CN216329467U - Profile adjusting device - Google Patents

Abstract

The utility model belongs to the technical field of composite material forming tools and discloses a profile adjusting device. The profile adjusting device comprises a base, a first adjusting component and a second adjusting component; the first adjusting assembly is arranged on the base and comprises a first handle, a transmission piece and a first executing assembly, the first handle is connected with one end of the transmission piece and used for driving the transmission piece to move along the horizontal direction, the other end of the transmission piece is connected with the first executing assembly, and the transmission piece can drive the first executing assembly to move along the vertical direction when moving along the horizontal direction; the second adjusting component is arranged on the base and comprises a second handle and a second executing component, and the second handle is connected with the second executing component and used for driving the second executing component to move along the horizontal direction. The molded surface adjusting device provided by the utility model can be used for remotely adjusting the molded surface, is suitable for adjusting the molded surfaces of various male die or female die configurations, and is convenient to operate and high in applicability.

Description

Profile adjusting device

Technical Field

The utility model relates to the technical field of composite material forming tools, in particular to a profile adjusting device.

Background

The continuous fiber reinforced resin matrix composite material is widely applied to the field of aerospace due to the excellent performance of the continuous fiber reinforced resin matrix composite material in wing, empennage and control surface parts of commercial airplanes. One of the main difficulties and pain points in the manufacturing of the composite material structure at the present stage is profile rebound deformation, so that the part manufacturing cannot obtain the theoretical appearance, and the subsequent airplane structure assembly is influenced. In the actual manufacturing process of the composite material, the molded surface meeting the manufacturing requirements of the part, in particular to the composite material structure with large change of the molded surfaces such as a front edge type, a C-shaped beam type, a wall plate type and the like, needs to be determined through repeated iteration of part trial manufacturing and mold repairing.

For manufacturing composite material structures with large changes of profiles, such as the front edge of the whole machine, the C-shaped beam and the like, the mode is repeatedly trial-manufactured and repeatedly repaired to obtain a proper profile, and the mode is high in cost. In order to reduce trial-manufacture and die repair times and obtain the rebound deformation conditions of different composite material structures, a composite material forming tool of a female die or a male die is considered to be adopted for carrying out profile rebound analysis in the current stage of forward research. The design of the key profile adjusting device required in the design of the composite material forming tool of the profile is important, so that the profile adjusting effect is met, and convenience is brought to workers to conveniently operate the profiles in different structural forms and different adjusting point positions. The prior art adopts the female die to manufacture the leading edge structure of the large passenger plane, and when the profile adjusting device of the female die is designed, the profile adjusting device mainly adopts simple threaded screws to adjust the profile, and has the defects that the female die cannot be used for profile adjustment of a male die and has larger limitation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a profile adjusting device which can be used for remotely adjusting profiles, is suitable for adjusting profiles with various male die or female die configurations, and is convenient to operate and high in applicability.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a profile adjustment apparatus comprising:

a base;

the first adjusting assembly is arranged on the base and comprises a first handle, a transmission piece and a first executing assembly, the first handle is connected with one end of the transmission piece and used for driving the transmission piece to move along the horizontal direction, the other end of the transmission piece is connected with the first executing assembly, and the transmission piece can drive the first executing assembly to move along the vertical direction when moving along the horizontal direction;

the second adjusting component is arranged on the base and comprises a second handle and a second executing component, and the second handle is connected with the second executing component and used for driving the second executing component to move along the horizontal direction.

Optionally, a first limiting member and a second limiting member are arranged on the base, the first limiting member is fixedly connected to one end of the base, the second limiting member is fixedly connected to the base and is arranged at an interval with the first limiting member, the first limiting member is provided with two first limiting structures, the second limiting member is provided with two second limiting structures, and the two first limiting structures and the two second limiting structures are arranged in a one-to-one correspondence manner;

the transmission part comprises a first limiting part, and two ends of the first limiting part are respectively arranged in the first limiting structure and the second limiting structure which are correspondingly arranged in a sliding manner;

the second executing assembly comprises a second limiting part, and two ends of the second limiting part are respectively arranged in the first limiting structure and the second limiting structure which are correspondingly arranged in another group in a sliding mode.

Optionally, two scale marks are arranged on the base, and the two scale marks are arranged on one side of the two second limiting structures in a one-to-one correspondence manner and are located on one side of the second limiting member away from the first limiting member;

one end of the first limiting part, which is close to the second limiting structure, is compared with one of the scale marks and is used for acquiring the displacement of the transmission part;

one end of the second limiting part, which is close to the second limiting structure, is compared with the other scale mark, and the second limiting part is used for acquiring the displacement of the second execution assembly.

Optionally, the first handle comprises a first rotating wheel and a first connecting rod, one end of the first connecting rod is connected with the first rotating wheel, the other end of the first connecting rod is connected with the transmission part through a first connecting assembly, and the first rotating wheel is rotated to drive the first connecting rod to rotate so as to drive the transmission part to move in the horizontal direction;

the second handle includes second swiveling wheel and second connecting rod, the one end of second connecting rod is connected the second swiveling wheel, the other end passes through second coupling assembling and connects the second executive component is through rotatory the second swiveling wheel drives the second connecting rod rotates, with the drive the motion of second executive component along the horizontal direction.

Optionally, the first connecting assembly includes a first connecting block, the first connecting block is fixedly connected to the transmission member, the first connecting block is provided with a first threaded hole, a non-connecting end of the first connecting rod and the first rotating wheel is provided with a first external thread, and the first external thread is matched with the first threaded hole to drive the transmission member to move in the horizontal direction;

the second connecting assembly comprises a second connecting block, the second connecting block is fixedly connected with the second executing assembly, a second threaded hole is formed in the second connecting block, a second connecting rod is provided with a second external thread at a non-connecting end of the second rotating wheel, and the second external thread is matched with the second threaded hole to drive the second executing assembly to move along the horizontal direction.

Optionally, the positioning device further comprises a third limiting part, the third limiting part is arranged on one side, away from the first limiting part, of the second limiting part, two third limiting structures are arranged on the third limiting part at intervals, two fourth limiting structures are arranged on the second limiting part at intervals, and the two third limiting structures and the two fourth limiting structures are arranged in a one-to-one correspondence manner;

the first connecting rod sequentially penetrates through one group of correspondingly arranged third limiting structures and fourth limiting structures and then is connected with the first connecting assembly;

the second connecting rod sequentially penetrates through the third limiting structure and the fourth limiting structure which are oppositely arranged in another group and then is connected with the second connecting component.

Optionally, the first link is provided with a first link limit, the second link is provided with a second link limit, and the first link limit is matched with the fourth limit structure connected with the first link to limit the first link from moving in the horizontal direction; the second connecting rod limiting structure is matched with the fourth limiting structure connected with the second connecting rod to limit the second connecting rod to move along the horizontal direction.

Optionally, still include connecting portion on the driving medium, be equipped with on the connecting portion with the bearing surface of base personally submits the guide way of predetermineeing the contained angle, first executive component is close to the one end of connecting portion is equipped with the sliding bolt, when the driving medium moves along the horizontal direction, the sliding bolt with the guide way cooperation drives first executive component moves along vertical direction.

Optionally, the first executing assembly comprises a first connecting head and a first connecting rod, one end of the first connecting rod is connected with the transmission member, and the other end of the first connecting rod is connected with the first connecting head;

the second execution assembly comprises a second connector and a second connecting rod, one end of the second connecting rod is connected with the second handle, and the other end of the second connecting rod is connected with the second connector.

Optionally, the first executing assembly further includes a first connecting seat, the first connecting head is fixed to the first connecting seat, a first avoiding portion is arranged on the first connecting seat, and the first avoiding portion is arranged in the circumferential direction of the first connecting head and is used for providing an avoiding space for deflection of the first connecting head;

the second execution assembly further comprises a second connecting seat, the second connecting seat is fixed on the second connecting seat, a second avoiding portion is arranged on the second connecting seat, and the second avoiding portion is arranged in the circumferential direction of the second connecting seat and used for providing an avoiding space for deflection of the second connecting seat.

Has the advantages that:

according to the profile adjusting device provided by the utility model, the first adjusting component and the second adjusting component are arranged on the base; the first handle is rotated, the rotation of the first handle is converted into horizontal linear motion through a transmission piece connected with the first handle, and then the horizontal linear motion of the transmission piece is converted into vertical motion of the first execution component through the connection of the transmission piece and the first execution component, so that the deformation of the molded surface in the vertical direction is adjusted through the first adjusting component; and the second handle is rotated, and the rotation of the second handle is converted into the horizontal linear motion of the second actuating assembly through the second actuating assembly connected with the second handle, so that the horizontal deformation of the molded surface is adjusted through the second adjusting assembly. The profile adjusting device adjusts the profile along the vertical direction through the first adjusting assembly, adjusts the profile along the horizontal direction through the second adjusting assembly, can realize the remote adjustment of the profile outside the profile, is suitable for adjusting the profiles of various male molds or female molds, and has convenient operation and strong applicability.

Drawings

Fig. 1 is a schematic structural view of a profile adjustment apparatus provided in an embodiment of the present invention;

fig. 2 is a schematic view of a first perspective of an adjustment profile of a profile adjustment device provided by an embodiment of the present invention;

fig. 3 is a schematic view of a base structure of a profile adjustment apparatus according to an embodiment of the present invention;

FIG. 4 is an isometric view of a first adjustment assembly of the profile adjustment apparatus provided by an embodiment of the utility model;

figure 5 is a side view of a first adjustment assembly of the profile adjustment apparatus provided by an embodiment of the utility model;

FIG. 6 is an isometric view of a second adjustment assembly of the profile adjustment apparatus provided by an embodiment of the utility model;

figure 7 is a side view of a second adjustment assembly of the profile adjustment apparatus provided by an embodiment of the utility model;

fig. 8 is a wheel-surface schematic view of a first rotatable wheel of the profile adjustment apparatus provided by an embodiment of the utility model;

fig. 9 is a schematic view of a wheel bar connection of a first rotary wheel of the profile adjustment apparatus provided in an embodiment of the utility model;

fig. 10 is a schematic structural view of a first connection seat and a first connection head of the profile adjusting device according to the embodiment of the present invention;

figure 11 is a schematic view of a second perspective of an adjustment profile of a profile adjustment device provided by an embodiment of the present invention.

In the figure:

100. a profile surface;

1. a base; 11. a first limit piece; 111. a first limit structure; 12. a second limiting member; 121. a second limit structure; 122. a fourth limit structure; 13. a third limiting member; 131. a third limiting structure; 14. a compensation structure;

2. a first adjustment assembly; 21. a first handle; 211. a first rotating wheel; 212. a first link; 2121. limiting by a first connecting rod; 22. a transmission member; 221. a first limiting part; 2211. a positioning member; 222. a connecting portion; 2221. a guide groove; 23. a first execution component; 231. a sliding bolt; 232. a first connecting seat; 2321. a first avoidance portion; 2322. a first connection seat body; 233. a first connector; 2331. a first connecting member; 2332. a first abutting joint head; 234. a first connecting rod; 24. a first connection assembly; 241. a first connection block; 2411. positioning a groove;

3. a second adjustment assembly; 31. a second handle; 311. a second rotating wheel; 312. a second link; 3121. limiting by a second connecting rod; 3122. a second lock nut; 32. a second execution component; 321. a second limiting part; 322. a second connecting seat; 323. a second connector; 324. a second connecting rod; 33. a second connection assembly; 331. and a second connecting block.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting of the utility model. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. are used in an orientation or positional relationship based on that shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

The profile adjusting device provided by the utility model, as shown in fig. 1-7, comprises a base 1, a first adjusting component 2 and a second adjusting component 3; the first adjusting component 2 is arranged on the base 1, the first adjusting component 2 comprises a first handle 21, a transmission piece 22 and a first executing component 23, the first handle 21 is connected with one end of the transmission piece 22 and used for driving the transmission piece 22 to move along the horizontal direction, the other end of the transmission piece 22 is connected with the first executing component 23, and the transmission piece 22 can move along the horizontal direction and can drive the first executing component 23 to move along the vertical direction; the second adjusting component 3 is arranged on the base 1, the second adjusting component 3 comprises a second handle 31 and a second executing component 32, and the second handle 31 is connected with the second executing component 32 and is used for driving the second executing component 32 to move along the horizontal direction.

The profile 100 is fixed to a support (not shown) for adjusting the profile 100. The base 1 is provided with a plurality of positioning holes, and can be connected with the support frame through bolts and the like, so that the base 1 of the profile adjusting device and the profile 100 are relatively fixed. The shape of the base 1 is not limited, and the fixing function relative to the supporting frame and the bearing function of the profile adjusting device can be realized.

The first adjusting component 2 is arranged on one side of the base 1 far away from the supporting frame. The first handle 21 is disposed so as to be axially horizontal and rotatable about an axis as a rotation axis. One end of the first handle 21 is connected to the transmission member 22 in such a manner that the first handle 21 rotates to drive the transmission member 22 to move in the horizontal direction. The axis of the first actuating assembly 23 is arranged vertically, the upper end is used for adjusting the upper surface and the lower surface of the molded surface 100, the lower end is connected with the transmission piece 22, and the connection mode of the upper end and the lower end enables the horizontal movement of the transmission piece 22 to drive the first actuating assembly 23 to move along the vertical direction. The base 1 is provided with a compensation structure 14, such as: a hole or a groove, etc. for providing a space when the first actuating assembly 23 moves downward, preventing the first actuating assembly 23 from moving vertically downward due to the blockage of the base 1. The compensating structure 14 may have the same shape as the cross section of the end of the first actuator assembly 23 close to the base 1, and it is sufficient that the first actuator assembly 23 can move vertically downwards. The first adjusting component 2 converts the rotation of the first handle 21 into the horizontal linear motion of the transmission part 22 through the connection of the first handle 21, the transmission part 22 and the first executing component 23, and then converts the horizontal linear motion into the motion of the first executing component 23 along the vertical direction, so that the purpose of rotating one end of the first handle 21 away from the transmission part 22 and enabling the first adjusting component 2 to move up and down in the vertical direction is achieved. The first adjusting assembly 2 is used for adjusting the upper and lower surfaces of the profile 100, and adjusting the problem of the deformation of the profile 100 by the vertical up-and-down movement of the first actuating assembly 23. The first adjustment assembly 2 is mainly suitable for adjusting the upper and lower surfaces of the profile 100, such as: web face and wallboard structure frock etc. of C type beam structure frock.

The second adjusting component 3 is arranged on one side of the base 1 far away from the supporting frame. The second handle 31 is disposed with its axis horizontal and rotatable about the axis as a rotation axis. One end of the second handle 31 is connected to the second actuator 32 in such a manner that the second handle 31 is rotated to drive the second actuator 32 to move in the horizontal direction. The second adjusting component 3 is used for adjusting the front and back surfaces of the profile 100, and the second actuating component 32 moves horizontally by rotating one end of the second handle 31 far away from the second actuating component 32, so as to adjust the deformation problem of the front and back surfaces of the profile 100. The second adjustment assembly 3 is mainly suitable for adjusting the front and rear faces of the profile 100, such as: the edge strip surface and the front edge U-shaped tool of the C-shaped beam structure tool and the like.

With reference to fig. 1 to 7, optionally, a first limiting member 11 and a second limiting member 12 are disposed on the base 1, the first limiting member 11 is fixedly connected to one end of the base 1, the second limiting member 12 is fixedly connected to the base 1 and is spaced from the first limiting member 11, the first limiting member 11 is provided with two first limiting structures 111, the second limiting member 12 is provided with two second limiting structures 121, and the two first limiting structures 111 and the two second limiting structures 121 are disposed in one-to-one correspondence; the transmission member 22 includes a first limiting portion 221, two ends of the first limiting portion 221 are respectively slidably disposed in one set of the first limiting structure 111 and the second limiting structure 121 correspondingly disposed, so that the transmission member 22 can slide along the horizontal direction relative to the base 1; the second actuator 32 includes a second limiting portion 321, and two ends of the second limiting portion 321 are respectively slidably disposed in the other set of the first limiting structure 111 and the second limiting structure 121, so that the second actuator 32 can slide along the horizontal direction relative to the base 1.

The first limiting part 11 and the second limiting part 12 are both disposed on one side of the base 1 away from the supporting frame, and can be fixed on the base 1 through bolts and the like. The first limiting member 11 is disposed at one end of the base 1, and the second limiting member 12 and the first limiting member 11 are disposed at an interval, such that the transmission member 22 and the second executing component 32 can be disposed at the interval therebetween. The two first limiting structures 111 and the two second limiting structures 121 are arranged in a one-to-one correspondence manner, and the corresponding first limiting structures 111 and the corresponding second limiting structures 121 are located on the same straight line. Preferably, the first limiting structure 111 may be a square groove, a semicircular groove, or the like, and the second limiting structure 121 may be the same as or different from the first limiting structure 111, but it is required to ensure that the first limiting portion 221 and the second limiting portion 321 can be matched with the first limiting structure 111 and the second limiting structure 121 to realize relative sliding. The bottom surface of the first position-limiting portion 221 is parallel to the base 1, one end of the first position-limiting portion 221 is engaged with the first position-limiting structure 111, and the other end is engaged with the corresponding second position-limiting structure 121, so that the transmission member 22 can only slide along the horizontal direction relative to the base 1. The bottom surface of the second position-limiting portion 321 is parallel to the base 1, one end of the second position-limiting portion 321 is matched with the first position-limiting structure 111, and the other end is matched with the corresponding second position-limiting structure 121, so that the second executing component 32 can only slide along the horizontal direction relative to the base 1. The cross section of the first position-limiting portion 221 may be square or semicircular, etc., and the cross section of the second position-limiting portion 321 may be the same as or different from that of the first position-limiting portion 221, only by ensuring that the first position-limiting portion 221 and the second position-limiting portion 321 can be matched with the first position-limiting structure 111 and the second position-limiting structure 121.

Optionally, two scale marks are arranged on the base 1, and the two scale marks are arranged on one side of the two second limiting structures 121 in a one-to-one correspondence manner and are located on one side of the second limiting member 12 away from the first limiting member 11; one end of the first limiting part 221, which is close to the second limiting structure 121, is compared with one of the scale marks for obtaining the displacement of the transmission member 22; one end of the second limiting portion 321 close to the second limiting structure 121 is compared with another calibration line for obtaining the displacement of the second actuator 32.

According to the comparison between the horizontal moving position of the first limiting portion 221 near the end of the second limiting structure 121 and the scale mark near the first limiting portion 221, the horizontal moving amount of the first limiting portion 221 is obtained, and then the numerical value of the first adjusting assembly 2 for adjusting the upper surface and the lower surface of the profile 100 can be obtained. According to the comparison between the horizontal moving position of the second limiting part 321 near one end of the second limiting structure 121 and the scale mark near the second limiting part 321, the value of the second adjusting component 3 for adjusting the front and back surfaces of the molded surface 100 is obtained. The arrangement of the scale marks can facilitate the observation of the displacement. Preferably, the scale has an accuracy of at least 0.5 mm. It will be appreciated that the graduation marks may also be provided at other locations where displacement measurements can be made.

Optionally, the first handle 21 includes a first rotating wheel 211 and a first link 212, one end of the first link 212 is connected to the first rotating wheel 211, and the other end is connected to the transmission member 22 through a first connecting assembly 24, and the first link 212 is driven to rotate by rotating the first rotating wheel 211 to drive the transmission member 22 to move in the horizontal direction; the second handle 31 includes a second rotation wheel 311 and a second link 312, one end of the second link 312 is connected to the second rotation wheel 311, the other end is connected to the second actuating assembly 32 through a second connecting assembly 33, and the second link 312 is driven to rotate by rotating the second rotation wheel 311, so as to drive the second actuating assembly 32 to move along the horizontal direction.

As shown in fig. 1 to 9, the first rotating wheel 211 includes a first wheel surface, the first wheel surface is provided with a graduation line of a rotation angle and a rotation direction indicating line, when the first rotating wheel 211 is rotated, a displacement amount of the first actuating assembly 23 can be calculated through the graduation line of the rotation angle, and a displacement direction of the first actuating assembly 23 is defined through the rotation direction indicating line. The second rotating wheel 311 includes a second wheel surface, the second wheel surface is provided with a rotation angle scale mark and a rotation direction indicating line, the displacement of the second actuator 32 can be calculated through the rotation angle scale mark when the second rotating wheel 311 is rotated, and the displacement direction of the second actuator 32 can be determined through the rotation direction indicating line. The arrangement of the scale lines of the rotation angle and the rotation direction indicating lines enables the adjustment amount of the profile 100 to be visualized and convenient to observe.

The first rotating wheel 211 further comprises a first wheel bar connecting portion, and the first connecting rod 212 is sleeved in the first wheel bar connecting portion, so that the first rotating wheel 211 is connected with the first connecting rod 212. The first wheel bar connecting portion is provided with a first positioning structure, one end of the first connecting rod 212 connected with the first rotating wheel 211 is provided with a second positioning structure matched with the first positioning structure, and the first rotating wheel 211 and the first connecting rod 212 are matched to realize the relative positioning of the first rotating wheel 211 and the first connecting rod 212, so that the first rotating wheel 211 and the first connecting rod 212 are prevented from rotating relatively. The second rotating wheel 311 has a similar structure to the first rotating wheel 211, and is not described in detail herein.

Preferably, a clamping structure is further provided between the first rotating wheel 211 and the first link 212 and between the second rotating wheel 311 and the second link 312 to prevent relative rotation therebetween.

As shown in fig. 1 to 9, when the profile 100 is adjusted on the upper and lower surfaces, the first rotating wheel 211 is rotated, the first connecting rod 212 can rotate synchronously with the first rotating wheel 211, and the first connecting assembly 24 connects the first connecting rod 212 and the transmission member 22, respectively, so that the first connecting rod 212 drives the transmission member 22 to move in the horizontal direction. When the front and back surfaces of the profile 100 are adjusted, the second rotating wheel 311 is rotated, the second connecting rod 312 can rotate synchronously with the second rotating wheel 311, and the second connecting component 33 is respectively connected with the second connecting rod 312 and the second actuating component 32, so that the second connecting rod 312 drives the second actuating component 32 to move in the horizontal direction.

Optionally, the profile adjusting device further includes a third limiting member 13, the third limiting member 13 is disposed on one side of the second limiting member 12 away from the first limiting member 11, two third limiting structures 131 are disposed at intervals on the third limiting member 13, two fourth limiting structures 122 are disposed at intervals on the second limiting member 12, and the two third limiting structures 131 and the two fourth limiting structures 122 are disposed in a one-to-one correspondence manner; the first connecting rod 212 sequentially passes through one group of the correspondingly arranged third limiting structures 131 and the fourth limiting structures 122 and then is connected with the first connecting assembly 24; the second connecting rod 312 passes through another set of the third limiting structure 131 and the fourth limiting structure 122, and then is connected to the second connecting assembly 33.

The third limiting member 13 is disposed on a side of the second limiting member 12 away from the first limiting member 11, and can be fixed on the supporting frame or the base 1. The third limiting member 13 may be fixed by a bolt. The third limiting member 13 is a detachable structure and can be formed by assembling two parts. The second limiting member 12 can also be a detachable structure and is formed by assembling two parts. When the second limiting member 12 is assembled, a height adjusting piece can be arranged between the two parts, such as: the copper sheet, thereby ensuring a certain rotation gap between the first link 212 and the second link 312. When the third limiting member 13 is assembled, a height adjusting piece can be arranged similarly to the second limiting member 12. The third limiting member 13 and the second limiting member 12 are separated, so that the first connecting rod 212 can be located in one of the correspondingly arranged sets of the third limiting structure 131 and the fourth limiting structure 122, and the second connecting rod 312 is located in the other of the correspondingly arranged sets of the third limiting structure 131 and the fourth limiting structure 122, the second limiting member 12 and the third limiting member 13 are assembled, and the fixing can be performed by bolts and the like, so that the first connecting rod 212 and the second connecting rod 312 are relatively fixed with the base 1.

Optionally, the first link 212 is provided with a first link stop 2121, the second link 312 is provided with a second link stop 3121, the first link stop 2121 cooperates with the fourth stop 122 connected to the first link 212 to limit movement of the first link 212 in the horizontal direction; the second link stop 3121 cooperates with the fourth stop 122 connected to the second link 312 to limit movement of the second link 312 in the horizontal direction.

The first link stopper 2121 may be two protrusions fixedly disposed on the first link 212, and the distance between the two protrusions is enough to accommodate the width of the second stopper 12 in the axial direction of the first link 212. After assembly, the two protrusions of the first link stopper 2121 are located on two sides of the second stopper 12, respectively, and the two protrusions of the first link stopper 2121 cannot pass through the fourth stopper 122. Preferably, the first link limiter 2121 is two circular rings fixed on the first link 212. The first link stopper 2121 prevents the first link 212 from moving horizontally relative to the second stopper 12, and further prevents the first link 212 from moving horizontally relative to the base 1. The structure and position of the second link limit 3121 relative to the second link 312 are similar to the structure and position of the first link limit 2121 relative to the first link 212, and the second link limit 3121 prevents the second link 312 from moving horizontally relative to the second limit stop 12, and further prevents the second link 312 from moving horizontally relative to the base 1.

With continued reference to fig. 1 to 9, optionally, the first connecting assembly 24 includes a first connecting block 241, the first connecting block 241 is fixedly connected to the transmission member 22, a first threaded hole is formed in the first connecting block 241, and a non-connecting end of the first connecting rod 212 and the first rotating wheel 211 is provided with a first external thread, which is matched with the first threaded hole to drive the transmission member 22 to move in the horizontal direction; the second connecting assembly 33 includes a second connecting block 331, the second connecting block 331 is fixedly connected to the second actuating assembly 32, a second threaded hole is formed in the second connecting block 331, a second external thread is formed at a non-connecting end of the second connecting rod 312 and the second rotating wheel 311, and the second external thread is matched with the second threaded hole to drive the second actuating assembly 32 to move in the horizontal direction.

Preferably, the positioning member 2211 may be disposed on the first position-limiting portion 221, and the positioning groove 2411 is disposed on the first connecting block 241, so that the positioning groove 2411 cooperates with the positioning member 2211 to realize the positioning of the first position-limiting portion 241 and the first position-limiting portion 221 during the assembling process; meanwhile, the first connecting block 241 can be prevented from being accidentally deflected relative to the first limiting portion 221 in the using process, so that the using effect is prevented from being affected. The first connecting block 241 is fixedly connected to the transmission member 22. The first limiting block 241 is provided with a protrusion, and the first connecting block 241 is connected with the transmission piece 22 through the protrusion. In the present embodiment, the first connecting block 241 is connected to one end of the first position-limiting portion 221 close to the second position-limiting member 12. The connection position of the first connecting block 241 and the first position-limiting portion 221 may be on the side of the first position-limiting portion 221, or on the upper surface of the first position-limiting portion 221 away from the base 1. The first connecting block 241 and the first position-limiting portion 221 may be connected by bolts, welding, or the like. In other embodiments, the first limiting block 241 may also be connected to other positions of the transmission member 22, and only the transmission between the first handle 21 and the transmission member 22 needs to be achieved. It is understood that the first connecting block 241 may be disposed above the transmission member 22, or may be disposed at a side of the transmission member 22. The first connecting block 241 is arranged above the transmission piece 22, so that the space requirement of the first adjusting component 2 in the direction perpendicular to the axis of the first connecting rod 212 can be saved; the first connecting block 241 is disposed on the side of the transmission member 22, so that the space requirement in the axial direction of the first connecting rod 212 can be saved, and the assembling position and the connecting position of the first connecting block 241 relative to the transmission member 22 can be selected according to actual requirements.

When the first rotating wheel 211 is rotated, the first connecting rod 212 is driven to rotate, and one end of the first connecting rod 212, which is far away from the first rotating wheel 211, is matched with the first threaded hole of the first connecting block 241 through the first external thread. When the first connecting rod 212 rotates, because the first connecting rod 212 cannot move, the rotation of the first connecting rod 212 can be effectively transmitted to the first connecting block 241 through the matching of the first external thread and the first threaded hole, so as to drive the first connecting block 241 to move along the axial direction of the first connecting rod 212, and further drive the transmission piece 22 to move along the horizontal direction.

The second connecting block 331 is fixedly connected to the second actuator 32, and the connecting manner may be a bolt connection, a welding connection, or the like. The second connecting block 331 can be connected to the side of the second limiting portion 321, or can be connected to other positions of the second actuating component 32, and only the transmission between the second handle 31 and the second actuating component 32 needs to be realized. The second connecting block 331 is arranged in relation to the second actuating element 32 in a similar way to the first connecting block 241 in relation to the transmission element 22. The second connecting block 331 and the first connecting block 241 may be configured in the same structure and configuration, or different structures and configurations may be selected according to actual needs. When the second rotating wheel 311 is rotated, the second connecting rod 312 is driven to rotate, and one end of the second connecting rod 312, which is far away from the second rotating wheel 311, is matched with the second threaded hole of the second connecting block 331 through a second external thread. Since the second connecting rod 312 cannot move, when the second connecting rod 312 rotates, the second connecting block 331 is driven to move along the axial direction of the second connecting rod 312, and further the second actuator 32 is driven to move along the horizontal direction.

Preferably, a first locking nut may be disposed on the first link 212, and the first locking nut is disposed between the first link stopper 2121 and the first connecting element 24 to prevent the first connecting element 24 from driving the transmission element 22 to move excessively; the second locking nut 3122 may be further disposed on the second link 312, and the second locking nut 3122 is disposed between the second link limit 3121 and the second connecting assembly 33, so as to prevent the second connecting assembly 33 from driving the second actuating assembly 32 to move excessively. The provision of the first and second lock nuts 3122 allows the profile 100 adjustment effect to be reliably maintained.

Optionally, the transmission member 22 further includes a connection portion 222, the connection portion 222 is provided with a guide groove 2221 forming a preset included angle with the bearing surface of the base 1, one end of the first executing component 23 close to the connection portion 222 is provided with a sliding bolt 231, and when the transmission member 22 moves along the horizontal direction, the sliding bolt 231 is matched with the guide groove 2221 to drive the first executing component 23 to move along the vertical direction.

The change of the moving direction is achieved by coupling the transmission member 22 with the first actuating member 23 through the cooperation of the guide groove 2221 and the slide bolt 231. In this embodiment, one end of the guiding groove 2221 close to the first handle 21 is lower than the end far from the first handle 21, and when the transmission member 22 moves towards the direction close to the first handle 21, the sliding bolt 231 moves obliquely upward at a preset angle relative to the guiding groove 2221 to drive the first actuating assembly 23 to move vertically upward; when the transmission member 22 moves away from the first handle 21, the sliding bolt 231 moves obliquely downward at a predetermined angle relative to the guiding groove 2221, and drives the first actuating member 23 to move vertically downward. The preset angle is not specifically limited in the embodiment, and can be set by a person skilled in the art according to actual requirements.

Optionally, the first actuating assembly 23 comprises a first connecting joint 233 and a first connecting rod 234, one end of the first connecting rod 234 is connected with the transmission member 22, and the other end is connected with the first connecting joint 233; the second actuating assembly 32 includes a second connecting head 323 and a second connecting rod 324, one end of the second connecting rod 324 is connected to the second handle 31, and the other end is connected to the second connecting head 323.

With continued reference to fig. 1-9, one end of first connecting rod 234 is connected to transmission 22. The sliding bolt 231 may be fixed to the first connecting rod 234, and the first connecting rod 234 may be coupled to the driving member 22 by being engaged with the guide groove 2221. The end of the first connecting rod 234 near the end of the base 1 can be engaged with the compensating structure 14 to avoid interference with the base 1 when the first connecting rod 234 moves vertically. The first connecting joint 233 is fixed to an end of the first connecting rod 234 away from the transmission member 22 and can move along with the first connecting rod 234. The first connecting rod 234 and the first connecting joint 233 may be connected by means of hinge, welding, etc. The first connecting joint 233 has a first abutting surface which abuts against the molding surface 100, and when the upper and lower surfaces of the molding surface 100 are adjusted, the first abutting surface of the first connecting joint 233 is welded after abutting against the molding surface 100, and the molding surface 100 is adjusted by adjusting the displacement of the first adjusting component 2.

One end of the second connecting rod 324 is connected to the second handle 31. The second connector 323 is fixed on an end of the second connecting rod 324 away from the second handle 31 and can move along with the second connecting rod 324. The second connecting rod 324 and the second connector 323 can be connected by means of hinge, welding, etc. One end of the second connector 323, which is far away from the second connecting seat 322, is provided with a second abutting surface which is attached to the molded surface 100, when the front and rear surfaces of the molded surface 100 are adjusted, the second abutting surface of the second connector 323 is welded to the molded surface 100 after being attached to the molded surface 100, and the molded surface 100 is adjusted by adjusting the displacement of the second adjusting component 3.

The shapes of the first connecting rod 234, the first joint 233, the second connecting rod 324, and the second connecting head 323 are not particularly limited, and may be any shapes that can achieve the functions required by the first actuator 23 and the second actuator 32.

As shown in fig. 1 to 10, optionally, the first actuating assembly 23 further includes a first connecting seat 232, the first connecting head 233 is fixed on the first connecting seat 232, a first avoiding portion 2321 is disposed on the first connecting seat 232, and the first avoiding portion 2321 is disposed in a circumferential direction of the first connecting head 233 and is configured to provide an avoiding space for the deflection of the first connecting head 233; the second actuating assembly 32 further includes a second connecting seat 322, the second connecting head 323 is fixed on the second connecting seat 322, a second avoiding portion is disposed on the second connecting seat 322, and the second avoiding portion is disposed in the circumferential direction of the second connecting head 323, and is used for providing an avoiding space for the deflection of the second connecting head 323.

The first connector 233 may be fixed to the first connecting rod 234 by the first connecting seat 232. The first connection block 232 may include a first connection block 2322 and a first fixing member. The first connection block 2322 and the first fixing member may be fixed by bolts. The first connection head 233 is fixedly connected to the first connection seat 232. The first connector 233 may include a first connector 2331 and a first abutment head 2332. The first connecting member 2331 has one end connected to the first abutting head 2332 and the other end connected to the first connecting seat 232. A buckle is disposed at an end of the first connecting member 2331 close to the first connecting seat 2322, a slot is disposed on the first connecting seat 2322, the relative position of the first connecting member 2331 and the first connecting seat 2322 is fixed by the cooperation of the buckle and the slot, and then the first fixing member is assembled with the first connecting seat 2322, so that the first connecting member 2331 is fixed relative to the first connecting seat 232. It should be noted that the structure of the first fixing member near the side of the first connecting member 2331 can be attached to the first connecting member 2331, so that the first fixing member can be assembled with the first connecting seat 2322, and at the same time, the first connecting member 2331 is fixed. In other embodiments, the fixing manner of the first connector 233 and the first connector base 232 may be other structures, such as: threaded connections, welding, etc. It is understood that the first connecting member 2331 and the first abutting head 2332 may be a unitary structure or may be a separate structure.

The first connecting seat 232 is provided with a first avoiding portion 2321, and the first avoiding portion 2321 is arranged in the circumferential direction of the first connecting head 233 and is used for providing an avoiding space for the deflection of the first connecting head 233. Avoidance grooves are formed in the positions, opposite to the first connecting seat 2322 and the first fixing piece, of the first connecting piece 2331, the two opposite avoidance grooves form a first avoidance part 2321, and when the first connecting piece 233 deflects under the action force of the molding surface 100 in the process of adjusting the molding surface 100, an avoidance space is provided, so that stress concentration caused by the fact that the first connecting piece 2331 abuts against the first connecting seat 232 when the first connecting piece 233 deflects is avoided; at the same time, the displacement of the profile 100 can be effectively transmitted to the profile 100, resulting in a change in the profile 100. The first avoiding portion 2321 may also be provided with other circumferential directions of the connection form of the first connection head 233 and the first connection seat 232, and only needs to enable the first connection head 233 to deflect and unload force when the force is applied.

The structure and connection of the second connecting seat 322 and the second connecting head 323 are similar to those of the first connecting seat 232 and the first connecting head 233, and are not described in detail herein.

As shown in fig. 1 to 11, in practical application, profile 100 adjustment can be performed by applying profile adjusting devices with appropriate size and number according to the structural characteristics of the profile 100, and determining the welding point position of profile 100 adjustment according to the adjustment condition of the simulation analysis profile 100.

The molded surface 100 and the molded surface adjusting device are fixed on a support frame, the upper surface and the lower surface of the molded surface 100 are adjusted by adjusting the first adjusting component 2, and the front surface and the rear surface of the molded surface 100 are adjusted by adjusting the second adjusting component 3. It should be noted that, because the first connecting joint 233 is only located on one side of the profile 100 to be adjusted, after the first abutting surface is welded to the profile 100, the first abutting surface can drive the profile 100 to be adjusted, so as to achieve adjustment in two directions perpendicular to the profile 100; the first connecting piece 233 is of a detachable construction, and after the profile 100 has been adjusted, the first connecting piece 233 can be detached from the first adjusting member 2, and when the profile 100 is adjusted again by the first adjusting member 2, the other first connecting piece 233 is replaced. The adjustment process of the second connector 323 and the mold 100 is similar to the adjustment process of the first connector 233 and the mold 100, and will not be described herein.

It will be appreciated that the size and shape of the various components of the profile control device can be adjusted to suit the application and that the profile control device is capable of withstanding high temperatures and pressures. Preferably, the maximum bearing temperature is not lower than 300 ℃ and the maximum bearing pressure is not lower than 1 MPa.

The profile adjusting device provided by the utility model realizes the adjustment of the profile 100 in the vertical and horizontal directions by arranging the first adjusting assembly 2 and the second adjusting assembly 3. By providing graduation marks on the base 1 and the first and second rotation wheels 211 and 311, the amount of adjustment to the profile 100 is more accurate and visualized. The profile adjustment device can also be equipped with a digital measuring instrument to monitor the adjustment displacement of the profile 100. The cavity of the male mold has a protrusion for adjusting the inner surface or the recess of the mold surface 100; the cavity of the female mold has a recess for accommodating the outer surface or bulge of the mold surface 100. Particularly, for the male mold, the mold surface 100 inside the protruding part is not easy to be adjusted when the mold surface 100 is adjusted, and the mold surface adjusting device provided by the utility model can realize the adjustment of the remote mold surface 100 in the operation space except the mold surface 100 by adjusting the first rotating wheel 211 and the second rotating wheel 311 to control the displacement at the first connecting head 233 and the second connecting head 323, thereby being suitable for adjusting the mold surfaces 100 with various male mold or female mold configurations, and having convenient operation, strong applicability and high reliability. In practice, multiple sets of profile adjustment devices can be deployed as desired to achieve effective adjustment of the profile 100.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Numerous obvious variations, adaptations and substitutions will occur to those skilled in the art without departing from the scope of the utility model. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A profile adjustment device, comprising:

a base (1);

the first adjusting assembly (2) is arranged on the base (1), the first adjusting assembly (2) comprises a first handle (21), a transmission piece (22) and a first executing assembly (23), the first handle (21) is connected with one end of the transmission piece (22) and used for driving the transmission piece (22) to move along the horizontal direction, the other end of the transmission piece (22) is connected with the first executing assembly (23), and the transmission piece (22) can drive the first executing assembly (23) to move along the vertical direction when moving along the horizontal direction;

the second adjusting component (3) is arranged on the base (1), the second adjusting component (3) comprises a second handle (31) and a second executing component (32), and the second handle (31) is connected with the second executing component (32) and used for driving the second executing component (32) to move along the horizontal direction.

2. The profile adjusting device according to claim 1, wherein a first limiting member (11) and a second limiting member (12) are arranged on the base (1), the first limiting member (11) is fixedly connected to one end of the base (1), the second limiting member (12) is fixedly connected to the base (1) and is spaced from the first limiting member (11), the first limiting member (11) is provided with two first limiting structures (111), the second limiting member (12) is provided with two second limiting structures (121), and the two first limiting structures (111) and the two second limiting structures (121) are arranged in a one-to-one correspondence manner;

the transmission piece (22) comprises a first limiting part (221), and two ends of the first limiting part (221) are respectively arranged in the first limiting structure (111) and the second limiting structure (121) which are correspondingly arranged in a sliding mode;

the second executing component (32) comprises a second limiting part (321), and two ends of the second limiting part (321) are respectively arranged in the first limiting structure (111) and the second limiting structure (121) which are correspondingly arranged in another group in a sliding manner.

3. The profile adjustment device according to claim 2, wherein the base (1) is provided with two graduation marks, the two graduation marks are arranged on one side of the two second limiting structures (121) in a one-to-one correspondence, and are positioned on one side of the second limiting member (12) away from the first limiting member (11);

one end, close to the second limiting structure (121), of the first limiting part (221) is compared with one of the scale marks and used for acquiring the displacement of the transmission piece (22);

one end, close to the second limiting structure (121), of the second limiting part (321) is compared with the other scale mark, and the second limiting part is used for acquiring the displacement of the second execution assembly (32).

4. The profile adjustment device according to claim 2, wherein the first handle (21) comprises a first rotating wheel (211) and a first connecting rod (212), one end of the first connecting rod (212) is connected with the first rotating wheel (211), the other end of the first connecting rod is connected with the transmission member (22) through a first connecting component (24), and the first connecting rod (212) is driven to rotate by rotating the first rotating wheel (211) so as to drive the transmission member (22) to move along the horizontal direction;

second handle (31) include second swiveling wheel (311) and second connecting rod (312), the one end of second connecting rod (312) is connected second swiveling wheel (311), the other end passes through second coupling assembling (33) and connects second executive component (32), through rotatory second swiveling wheel (311) drives second connecting rod (312) rotate, with the drive second executive component (32) are along the horizontal direction motion.

5. The profile adjustment device according to claim 4, wherein the first connecting assembly (24) comprises a first connecting block (241), the first connecting block (241) is fixedly connected with the transmission member (22), a first threaded hole is arranged on the first connecting block (241), a first external thread is arranged on the non-connecting end of the first connecting rod (212) and the first rotating wheel (211), and the first external thread is matched with the first threaded hole to drive the transmission member (22) to move along the horizontal direction;

the second connecting assembly (33) comprises a second connecting block (331), the second connecting block (331) is fixedly connected with the second executing assembly (32), a second threaded hole is formed in the second connecting block (331), the second connecting rod (312) is connected with the non-connecting end of the second rotating wheel (311) through second external threads, and the second external threads are matched with the second threaded hole to drive the second executing assembly (32) to move along the horizontal direction.

6. The profile adjusting device according to claim 4, further comprising a third limiting member (13), wherein the third limiting member (13) is disposed on a side of the second limiting member (12) away from the first limiting member (11), two third limiting structures (131) are disposed at intervals on the third limiting member (13), two fourth limiting structures (122) are disposed at intervals on the second limiting member (12), and the two third limiting structures (131) and the two fourth limiting structures (122) are disposed in a one-to-one correspondence manner;

the first connecting rod (212) sequentially penetrates through one group of the third limiting structures (131) and the fourth limiting structures (122) which are correspondingly arranged and then is connected with the first connecting assembly (24);

the second connecting rod (312) sequentially penetrates through the other group of the third limiting structures (131) and the fourth limiting structures (122) which are oppositely arranged and then is connected with the second connecting component (33).

7. The profile adjustment device according to claim 6, wherein the first link (212) is provided with a first link stop (2121) and the second link (312) is provided with a second link stop (3121), the first link stop (2121) cooperating with the fourth stop (122) connected to the first link (212) to limit movement of the first link (212) in a horizontal direction; the second link stop (3121) cooperates with the fourth stop structure (122) connected to the second link (312) to limit movement of the second link (312) in a horizontal direction.

8. The profile adjusting device according to claim 1, wherein the transmission member (22) further comprises a connecting portion (222), the connecting portion (222) is provided with a guide groove (2221) having a predetermined included angle with the bearing surface of the base (1), one end of the first actuating member (23) close to the connecting portion (222) is provided with a sliding bolt (231), and when the transmission member (22) moves along the horizontal direction, the sliding bolt (231) is matched with the guide groove (2221) to drive the first actuating member (23) to move along the vertical direction.

9. Profile adjustment device according to claim 1, characterized in that the first actuating assembly (23) comprises a first connecting piece (233) and a first connecting rod (234), one end of the first connecting rod (234) being connected to the transmission piece (22) and the other end being connected to the first connecting piece (233);

the second execution assembly (32) comprises a second connector (323) and a second connecting rod (324), one end of the second connecting rod (324) is connected with the second handle (31), and the other end of the second connecting rod is connected with the second connector (323).

10. The profile adjustment device according to claim 9, wherein the first actuating assembly (23) further comprises a first connecting seat (232), the first connecting head (233) is fixed on the first connecting seat (232), a first avoiding portion (2321) is arranged on the first connecting seat (232), and the first avoiding portion (2321) is arranged in the circumferential direction of the first connecting head (233) and used for providing an avoiding space for the deflection of the first connecting head (233);

the second executive component (32) further comprises a second connecting seat (322), the second connecting seat (323) is fixed on the second connecting seat (322), a second avoiding portion is arranged on the second connecting seat (322), and the second avoiding portion is arranged in the circumferential direction of the second connecting seat (323) and used for providing an avoiding space for deflection of the second connecting seat (323).

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