CN102195138A - Wave collector assembly capable of being installed rapidly - Google Patents

Abstract

The invention discloses a wave collector assembly capable of being installed rapidly. The wave collector assembly comprises a wave collector main body, a connecting part, a supporting arm, at least one positioning elastic sheet, a fixed base, a clamping cam and a pivot, wherein the connecting part extends from the wave collector main body and comprises at least one wave collector positioning hole; the supporting arm comprises at least one supporting arm positioning hole; each positioning elastic sheet comprises a fixed end and a positioning column, and each fixed end is fixed on the supporting arm; the fixed base is arranged on the supporting arm; the pivot is used for pivoting the clamping cam to the fixed base; and when the connecting part is inserted into the supporting arm, each positioning column penetrates through the corresponding supporting arm positioning hole and the corresponding wave collector positioning hole so as to fix the relative position between the connecting part and the supporting arm, and the positioning column also completely and tightly butts against the supporting arm through the clamping cam so that the penetration state of the positioning column is maintained.

Description

But the wave collecting device assembly of Fast Installation

Technical field

The present invention relates to a kind of wave collecting device assembly, especially relate to a kind of wave collecting device assembly of assembly and disassembly fast.

Background technology

Because satellite communication has the far away and extremely wide characteristic of covering scope of communication distance, make that satellite communication is extensively used in a lot of fields, for example radio and television, communication etc.Therefore, even be in bleak and desolate desert or vastness is marine greatly, as long as set up reception antenna, just can receive satellite-signal.Please refer to Fig. 1, Fig. 1 is the schematic diagram of an existing satellite communication receiving system 10.Satellite communication receiving system 10 includes a dish-like antenna 102, a wave collecting device (Low Noise Block Down-converter with IntegratedFeed, LNBF) 104 and one support arm 106.In satellite communication receiving system 10, satellite-signal is reflexed to the wave collecting device 104 that places disc-shaped antenna 102 focus places by being paraboloidal disc-shaped antenna 102 usually.The satellite-signal of high frequency is captured and after frequency reducing becomes the satellite-signal of intermediate frequency, by coaxial wire satellite-signal is sent to the rear end satellite receiver again and handles via wave collecting device 104.Support arm 106 is used to provide and supports wave collecting device 104 and take in the coaxial wire that transmits satellite-signal.In actual operation, disc-shaped antenna 102 and wave collecting device 104 need place outdoor environment with smooth receiving satellite signal usually.

In general, owing to considering of external form, wave collecting device 104 is normally just assembled in the erecting bed with support arm 106.Must be able to bear the various weather variations of outdoor environment after the assembling.Therefore, as shown in Figure 2, for fear of can after assembling, producing the gap between the two, and influence the receptivity of satellite-signal.Prior art takes the mode of screw locking to fix usually.Yet, assemble manually to lock the screw assembly mode, exist loaded down with trivial details disassembly and assembly process and the slow excessively shortcoming of speed.Moreover if installation environment is in eminence, and setter must use erecting tools to assemble wave collecting device 104 and support arm 106 on ladder, concerning setter, will very easily produce danger.

Summary of the invention

Therefore, but main purpose of the present invention is to provide a kind of wave collecting device assembly of Fast Installation.

But the present invention discloses a kind of wave collecting device assembly of Fast Installation, includes: a wave collecting device main body; A junction extends from this wave collecting device main body, includes a plurality of signal output units and at least one wave collecting device location hole; One support arm, include at least one support arm location hole and can hold a cavity of this connecting portion, be used for via connecting this connecting portion, to support this wave collecting device main body: at least one Location resilient piece, wherein each this Location resilient piece includes a stiff end and a reference column, and this stiff end is fixed on this support arm; One holder is arranged on this support arm, includes one first fixing hole and one second fixing hole; One seizes cam on both sides by the arms, includes a cam end, on the other hand pommel and one the 3rd fixing hole, and this cam end forms an eccentric cam, and when this handle end during by switching, this seizes cam on both sides by the arms can be along axle center rotation, and the outer peripheral edges that make this cam end near or away from this support arm; And a pivot, be used for passing this first fixing hole, this second fixing hole and the 3rd fixing hole, seize cam and this holder on both sides by the arms to articulate this; Wherein, when this connecting portion inserts this cavity of this support arm, this reference column on each this Location resilient piece passes corresponding support arm location hole and corresponding wave collecting device location hole, to fix the relative position between this connecting portion and this support arm, and by pivoting this seizes cam on both sides by the arms, make the outer peripheral edges of this cam end push against this support arm fully and keep one of each this reference column and penetrate state.

Description of drawings

Fig. 1 is the schematic diagram of an existing satellite communication receiving system;

Fig. 2 is the existing schematic diagram that uses screw locking wave collecting device;

Fig. 3 is the decomposing schematic representation of a wave collecting device of embodiment of the invention tool Fast Installation function;

Fig. 4 seizes the schematic diagram of cam on both sides by the arms for one among Fig. 3;

Fig. 5 is the restriction planar structure among Fig. 3 and the embodiment schematic diagram of limiting structure;

Fig. 6 is the schematic diagram of embodiment of the invention assembling wave collecting device;

Fig. 7 is the side schematic view before the connecting portion among Fig. 3 is connected with support arm;

Side schematic view when Fig. 8 is connected with support arm for the connecting portion among Fig. 3;

Fig. 9 is the connecting portion and side schematic view after support arm is connected among Fig. 3;

Figure 10 is the schematic diagram of a convex structural design of the embodiment of the invention;

Figure 11 is the schematic diagram of an evagination structural design of the embodiment of the invention.

The main element symbol description

10 satellite communication receiving systems

102 disc-shaped antennas

104 wave collecting devices

106,330 support arms

30 wave collecting device assemblies

310 wave collecting device main bodys

320 connecting portions

322 signal output units

324 wave collecting device location holes

332 support arm location holes

334 cavitys

340 holders

342 first fixing holes

344 second fixing holes

350 seize cam on both sides by the arms

351 stop elements

352 cam end

353 restriction planar structures

354 handle ends

355 limiting structures

356 the 3rd fixing holes

358 patchholes

360 pivots

362 bolts

364 tamper nuts

370 Location resilient pieces

372 stiff ends

374 reference columns

380 dividing bushes

382 the 4th fixing holes

Male structure in 390

392 outer male structure

The R rivet

The T additional drive rods

Embodiment

Please refer to Fig. 3, Fig. 3 is the decomposing schematic representation of a wave collecting device assembly 30 of embodiment of the invention tool Fast Installation function.Wave collecting device assembly 30 comprise a wave collecting device main body 310, a junction 320, a support arm 330, a holder 340, seize on both sides by the arms cam 350, a pivot 360, Location resilient piece 370, dividing bush 380 and in male structure 390.Wave collecting device main body 310 is connected to support arm 330 by connecting portion 320, with the focus place of the parabolic disc that firmly is fixed in satellite antenna.Connecting portion 320 extends from wave collecting device main body 310, includes a plurality of signal output units 322 and wave collecting device location hole 324.Support arm 330 includes support arm location hole 332 and can hold a cavity 334 of connecting portion 320.Wherein support arm 330 supports wave collecting device main body 310 via being connected to connecting portion 320.Each Location resilient piece 370 includes a stiff end 372 and a reference column 374, and stiff end 372 is fixed on the support arm 330.Be noted that and use various fixing modes (for example spot welding, rivet or lock mode) that the stiff end 372 of Location resilient piece 370 is fixed on the support arm 330.For instance, wave collecting device assembly 30 utilizes a rivet R that the stiff end 372 of Location resilient piece 370 is fixed on the support arm 330 by riveted way among Fig. 3.Further, when connecting portion 320 inserts the cavity 334 of support arm 330, the present invention passes support arm location hole 332 and wave collecting device location hole 324 by the reference column on the Location resilient piece 370 374, with the moving range of restriction connecting portion 320 with respect to support arm 330, thus, can fixedly connected 320 and the relative position of 330 of support arms.Moreover, when the reference column on the Location resilient piece 370 374 finished pass support arm location hole 332 and wave collecting device location hole 324 wear action after, elastic-restoring force by Location resilient piece 370, the state of each location hole will reference column 374 be kept be sticked in, under the influence of not having other external force, the reference column 374 of Location resilient piece 370 can not break away from support arm location hole 332 and wave collecting device location hole 324 voluntarily.Certainly, in practical application, for guaranteeing each assembly after assembling, running that can be firm please continue with reference to following explanation.

As shown in Figure 3, holder 340 is arranged on the support arm 330, includes one first fixing hole 342 and one second fixing hole 344.Seize cam 350 on both sides by the arms and include a cam end 352, proficiency pommel 354, one the 3rd fixing hole 356, a restriction planar structure 353 and a limiting structure 355.Cam end 352 forms an eccentric cam, and when switching handle end 354, seizing cam 350 on both sides by the arms can the 3rd fixing hole 356 be that an axle center is rotated, and the outer peripheral edges that make cam end 352 near or away from support arm 330.In other words, according to the cam principle,, adjust the displacement of the outer peripheral edges of seizing cam 350 on both sides by the arms by seizing cam 350 rotation runnings on both sides by the arms.Thus, when the reference column on the Location resilient piece 370 374 has been finished when passing support arm location hole 332 and reaching the purpose of location with wave collecting device location hole 324, can operate and seize cam 350 on both sides by the arms, make the position of the outer peripheral edges of the cam end 352 of seizing cam 350 on both sides by the arms touch support arm 330 (for example making restriction planar structure 353 touch support arm 330) and near Location resilient piece 370 (for example making limiting structure 355) near Location resilient piece 370, in the case, when reference column 374 desires produce up and down displacement action, will be subjected to the stopping of limiting structure 355 of cam end 352 and can't produce excessive displacement.Therefore, by as the design among Fig. 3, can guarantee that the reference column 374 on the Location resilient piece 370 can not break away from support arm location hole 332 and wave collecting device location hole 324, and reach the purpose of firm assembling.In other words, when assembling wave collecting device assembly 30, the present invention can seize the displacement stroke that cam 350 limits reference column 374 on both sides by the arms by adjustment, penetrates state to avoid the corresponding support arm location hole 332 of reference column 374 disengagings can continue to be maintained at one with wave collecting device location hole 324.

In addition, pivot 360 is used for passing first fixing hole 342, second fixing hole 344, the 3rd fixing hole 356 and the 4th fixing hole 382, is pivoted to holder 340 will seize cam 350 on both sides by the arms.Therefore, only need shirtsleeve operation that pivot 360 is passed corresponding fixing hole, can be fast and firmly will seize cam 350 on both sides by the arms and be set up on the support arm 330.

When the external form of the handle end 354 of seizing cam 350 on both sides by the arms is more grown with being designed, the user can be healed to operate by handle end 354 effortlessly and be seized cam 350 on both sides by the arms, but relatively handle end 354 will be easy to be bumped and start by false touch, and then produces the accident of seizing the action inefficacy on both sides by the arms.Therefore, in the case, please refer to Fig. 3 and Fig. 4, Fig. 4 is the schematic diagram of seizing cam 350 on both sides by the arms among Fig. 3.As shown in Figure 3 and Figure 4, seize cam 350 on both sides by the arms and include a patchhole 358 and a stop element 351 in addition.Wherein, patchhole 358 is formed at handle end 354, being used to provide an additional drive rods T inserts, seize cam 350 on both sides by the arms along its axle center rotation to drive by additional drive rods T, adjust the distance of 330 of the outer peripheral edges of cam end 352 and support arms, that is adjust the distance of 330 of restriction planar structure 353 and limiting structure 355 and support arms.Stop element 351 is arranged near the opening below of patchhole 358, is used for when additional drive rods T inserts patchhole 358, ends and supports additional drive rods T, is used to limit moving of additional drive rods T.In other words, stop element 351 has the function that additional drive rods T guiding and location are provided, and when loading and unloading fast, by the design of stop element 351, the user can be inserted into the location with additional drive rods T rapidly, and cam 350 is seized in switching on both sides by the arms.In addition, stop element 351 can prevent that additional drive rods T from excessively inserting and the surface of scratch support arm 330.Because when adopting the design of patchhole 358 and stop element 351, even will seize very short and small that the handle end of cam 350 designs on both sides by the arms, the user still can seize cam 350 on both sides by the arms by aid (for example additional drive rods T) switching very effortlessly.Therefore, by aforesaid design, can avoid handle end 354 because volume is excessive or length is long, and the misoperation that generation is pulled because of carelessness, cause seizing on both sides by the arms the accident that action was lost efficacy, and as long as when cam 350 is seized in the needs switching on both sides by the arms, promptly additional drive rods T is inserted and switching just can reach the purpose of assembling.

On the other hand, please refer to Fig. 5, Fig. 5 is an embodiment schematic diagram of restriction planar structure 353 and limiting structure 355 among Fig. 3.Restriction planar structure 353 is arranged at the cam end 352 of seizing cam 350 on both sides by the arms with limiting structure 355.Wherein limit planar structure 353 and can be used to improve and pull the degree of difficulty of seizing cam 350 on both sides by the arms, to avoid seizing on both sides by the arms the misoperation accident that cam 350 is pulled easily.For instance, as shown in Figure 5, if seize cam 350 on both sides by the arms will rotate to other angles from the angle that tool limits planar structure 353 time, more power must be bestowed and just rotation can be finished, therefore, preferably, restriction planar structure 353 can be designed to seize on both sides by the arms the cam end 352 of cam 350 and the contact plane of support arm 330, then seize on both sides by the arms after cam 350 pushes against support arm 330 fully, seize cam 350 on both sides by the arms and will can not pulled easily when operation.Therefore, be compared to prior art, do not cost the worker when the present invention uses and time-consumingly dismantle locking screw, one pull and get final product gently and only need that additional drive rods is inserted patchhole, finish installation, and, can effectively avoid seizing cam 350 on both sides by the arms by the incident of misoperation by the design of patchhole 358 collocation stop elements 351 and restriction planar structure 353.In addition, when cam 350 is seized in switching on both sides by the arms, make the restriction planar structure 353 of cam end 352 contact when pushing against support arm 330 fully, design by limiting structure 355, seize cam 350 on both sides by the arms and can align Location resilient piece 370 accurately, in the case, the reference column 374 that can prevent Location resilient piece 370 breaks away from corresponding support arm location hole 332 can be continued to be maintained at one with wave collecting device location hole 324 and penetrate state, to reach the purpose of location fully.

In addition, please continue with reference to figure 3 and Fig. 6, wave collecting device assembly 30 includes dividing bush 380 in addition, and each dividing bush 380 includes one the 4th fixing hole 382.Dividing bush 380 mainly is arranged at holder 340 and seizes on both sides by the arms between the cam 350, be mainly used to auxiliaryly when assembling wave collecting device assembly 30 seize cam 350 contraposition accurately on both sides by the arms and allow the reference column 374 of each Location resilient piece 370 aim at fully with wave collecting device location hole 324 with corresponding support arm location hole 332, and can assist and seize cam 350 on both sides by the arms and stably be rotated, and swing or sliding phenomenon can not take place.For instance, please refer to Fig. 6, Fig. 6 is the schematic diagram of embodiment of the invention assembling wave collecting device assembly 30, as shown in Figure 6, by 380 designs of correct dividing bush, seize cam 350 on both sides by the arms and can when assembling, be positioned each Location resilient piece 370 top fully, locate fully with wave collecting device location hole 324 with corresponding support arm location hole 332 and can reach reference column 374.In other words, according to seizing the relativeness of cam 350 on both sides by the arms with Location resilient piece 370, after designing the size of dividing bush 380 in advance, when assembling is finished, do not need to expend time in again and align the relation of seizing 370 of cam 350 and Location resilient pieces on both sides by the arms, as long as finish assembling, seize cam 350 on both sides by the arms and can align the purpose that the reference column 374 that prevents Location resilient piece 370 and corresponding support arm location hole 332 and wave collecting device location hole 324 are located fully accurately.Certainly, dividing bush 380 also can with seize the structure that cam 350 is formed in one on both sides by the arms.

Be described in further detail the assembly and disassembly of connecting portion 320 and support arm 330 among Fig. 3.Please refer to Fig. 7 to Fig. 9, Fig. 7 is the side schematic view before the connecting portion 320 among Fig. 3 is connected with support arm 330.Side schematic view when Fig. 8 is connected with support arm 330 for the connecting portion 320 among Fig. 3.Fig. 9 is that the connecting portion 320 among Fig. 3 is connected back and fixing side schematic view with support arm 330.As shown in Figure 7, if when desire assembling connecting portion 320 and support arm 330, at first, can be by external force effect switching additional drive rods T, be switched to position P2 with the handle end 354 that will seize cam 350 on both sides by the arms by position P1, even also the thin partial rotation of the meat of the outer peripheral edges of cam end 352 is to (this moment, the outer peripheral edges and the distance of 330 of support arms of cam end 352 were bigger towards the direction of support arm 330, therefore, when reference column 374 desires of Location resilient piece 370 break away from support arm location hole 332 with wave collecting device location hole 324, can not be subjected to seizing on both sides by the arms the influence of cam 350), then, with cavity 334 propellings (also be about to connecting portion 320 along directions X in Fig. 7 advance) of connecting portion 320 towards support arm 330.When the front end of connecting portion 320 touched the reference column 374 of Location resilient piece 370, reference column 374 can break away from support arm 330 inner chambers, that is breaks away from support arm location hole 332, and thus, connecting portion 320 just can slip in the cavity 334 of support arm 330 smoothly.Then, as shown in Figure 8, when support arm location hole 332 aligns with wave collecting device location hole 324, because Location resilient piece 370 has elastic-restoring force, make reference column 374 can pass support arm location hole 332 and wave collecting device location hole 324, and then the relative position of 330 of fixedly connected 320 and support arms.In other words, by the engaging of reference column 374, will make 330 of connecting portion 320 and support arms produce advantages of good positioning effect.Then, please refer to Fig. 9, can be switched to position P1 with the handle end 354 that will seize cam 350 on both sides by the arms by position P2 by external force effect switching additional drive rods T, even also the restriction planar structure 353 of cam end 352 (thick meat part branch) rotates to towards the direction of support arm 330.At this moment, restriction planar structure 353 on the outer peripheral edges of cam end 352 can contact also prop up support arm 330 and reach the urgent effect of pressure holding really, and the gap that limiting structure 355 on cam end 352 outer peripheral edges and Location resilient piece are 370 is minimum, but do not touch (this gap needs little of allowing reference column 374 can't break away from support arm location hole 332 and wave collecting device location hole 324 fully), to prevent that reference column 374 breaks away from support arm location hole 332 and wave collecting device location hole 324, and can reach the purpose of firm assembling really, be noted that at this, whether the limiting structure 355 at the two ends of cam end 352 outer peripheral edges need touch Location resilient piece 370, it is described then can be not limited to the foregoing description, is decided by the overal system design demand.In like manner, if when desire dismounting connecting portion 320 and support arm 330, the same described mode, can be switched to position P2 by position P1 by the external force effect handle end 354 seize cam 350 on both sides by the arms that pivots, when connecting portion 320 is pulled away the cavity 334 of support arm 330, because the reference column of Location resilient piece 370 374 can break away from support arm location hole 332 and wave collecting device location hole 324, and then reach the purpose of dismantling wave collecting device assembly 30 automatically because of the relation of elastic force.Therefore, in simple terms, by design of the present invention, as long as the cam 350 of seizing on both sides by the arms of shirtsleeve operation tool eccentric cam effect can be fast and the assembly of assembling firmly or dismounting wave collecting device.

On the other hand, please refer to Figure 10, wave collecting device assembly 30 comprises male structure 390 in addition, can be used to reduce gap between connecting portion 320 and the support arm 330 by interior male structure 390, with the assemble stable of raising wave collecting device.Interior male structure 390 can be directly realizes with a convex structure on the sidewall of the cavity 334 of support arm 330, for example, on the sidewall of cavity 334, increases by a rib and realizes, or interior male structure 390 structure that also can be formed in one with support arm 330.Please refer to Figure 11, wave collecting device assembly 30 comprises an outer male structure 392 in addition, as the principle of interior male structure 390, can be used to reduce gap between connecting portion 320 and the support arm 330 by outer male structure 392, and improves the assemble stable of wave collecting device.Preferably, outer male structure 392 can directly realize with a convex structure on the lateral wall of connecting portion 320, for example, increases by a convex rib and realize on the lateral wall of connecting portion 320.Certainly, outer male structure 392 structure that also can be formed in one with connecting portion 320.

It should be noted that wave collecting device assembly 30 is embodiments of the invention, this area tool knows that usually the knowledgeable ought can do different variations according to this, and is not limited thereto.For instance, wave collecting device main body 310, connecting portion 320 and support arm 330 are not limited to given shape or material, for example can be round tube, square pipe or other any shapes, or with unlike material, for example wave collecting device main body 310 is used aluminium material, and support arm 330 uses iron material matter to make.In addition, in the present embodiment, use 2 groups of reference columns 374 and corresponding wave collecting device location hole 324 and support arm location hole 332 thereof, but be not limited thereto, the present invention is not limited to the quantity of reference column 374, as long as reference column 374 has its corresponding wave collecting device location hole 324 and support arm location hole 332.And can anyly having the form of elastic force, realizes Location resilient piece 370.In addition, holder 340 can be a U type holder or two L type holders, and forms along support arm 330 is peripheral, and holder 340 can weld, engaging, removably or other modes are fixed on support arm 330 peripheries.Certainly, holder 340 also can be integrated structure with support arm 330.Pivot 360 is mainly used to and will seizes cam 350 on both sides by the arms and dividing bush 380 is pivoted to holder 340.Therefore, the mode of any pivot joint all can be used among the present invention, and for instance, as shown in Figure 3, pivot 360 is realized by a bolt 362 collocation one tamper nut 364.Additional drive rods T can be any can be as the device of force arm, for example pole, screwdriver, pliers ... etc.

In sum, be compared to prior art, the embodiment of the invention only needs the shirtsleeve operation can be fast and firmly reach the purpose of assembling or dismounting wave collecting device, and by the convex structure Design, and can reduce the gap between spare part effectively.Thus, not only can avoid time-consuming locking process of taking a lot of work, also can reach simultaneously fast and assemble with accurate wave collecting device.

The above only is preferred embodiment of the present invention, and all equalizations of doing according to claim of the present invention change and modify, and all should belong to covering scope of the present invention.

Claims (13)

1. but the wave collecting device assembly of a Fast Installation includes:

The wave collecting device main body;

Connecting portion extends from this wave collecting device main body, includes a plurality of signal output units and at least one wave collecting device location hole;

Support arm includes at least one support arm location hole and can hold a cavity of this connecting portion, is used for via connecting this connecting portion, to support this wave collecting device main body:

At least one Location resilient piece, wherein each this Location resilient piece includes stiff end and reference column, and this stiff end is fixed on this support arm;

Holder is arranged on this support arm, includes first fixing hole and second fixing hole;

Seize cam on both sides by the arms, include cam end, handle end and the 3rd fixing hole, this cam end forms an eccentric cam, and when this handle end during by switching, this seizes cam on both sides by the arms can be along axle center rotation, and the outer peripheral edges that make this cam end near or away from this support arm; And

Pivot is used for passing this first fixing hole, this second fixing hole and the 3rd fixing hole, seizes cam and this holder on both sides by the arms to articulate this;

Wherein, when this connecting portion inserts this cavity of this support arm, this reference column on each this Location resilient piece passes corresponding support arm location hole and corresponding wave collecting device location hole, to fix the relative position between this connecting portion and this support arm, and by pivoting this seizes cam on both sides by the arms, make the outer peripheral edges of this cam end push against this support arm fully and keep one of each this reference column and penetrate state.

2. wave collecting device assembly as claimed in claim 1, when wherein the front end that inserts this cavity of this support arm and this connecting portion at this connecting portion touches this reference column on each this Location resilient piece, each this reference column can break away from this cavity, when each this support arm location hole alignd with corresponding wave collecting device location hole, the beginning passed corresponding support arm location hole and corresponding wave collecting device location hole and reaches the effect of locating fully.

3. wave collecting device assembly as claimed in claim 1, it includes in addition:

The restriction planar structure is arranged at this cam end; And

Limiting structure is arranged at this cam end;

Wherein, after each this reference column passes corresponding support arm location hole and corresponding wave collecting device location hole, this handle end of seizing cam on both sides by the arms is subjected to the external force effect and is switched to a second place by a primary importance, so that this restriction planar structure contact and push against this support arm really, and can't break away from corresponding support arm location hole and corresponding wave collecting device location hole by this reference column that this limiting structure limits each this Location resilient piece.

4. wave collecting device assembly as claimed in claim 1, wherein this holder is that a U type holder or two L type holders are formed, and forms along this support arm is peripheral.

5. wave collecting device assembly as claimed in claim 4, wherein holder is to be fixed on this support arm periphery with spot welding or soldering.

6. wave collecting device assembly as claimed in claim 4, wherein this holder and this support arm are the integrated formed structure bodies.

7. wave collecting device assembly as claimed in claim 1, wherein this this handle end of seizing cam on both sides by the arms has patchhole, is used for ccontaining additional drive rods, seizes cam on both sides by the arms along this axle center rotation to drive this by this additional drive rods.

8. wave collecting device assembly as claimed in claim 7, wherein this is seized cam on both sides by the arms and includes stop element in addition, is arranged at by the opening of this patchhole, is used for when this additional drive rods is inserted this patchhole, end and support this additional drive rods, be used to limit moving of this additional drive rods.

9. wave collecting device assembly as claimed in claim 1, wherein this this handle end of seizing cam on both sides by the arms has first length, and can drive this and seize cam on both sides by the arms along the rotation of this axle center.

10. wave collecting device assembly as claimed in claim 1, it comprises male structure in addition, is formed on the sidewall of this cavity.

11. wave collecting device assembly as claimed in claim 1, it comprises an outer male structure in addition, is formed on the sidewall of this connecting portion.

12. wave collecting device assembly as claimed in claim 1, it comprises in addition:

First dividing bush includes the 4th fixing hole; And

Second dividing bush includes the 5th fixing hole;

Wherein this pivot passes this first fixing hole, this second fixing hole, the 3rd fixing hole, the 4th fixing hole and the 5th fixing hole, seizes cam, this dividing bush and this holder on both sides by the arms to articulate this.

13. wave collecting device assembly as claimed in claim 12, wherein to seize cam on both sides by the arms be the integrated formed structure body for this first dividing bush, this second dividing bush and this.

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