CN108502086A - Connection structure and traveling apparatus - Google Patents

Abstract

The embodiment of the present application discloses a kind of connection structure and traveling apparatus, the connection structure includes the connecting shaft being set on the first place body, the indent that is set on the second place body surface face and the accommodating space that first place body can be accommodated, the accommodating gap being set in the two lateral walls to form the accommodating space；The connecting shaft both ends appear in first place in vitro respectively, and the connecting shaft both ends are respectively provided with and the accommodating matched insertion section of gap；The insertion section is plugged in respectively in the accommodating gap so that first place body is located in the accommodating space.The connection structure of the embodiment of the present application, since insertion section described in both sides can be plugged in simultaneously in the accommodating gap, assembly difficulty is small, and assembly time is short.

Description

Connection structure and traveling apparatus

Technical field

The invention relates to interconnection technique, more particularly to a kind of connection structure and traveling apparatus.

Background technology

In the prior art, the structure of tape spool class is mostly arranged by end cap on shell, is generally provided with out in shell both sides Mouthful, it needs first to pass through opening to be placed in shell on axis in assembling process, then end cap is sleeved on to the both ends of axis, and by that will hold Lid is fixed on shell and fixes axis.However, in assembled shaft, need axis being inserted into from an opening of shell both sides, then It is stretched out from another opening, assembly difficulty is big, and assembly time is long.

Invention content

The embodiment of the present application provides a kind of connection structure and traveling apparatus to solve problems of the prior art.

What the technical solution of the embodiment of the present application was realized in：

The embodiment of the present application provides a kind of connection structure, and the connection structure includes the connection being set on the first place body Axis, the indent being set on the second place body surface face and the accommodating space that can accommodate first place body, are set to form the appearance Accommodating gap in two lateral walls between emptying；

The connecting shaft both ends appear in first place in vitro respectively, and the connecting shaft both ends be respectively provided with it is described The accommodating matched insertion section of gap；The insertion section is plugged in respectively in the accommodating gap so that first place body is located at institute It states in accommodating space.

In some optional realization methods, the connection structure further includes clamping structure, and the insertion section passes through described Clamping structure is fastened in the two lateral walls of the accommodating space so that the circumferentially fixed setting of connecting shaft.

In some optional realization methods, the insertion section is cylinder, and the clamping structure includes that the first recess is flat Face, first recession plane are located on the cylindrical surface of the insertion section, on the insertion section with the first recession plane phase To face and the distance between first recession plane matched with the width of the accommodating gap；

First recession plane is located at the width side of the accommodating gap；The insertion section is flat by first recess Face is fastened in the accommodating gap so that the circumferentially fixed setting of connecting shaft.

In some optional realization methods, the clamping structure further includes the second recession plane, and second recess is flat Face is located at first recession plane opposite side, the distance between second recession plane and first recession plane and institute State the width matching of accommodating gap；

First recession plane is located at the side of the width side of the accommodating gap, and second recession plane is located at institute State the other side of the width side of accommodating gap；The insertion section passes through first recession plane and the second recession plane card It is located in the accommodating gap so that the circumferentially fixed setting of connecting shaft.

In some optional realization methods, the connection structure further includes two first carrying gaskets, and is set respectively It sets in the outside of the two lateral walls of the accommodating space and deep gouge corresponding with the accommodating gap respectively；

The connecting shaft both ends are respectively provided with the first supporting part corresponding with the deep gouge；

The outer ring of described two first carrying gaskets is matched with the deep gouge respectively, and described two first carry the interior of gaskets Hole is matched with first supporting part respectively；

The endoporus of described two first carrying gaskets is respectively sleeved on first supporting part, described two first carryings The outer ring of gasket is fastened on respectively in the deep gouge, and first supporting part is carried by described two first described in gasket carrying Second place body.

In some optional realization methods, the connection structure further includes be separately positioned on the accommodating space opposite The outside of two side and respectively limit rib corresponding with the accommodating gap；The limit rib is close to the accommodating gap side Face forms the deep gouge.

In some optional realization methods, the section of the limit rib is circular ring shape, and the limit rib is described accommodating There is opening, the width of the opening to be less than diameter of the limit rib close to the inner ring surface of the accommodating gap side for gap side.

In some optional realization methods, the connection structure further includes two second carrying gaskets；The connecting shaft Both ends are respectively provided with the second supporting part corresponding with the lateral surface of the two lateral walls of the accommodating space；Second supporting part On be respectively provided with and the matched positioning shaft shoulder of the lateral surface of the two lateral walls of the accommodating space；Described two second bearing pads The endoporus of piece is matched with second supporting part respectively；

The endoporus of described two second carrying gaskets is respectively sleeved on second supporting part；

Described two second carrying gaskets side offsets with the positioning shaft shoulder respectively, and described two second carrying gaskets Side is formed with the first pre-determined distance with the lateral surface of the two lateral walls of the accommodating space respectively；Alternatively, described two Lateral surface of the two carrying gasket sides respectively with the two lateral walls of the accommodating space offsets, and described two second bearing pads Piece side is formed with the second pre-determined distance with the positioning shaft shoulder respectively；Alternatively, described two second carrying gaskets side difference It offsets with the positioning shaft shoulder, and the lateral surface with the two lateral walls of the accommodating space offsets respectively.

In some optional realization methods, the connecting shaft both ends are also respectively provided with adjacent with second supporting part Threaded portion, the screw thread position is on the outside of second supporting part；

The connection structure further include respectively with matched two nuts in the threaded portion, described two nuts respectively with institute Threaded portion connection is stated, and offsets respectively with described two second carrying gaskets and compresses described two second carrying gaskets.

In some optional realization methods, first place body includes wheel body, and second place body is car body.

In some optional realization methods, first place body further includes motor, and the connecting shaft is the motor Fixing axle；The wheel body is arranged on the rotor on the outside of the motor.

The embodiment of the present application also provides a kind of traveling apparatus, and the traveling apparatus includes the connection of the embodiment of the present application Structure.

In the embodiment of the present application, the connecting shaft both ends appear in first place in vitro respectively, and the connecting shaft two End is respectively provided with and the accommodating matched insertion section of gap；The insertion section is plugged in the accommodating gap respectively so that institute The first place body is stated to be located in the accommodating space；Since insertion section described in both sides can be plugged in simultaneously in the accommodating gap, Assembly difficulty is small, and assembly time is short.

Description of the drawings

Fig. 1 is an optional Structure explosion diagram of connection structure in the embodiment of the present application；

Fig. 2 is an optional structural schematic diagram of connection structure in the embodiment of the present application；

Fig. 3 is an optional structure sectional view of connection structure in the embodiment of the present application；

Fig. 4 is an optional structure partial view of connection structure in the embodiment of the present application；

Fig. 5 is an optional structure sectional view of connection structure in the embodiment of the present application；

Fig. 6 is an optional Structure explosion diagram of connection structure in the embodiment of the present application；

Fig. 7 is an optional structure partial view of connection structure in the embodiment of the present application；

Fig. 8 is an optional structure partial view of connection structure in the embodiment of the present application；

Fig. 9 is an optional structure partial view of connection structure in the embodiment of the present application；

Figure 10 is an optional structure sectional view of connection structure in the embodiment of the present application.

Reference numeral：100, the first place body；110, connecting shaft；111, insertion section；112, the first recession plane；113, first Supporting part；114, the second supporting part；115, positioning shaft shoulder；116, threaded portion；117, the second recession plane；200, the second place body； 210, accommodating space；220, gap is housed；230, deep gouge；231, limit rib；300, the first carrying gasket；400, the second bearing pads Piece；500, check washer；600, nut.

Specific implementation mode

Below in conjunction with drawings and the specific embodiments, the application is further elaborated.It should be appreciated that this place is retouched The specific embodiment stated is only used to explain the application, is not used to limit the application.

In the embodiment of the present application record, it should be noted that unless otherwise indicated and limit, term " connection " should be done extensively Reason and good sense solution, for example, it may be electrical connection, can also be the connection inside two elements, can be directly connected, can also pass through Intermediary is indirectly connected, and for the ordinary skill in the art, can understand above-mentioned term as the case may be Concrete meaning.

It should be noted that the term " first second third " involved by the embodiment of the present application is only to be that difference is similar Object, do not represent the particular sorted for object, it is possible to understand that ground, " Yi Er thirds " can be in the case of permission Exchange specific sequence or precedence.It should be appreciated that the object that " first second third " is distinguished in the appropriate case can be mutual It changes, so that the sequence that embodiments herein described herein can be other than those of illustrating or describing herein is implemented.

It is described in detail below in conjunction with Fig. 1 to Figure 10 connection structures recorded to the embodiment of the present application.

As shown in Figures 1 to 6, the embodiment of the present application describes a kind of connection structure, and the connection structure includes being set to Connecting shaft 110 on first place body 100, the indent being set on 200 surface of the second place body and can accommodate first place body 100 Accommodating space 210, the accommodating gap 220 being set in the two lateral walls to form the accommodating space 210；The connecting shaft 110 both ends appear outside first place body 100 respectively, and 110 both ends of the connecting shaft are respectively provided with and the accommodating gap 220 matched insertion sections 111；The insertion section 111 is plugged in the accommodating gap 220 respectively so that first place body 100 are located in the accommodating space.

In the present embodiment, the structure of the first place body 100 can be arranged in those skilled in the art according to actual needs.Example Such as, the first place body 100 can be rotor, or gear.As a kind of realization method, the first place body 100 may include wheel Body.

In the present embodiment, the structure of the second place body 200 can be arranged in those skilled in the art according to actual needs.This Field technology personnel should be appreciated that the second place body 200 here is corresponding with the first place body 100, the first place body 100 and the second place Body 200 is connected by connection structure, and finally constitutes product.For example, when the first place body 100 is rotor, accordingly, the second place body 200 can be stator；When first place body 100 is gear, accordingly, the second place body 200 can be shell.

As a kind of realization method, first place body 100 includes wheel body, and second place body 200 is car body, the vehicle Body is travelled on the bearing surface by the wheel body.Here first place body 100 can also include motor, the connecting shaft 110 be the fixing axle of the motor；The wheel body is arranged on the rotor on the outside of the motor；Car body passes through the electricity inside wheel body Machine provides the power of traveling.Here motor can be wheel hub motor.

In the present embodiment, the structure of accommodating space 210 can be arranged in those skilled in the art according to actual needs, only It wants that first place body 100 can be accommodated.

In the present embodiment, accommodating gap 220 is provided in the two lateral walls of the accommodating space 210, it is described accommodating Gap 220 is used to install the insertion section 111 of connecting shaft 110, wherein the insertion section 111 is located at the end of connecting shaft 110 or leans on The position of close end.The cross sectional shape of accommodating gap 220 can be arranged in those skilled in the art according to actual needs.For example, The cross sectional shape of accommodating gap 220 can be similar c shapes, or similar u shapes.Fig. 1 and Fig. 2 schematically illustrates accommodating The cross sectional shape of gap 220 is similar n shapes, in order to install the first place body 100.

In the present embodiment, as shown in figures 1 to 6,110 both ends of the connecting shaft are respectively outside first place body 100 Appear, and the connecting shaft both ends are respectively provided with and 220 matched insertion section 111 of the accommodating gap；The insertion section 111 is divided It is not plugged in the accommodating gap 220 so that first place body 100 is located in the accommodating space；Described in both sides Insertion section 111 can be plugged in simultaneously in the accommodating gap 220, and assembly difficulty is small, and assembly time is short.

Here, insertion section 111 is matched with the accommodating gap 220, i.e. the shape of insertion section 111 and the accommodating gap 220 shape matching, so that insertion section 111 is smoothly inserted into the accommodating gap 220.Those skilled in the art can be according to reality Border needs that the cross sectional shape of insertion section 111 is arranged, as long as can be plugged in insertion section 111 in the accommodating gap 220 i.e. It can.For example, the cross sectional shape of insertion section 111 can be rectangle, or ellipse.Fig. 3 and Fig. 7 schematically illustrates appearance The cross sectional shape for setting gap 220 is similar n shapes, and the cross sectional shape of insertion section 111 is circle.

In some optional realization methods of the present embodiment, the connection structure can also include clamping structure, described Insertion section 111 is fastened in the two lateral walls of the accommodating space 210 by the clamping structure so that the connecting shaft 110 Circumferentially fixed setting；To prevent the circumferentially rotating along the connecting shaft 110 of the connecting shaft 110.

In this realization method, the structure of clamping structure can be arranged in those skilled in the art according to actual needs, only It wants that the circumferentially rotating along the connecting shaft 110 of the connecting shaft 110 can be prevented.List clamping structure to following exemplary Two kinds of concrete structures.

For example, in the first concrete structure of clamping structure, the clamping structure includes being arranged on insertion section 111 Card, and the card slot that is arranged in the two lateral walls of the accommodating space 210, the card slot match with the card, The card is fastened in the card slot, and the insertion section 111 is by the card is fastened in the card slot along the company The circumferentially fixed connecting shaft 110 of spindle 110；Prevent the circumferentially rotating along the connecting shaft 110 of the connecting shaft 110.

In another example as shown in figs. 6 and 10, in second of concrete structure of clamping structure, the insertion section 111 is circle Cylindricality, the clamping structure include the first recession plane 112, and first recession plane 112 is located at the circle of the insertion section 111 On cylinder, the face opposite with first recession plane 112 and first recession plane on the cylindrical surface of the insertion section 111 The distance between 112 match with the width of the accommodating gap 220；First recession plane 112 is located at the accommodating gap 220 width side；The insertion section 111 is fastened in the accommodating gap 220 by first recession plane 112 so that institute State the circumferentially fixed setting of connecting shaft 110；To prevent the circumferentially rotating along the connecting shaft 110 of the connecting shaft 110.

Here, face opposite with first recession plane 112 on the cylindrical surface of the insertion section 111 and described first recessed Fall into the distance between plane 112 match with the width of the accommodating gap 220 namely the cylindrical surface of the insertion section 111 on and The distance between the opposite face of first recession plane 112 and first recession plane 112 and the accommodating gap 220 Similar width, when being plugged in respectively in the accommodating gap so as to the insertion section, first recession plane 112 and the appearance The gap set between gap 220 is small as possible.Here, on the cylindrical surface of the insertion section 111 with 112 phase of the first recession plane To the distance between face and the accommodating gap 220 similar width, and the diameter of the both less than insertion section 111, by institute It states the first recession plane 112 to be arranged in the width side of the accommodating gap 220, be led since the diameter of the insertion section 111 is bigger than normal Cause can not rotate the connecting shaft 110；To realize the circumferentially fixed setting of the connecting shaft 110.

It will be apparent to a skilled person that the clamping structure here further includes insertion section 111 and described the The part of one recession plane 112 connection, the part and described first that insertion section 111 is connect with first recession plane 112 are recessed It falls into plane 112 and forms platform structure namely clamping structure.Here, the first recession plane 112 is the groundwork of clamping structure Face.

It will be appreciated by persons skilled in the art that the insertion section 111 can also be by two recession planes described in The circumferentially fixed connecting shaft 110 of connecting shaft 110.As a kind of realization method, as shown in Figure 10, the clamping structure also wraps The second recession plane 117 is included, second recession plane 117 is located at 112 opposite side of the first recession plane, and described second is recessed The distance between plane 117 and first recession plane 112 is fallen into match with the width of the accommodating gap 220；Described first Recession plane 112 is located at the side of the width side of the accommodating gap 220, and second recession plane 117 is located at The other side of the width side of the accommodating gap 220；The insertion section 111 passes through first recession plane 112 and described Two recession planes 117 are fastened in the accommodating gap 220 so that 110 circumferentially fixed setting of the connecting shaft.

Here, the distance between second recession plane 117 and first recession plane 112 and the accommodating gap 220 width matching namely the distance between second recession plane 117 and first recession plane 112 and the appearance The width matching for setting gap 220 is close, when being plugged in respectively in the accommodating gap so as to the insertion section, first recess Gap between plane 112 and the accommodating gap 220 is small as possible, and second recession plane 117 and the accommodating gap Gap between 220 is small as possible.Here, the distance between second recession plane 117 and first recession plane 112 with The width matching of the accommodating gap 220 is close, and the diameter of the both less than insertion section 111, by first recession plane 112 are arranged in the side of the width side of the accommodating gap 220, and second recession plane 117 is arranged in the accommodating gap The other side of 220 width side leads to not rotate the connecting shaft 110 since the diameter of the insertion section 111 is bigger than normal；To Realize the circumferentially fixed setting of the connecting shaft 110.

It will be apparent to a skilled person that the clamping structure here further include insertion section 111 respectively with institute The part of the first recession plane 112 and second recession plane 117 connection is stated, insertion section 111 is recessed with described first respectively The part of plane 112 and second recession plane 117 connection, first recession plane 112, second recession plane 117 are collectively formed platform structure namely clamping structure.Here, the first recession plane 112 and second recession plane 117 are The groundwork face of clamping structure.

In some optional realization methods of the present embodiment, as shown in figure 4, the connection structure can also include two First carrying gasket 300, and be separately positioned on the two lateral walls of the accommodating space 210 outside and respectively with it is described 220 corresponding deep gouge 230 of accommodating gap；110 both ends of the connecting shaft are respectively provided with first carrying corresponding with the deep gouge 230 Portion 113；The outer ring of described two first carrying gaskets 300 is matched with the deep gouge 230 respectively, described two first carrying gaskets 300 endoporus is matched with first supporting part 113 respectively；The endoporus of described two first carrying gaskets 300 is respectively sleeved at On first supporting part 113, the outer ring of described two first carrying gaskets 300 is fastened on respectively in the deep gouge 230, described First supporting part 113 carries gasket 300 by described two first and carries second place body 200.

In this realization method, the endoporus of described two first carrying gaskets 300 is respectively sleeved at first supporting part On 113, the outer ring of described two first carrying gaskets 300 is fastened on respectively in the deep gouge 230, first supporting part 113 Gasket 300, which is carried, by described two first carries second place body 200；It the gravity of second place body 200 and/or bears External force first pass through the outer rings of described two first carryings gaskets 300 and be transmitted on described two first carryings gaskets 300, then pass through The endoporus of described two first carrying gaskets 300 is transmitted on first supporting part 113；In this way, an equal amount of power, due to Carrying gasket 300 by described two first makes the contact area of 200 stress of the second place body increase, second place body 200 Pressure become smaller, second place body, 200 bearing performance can be increased, when second place, 200 stress of body are too big, Neng Gouyou Effect prevents the forced contact face of second place body 200 from damaging.

In this realization method, weight or the second place and/or that those skilled in the art can be according to the second place body 200 The external force that body 200 is born is arranged the thickness and diameter of the first carrying gasket 300.It is understood that the first carrying gasket 300 Thickness it is bigger and/or first carrying gasket 300 diameter it is bigger, the forced contact area of the second place body 200 is bigger, to Bearing capacity is also bigger.

In this realization method, as shown in Figure 3 and Figure 4, deep gouge 230 is corresponding with the accommodating gap 220 namely deep gouge 230 are arranged at the accommodating gap 220, so that first supporting part 113 is located at deep gouge 230, described two first hold When the endoporus of load gasket 300 is respectively sleeved on first supporting part 113, the outer ring of described two first carryings gaskets 300 It is fastened on respectively in the deep gouge 230.

Here, the deep gouge 230 sets the first carrying gasket 300 for blocking, the outer ring of described two first carrying gaskets 300 It matches respectively with the deep gouge 230 namely outer ring that the shape of the deep gouge 230 carries gaskets 300 with described two first Shape matches.The cross sectional shape of deep gouge 230 can be arranged in those skilled in the art according to actual needs, as long as can will be described Two first carrying gaskets 300 are fastened on respectively in deep gouge 230.It will be apparent to a skilled person that deep gouge 230 Cross sectional shape when being round, the contact area of the outer ring of the carrying gasket 300 of deep gouge 230 and first can be increased；To increase Bearing performance of the connecting shaft 110 to second place body 200.Deep gouge 230 can be arranged directly on the phase of the accommodating space 210 To that on the lateral surface of two side, can also be arranged by other structures in the outside of the two lateral walls of the accommodating space 210. For example, as shown in Figure 10, the connection structure can also include being separately positioned on the two lateral walls of the accommodating space 210 Outside and respectively limit rib corresponding with the accommodating gap 220 231；The limit rib 231 is close to the accommodating gap 220 The face of side forms the deep gouge 230.Here, the quantity of the limit rib 231 can be one, or multiple.Work as limit When the quantity of muscle 231 is one, a card of limit rib 231 sets the first carrying gasket 300；When the quantity of limit rib 231 is multiple When, card sets the first carrying gasket 300 to multiple limit ribs 231 jointly.The section that Figure 10 illustrates the limit rib 231 is Circular ring shape, the limit rib 231 in 220 side of accommodating gap there is opening, the width of the opening to be less than the limit rib 231 close to the inner ring surface of 220 side of accommodating gap diameter；It is fastened in deep gouge 230 with will pass through the first carrying gasket 300 Limitation connecting shaft 110 is moved along the direction far from the accommodating gap 220, described accommodating open-minded to prevent connecting shaft 110 to be detached from Mouth 220.

Here, first supporting part 113 is for supporting the first carrying gasket 300, described two first carrying gaskets 300 Endoporus matched respectively with first supporting part 113 namely the shape of first supporting part 113 is held with described two first Carry the shape matching of the endoporus of gasket 300.Those skilled in the art can be arranged according to actual needs, first supporting part 113 cross sectional shape, as long as can carry gasket 300 by described two first is sleeved on first supporting part 113.Fig. 3 The cross sectional shape that the first supporting part 113 is schematically illustrated with Fig. 6 is circle, so as to increase first supporting part 113 and first carrying gasket 300 endoporus contact area；To increase second place body, 200 bearing performance.Here, originally Field technology personnel can be arranged first supporting part 113 and carry gasket 300 with described two first according to actual needs Between gap.For example, the diameter of first supporting part 113 can be equal to the diameter of the endoporus of the first carrying gasket 300, The diameter of the endoporus of the first carrying gasket 300 can be more than, be also less than the diameter of the endoporus of the first carrying gasket 300.This Field technology personnel are it should be understood that the endoporus of described two first carrying gaskets 300 is arranged first supporting part respectively When on 113, the gap between first supporting part 113 and described two first carrying gaskets 300 is smaller, and contact area is got over Greatly, the load of the first carrying gasket 300 is better.

It will be apparent to a skilled person that when the connection structure had both included clamping structure or was carried including first When portion 113, clamping structure can be arranged directly on the first supporting part 113, can also be not arranged on the first supporting part 113.Figure 10, which schematically illustrate clamping structure, includes the first recession plane 112 and the second recession plane 117, and the first recession plane 112 and second recession plane 117 be arranged on the first supporting part 113.

In some optional realization methods of the present embodiment, the connection structure further includes two second carrying gaskets 400；110 both ends of the connecting shaft are respectively provided with corresponding with the lateral surface of the two lateral walls of the accommodating space 210 second Supporting part 114；The lateral surface with the two lateral walls of the accommodating space 210 is respectively provided on second supporting part 114 The positioning shaft shoulder 115 matched；The endoporus of described two second carrying gaskets 400 is matched with second supporting part 114 respectively；It is described The endoporus of two second carrying gaskets 400 is respectively sleeved on second supporting part 114.

In this realization method, those skilled in the art can set according to the axial force that the second carrying gasket 400 is born Set the thickness of the second carrying gasket 400.It is understood that the thickness of the second carrying gasket 400 is bigger, the axial direction that can be born Power is also bigger.

In this realization method, described two second carrying gaskets 400 are applied to second place body 200 in order to prevent Power is too big and damages the second place body 200, and opposite two with the accommodating space 210 are respectively provided on second supporting part 114 The matched positioning shaft shoulder of the lateral surface of side wall 115.Three kinds of installation positions of positioning shaft shoulder 115 are listed to following exemplary, and main It to be illustrated by taking the side in the two lateral walls of the accommodating space 210 as an example, the opposite sides of the accommodating space 210 The other side in wall is similar, and details are not described herein.

For example, as shown in figure 9, in the first installation position of positioning shaft shoulder 115, the second carrying 400 side of gasket with The positioning shaft shoulder 115 offsets, and second carrying 400 side of gasket and the two lateral walls of the accommodating space 210 The lateral surface of side is formed with the first pre-determined distance H1；In this way, the second carrying gasket 400 is held by the positioning shaft shoulder 115 The power applied by the second carrying gasket 400；It can effectively prevent the side of the two lateral walls of the accommodating space 210 from deforming Amount is too big, prevents the second place body 200 from damaging.Here, the first pre-determined distance H1 is the smaller the better, to prevent the second place body 200 in institute State the axial float of connecting shaft 110.

In another example as shown in figure 8, in second of installation position of positioning shaft shoulder 115, second carries 400 side of gasket Offset with the lateral surface of the side of the two lateral walls of the accommodating space 210, and second carrying 400 side of gasket with it is described fixed The position shaft shoulder 115 is formed with the second pre-determined distance H2；In this way, the second carrying gasket 400 passes through relatively the two of the accommodating space 210 The side of side wall come bear the second carrying gasket 400 application power；When the power that described two second carrying gaskets 400 apply is too big And when the side deflection of the two lateral walls of the accommodating space 210 being caused to reach the second pre-determined distance H2, the second bearing pads Piece 400 is contacted with the positioning shaft shoulder 115, can also be applied to bear the second carrying gasket 400 by the positioning shaft shoulder 115 Power；It can effectively prevent the side deflection of the two lateral walls of the accommodating space 210 too big, and cause the second place body 200 damages.Here, the second pre-determined distance H2 is the smaller the better, to reduce the deflection of the second place body 200.

For another example as shown in fig. 7, second carrying 400 side of gasket offset with the positioning shaft shoulder 115, and with the appearance The lateral surface of the side of 210 two lateral walls offsets between emptying；In this way, the second carrying gasket 400 passes through positioning shaft shoulder simultaneously 115 and the accommodating space 210 two lateral walls side come bear the second carrying gasket 400 application power, can be effective The two lateral walls for preventing the accommodating space 210 side deflection it is too big, and the second place body 200 damage；It simultaneously can also Enough prevent the second place body 200 in the axial float of the connecting shaft 110.

In this realization method, it is described two second carrying gaskets 400 110 both ends of the connecting shaft fixed form not It is construed as limiting.List to following exemplary two kind fixations of described two second carrying gaskets 400 at 110 both ends of the connecting shaft Mode.

For example, in described two second carrying gaskets 400 in the first fixed form at 110 both ends of the connecting shaft, The connection structure may include retainer ring, and 110 both ends of the connecting shaft are also respectively provided with the groove coordinated with the retainer ring, described Retainer ring is located at the groove.

In another example second of fixed form in described two second carrying gaskets 400 at 110 both ends of the connecting shaft In, as shown in figure 3,110 both ends of the connecting shaft are also respectively provided with the threaded portion 116 adjacent with second supporting part 114, institute It states threaded portion 116 and is located at second supporting part, 114 outside；The connection structure further include respectively with the threaded portion 116 Two nuts 600 matched, described two nuts 600 are connect with the threaded portion 116 respectively, and are held respectively with described two second Gasket 400 is carried to offset and compress described two second carrying gaskets 400.Those skilled in the art are it should be understood that in order to prevent two A nut 600 loosens, and the connection structure can also include check washer 500；The check washer 500 is respectively sleeved at described 110 both ends of connecting shaft, and between described two nuts 600 and two second carrying gaskets 400；The check washer 500 It offsets respectively with described two nuts 600 and two second carrying gaskets 400.

It will be appreciated by those skilled in the art that it can be the same pad that the second carrying gasket 400 and first, which carries gasket 300, Piece can also be different gasket.Fig. 7 to Fig. 9 schematically illustrates the first carrying gasket 300 and second carrying gasket 400 For same gasket, the first supporting part 113 and the second supporting part 114 are same shaft part；In this way, the second carrying gasket 400 can either The second place body 200 is carried, axial force can also be born.

In the embodiment of the present application, 110 both ends of the connecting shaft appear outside first place body 100 respectively, and the company 110 both ends of spindle are respectively provided with and 220 matched insertion section 111 of the accommodating gap；The insertion section 111 is plugged in institute respectively It states in accommodating gap 220 so that first place body 100 is located in the accommodating space；Due to the insertion section 111 of both sides It can be plugged in simultaneously in the accommodating gap 220, assembly difficulty is small, and assembly time is short.

The embodiment of the present application also describes a kind of traveling apparatus, and the traveling apparatus includes the institute that the embodiment of the present application is recorded State connection structure.

Here traveling apparatus can be robot, can also be balance car.

The above, the only specific implementation mode of the application, but the protection domain of the application is not limited thereto, it is any Those familiar with the art can easily think of the change or the replacement in the technical scope that the application discloses, and should all contain It covers within the protection domain of the application.Therefore, the protection domain of the application should be based on the protection scope of the described claims.

Claims (12)

1. a kind of connection structure, which is characterized in that the connection structure includes the connecting shaft being set on the first place body, is set to Indent on second place body surface face and the accommodating space that can accommodate first place body, are set to the phase to form the accommodating space To the accommodating gap on two side；

The connecting shaft both ends appear in first place in vitro respectively, and the connecting shaft both ends are respectively provided with and are housed with described The matched insertion section of gap；The insertion section is plugged in respectively in the accommodating gap so that first place body is located at the appearance In emptying.

2. connection structure according to claim 1, which is characterized in that the connection structure further includes clamping structure, described Insertion section is fastened in the two lateral walls of the accommodating space by the clamping structure so that the connecting shaft is circumferentially fixed Setting.

3. connection structure according to claim 2, which is characterized in that the insertion section is cylinder, the clamping structure Including the first recession plane, first recession plane is located on the cylindrical surface of the insertion section, on the insertion section with it is described The distance between the opposite face of first recession plane and first recession plane are matched with the width of the accommodating gap；

First recession plane is located at the width side of the accommodating gap；The insertion section passes through the first recession plane card It is located in the accommodating gap so that the circumferentially fixed setting of connecting shaft.

4. connection structure according to claim 3, which is characterized in that the clamping structure further includes the second recession plane, Second recession plane is located at first recession plane opposite side, second recession plane and first recession plane The distance between matched with the width of the accommodating gap；

First recession plane is located at the side of the width side of the accommodating gap, and second recession plane is located at the appearance Set the other side of the width side of gap；The insertion section is fastened on by first recession plane and second recession plane So that the circumferentially fixed setting of connecting shaft in the accommodating gap.

5. connection structure according to claim 1, which is characterized in that the connection structure further includes two the first bearing pads Piece, and it is separately positioned on the outside of the two lateral walls of the accommodating space and corresponding with the accommodating gap heavy respectively Slot；

The connecting shaft both ends are respectively provided with the first supporting part corresponding with the deep gouge；

The outer ring of described two first carrying gaskets is matched with the deep gouge respectively, the endoporus point of described two first carrying gaskets It is not matched with first supporting part；

The endoporus of described two first carrying gaskets is respectively sleeved on first supporting part, described two first carrying gaskets Outer ring be fastened on respectively in the deep gouge, first supporting part pass through it is described two first carrying gaskets carrying described second Su Ti.

6. connection structure according to claim 5, which is characterized in that the connection structure further include be separately positioned on it is described The outside of the two lateral walls of accommodating space and respectively limit rib corresponding with the accommodating gap；The limit rib is close to institute The face for stating accommodating gap side forms the deep gouge.

7. connection structure according to claim 6, which is characterized in that the section of the limit rib is circular ring shape, the limit Position muscle in the accommodating gap side there is opening, the width of the opening to be less than the limit rib close to the accommodating gap side The diameter of inner ring surface.

8. connection structure according to claim 1, which is characterized in that the connection structure further includes two the second bearing pads Piece；The connecting shaft both ends are respectively provided with the second supporting part corresponding with the lateral surface of the two lateral walls of the accommodating space； It is respectively provided on second supporting part and the matched positioning shaft shoulder of the lateral surface of the two lateral walls of the accommodating space；It is described The endoporus of two second carrying gaskets is matched with second supporting part respectively；

The endoporus of described two second carrying gaskets is respectively sleeved on second supporting part；

Described two second carrying gaskets side offsets with the positioning shaft shoulder respectively, and described two second carrying gaskets side Respectively the first pre-determined distance is formed with the lateral surface of the two lateral walls of the accommodating space；Alternatively, described two second hold It carries lateral surface of the gasket side respectively with the two lateral walls of the accommodating space to offset, and described two second carrying gaskets one Side is formed with the second pre-determined distance with the positioning shaft shoulder respectively；Alternatively, described two second carryings gasket side respectively with institute It states positioning shaft shoulder to offset, and the lateral surface with the two lateral walls of the accommodating space offsets respectively.

9. connection structure according to claim 8, which is characterized in that the connecting shaft both ends are also respectively provided with and described The adjacent threaded portion of two supporting parts, the screw thread position is on the outside of second supporting part；

The connection structure further include respectively with matched two nuts in the threaded portion, described two nuts respectively with the spiral shell Line portion connects, and offsets respectively with described two second carrying gaskets and compress described two second carrying gaskets.

10. connection structure according to any one of claims 1 to 9, which is characterized in that first place body includes wheel body, institute It is car body to state the second place body.

11. connection structure according to claim 10, which is characterized in that first place body further includes motor, the company Spindle is the fixing axle of the motor；The wheel body is arranged on the rotor on the outside of the motor.

12. a kind of traveling apparatus, which is characterized in that the traveling apparatus includes any connection structure of claim 1 to 11.