CN106438608A - Fast fastener structure - Google Patents

Abstract

The invention discloses a quick fastener structure, which is used for being combined on objects such as a circuit board, a machine board or a machine shell and the like so as to provide a fastening component for fastening, wherein the quick fastener structure comprises a body part; a penetrating part arranged on the body part, wherein the penetrating part can be a through hole; the fastening structure is arranged on the penetrating part, can be a convex part, a concave part or a plane and is used for fastening with the fastening component; and the assembly part is arranged on the body part and is used for being combined with the first object, and the assembly part is combined with the first object through a riveting structure, an expanding structure, a welding structure, a screwing structure, an adhering structure, a magnetic attraction structure or integrated molding. Therefore, the quick fastener structure can be combined on a circuit board, a machine board or a shell in advance so as to facilitate the quick fastening of the fastening component.

Description

PUSH NUT FASTENERS structure

Technical field

The present invention relates to a kind of PUSH NUT FASTENERS structure, more particularly, to one kind combine in advance in circuit board, machine plate Or so that snapping assembly carries out the PUSH NUT FASTENERS structure of Quick fastening in casing.

Background technology

The component of the en plaques such as existing circuit board, machine plate or casing, is if desired combined using fixation kit It will usually adopt the technology of screw thread interlocking during other objects, simplest screw fastening connection technology uses one Root screw composition screws togather, but screw is difficult to be pointed to screwed hole and it needs to use the instruments such as screwdriver Carry out it is impossible to reach the purpose of Rapid Combination.Another kind of screw fastening connection technology is to have screw and sleeve group Become affixed assembly；Wherein, this screw one end has forced section, and forced section is provided with screw-driver slot, and the other end has There is the screw rod being connected with forced section；This sleeve is linked in the screw rod of screw, enables screw activity in sleeve. Whereby, make affixed assembly that one end of sleeve can be utilized to combine on the first object (such as circuit board), and The screw rod of this screw may pass through sleeve one end, and the corresponding lock in the second object (such as frame, casing etc.) Hole, then external force is imposed to the screw-driver slot of screw forced section with instrument, and then so that this screw rod is locked the Among the lockhole of two objects, so as to completing to connect the combinative structure of the first object and the second object.

But above-mentioned employing screw fastening connection technology, during its operation application excessively slowly time-consuming it is impossible to make two right Connect or separation as quickly carrying out group, and instrument must be dependent on when operating and just can complete, if instrument is off guard Situation, will lead to be difficult to operation application.And above-mentioned en plaque component thickness is not enough, be in en plaque structure Part processes screw, will result in situations such as thread pitch is not enough, and screw easily occurs thread to crumble after locking, This screw is led to be no longer able to carry out sealed group connect.

Content of the invention

Between the shortcoming of above-mentioned prior art, inventor's thoughts its do not reach perfection, then exhaust its intelligence and know Heart research overcomes, and is engaged in this industry accumulating experience for many years with it, and then develops a kind of PUSH NUT FASTENERS Structure, can be fastened on the quick button on object in conjunction with the object of en plaque by the technology of snapping Part structure, to reaching the purposes such as Quick fastening.

For reaching above-mentioned purpose and other purposes, the present invention provides a kind of PUSH NUT FASTENERS structure, for combining For carrying out snapping on first object (such as circuit board), it includes：Body portion, is arranged at wearing of this body portion Enter portion, be arranged on the fastening structure that this penetrates portion, and be arranged at this body portion in order to combine in this first object Group connecting part.

In above-mentioned PUSH NUT FASTENERS structure, this body portion is cylinder, cylinder, block, lamellar body, ingot body, circle One of ingot body or cylinder.

In above-mentioned PUSH NUT FASTENERS structure, this group connecting part pass through riveted structure, expand access node structure, welding structure, Screw-joining structure, gluing structure, magnetic structure, heat are melted, embedment is projected or be integrally formed with reference to this first Object.

In above-mentioned PUSH NUT FASTENERS structure, this group connecting part is located at the surrounding in this body portion or lower end or this body portion Either end.

In above-mentioned PUSH NUT FASTENERS structure, this group connecting part is formed as plane, inner fovea part, evagination in this body portion One of portion or portion of stratum.

In above-mentioned PUSH NUT FASTENERS structure, the surface of this first object is protruded in this body portion, or imbed this first The surface of object.

In above-mentioned PUSH NUT FASTENERS structure, this group connecting part has press section and putting of this press section adjacent expects sky Between.

In above-mentioned PUSH NUT FASTENERS structure, the material that this press section extrudes this first object enters this to put material empty Between.

In above-mentioned PUSH NUT FASTENERS structure, this group connecting part has expansion socket part, this expansion socket part be deformed and It is fastened on this first object.

In above-mentioned PUSH NUT FASTENERS structure, this group connecting part has solder side, this solder side be welded on this first Object.

In above-mentioned PUSH NUT FASTENERS structure, this group connecting part utilize this first subject surface scolding tin with this first Object welds.

In above-mentioned PUSH NUT FASTENERS structure, this fastening structure be formed at this penetrate one or one of portion with On protuberance or recess or plane or spinner portion or perforation.

In above-mentioned PUSH NUT FASTENERS structure, this protuberance or recess or plane position penetrate in portion or position exists at this This surrounding penetrating portion or position penetrate above portion at this, or position penetrates the lower section in portion at this.

In above-mentioned PUSH NUT FASTENERS structure, this protuberance or recess or plane have one and are electrically conducted portion, this electricity Property junction be electrically connected at this first object, this first object be circuit board.

In above-mentioned PUSH NUT FASTENERS structure, this protuberance or recess or plane are curved surface, inclined-plane, plane, arc Face or stratum face.

In above-mentioned PUSH NUT FASTENERS structure, this portion of penetrating has and storEs space.

In above-mentioned PUSH NUT FASTENERS structure, this portion of penetrating is perforation.

In above-mentioned PUSH NUT FASTENERS structure, this portion of penetrating is perforation, and the hole shape of this perforation has the first length With the second length.

In above-mentioned PUSH NUT FASTENERS structure, this first length is the different ellipse of length from this second length One of hole, slot or bar hole.

In above-mentioned PUSH NUT FASTENERS structure, the two ends of this first length are protuberance or recess or plane to constitute This fastening structure, the two ends of this second length are protuberance or recess or plane to constitute this fastening structure.

In above-mentioned PUSH NUT FASTENERS structure, this body portion is circular lamellar body, oval lamellar body, square lamellar body, One of rectangle lamellar body, polygon lamellar body or irregularly shaped lamellar body.

In above-mentioned PUSH NUT FASTENERS structure, its one or more PUSH NUT FASTENERS structure and this first couple As group is connected into module.

In above-mentioned PUSH NUT FASTENERS structure, including carrier, this carrier has one or more accommodating Portion, this PUSH NUT FASTENERS structure is seated in this holding part.

In above-mentioned PUSH NUT FASTENERS structure, the holding part of this carrier is coated with lid.

In above-mentioned PUSH NUT FASTENERS structure, further include snapping assembly, it has cam body, recessed button, spiral shell Stricture of vagina body or cylinder are with this fastening structure of snapping.

In above-mentioned PUSH NUT FASTENERS structure, this snapping assembly has head.

In above-mentioned PUSH NUT FASTENERS structure, this snapping assembly has cap portion.

In above-mentioned PUSH NUT FASTENERS structure, this snapping assembly has cap portion to be connected to this head.

In above-mentioned PUSH NUT FASTENERS structure, this snapping assembly has the sleeve of movable assembling joint.

In above-mentioned PUSH NUT FASTENERS structure, this cap portion has first pair of buckle, and this sleeve has the second make-up Portion, this first pair of buckle and this mutual active buckle of second pair of buckle.

In above-mentioned PUSH NUT FASTENERS structure, this first pair of buckle is to the projecting inward convex body in this cap portion, and this Two pairs of buckles are the convex body protruding to outside this sleeve, and this second pair of buckle active buckle is in this first pair of buckle Interior.

In above-mentioned PUSH NUT FASTENERS structure, this cap portion elasticity is buckled in this sleeve.

In above-mentioned PUSH NUT FASTENERS structure, this first pair of buckle elasticity be extended to more than this second pair of buckle and After buckling into this second pair of buckle, elasticity is retracted again.

In above-mentioned PUSH NUT FASTENERS structure, this first pair of buckle is plastic material or metal material.

In above-mentioned PUSH NUT FASTENERS structure, plastics embedment in this cap portion is projected, heat is melted, the fourth of the twelve Earthly Branches connects, expand connect, glutinous Connect, interlocking or be buckled in this head.

In above-mentioned PUSH NUT FASTENERS structure, this sleeve is via the 3rd pair of buckle movable assembling joint.

In above-mentioned PUSH NUT FASTENERS structure, this snapping assembly has elastic partss.

In above-mentioned PUSH NUT FASTENERS structure, this snapping assembly rotate angled with this fastening structure of snapping, should Angle is 30 to 330 degree.

The present invention provides another kind of PUSH NUT FASTENERS structure, PUSH NUT FASTENERS structure described above, wherein this body portion Be integrally formed with this first object, this fastening structure be arranged on this penetrate above portion, lower section or surrounding Protuberance, recess or plane.

Whereby, PUSH NUT FASTENERS structure of the present invention, can make the group connecting part in body portion pass through riveted structure, expand access node Structure, welding structure, screw-joining structure, gluing structure, magnetic structure or be integrally formed with reference on circuit boards, There is provided the recessed button of snapping assembly or cam body to penetrate using the construction in the portion that penetrates, and carried using fastening structure Constitute Quick fastening state for this recessed button or cam body, and fastening structure can be implemented with and be electrically conducted Portion is connected to circuit board with this recessed button or cam body under buckle state.

Brief description

Fig. 1 is the perspective exploded view of PUSH NUT FASTENERS structure first specific embodiment of the present invention；

The first action that Fig. 2 is riveted on the first object for Fig. 1 PUSH NUT FASTENERS structure the first specific embodiment is shown It is intended to；

The second action that Fig. 3 is riveted on the first object for Fig. 1 PUSH NUT FASTENERS structure the first specific embodiment is shown It is intended to；

Fig. 4 is the snapping action schematic diagram of Fig. 1 PUSH NUT FASTENERS structure the first specific embodiment；

Fig. 5 is the perspective exploded view of PUSH NUT FASTENERS structure second specific embodiment of the present invention；

The first action that Fig. 6 is connected to the first object for the expansion of Fig. 5 PUSH NUT FASTENERS structure the second specific embodiment is shown It is intended to；

The second action that Fig. 7 is connected to the first object for the expansion of Fig. 5 PUSH NUT FASTENERS structure the second specific embodiment is shown It is intended to；

Fig. 8 is the snapping action schematic diagram of Fig. 5 PUSH NUT FASTENERS structure the second specific embodiment；

Fig. 9 is the perspective exploded view of PUSH NUT FASTENERS structure the 3rd specific embodiment of the present invention；

Figure 10 is the recessed button snapping action schematic diagram of Fig. 9 PUSH NUT FASTENERS structure the 3rd specific embodiment；

Figure 11 is the recessed button buckle state schematic diagram of Fig. 9 PUSH NUT FASTENERS structure the 3rd specific embodiment；

Figure 12 is the perspective exploded view of PUSH NUT FASTENERS structure the 4th specific embodiment of the present invention；

Figure 13 is the recessed button snapping action schematic diagram of Figure 12 PUSH NUT FASTENERS structure the 4th specific embodiment；

Figure 14 is the recessed button buckle state schematic diagram of Figure 12 PUSH NUT FASTENERS structure the 4th specific embodiment；

Figure 15 is section and the snapping schematic diagram of PUSH NUT FASTENERS structure the 5th specific embodiment of the present invention；

Figure 16 is the schematic top plan view of Figure 15 PUSH NUT FASTENERS structure the 5th specific embodiment；

Figure 17 is that the group connecting part of PUSH NUT FASTENERS structure of the present invention is formed as the schematic diagram of plane；

Figure 18 is that the group connecting part of PUSH NUT FASTENERS structure of the present invention is formed as the schematic diagram of inner fovea part；

Figure 19 is that the group connecting part of PUSH NUT FASTENERS structure of the present invention is formed as the schematic diagram of male part；

Figure 20 is that the group connecting part of PUSH NUT FASTENERS structure of the present invention is formed as the schematic diagram in portion of stratum；

Figure 21 is that the body portion of PUSH NUT FASTENERS structure of the present invention has the schematic diagram of projection；

Figure 22 is the schematic perspective view for lamellar body for the body portion of PUSH NUT FASTENERS structure of the present invention；

Figure 23 is the generalized section being riveted state that Figure 22 PUSH NUT FASTENERS structure body portion is lamellar body；

Figure 24 is that the group of body portion protrusion first object of PUSH NUT FASTENERS structure of the present invention connects view；

Figure 25 is that the group of body portion embedment first object of PUSH NUT FASTENERS structure of the present invention connects view；

Figure 26 is placed in the view of carrier for PUSH NUT FASTENERS structure of the present invention；

The action schematic diagram that Figure 27 takes out from carrier for PUSH NUT FASTENERS structure of the present invention；

Figure 28 is applied to surface-pasted welded condition schematic diagram for PUSH NUT FASTENERS structure of the present invention；

Figure 29 includes the schematic diagram of snapping assembly for PUSH NUT FASTENERS structure of the present invention；

Figure 30 is the schematic diagram of the snapping assembly of PUSH NUT FASTENERS structure of the present invention；

Figure 31 is the schematic diagram before the cap portion and sleeve assembling of PUSH NUT FASTENERS structure of the present invention；

Figure 32 is the schematic diagram after the cap portion and sleeve assembling of PUSH NUT FASTENERS structure of the present invention；

Figure 33 is the schematic diagram of PUSH NUT FASTENERS structure application of the present invention；

Figure 34 is the schematic diagram in the body portion of PUSH NUT FASTENERS structure of the present invention；

Figure 35 a is the schematic diagram one of PUSH NUT FASTENERS structure snapping of the present invention；

Figure 35 b is the schematic diagram two of PUSH NUT FASTENERS structure snapping of the present invention；

Figure 35 c is the schematic diagram three of PUSH NUT FASTENERS structure snapping of the present invention.

【Symbol description】

10 first objects

101 holes

102 scolding tin

20 snapping assemblies

201 recessed buttons

202 cam bodies

203 heads

204 body portions

205 cap portions

2051 first pairs of buckles

206 sleeves

2061 group connecting parts

2062 second pairs of buckles

2063 the 3rd pairs of buckles

207 elastic partss

30 moulds

40 second objects

401 holes

1 body portion

11 projections

2 penetrate portion

21 perforation

22 first length

23 second length

3 fastening structures

31 protuberances

32 storE space

33 recesses

34 planes

4 group connecting parts

41 press sections

42 put material space

43 expansion socket parts

44 solders side

45 spiro union portions

46 are riveted portion

5 are electrically conducted portion

6 carriers

61 holding parts

62 lids

Specific embodiment

For being fully understood by the purpose of the present invention, feature and effect, now by following specific embodiments, and Cooperation, as schemed, is described in further details to the present invention, is described as follows：

As shown in Fig. 1, Fig. 5, Fig. 9, Figure 12, it is shown as PUSH NUT FASTENERS structure of the present invention and is used for combining The first object 10 (such as plate, cabinet, drawer, circuit board or any object) upper (as Fig. 4, Fig. 8, Shown in Figure 11, Figure 14 and Figure 15), provide snapping assembly 20 to carry out snapping, this PUSH NUT FASTENERS structure is relatively The for example above-mentioned diagram of good specific embodiment includes：Body portion 1, its specifically can be embodied as cylinder, cylinder, One of block or lamellar body (as shown in FIG. 22 and 23) or other arbitrary shapes；It is arranged at this body Portion 1 penetrates portion 2, and penetrating portion 2 is preferably perforation 21, for providing snapping assembly 20 insertion to wear Enter portion 2 (perforation 21)；Be arranged on the fastening structure 3 that this penetrates portion 2 (perforation 21), for snapping assembly 20 composition snappings；And it is arranged at the surrounding in this body portion 1 or any one end in this body portion 1 (as in figure Upper end or lower end) in order to combine the group connecting part 4 in this first object 10, group connecting part 4 specifically can be in this Body portion 1 is formed as plane (as shown in figure 17), inner fovea part (as shown in figure 18), male part (as Figure 19 One of shown) or portion of stratum (as shown in figure 20), and group connecting part 4 can be by riveted structure (as schemed Shown in 2 and Fig. 3), expand access node structure (as shown in FIG. 6 and 7), welding structure is (as Figure 11 and Figure 15 Shown), screw-joining structure (as shown in figure 14), gluing structure (as shown in figure 11), magnetic structure, heat melt, Embedment is projected or is integrally formed with reference in this first object 10, makes body portion 1 protrude this first object 10 Surface (as shown in figure 24), or imbed the surface (as shown in figure 25) of this first object 10.

Again as shown in Figure 1 to Figure 3, this group connecting part 4 of the present invention is embodied as the riveting positioned at body portion 1 one end Structure, it preferably has a press section 41 protruding from body portion 1 one end, and the putting of adjacent press section 41 Group connecting part 4 is inserted in the hole 101 of the first object 10 by material space 42 whereby, then passes through mould 30 Punching press body portion 1, is put the material press-in of the first object 10 in material space 42 by press section 41, enters And complete riveted structure.Again as shown in figure 4, being so available for snapping assembly 20 to insert penetrating of body portion 1 In portion 2 (perforation 21), and then form the state of snapping the first object 10.

Again as shown in Figures 5 to 7, this group connecting part 4 of the present invention is embodied as connecing positioned at the expansion of body portion 1 one end Structure, it preferably has the expansion socket part 43 protruding from body portion 1 one end, and expanding socket part 43 can be by mould 30 crimps and be fastened in the hole 101 of this first object 10.Again as shown in figure 8, being so available for Snapping assembly 20 insertion body portion 1 penetrates in portion 2 (perforation 21), and then forms snapping the first object 10 State.

Again as shown in Figures 9 to 11, this group connecting part 4 of the present invention is embodied as the weldering positioned at body portion 1 one end Access node structure, it preferably has the solder side 44 positioned at body portion 1 one end, surrounding or side, so that group is connect The solder side 44 in portion 4 utilizes scolding tin 102 and this first object of this first object 10 surface or endoporus 10 surface soldered, so can provide what snapping assembly 20 inserted body portion 1 to penetrate in portion 2 (perforation 21), And then form the state (as shown in Figures 10 and 11) of snapping the first object 10.

For another example, shown in Figure 12 to Figure 14, this group connecting part 4 of the present invention is embodied as the spiral shell positioned at body portion 1 one end Close structure, it is preferably had the spiro union portion 45 positioned at body portion 1 one end, is screwed on by spiro union portion 45 In the hole 101 of this first object 10, so can provide snapping assembly 20 insertion body portion 1 penetrates portion In 2 (perforation 21), and then form the state (as shown in FIG. 13 and 14) of snapping the first object 10.

As shown in figure 1, the present invention should penetrate portion 2 can be embodied as running through or recessed body portion 1 perforation 21, Snap onto fastening structure 3 to provide snapping assembly 20 insertion to penetrate in portion 2 (perforation 21).Preferably as schemed 9 with shown in Figure 10 or Figure 12 and Figure 13 or Figure 33 to Figure 35 c, and this fastening structure 3 specifically can be real Apply as being formed at one or more protuberance 31 or the recess 33 or flat that this penetrates portion 2 (perforation 21) Face 34 or spinner portion or perforation, and storE sky in protuberance 31 or recess 33 or plane 34 one end formation one Between 32, the buckling surface of protuberance 31 or recess 33 or plane 34 can be curved surface, inclined-plane (with reference to Figure 24 institute Show), plane (with reference to shown in Figure 25), cambered surface or stratum face, protuberance 31 or recess 33 or plane 34 can With position, in figure, this penetrates in portion 2 or this is worn in figure the position surrounding that this penetrates portion 2 in figure or position Enter the top in portion 2, or this penetrates the lower section in portion 2 etc. in figure for position.Snapping assembly so can be provided 20 recessed button 201 insertion penetrates portion 2, as shown in Figure 10 and Figure 11 or Figure 13 and Figure 14, then turns round Turning snapping assembly 20 makes recessed button 201 be fastened on protuberance 31 or recess 33 or plane 34.Or as Figure 33 To shown in Figure 35 c, using the teaching of the invention it is possible to provide cam body 202 insertion of snapping assembly 20 penetrates portion 2, then reverses Snapping assembly 20 makes cam body 202 be fastened on recess 33 (as shown in Figure 33 and Figure 34), or makes cam Body 202 backstop is fastened on plane 34 (as shown in Figure 35 a and Figure 35 b) in protuberance 31.In addition, should The recessed button 201 of snapping assembly 20 or cam body 202 rotatably angled with this fastening structure 3 of snapping, This angle can be 30 to 330 degree.Then, as shown in Fig. 8, Figure 34 to Figure 35 c, this body portion 1 can Be integrally formed with this first object 10, and this fastening structure 3 can for be arranged on this penetrate portion 2 top, The protuberance 31 of lower section or surrounding, recess 33 or plane 34.

For another example, shown in Figure 15 and Figure 16, this protuberance 31 above-mentioned or recess 33 or plane 34 have electrically Junction 5, this is electrically conducted the circuit that portion 5 is electrically connected at this first object 10 surface, specifically Burying forming can be electrically conducted portion 5 in the body portion 1 that isolation material is constituted, make to be electrically conducted portion 5 one End is located at protuberance 31 or storEs space 32 either side, is electrically conducted portion 5 other end and is connected to the first object The circuit on 10 surfaces, whereby when T-shaped cam body 202 insertion of snapping assembly 20 penetrates portion 2 (perforation 21), after, can reverse snapping assembly 20 again makes cam body 202 be buckled in protuberance 31 or recess 33 or plane 34, can be formed with the portion that is electrically conducted 5 one end simultaneously and contact, and then turn in the first object 10 surface Circuit.

Above-mentioned this penetrates portion 2 as shown in Figure 5 again is perforation 21, its hole shape be have the first length 22 with Second length 23, and the first length 22 slotted eye different from the second length 23 or bar hole, profit Two ends with this first length 22 are protuberance 31 or recess 33 or plane 34 constructs to constitute this snapping knot Structure 3, or be protuberance 31 or recess 33 with the two ends of this second length 23 or plane 34 constructs to constitute This fastening structure 3, T-shaped cam body 202 insertion so working as snapping assembly 20 penetrates portion 2 (perforation 21) Afterwards, can reverse again snapping assembly 20 make cam body 202 be buckled in protuberance 31 (or the recess 33 of Figure 24, Or the plane 34 of Figure 25).

As shown in figure 21 again, the one end in this body portion 1 of the present invention can be implemented with projection 11 or projection, then at This projection 11 or projection are implemented with and above-mentioned various penetrate portion 2 and fastening structure 3.As Figure 22 and Figure 23 Shown, this body portion 1 of the present invention can be embodied as lamellar body, and group connecting part 4 is one or one of position lamellar body Above is riveted portion 46 (being riveted hole), so that body portion 1 can be riveted with reference in the first object 10 On.

In addition, as shown in figure 26, the present invention preferably can be implemented with carrier 6, and this carrier 6 has one Individual or more than one holding part 61, so makes the PUSH NUT FASTENERS structure of the present invention be seated in holding part 61, On holding part 61 and lid 62 can be coated with, the present invention is so made to be applied to surface mount processing procedure, for example Take out the PUSH NUT FASTENERS structure (as shown in figure 27) of the present invention using instrument, then dislocation is in the first object 10 On shown in the surface mount processing procedure (as Figure 28) that welded.

As shown in Figure 29 and Figure 30, in the PUSH NUT FASTENERS structure of the invention described above, more may include snapping group Part 20, it has cam body 202 (or recessed button 201 or threaded body or cylinder) with this fastening structure of snapping 3, this cam body 202 (or this recessed button 201) can be located at the end in the body portion 204 of this snapping assembly 20. In addition, this snapping assembly 20 can to have head 203 another with the body portion 204 positioned at this snapping assembly 20 One end.Then, this snapping assembly 20 can have cap portion 205 to be directly connected in this snapping assembly 20 Body portion 204 the other end (as shown in figure 33), or be connected to this head 203 (as shown in figure 30), The material in this cap portion 205 can be plastics, rubber, silica gel or metal.Then, this cap portion 205 is moldable Embedment is projected, heat is melted, the fourth of the twelve Earthly Branches connects, expand connect, gluing, interlocking or be buckled in this head 203.

As shown in figure 29 again, in the PUSH NUT FASTENERS structure of the invention described above, this snapping assembly 20 can have The sleeve 206 of movable assembling joint, this sleeve 206 can be via its 3rd pair of buckle 2063 movable assembling joint in this The body portion 204 of snapping assembly 20, the 3rd pair of buckle 2063 can be to projecting inward convex of this sleeve 206 Body.Additionally, as shown in FIG. 31 and 32, this cap portion 205 can have first pair of buckle 2051, should Sleeve 206 can have second pair of buckle 2062, this first pair of buckle 2051 and this second pair of buckle 2062 Mutually active buckle, this first pair of buckle 2051 can be to the projecting inward convex body in this cap portion 205, and this Two pairs of buckles 2062 can be the convex body protruding to outside this sleeve 206, this second pair of buckle 2062 movable button It is connected in this first pair of buckle 2051, this first pair of buckle 2051 can be plastic material or metal material. Then, as shown in FIG. 31 and 32, first pair of buckle 2051 in this cap portion 205 can be via this sleeve 206 second pair of buckle 2062 elasticity strut to more than this second pair of buckle 2062, make again afterwards this A pair of buckle 2051 crosses this second pair of buckle 2062, finally makes this first pair of buckle 2051 elasticity again Retract so that this second pair of buckle 2062 active buckle is in this first pair of buckle 2051.Then, this set The bottom of cylinder 206 can have group connecting part 2061 to be connected to the hole 401 of the second object 40.

As shown in Figure 29 to Figure 33, in the PUSH NUT FASTENERS structure of the invention described above, this snapping assembly 20 Can have elastic partss 207, this elastic parts 207 can be for helical spring to be sheathed on outside this sleeve 206 Or outside the body portion 204 of this snapping assembly 20, one end of this elastic parts 207 can be resisted against this head 203 Or this cap portion 205, the other end of this elastic parts 207 can be resisted against that this sleeve 206 is outer or this sleeve 206 Interior.

The present invention is hereinbefore disclosed by preferred embodiment, but is familiar with those skilled in the art and should manage Solution, this embodiment is only used for describing the present invention, and is not construed as limiting the scope of the present invention.Should It is noted that every change equivalent with this embodiment and displacement, all should be set to be covered by the model of the present invention In farmland.Therefore, protection scope of the present invention should be defined by the scope that claims are defined.

Claims (49)

1. a kind of PUSH NUT FASTENERS structure, for combining on the first object for carrying out snapping, its feature It is, including：Body portion, be arranged at this body portion penetrates portion, is arranged on the fastening structure that this penetrates portion, And it is arranged at this body portion in order to combine the group connecting part in this first object.

2. PUSH NUT FASTENERS structure as claimed in claim 1 it is characterised in that this body portion be cylinder, One of cylinder, block, lamellar body, ingot body, billet body or cylinder.

3. PUSH NUT FASTENERS structure as claimed in claim 1 is it is characterised in that this group connecting part is located at this The surrounding in body portion or the either end in lower end or this body portion.

4. PUSH NUT FASTENERS structure as claimed in claim 1 is it is characterised in that this group connecting part is in this body Portion is formed as one of plane, inner fovea part, male part or portion of stratum.

5. PUSH NUT FASTENERS structure as claimed in claim 1 it is characterised in that this body portion protrude this The surface of one object, or imbed the surface of this first object.

6. the PUSH NUT FASTENERS structure as any one of claim 1 to 5 is it is characterised in that be somebody's turn to do What group connecting part had press section and this press section adjacent puts material space.

7. PUSH NUT FASTENERS structure as claimed in claim 6 was it is characterised in that the extruding of this press section should The material of the first object enters this and puts material space.

8. the PUSH NUT FASTENERS structure as any one of claim 1 to 5 is it is characterised in that be somebody's turn to do Group connecting part has expansion socket part, and this expansion socket part is deformed and is fastened on this first object.

9. the PUSH NUT FASTENERS structure as any one of claim 1 to 5 is it is characterised in that be somebody's turn to do Group connecting part has a solder side, and this solder side is welded on this first object.

10. PUSH NUT FASTENERS structure as claimed in claim 9 was it is characterised in that the utilization of this group connecting part should The scolding tin of the first subject surface is welded with this first object.

The 11. PUSH NUT FASTENERS structures as any one of claim 1 to 5 are it is characterised in that be somebody's turn to do Fastening structure is to be formed at one or more protuberance or recess or plane or the spinner that this penetrates portion Portion or perforation.

12. PUSH NUT FASTENERS structures as claimed in claim 11 are it is characterised in that this protuberance or recess Or plane position penetrates above portion in the surrounding that this penetrates in portion or position penetrates portion at this or position at this, Or position penetrates the lower section in portion at this.

13. PUSH NUT FASTENERS structures as claimed in claim 11 are it is characterised in that this protuberance or recess Or plane has the portion of being electrically conducted, this portion of being electrically conducted is electrically connected at this first object, this first object For circuit board.

14. PUSH NUT FASTENERS structures as claimed in claim 11 are it is characterised in that this protuberance or recess Or plane is curved surface, inclined-plane, plane, cambered surface or stratum face.

15. the PUSH NUT FASTENERS structure as any one of claim 1 to 5 is it is characterised in that be somebody's turn to do The portion of penetrating has and storEs space.

The 16. PUSH NUT FASTENERS structures as any one of claim 1 to 5 are it is characterised in that be somebody's turn to do The portion that penetrates is perforation.

The 17. PUSH NUT FASTENERS structures as any one of claim 1 to 5 are it is characterised in that be somebody's turn to do The portion that penetrates is perforation, and the hole shape of this perforation has the first length and the second length.

18. PUSH NUT FASTENERS structures as claimed in claim 17 it is characterised in that this perforation be this One length is one of the different slotted eye of length, slot or bar hole from this second length.

19. PUSH NUT FASTENERS structures as claimed in claim 17 are it is characterised in that this first length Two ends be protuberance or recess or plane to constitute this fastening structure, the two ends of this second length are protuberance or recessed Portion or plane are to constitute this fastening structure.

20. PUSH NUT FASTENERS structures as claimed in claim 2 are it is characterised in that this body portion is circular piece Body, oval lamellar body, square lamellar body, rectangle lamellar body, polygon lamellar body or irregularly shaped lamellar body its One of.

21. PUSH NUT FASTENERS structures as any one of claim 1 to 5 are it is characterised in that one Individual or more than one PUSH NUT FASTENERS structure and this first object group are connected into a module.

22. PUSH NUT FASTENERS structures as claimed in claim 1 are it is characterised in that include carrier, this load There is one or more holding part, this PUSH NUT FASTENERS structure is seated in this holding part.

23. PUSH NUT FASTENERS structures as claimed in claim 22 it is characterised in that this carrier accommodating Lid is coated with portion.

24. PUSH NUT FASTENERS structures as claimed in claim 1 it is characterised in that further including snapping assembly, It has cam body, recessed button, threaded body or cylinder with this fastening structure of snapping.

25. PUSH NUT FASTENERS structures as claimed in claim 24 are it is characterised in that this snapping assembly has There is head.

26. PUSH NUT FASTENERS structures as claimed in claim 24 are it is characterised in that this snapping assembly has There is cap portion.

27. PUSH NUT FASTENERS structures as claimed in claim 25 are it is characterised in that this snapping assembly has There is a cap portion to be connected to this head.

28. PUSH NUT FASTENERS structures as claimed in claim 24 are it is characterised in that this snapping assembly has There is the sleeve of movable assembling joint.

29. PUSH NUT FASTENERS structures as claimed in claim 25 are it is characterised in that this snapping assembly has There is the sleeve of movable assembling joint.

30. PUSH NUT FASTENERS structures as claimed in claim 26 are it is characterised in that this snapping assembly has There is the sleeve of movable assembling joint.

31. PUSH NUT FASTENERS structures as claimed in claim 27 are it is characterised in that this snapping assembly has There is the sleeve of movable assembling joint.

32. PUSH NUT FASTENERS structures as claimed in claim 30 are it is characterised in that this cap portion has A pair of buckle, this sleeve has second pair of buckle, this first pair of buckle and this mutual activity of second pair of buckle Snapping.

33. PUSH NUT FASTENERS structures as claimed in claim 31 are it is characterised in that this this cap portion has First pair of buckle, this sleeve has second pair of buckle, and second pair of buckle of this first pair of buckle and this is mutually alive Dynamic snapping.

34. PUSH NUT FASTENERS structures as claimed in claim 32 are it is characterised in that this first pair of buckle It is to the projecting inward convex body in this cap portion, this second pair of buckle is the convex body protruding to outside this sleeve, and this second To buckle active buckle in this first pair of buckle.

35. PUSH NUT FASTENERS structures as claimed in claim 33 are it is characterised in that this first pair of buckle It is to the projecting inward convex body in this cap portion, this second pair of buckle is the convex body protruding to outside this sleeve, and this second To buckle active buckle in this first pair of buckle.

36. PUSH NUT FASTENERS structures as claimed in claim 30 are it is characterised in that this cap portion elastic buckles It is connected to this sleeve.

37. PUSH NUT FASTENERS structures as claimed in claim 31 are it is characterised in that this cap portion elastic buckles It is connected to this sleeve.

38. PUSH NUT FASTENERS structures as any one of claim 32 to 35 it is characterised in that This first pair of buckle elasticity is extended to more than this second pair of buckle and buckles into after this second pair of buckle elasticity again Retract.

39. PUSH NUT FASTENERS structure as any one of claim 28 to 31 it is characterised in that This sleeve is via the 3rd pair of buckle movable assembling joint.

40. PUSH NUT FASTENERS structures as any one of claim 24 to 37 it is characterised in that This snapping assembly has elastic partss.

41. PUSH NUT FASTENERS structures as claimed in claim 38 are it is characterised in that this snapping assembly has Flexible assembly.

42. PUSH NUT FASTENERS structures as claimed in claim 39 are it is characterised in that this snapping assembly has There are elastic partss.

43. PUSH NUT FASTENERS structures as any one of claim 24 to 37 it is characterised in that This snapping assembly rotate angled with this fastening structure of snapping, this angle is 30 to 330 degree.

44. PUSH NUT FASTENERS structures as claimed in claim 38 are it is characterised in that this snapping assembly turns Dynamic angled with this fastening structure of snapping, this angle is 30 to 330 degree.

45. PUSH NUT FASTENERS structures as claimed in claim 39 are it is characterised in that this snapping assembly turns Dynamic angled with this fastening structure of snapping, this angle is 30 to 330 degree.

46. PUSH NUT FASTENERS structures as claimed in claim 40 are it is characterised in that this snapping assembly turns Dynamic angled with this fastening structure of snapping, this angle is 30 to 330 degree.

47. PUSH NUT FASTENERS structures as claimed in claim 41 are it is characterised in that this snapping assembly turns Dynamic angled with this fastening structure of snapping, this angle is 30 to 330 degree.

48. PUSH NUT FASTENERS structures as claimed in claim 42 are it is characterised in that this snapping assembly turns Dynamic angled with this fastening structure of snapping, this angle is 30 to 330 degree.

49. a kind of PUSH NUT FASTENERS structure, the PUSH NUT FASTENERS as any one of Claims 1-4 8 It is characterised in that this body portion is integrally formed with this first object, this fastening structure is to be arranged on this to structure Penetrate above portion, the protuberance of lower section or surrounding, recess or plane.