bolt, and the head portion 3b extends above the top surface of the temple cover base 2. As shown in fig. 1 and fig. 4, the lower end surface of the root portion 3a of the pressing block 3 is relatively lower than the lower end surface of the head portion 3b, so that the lower end surface of the pressing block 3 forms a step at the junction transition between the root portion 3a and the head portion 3b, and the vertical surface forming the step may be a vertical surface perpendicular to the lower end surface of the root portion or the lower end surface of the head portion (as shown in fig. 1) or an inclined surface inclined from the lower end surface of the head portion to the lower end surface of the root portion (as shown in fig. 4). The step structure is arranged at the joint position of the root part 3a and the head part 3b, so that the vertical distance between the lower end surfaces of the two parts can be increased, and the lower end surface of the root part is opposite to the top surface of the vertical wall of the temple seat, so that a relatively large vertical distance is formed between the lower end surface of the head part 3b and the top surface of the temple cover seat 2, the height position of the screw end surface of a bolt (adjusting part) arranged on the head part is conveniently adjusted, and thus when the processing verticality error between the vertical wall matching surface of the temple cover seat 2 and the temple seat 1 is large, the correction can be rapidly completed by adjusting the height position of the end surface of the bolt (adjusting part) at the position, and the adjustment is unnecessary by a plug gasket. Therefore, the design scheme can reduce the processing difficulty and improve the efficiency of assembly adjustment. In addition, the step structure is formed at the joint of the root lower end surface and the head lower end surface, and is not limited to the lower end surface of the root and/or the lower end surface of the head, and no step structure is necessarily required, for example, in some embodiments, a first-step or multi-step structure can be arranged on the lower end surface of the head according to the requirement of the field assembly environment; conversely, in some embodiments, a first-order or multi-order step structure may be disposed on the lower end surface of the heel according to the requirement of the field assembly environment; and even the lower end face of the head part and the lower end face of the heel part are additionally provided with step structures.

As shown in fig. 4, a slider 33 is disposed below the head 3b corresponding to the matching bolt (adjusting member), and the upper end of the slider 33 extends into the head 3b, and screwing the corresponding bolt (adjusting member) above the slider 33 can cause the slider 33 to move downward, so that the lower end surface of the slider 33 presses against the top surface of the temple cover 2. The method comprises the following steps: ,

the root portion 3a is provided with a light hole 311, a bolt corresponding to the light hole 311 is a fixing bolt 31, and the fixing bolt 31 is matched with an internal threaded hole arranged on the top surface of the vertical wall of the temple seat. The head 3b is provided with a threaded hole 321, a stepped light hole 331 is formed in the lower end of the threaded hole 321, a pressure bolt 32 (adjusting component) is correspondingly matched with the threaded hole 321, a sliding block 33 is correspondingly arranged in the stepped light hole 331, and the upper end of the sliding block 33 extends into the threaded hole 321. Screwing the pressure bolt 32 can cause the slider 33 to move downward so that the lower end surface of the slider 33 presses against the top surface of the temple cover seat 2. The downward travel of the slider 33 is not too large, the stepped light hole 331 may be replaced by a pure light hole, so that the stepped light hole is set to ensure the straightness of the vertical movement of the slider 33, and the slider is necessarily required to be set to be correspondingly matched with each stepped hole. When the slider 33 moves downward and acts on the top surface of the temple cover seat 2, the upper end thereof does not come out of the stepped light hole 331. In the illustration, the lower end face of the sliding block 33 is provided with alternate protrusions, and compared with the mode that the lower end face of the sliding block is set to be a plane, the protruding structure can reduce the requirement on the flatness of the top face of the temple cover seat. In a specific embodiment, the lower end surface of the slider may be in various forms such as a plane, a ring surface, a plane provided with a corrugation, and the like. The use of a gasket or a rubber ring, a rubber pad, or the like is not excluded from the use of the slider (or the adjusting member and the corresponding portion of the top surface of the temple cover).

In the embodiment shown in fig. 4, if the slider 33 is not involved in the specific example, the lower end of the threaded hole 321 may be omitted from the stepped light hole 331. In addition, the pressing block 3 may be provided with the unthreaded hole 311 or the threaded hole 321, and may be formed by directly machining the pressing block 3, or may be provided with another member, and then the corresponding member may be fixedly attached to the pressing block.

As a further embodiment, as shown in fig. 5 and 6, the pressure piece 3 is connected to the temple socket 1 in a relatively fixed manner by means of a mounting piece 34. As shown in fig. 6, the fitting block 34 is fixedly attached to the temple socket 1 by bolting or the like in a detachable manner. The mounting block 34 is provided with a hole or slot (e.g., a to C of fig. 6) that mates with the press block 3, and the press block 3 is capable of forming a tight fit relationship with the mated hole or slot such that a relatively fixed mounting relationship is established between the press block 3 and the mounting block 34.

Similar to the previous one: under the implementation means shown in fig. 5, a slide block may be still disposed under the bolt (adjusting component) disposed on the portion of the pressing block 3 extending above the temple cover seat 2, the upper end of the slide block extends into the portion of the pressing block extending above the temple cover seat, and the corresponding bolt above the slide block is screwed to enable the slide block to move downward, so that the lower end face of the slide block is pressed on the top face of the temple cover seat.

In the most other embodiment, as shown in fig. 7, the pressing block 3 is provided with a clamping rail 35 on each of the front and rear end surfaces corresponding to a section mounted above the temple base 1. The top surface of the vertical wall of the temple seat 1 is provided with a clamping rail part 13 correspondingly matched with the clamping rail 35. The clip rail 35 is inserted into the clip rail portion 13 in a horizontal direction (right to left), and a tight fit relationship can be formed between the mating rail and the rail groove. As shown in the drawing, the temple socket 1 is provided with a restricting bolt capable of blocking the movement of the pressing block in a direction (rightward) opposite to the direction in which the clip rail 35 is inserted into the clip rail portion 13. The illustrated press block 3 has an L-shape, and the limiting bolts are provided at the vertical portions thereof. In other embodiments, the limit bolts may be attached to the top surface of the upright wall of the temple socket.

As shown in fig. 8 and 9, in the conventional loom, a gripper (i.e., a trailing gripper 4a and a leading gripper 4 b) is provided at an end of a spine shaft 6 mounted on the temple base 1. As shown in fig. 8 and 9, the tail holder 4a is provided with a fixing block 5 by a mounting bolt 51. In the prior art, the opposite surfaces of the tail end holder 4a and the fixed block 5 are in line contact fit, and the defect of the structure is that the connection rigidity is poor, so that the shearing force born by the assembly bolt 51 is large, and fatigue is easy to generate to cause excessively rapid fracture. The patent is improved as follows, and the aim of overcoming the defects is fulfilled: the end face of the fixed block 5 facing the tail end holder 4a is provided with a concave cambered surface a. The end face of the tail end holder 4a facing the fixed block 5 is provided with a convex cambered surface b. The radian of the concave cambered surface a is consistent with that of the convex cambered surface b, and the concave cambered surface a and the convex cambered surface b can be in contact with each other (as shown in fig. 5) to form a surface contact assembly relationship.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. The present invention is capable of modifications in the foregoing embodiments, as obvious to those skilled in the art, without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (7)

1. The utility model provides a temple connecting piece, is set up in the side that temple seat is connected with temple cover seat, characterized by: comprises a pressing block and an adjusting part; the pressing block is fixedly connected to the temple seat, one end of the pressing block extends to the upper side of the top surface of the temple cover seat, and the adjusting component is arranged on the part, corresponding to the upper side of the temple cover seat, of the pressing block, so that the end part of the adjusting component can controllably apply vertical downward force to the top surface of the temple cover seat;

the pressing block comprises a root part and a head part, the root part is fixedly connected to the top surface of the vertical wall of the temple base through a bolt, and the head part extends to the upper part of the top surface of the temple cover base and is provided with the adjusting part;

the lower end face of the root of the pressing block is lower than the lower end face of the head;

the adjusting part is a bolt arranged at the head part, a sliding block is arranged below the bolt, the upper end of the sliding block stretches into the head part, the bolt corresponding to the upper part is screwed, the sliding block can be driven to move downwards, and the lower end face of the sliding block is pressed on the top face of the temple cover seat.

2. The temple connecting member of claim 1, wherein: the pressing block establishes a relatively fixed connection relation with the temple seat through the assembly block.

3. The temple connection-member of claim 2, wherein: the assembly block is fixedly connected to the temple base in a detachable manner; the assembly block is provided with a hole or a groove matched with the pressing block, and the pressing block can be in tight fit with the matched hole or groove, so that a relatively fixed assembly relationship is formed between the pressing block and the assembly block.

4. The temple connecting member of claim 1, wherein: the pressing block is correspondingly arranged on one section above the temple seat, and clamping rails are respectively arranged on the front end face and the rear end face; the top surface of the vertical wall of the temple seat is provided with a clamping rail part correspondingly matched with the clamping rail; the clip rail is inserted into the clip rail portion in the horizontal direction and can form a tight fit relationship.

5. The temple connection-member of claim 4 wherein: the limit bolt is arranged on the temple seat and can prevent the pressing block from moving in the direction opposite to the direction in which the clamping rail is inserted into the clamping rail part.

6. The temple connection-member of claim 2 or 4, wherein: the adjusting part arranged at the part of the pressing block extending to the upper part of the temple cover seat is a bolt, the lower part of the bolt is provided with a sliding block, the upper end of the sliding block stretches into the part of the pressing block extending to the upper part of the temple cover seat, the corresponding bolt above the pressing block is screwed, the sliding block can be driven to move downwards, and the lower end face of the sliding block is pressed on the top face of the temple cover seat.

7. The temple connecting member of any one of claims 1 to 5, wherein: the end part of the thorn shaft assembled on the temple seat is provided with a holder, and the holder is provided with a fixed block through a mounting bolt; the end face of the fixed block, which faces the holder, is provided with a concave cambered surface; the end face of the holder, facing the fixed block, is provided with a convex cambered surface; the concave cambered surface and the convex cambered surface can be contacted.