CN202725936U - Riveting machine - Google Patents

Abstract

The utility model provides a riveting machine which comprises a riveting component. The riveting component comprises a riveting head member, a power member arranged above the riveting head member and a support member connecting the riveting head member with the power member, wherein the riveting head member is in a clamping connection with the support member. Compared with the prior art, each part of the riveting component of the riveting machine is in a clamping connection, therefore the assembling difficulty of the riveting machine is reduced when the firmness is not reduced, and following dismantling for maintenance is facilitated.

Description

Riveting machine

Technical field

The utility model relates to the machining equipment field, relates in particular to a kind of riveting machine.

Background technology

Riveted joint and two kinds of modes that are connected the polylith plate that are welded as industry and know, wherein, riveted joint is exactly the non-disconnectable connection that utilizes rivet to be linked together by riveting parts, the existing for a long time application of history in building structure and mechanical manufacturing field.During riveted joint, first rivet is inserted by in the riveted holes of riveting parts, utilize the die of riveting machine to carry out punching press or rolling so that rivet produces deformation for rivet, thereby finish riveted joint.

Existing riveting machine is in order to guarantee riveting quality, usually die is welded on dynamic component, finish riveting work thereby dynamic component drive die moves up and down, yet after the riveting machine assembling is finished, can only rivet for the rivet of particular type, when needing again the rivet of other types riveted, need driven force member dismounting die, waste time and energy, and in unloading process, very easily damage die, cause the riveted joint inefficiency, can't form the market advantage.

Therefore be necessary to propose a kind of new riveting machine to address the above problem.

The utility model content

The utility model provides a kind of riveting machine of convenient disassembly.

For reaching above-mentioned utility model purpose, the utility model provides a kind of riveting machine, and it comprises:

Riveted joint assembly, described riveted joint assembly comprise the die member, are positioned at the supporting member of the dynamic component of die member top, the described die member of connection and described dynamic component, and described die member holds with described supporting member and is connected.

As further improvement of the utility model, described dynamic component holds with described supporting member and is connected.

As further improvement of the utility model, described supporting member comprises the holding section, and described dynamic component comprises lower pressure arm, and described lower pressure arm holds with described holding section and is connected.

As further improvement of the utility model, described die member comprises the first die and is arranged at second die in described the first die outside.

As further improvement of the utility model, described supporting member comprise the first support portion, the second support portion above the first support portion and be held on the first support portion and the second support portion between the 3rd support portion.

As further improvement of the utility model, described the first die arranged outside has the first protuberance, and described the first protuberance is arranged between the first support portion and the 3rd support portion.

As further improvement of the utility model, described the second die arranged outside has the second protuberance, and described the second protuberance is arranged between the first support portion and the second support portion.

As further improvement of the utility model, described the first support portion comprises the first accepting groove and the second accepting groove, and described the first die and the second die are placed through respectively described the first accepting groove and the second accepting groove.

As further improvement of the utility model, the width of described the first accepting groove is less than the width of described the first protuberance; The width of described the second accepting groove is less than the width of described the second protuberance.

Compared with prior art, riveting machine provided by the utility model, its riveted joint assembly each several part holds connection, when not reducing fastness, has reduced the assembling difficulty of riveting machine, is convenient to the detachable maintaining in later stage.

Description of drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, the below will do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art, apparently, accompanying drawing relevant of the present utility model in the following describes only is embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the stereogram of riveting machine among the utility model one embodiment;

Fig. 2 is the side view of riveting machine shown in Figure 1;

Fig. 3 is the assembled sectional view of die member and supporting member in the riveting machine shown in Figure 1;

Fig. 4 is the cutaway view of positioning component in the riveting machine shown in Figure 1;

Fig. 5 is the cutaway view of another angle of positioning component shown in Figure 4.

Wherein, Reference numeral is:

Riveting machine, 100; Positioning component, 10; The first align member, 11; The second align member, 12; The 3rd align member, 13; The first through hole, 121; The second through hole, 131; The first alignment pin, 111; The second alignment pin, 122; The riveted joint assembly, 20; The die member, 21; Dynamic component, 22; Supporting member, 23; The first die, 211; The second die, 212; Flexible member, 213; Lower pressure arm, 221; The first support portion, 231; The second support portion, 232; The 3rd support portion, 233; The holding section, 234; The first protuberance, 2111; The second protuberance, 2121; Arrangement for guiding, 30; Bracket component, 40; The first support, 41; The second support, 42; The 3rd support, 43; First surface, 411; Second surface, 421; The 3rd surface, 431; Limit assembly, 50; Installation portion, 51; Rubber section, 52.

The specific embodiment

Below with reference to each embodiment shown in the drawings the utility model is described in detail.But these embodiment do not limit the utility model, and the conversion on the structure that those of ordinary skill in the art makes according to these embodiment, method or the function all is included in the protection domain of the present utility model.

Ginseng Fig. 1 is to shown in Figure 5, and riveting machine 100 provided by the utility model comprises:

Positioning component 10 is used for fixedly treating riveting piece;

Riveted joint assembly 20, towards or move to rivet away from described positioning component 10 and treat riveting piece;

Arrangement for guiding 30, described riveted joint assembly 20 are arranged on the described arrangement for guiding 30, and described arrangement for guiding 30 limits the moving area of described riveted joint assembly 20.

This riveting machine 100 is by arranging arrangement for guiding 30, defines the mobile route of riveted joint assembly 20, avoids riveting assembly 20 and moves excessive institute and cause to damage by pressure and treat riveting piece.

Especially, described arrangement for guiding 30 comprises guide rail.

Wherein, described positioning component 10 comprises the first align member 11 and is arranged at the second align member 12 of the first align member 11 tops.

Described the second align member 12 comprises the first through hole 121, and described the first align member 11 comprises the first alignment pin 111 that is placed through described the first through hole 121.

Described positioning component 10 comprises the 3rd align member 13 that is arranged on the second align member 12.

Described the 3rd align member 13 comprises the second through hole 131, and described the second align member 12 comprises the second alignment pin 122 that is placed through described the second through hole 131.

The first alignment pin 111 and the second alignment pin 122 prolong vertical direction and are inserted in respectively the first through hole 121 and the second through hole 131.

Concrete, the first through hole 121 width are greater than the width of the first alignment pin 111, and then the first alignment pin 111 can translation among the first through hole 121, thereby drives the second align member 12 in the 11 top translations of the first align member, thereby changes the structure of positioning component 10.

Corresponding, the second through hole 131 width are greater than the width of the second alignment pin 122, then the second alignment pin 122 can translation among the second through hole 131, thereby drives the 3rd align member 13 in the 12 top translations of the second align member, thereby again changes the structure of positioning component 10.

Especially, the first through hole 121 is mutually vertical with the distribution of the second through hole 131, and therefore, the moving direction of the moving direction of the second align member 12 and the 3rd align member 13 is orthogonal, thereby realizes adjusting at both direction the structure of positioning component 10.

Described the first align member 11 is the square metal plate; Described the second align member 12 is the square metal plate.

Compared with prior art, riveting machine 100 provided by the utility model, its inner positioning component 10 adopts combination setting, the convenient structure that can effectively adjust positioning component 10 for die assembly 20, set-up procedure is efficient, convenient.

Riveted joint assembly 20 comprises die member 21, is positioned at the described die member 21 of dynamic component 22, connection of die member 21 tops and the supporting member 23 of described dynamic component 22 in the riveting machine 100 provided by the utility model, and described die member 21 holds with described supporting member 23 and is connected.

Concrete, described dynamic component 22 comprises cylinder.

In the present embodiment, described die member 21 comprises the first die 211 and is arranged at second die 212 in described the first die 211 outsides.

Described the first die 211 and the second die 212 towards or away from described positioning component 10 to rivet the described riveting piece for the treatment of.

Concrete, described supporting member 23 comprise the first support portion 231, the second support portion 232 above the first support portion 231 and be held on the first support portion 231 and the second support portion 232 between the 3rd support portion 233.

Concrete, described the first die 211 is fixed on the described supporting member 23.

Especially, the first die 211 arranged outside have the first protuberance 2111, and described the first protuberance 2111 is arranged between the first support portion 231 and the 3rd support portion 233.

Described the second die 212 arranged outside have the second protuberance 2121, and described the second protuberance 2121 is arranged between the first support portion 231 and the second support portion 232.

Described the first support portion 231 comprises the first accepting groove and the second accepting groove, and described the first die 211 and the second die 212 are placed through respectively described the first accepting groove and the second accepting groove.

The width of described the first accepting groove is less than the width of described the first protuberance 2111; The width of described the second accepting groove defines the first die 211 and the second die 212 position in supporting member 23 less than the width of described the second protuberance 2121, guarantees follow-up accurate riveted joint.

Especially, described the second die 212 is connected with flexible member 213, and described flexible member 213 is fixed on the described supporting member 23.

Concrete, described the second support portion 232 comprises the 3rd accepting groove, and described the 3rd accepting groove connects described the second accepting groove, and described flexible member 213 is contained among described the 3rd accepting groove.

Especially, described flexible member 213 comprises spring.

In the present embodiment, described the first die 211 and the second die 212 adopt the metal material preparation, to improve the service life of described die member 21.

Corresponding, described dynamic component 22 holds with described supporting member 23 and is connected.

Concrete, 232 tops, described the second support portion are provided with holding section 234, and described dynamic component 22 comprises lower pressure arm 221, and described lower pressure arm 221 holds with described holding section 234 and is connected.

Described die member 21, dynamic component 22 are to hold with supporting member 23 and are connected, and are convenient to assemble and follow-up dismounting, have improved packaging efficiency and the stability of riveting machine 100.

In the present embodiment, riveting machine 100 also comprises the bracket component 40 that supports described positioning component 10, riveted joint assembly 20 and arrangement for guiding 30, and this bracket component 40 is rigid structure, has guaranteed the stability of riveting machine 100 structures.

Described bracket component 40 comprise the first support 41 and the second support 42 above the first support 41 and be connected in the first support 41 and the second support 42 between the 3rd support 43.

Especially, the first support 41 and the second support 42 are for being parallel to each other; Described the 3rd support 43 is perpendicular to the first support 41.

In the present embodiment, described bracket component 40 is formed in one, thereby has guaranteed the stability of bracket component 40 structures, improves the service life of bracket component 40.

Described positioning component 10 is fixed in described the first support 41.

Described arrangement for guiding 30 is fixed in described the 3rd support 43, and described die member 21 is arranged at described arrangement for guiding 30, thereby so that described die member 21 can move along arrangement for guiding 30, limits its moving area.

Described dynamic component 22 is fixed in described the second support 42.

Defining described the first support 41 surface relative with described the second support 42 is first surface 411, and defining described the second support 42 surface relative with described the first support 41 is second surface 421.

The surface that defines described the 3rd support 43 connection first surfaces 411 and second surface 421 is the 3rd surface 431, and special, arrangement for guiding 30 is fixed in the 3rd surface 431.

Concrete, positioning component 10 is fixed in the first surface 411 of described the first support 41.

Concrete, riveted joint assembly 20 is fixed in the second surface 421 of described the second support 42.

Wherein, described dynamic component 22 is fixed in the second surface 421 of described the second support 42, and described die member 21 is arranged on the arrangement for guiding 30 and along arrangement for guiding 30 and moves.

By positioning component 10, riveted joint assembly 30 and arrangement for guiding 30 being set at the inner surface of bracket component 40, be first surface 411, second surface 421 and the 3rd surface 431, the downforce that produces when can effectively dissipate by the deformation of bracket component 40 self riveting machine 100 running, when reducing riveting machine 100 running for the downforce of the bracing frame of support riveting machine 100, thereby do not need the bracing frame of support riveting machine 100 is reinforced, reduce riveting machine 100 and popularized cost, strengthened riveting machine 100 market prospects.

In the present embodiment, described riveting machine 100 also comprises limit assembly 50, and this limit assembly 50 is arranged between described positioning component 10 and the described supporting member 23.

Riveted joint assembly 20 is in positioning component 10 moving process; the restriction that its supporting member 23 is subject to limit assembly 50 causes riveting between assembly 20 and the positioning component 10 and has minimum spacing; thereby guaranteed riveted joint assembly 20 can not move excessive cause damaging by pressure treat riveting piece, protected the safety for the treatment of riveting piece.

Wherein, the rubber section 52 that limit assembly 50 comprises installation portion 51 and is arranged at installation portion 51 front ends, described rubber section 52 is between described positioning component 10 and described supporting member 23.

Support supporting member 23 by rubber section 52, prevent that effectively supporting member 23 from damaging in spacing process, thereby promote the service life of riveting machine.

Especially, described installation portion 51 is fixed on the described bracket component 40, and is concrete, and installation portion 51 is fixed on the first support 41 of bracket component 40.

Preferably, installation portion 51 is fixed in the first surface 411 of the first support 41, and this limit assembly 50 extends between supporting member 23 and the positioning component 10 from first surface 411.

Treat riveting piece by limit assembly 50 being set, having protected, improved service life and the riveted joint precision of riveting machine 100.

Riveting machine 100 simple in structure being convenient to provided by the utility model are assembled, and have very high riveted joint efficient and riveted joint precision, have good market prospects.

Be to be understood that, although this specification is described according to embodiment, but be not that each embodiment only comprises an independently technical scheme, this narrating mode of specification only is for clarity sake, those skilled in the art should make specification as a whole, technical scheme in each embodiment also can through appropriate combination, form other embodiments that it will be appreciated by those skilled in the art that.

Above listed a series of detailed description only is specifying for feasibility embodiment of the present utility model; they are not to limit protection domain of the present utility model, allly do not break away from equivalent embodiment or the change that the utility model skill spirit does and all should be included within the protection domain of the present utility model.

Claims (9)

1. a riveting machine is characterized in that, described riveting machine comprises:

Riveted joint assembly, described riveted joint assembly comprise the die member, are positioned at the supporting member of the dynamic component of die member top, the described die member of connection and described dynamic component, and described die member holds with described supporting member and is connected.

2. riveting machine as claimed in claim 1 is characterized in that, described dynamic component holds with described supporting member and is connected.

3. riveting machine as claimed in claim 2 is characterized in that, described supporting member comprises the holding section, and described dynamic component comprises lower pressure arm, and described lower pressure arm holds with described holding section and is connected.

4. riveting machine as claimed in claim 3 is characterized in that, described die member comprises the first die and is arranged at second die in described the first die outside.

5. riveting machine as claimed in claim 4 is characterized in that, described supporting member comprise the first support portion, the second support portion above the first support portion and be held on the first support portion and the second support portion between the 3rd support portion.

6. riveting machine as claimed in claim 5 is characterized in that, described the first die arranged outside has the first protuberance, and described the first protuberance is arranged between the first support portion and the 3rd support portion.

7. riveting machine as claimed in claim 6 is characterized in that, described the second die arranged outside has the second protuberance, and described the second protuberance is arranged between the first support portion and the second support portion.

8. riveting machine as claimed in claim 7 is characterized in that, described the first support portion comprises the first accepting groove and the second accepting groove, and described the first die and the second die are placed through respectively described the first accepting groove and the second accepting groove.

9. riveting machine as claimed in claim 8 is characterized in that, the width of described the first accepting groove is less than the width of described the first protuberance; The width of described the second accepting groove is less than the width of described the second protuberance.

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