CN208298292U - Machine core channel docking mechanism and financial self-service equipment - Google Patents

Abstract

The utility model provides a kind of machine core channel docking mechanism and financial self-service equipment, belong to finance device field, including the first passage plate for being slidably connected with cabinet along first path, second channel plate for being connect with machine core and for being docked with first passage plate, first set on first passage plate end docks boss, the first guiding surface set on the first docking boss inside edge, the second guiding surface set on second channel plate end and the second docking boss corresponding with the first docking boss and set on the second docking outside the boss edge and for being contacted with the first guiding surface, first path is perpendicular to front-rear direction.Machine core channel provided by the utility model docking mechanism and financial self-service equipment, can effectively avoid the problem that between the channel plate caused by the position deviation between channel plate toothing mutually mutually dry Wataru due to tooth butt occurs, first passage plate and the processing of second channel plate are low with assembling difficulty, and use cost is well controlled.

Description

Machine core channel docking mechanism and financial self-service equipment

Technical field

The utility model belongs to technical field of financial equipment, is to be related to a kind of machine core channel docking mechanism more specifically And the financial self-service equipment comprising the machine core channel docking mechanism.

Background technique

Financial self-service equipment is used widely because of its excellent autonomous trading function in financial transaction field.In self-service gold Melt in equipment core module, to be convenient for safeguarding, upper machine core and lower machine core are generally respectively designed to independent module, then pass through again Guide rail mechanism is installed in cabinet, when maintenance, can respectively be safeguarded machine core hauling-out cabinet body by guide rail mechanism.In order to be formed Unified transfer passage needs a machine core channel docking structure to connect the transfer passage of upper machine core and lower machine core in structure It picks up and, which is also to be formed by multiple channel plates that can be mutually butted, and each channel plate all has pair The toothing connect, but due to the influence of the factors such as cabinet dimensions, installation accuracy, machine core is being installed in cabinet and is making channel The toothing to be happened occasionally between channel plate during docking interferes, and then the problems such as tooth butt occurs, influences machine core Installation is also possible to damage docking structure when serious.

Utility model content

The purpose of this utility model is to provide a kind of machine core channel docking mechanisms, to solve machine existing in the prior art The technical issues of channel docking structure is easy to happen tooth butt when core is installed.

In order to achieve the above purposes, the technical solution adopted by the utility model is: provides a kind of machine core channel docking mechanism, uses In connecting respectively with machine core and cabinet, the machine core is slidably connected along the longitudinal direction with the cabinet, comprising: is used for and the machine First passage plate that cabinet is slidably connected along first path is docked for connect and being used for the machine core with the first passage plate Second channel plate, set on first passage plate end first docking boss, be set to it is described first docking boss inner side edge First guiding surface of edge is set to second channel plate end and the second docking boss corresponding with the first docking boss And the second guiding surface set on the second docking outside the boss edge and for being contacted with first guiding surface, it is described First path is perpendicular to front-rear direction.

Further, it is oblique to be respectively equipped with first guiding for the forward edge and posterior edges of the first docking boss Face, the forward edge and posterior edges of the second docking boss are respectively equipped with second guiding surface.

Further, the front end positioned at first guiding surface of the first docking boss forward edge is forwardly convex In the front end face of the first passage plate, positioned at the rear end of first guiding surface of the first docking boss posterior edges The rear end face of the first passage plate is protruded from backward.

Further, positioned at the front end and described the of second guiding surface of the second docking boss forward edge The front end face of two channel plates is concordant, rear end and institute positioned at second guiding surface of the second docking boss posterior edges The rear end face for stating second channel plate is concordant.

Further, the front end positioned at second guiding surface of the second docking boss forward edge is forwardly convex In the front end face of the second channel plate, positioned at the rear end of second guiding surface of the second docking boss posterior edges The rear end face of the second channel plate is protruded from backward.

Further, positioned at the front end and described the of first guiding surface of the first docking boss forward edge The front end face of one channel plate is concordant, rear end and institute positioned at first guiding surface of the first docking boss posterior edges The rear end face for stating first passage plate is concordant.

Further, first passage plate two sides are respectively equipped with connecting plate, and the connecting plate is equipped with the guiding of bar shaped Hole, the long axis of the pilot hole are parallel to the first path；The cabinet is equipped with for leading with what pilot hole was slidably connected To pin shaft structure.

Further, the guide pin structure includes the interior spiral shell for being set on the cabinet and running through the pilot hole Line sleeve, the screw for connecting with the inner thread sleeve between the screw and the inner thread sleeve and are located at Upper clamp plate above the connecting plate and the lower clamp plate for being sheathed on the inner thread sleeve periphery and being located at below the connecting plate, The outer diameter of the upper clamp plate and the lower clamp plate is all larger than the width of the pilot hole.

Further, machine core channel docking mechanism further include for set on the first passage plate and the cabinet it Between Self-resetting elastic component, the Self-resetting elastic component be set to the guide pin structure lower section.

The beneficial effect of machine core channel provided by the utility model docking mechanism is: compared with prior art, this is practical Novel machine core channel docking mechanism, corresponding same lateral position is respectively set first pair on first passage plate and second channel plate Boss and the second docking boss are connect, and guiding surface is respectively set on two docking boss, is slided in cabinet when machine core When, if the position of first passage plate and second channel plate does not have deviation, boss does not work, the tooth on two channel plates Structure can be docked smoothly；If there is deviation in the position of first passage plate and second channel plate, and deviation reaches first passage plate When soon interference with the toothing on second channel plate, then the first guiding surface and the second guiding surface contact with each other and squeeze It presses, the second docking boss on machine core pushes the first docking boss to move along first path, and then drives entire first passage plate It is moved along first path, gradually adjusts the position of first passage plate, when the inner face of the first docking boss docks boss with second Outer end face contact after, the toothing on toothing and the second channel plate on first passage plate can be made not do between each other It relates to and is completely embedded into.The structure of machine core channel provided by the utility model docking mechanism is simple, can effectively avoid because of channel plate Between between channel plate caused by position deviation toothing mutually mutually dry Wataru and the problem of tooth butt occurs, without single on cabinet or machine core Other structures for being adjusted solely are set, and first passage plate and the processing of second channel plate are low with assembling difficulty, use cost It is well controlled.

The utility model also provides a kind of financial self-service equipment, logical including the machine core, the cabinet and above-mentioned machine core Road docking mechanism.

The beneficial effect of financial self-service equipment provided by the utility model is: compared with prior art, the utility model Financial self-service equipment can be mentioned effectively by using the above-mentioned machine core channel docking mechanism that can effectively avoid tooth butt problem from occurring High machine core docks efficiency with cabinet, avoids the problem that docking structure damage causes to influence paper currency transmission, improves equipment Stability in use reduces maintenance cost.

Detailed description of the invention

It, below will be to embodiment or the prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing needed in description is briefly described, it should be apparent that, the accompanying drawings in the following description is only that this is practical new Some embodiments of type for those of ordinary skill in the art without any creative labor, can be with It obtains other drawings based on these drawings.

Fig. 1 is the installation schematic illustration for the financial self-service equipment that an embodiment of the present invention provides；

Fig. 2 is the schematic view of the front view for the machine core channel docking mechanism that an embodiment of the present invention provides；

Fig. 3 is the portion the A enlarged drawing of Fig. 2；

Fig. 4 is the schematic perspective view for the machine core channel docking mechanism that another embodiment of the utility model provides；

Fig. 5 is the schematic perspective view of first passage plate in Fig. 4；

Fig. 6 is the schematic perspective view of second channel plate in Fig. 4；

Fig. 7 is the use state diagram one for the machine core channel docking mechanism that another embodiment of the utility model provides；

Fig. 8 is the use state diagram two for the machine core channel docking mechanism that another embodiment of the utility model provides.

Wherein, each appended drawing reference in figure:

1- machine core；2- cabinet；3- first passage plate；The first plate body of 301-；The first opposing teeth of 302-；4- second channel plate； The second plate body of 401-；The second opposing teeth of 402-；5- first docks boss；The first guiding surface of 6-；7- second docks boss；8- Two guiding surfaces；9- connecting plate；10- pilot hole；11- guide pin structure；1101- inner thread sleeve；1102- screw；1103- Upper clamp plate；1104- lower clamp plate；12- reseting pressuring spring

Specific embodiment

In order to which technical problem to be solved in the utility model, technical solution and beneficial effect is more clearly understood, with Lower combination accompanying drawings and embodiments, the present invention will be further described in detail.It should be appreciated that specific reality described herein It applies example to be only used to explain the utility model, is not used to limit the utility model.

It should be noted that it can be directly another when element is referred to as " being fixed on " or " being set to " another element On one element or indirectly on another element.When an element is known as " being connected to " another element, it can To be directly to another element or be indirectly connected on another element.

It is to be appreciated that term " length ", " width ", "upper", "lower", "front", "rear", "left", "right", "vertical", The orientation or positional relationship of the instructions such as "horizontal", "top", "bottom" "inner", "outside" is that orientation based on the figure or position are closed System, is merely for convenience of describing the present invention and simplifying the description, rather than the device or element of indication or suggestion meaning are necessary It with specific orientation, is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features." multiple ", " several " are meant that two in the description of the present invention, It is a or more than two, unless otherwise specifically defined.

Also referring to Fig. 1, Fig. 2, Fig. 7 and Fig. 8, now machine core channel provided by the utility model docking mechanism is said It is bright.Machine core channel docking mechanism, for connecting respectively with machine core 1 and cabinet 2, machine core 1 slides along the longitudinal direction with cabinet 2 Connection, including for being slidably connected with cabinet 2 along first path first passage plate 3, for connect with machine core 1 and being used for and the The second channel plate 4 of one channel plate 3 docking docks boss 5 set on the first of 3 end of first passage plate, is convex set on the first docking First guiding surface 6 of 5 inside edge of platform is set to 4 end of second channel plate and second docking corresponding with the first docking boss 5 Boss 7 and the second guiding surface 8 for docking 7 outer ledge of boss set on second and being used to contact with the first guiding surface 6, first Path orthogonal is in front-rear direction.

Specifically, direction arrow is oriented to forward direction in Fig. 1, first path be both perpendicular to front-rear direction and Path in downward direction.

Machine core channel provided by the utility model docking mechanism is compared with prior art, logical in first passage plate 3 and second The first docking boss 5 and the second docking boss 7 is respectively set in corresponding same lateral position on guidance tape 4, and in two docking boss On guiding surface is respectively set, when machine core 1 slides in cabinet 2, if first passage plate 3 and second channel plate 4 Position does not have deviation, then boss does not work, and the toothing on two channel plates can be docked smoothly；If first passage plate 3 There is deviation with the position of second channel plate 4, and the toothing that deviation reaches on first passage plate 3 and second channel plate 4 is soon done When relating to, then the first guiding surface 6 and the second guiding surface 8 contact with each other and squeeze, the second docking boss 7 on machine core 1 It pushes the first docking boss 5 to move along first path, and then entire first passage plate 3 is driven to move along first path, gradually adjust The position of whole first passage plate 3, and cut the toothing of second channel plate 4 gradually in the toothing of first passage plate 3, when After the inner face of one docking boss 5 docks the outer end face contact of boss 7 with second, can make toothing on first passage plate 3 with Toothing on second channel plate 4 is not interfered between each other and is completely embedded into.Machine core channel pair provided by the utility model The structure of connection mechanism is simple, and toothing mutually mutually does Wataru between channel plate caused by capable of effectively avoiding because of position deviation between channel plate And the problem of tooth butt occurs, it is not necessary that other structures for being adjusted, first passage plate are separately provided on cabinet or machine core Low with assembling difficulty with the processing of second channel plate, use cost is well controlled.

It should be noted that the inner face of the first docking boss 5 is concordant with the inner end of the first guiding surface 6, the second docking The outer end face of boss 7 is concordant with the outer end of the second guiding surface 8, when the inner face of the first docking boss 5 docks boss 7 with second Outer end face contact when, i.e., guiding surface has been completed to be oriented to and has been separated from each other.

Specifically, in order to guarantee that two guiding surfaces preferably can be bonded and be oriented to, the first guiding surface 6 is led with second Gradient to inclined-plane 8 is consistent.

Specifically, referring to Figure 2 together, Fig. 4 to Fig. 8, as machine core channel provided by the utility model docking mechanism A kind of specific embodiment in order to simplify structure, while guaranteeing that first passage plate 3 is able to carry out effective transverse motion, One first docking boss 5 is arranged in one channel plate, 3 one end, and one second docking boss 7 is arranged in one end of second channel plate 4.

Specifically, referring to Figure 2 together, Fig. 4 to Fig. 8, as machine core channel provided by the utility model docking mechanism A kind of specific embodiment, first passage plate 3 is including the first plate body 301 and is respectively arranged on 301 the upper side and lower side of the first plate body First opposing teeth 302, multiple first opposing teeths 302 positioned at 301 the same side of the first plate body are distributed along first path；Second channel Plate 4 includes the second plate body 401 and the second opposing teeth 402 for being respectively arranged on 401 the upper side and lower side of the second plate body, is located at the second plate body Multiple second opposing teeths 402 of 401 the same sides are distributed along first path.When two channel plates smoothly dock, it is located at the The first opposing teeth 302 and the second opposing teeth 402 between one plate body 301 and the second plate body 401 are alternately distributed along first path；? It is to be located at first when two channel plates interfere when being not provided with the first docking boss 5 and the second docking boss 7 The first opposing teeth 302 and the second opposing teeth 402 between plate body 301 and the second plate body 401 occur mutually to collide.

Specifically, one kind referring to Figure 4 together to Fig. 8, as machine core channel provided by the utility model docking mechanism Specific embodiment, in order to facilitate between cog docking, on the direction for being parallel to first path, the width of the first opposing teeth 302 is big In the width of the second opposing teeth 402, the space width of the space width of the first opposing teeth 302 less than the second opposing teeth 402.

Specifically, referring to Figure 2 together, Fig. 4 to Fig. 8, as machine core channel provided by the utility model docking mechanism A kind of specific embodiment, the first docking boss 5 is convex for the first opposing teeth 302 in the direction perpendicular to first path, the The top end face and bottom face of two docking boss 7 can be set to respectively with second opposing teeth 402 that is located at 401 two sides of the second plate body Top end face is concordant with bottom face.It certainly, can also be right according to the length adjustment second of the first opposing teeth 302 and the second opposing teeth 402 The length for connecing boss 7 and the first docking boss 5, guarantees that the first opposing teeth 302 and the second opposing teeth 402 are mutually embedded in after docking Depth reach requirement.

Further, referring to Figure 4 together, specific as one kind of machine core channel provided by the utility model docking mechanism Embodiment, the forward edge and posterior edges of the first docking boss 5 are respectively equipped with the first guiding surface 6, the second docking boss 7 Forward edge and posterior edges be respectively equipped with the second guiding surface 8.It is oblique that guiding is respectively set in the front and rear sides of docking boss Face, no matter when promoting machine core 1 or extraction machine core 1, guiding surface can play good guiding role.

In order to guarantee that docking inclined-plane before tooth butt occurs just has played guiding role, docks boss and guiding surface can To be arranged in the following way:

Further, a kind of specific embodiment as machine core channel provided by the utility model docking mechanism, is located at The forwardly convex front end face (i.e. the in first passage plate 3 in the front end of first guiding surface 6 of the first docking 5 forward edge of boss The forwardly convex front end face in first passage plate 3 of front end face of one docking boss 5), positioned at the first docking 5 posterior edges of boss The rear end of first guiding surface 6 protrude from backward first passage plate 3 rear end face (i.e. first docking boss 5 rear end face backward Protrude from the front end face of first passage plate 3).

Based on the set-up mode of above-mentioned first docking boss 5 and the first guiding surface 6, it is located at 7 front side of the second docking boss The front end of second guiding surface 8 at edge and the front end face of second channel plate 4 it is concordant (i.e. second dock the front end face of boss 7 and The front end face of second channel plate 4 is concordant), positioned at the rear end and second of the second guiding surface 8 of the second docking 7 posterior edges of boss The rear end face of channel plate 4 is concordant (rear end face of the i.e. second docking boss 7 is concordant with the rear end face of first passage plate 3).

Based on the set-up mode of above-mentioned first docking boss 5 and the first guiding surface 6, may also set up are as follows: be located at second pair Connect forwardly convex front end face (the i.e. second docking in second channel plate 4 in front end of the second guiding surface 8 of 7 forward edge of boss The forwardly convex front end face in second channel plate 4 of the front end face of boss 7), second positioned at the second docking 7 posterior edges of boss leads To the rear end on inclined-plane 8 protrude from backward second channel plate 4 rear end face (i.e. second docking boss 7 rear end face protrude from backward The front end face of second channel plate 4).

Further, Fig. 4, Fig. 6 are please referred to Fig. 8, one as machine core channel provided by the utility model docking mechanism Kind specific embodiment, it is forwardly convex logical in second positioned at the front end of the second guiding surface 8 of the second docking 7 forward edge of boss The front end face (the forwardly convex front end face in second channel plate 4 of front end face of the i.e. second docking boss 7) of guidance tape 4, is located at second The rear end for docking the second guiding surface 8 of 7 posterior edges of boss protrudes from (i.e. second pair of rear end face of second channel plate 4 backward Connect the forwardly convex rear end face in second channel plate 4 of rear end face of boss 7).

Based on the set-up mode of above-mentioned second docking boss 7 and the second guiding surface 8, it is located at 5 front side of the first docking boss The front end of first guiding surface 6 at edge and the front end face of first passage plate 3 it is concordant (i.e. first dock the front end face of boss 5 and The front end face of first passage plate 3 is concordant), positioned at the rear end and first of the first guiding surface 6 of the first docking 5 posterior edges of boss The rear end face of channel plate 3 is concordant (rear end face of the i.e. first docking boss 5 is concordant with the rear end face of first passage plate 3).

The set-up mode of above two docking boss and guiding surface can guarantee that the first guiding surface 6 and the second guiding are oblique Face 8 can be before the first opposing teeth 302 and the second opposing teeth 404 contact with regard to first being contacted and being oriented to.

Further, refering to Fig. 2 to Fig. 5, Fig. 7 and Fig. 8, as machine core channel provided by the utility model docking mechanism A kind of specific embodiment, 3 two sides of first passage plate are respectively equipped with connecting plate 9, and connecting plate 9 is equipped with the pilot hole 10 of bar shaped, The long axis of pilot hole 10 is parallel to first path；Cabinet 2 is equipped with the guide pin structure for being slidably connected with pilot hole 10 11.Above-mentioned guide frame is simple, also has guide function while realizing that first passage plate 3 and cabinet 2 assemble.

Further, please refer to figs. 2 and 3, a kind of tool as machine core channel provided by the utility model docking mechanism Body embodiment, guide pin structure 11 include for being set on cabinet 2 and running through the inner thread sleeve 1101 of pilot hole 10, use In the screw 1102 being connect with inner thread sleeve 1101, it is set between screw 1102 and inner thread sleeve 1101 and is located at connecting plate The upper clamp plate 1103 of 9 tops and the lower clamp plate 1104 for being sheathed on 1101 periphery of inner thread sleeve and being located at below connecting plate 9, upper folder The outer diameter of plate 1103 and lower clamp plate 1104 is all larger than the width of pilot hole 10.It is formed and is used between upper clamp plate 1103 and lower clamp plate 1104 In the space for being fitted and connected 9 upper and lower surface of plate, first passage plate 3 is prevented to be subjected to displacement in the up-down direction, while inner screw sheath Cylinder 1101 is realized to be slidably matched with pilot hole 10.11 overall structure of guide pin structure is simple, and stability in use is good, and first Channel plate 3 is only capable of being subjected to displacement in the guide direction of pilot hole 10.

Further, please refer to figs. 2 and 3 together, one as machine core channel provided by the utility model docking mechanism Kind specific embodiment, in order to guarantee the reliability of docking, machine core channel docking mechanism further includes for being set to first passage plate 3 Self-resetting elastic component between cabinet 2, Self-resetting elastic component are set to the lower section of guide pin structure 11.By taking the visual angle Fig. 2 as an example, When second channel plate 4 is pushed ahead and first passage plate 3 is made gradually to move right, Self-resetting elastic component makes the first docking Protrusion 5 is close to the second docking protrusion 7 to the left always, if the second channel plate 4 is docking corresponding with first passage plate 3 instantly If, then Self-resetting elastic component can make to fit closely on first path direction between two channel plates, not be subjected to displacement, and guarantee Service performance is stablized；If the second channel plate 4 is not docking corresponding with first passage plate 3 instantly, this is second logical Guidance tape 4 moves forward, and separates with first passage plate 3 instantly, effect of the first passage plate 3 in Self-resetting elastic component instantly Under be returned to initial position, first passage plate 3, which waits, instantly moves down the docking of second channel plate 4.The Self-resetting elastic component can For the Deviation Design that can occur in the moveable side of first passage plate 3, there are sufficient adjustment spaces, are docking each time simultaneously First passage plate 3 can be in initial position after separation, further increase docking reliability.

Further, please refer to figs. 2 and 3, a kind of tool as machine core channel provided by the utility model docking mechanism Body embodiment, Self-resetting elastic component are that one end is used for 3 end abutment of first passage plate and the other end is used to abut with cabinet 2 Reseting pressuring spring 12, reseting pressuring spring 12 be set to guide pin structure 11 lower section.12 structure of reseting pressuring spring is simple, easy to assembly, Use cost is low.

Referring to Fig. 1, the utility model also provides a kind of financial self-service equipment, the financial self-service equipment include machine core, The cabinet and above-mentioned machine core channel docking mechanism.

Financial self-service equipment provided by the utility model, by using the above-mentioned machine that can effectively avoid tooth butt problem from occurring Core channel docking mechanism, can effectively improve machine core and cabinet docks efficiency, and docking structure damage is avoided to cause to influence bank note to pass Defeated problem occurs, and improves the stability in use of equipment, reduces maintenance cost.

Further, refering to fig. 1, as a kind of specific embodiment of financial self-service equipment provided by the utility model, The front end and rear end of machine core 1 and the front end of cabinet 2 and rear end are respectively equipped with machine core channel docking mechanism, are pushed into machine in machine core 1 Uniformity after channel docking can be effectively ensured after cabinet 2.Specifically, machine core 1 shown in figure is lower machine core, and cabinet 2 is insurance Cabinet.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (10)

1. machine core channel docking mechanism, for connecting respectively with machine core and cabinet, the machine core and the cabinet are along the longitudinal direction Be slidably connected, it is characterised in that: including for being slidably connected with the cabinet along first path first passage plate, be used for and institute State machine core connection and for docked with the first passage plate second channel plate, set on the first of first passage plate end Dock boss, set on it is described first docking boss inside edge the first guiding surface, be set to second channel plate end and With it is described first docking boss it is corresponding second docking boss and be set to it is described second docking outside the boss edge and be used for and institute The second guiding surface of the first guiding surface contact is stated, the first path is perpendicular to front-rear direction.

2. machine core channel as described in claim 1 docking mechanism, it is characterised in that: the forward edge of the first docking boss And posterior edges are respectively equipped with first guiding surface, the forward edge and posterior edges of the second docking boss are set respectively There is second guiding surface.

3. machine core channel as claimed in claim 2 docking mechanism, it is characterised in that: be located at the first docking boss front side edge It is convex to be located at first docking for the forwardly convex front end face in the first passage plate in the front end of first guiding surface of edge The rear end of first guiding surface of platform posterior edges protrudes from the rear end face of the first passage plate backward.

4. machine core channel as claimed in claim 3 docking mechanism, it is characterised in that: be located at the second docking boss front side edge The front end of second guiding surface of edge is concordant with the front end face of the second channel plate, after being located at the second docking boss The rear end of second guiding surface of side edge is concordant with the rear end face of the second channel plate.

5. machine core channel as claimed in claim 2 docking mechanism, it is characterised in that: be located at the second docking boss front side edge It is convex to be located at second docking for the forwardly convex front end face in the second channel plate in the front end of second guiding surface of edge The rear end of second guiding surface of platform posterior edges protrudes from the rear end face of the second channel plate backward.

6. machine core channel as claimed in claim 5 docking mechanism, it is characterised in that: be located at the first docking boss front side edge The front end of first guiding surface of edge is concordant with the front end face of the first passage plate, after being located at the first docking boss The rear end of first guiding surface of side edge is concordant with the rear end face of the first passage plate.

7. machine core channel as described in claim 1 docking mechanism, it is characterised in that: first passage plate two sides are respectively equipped with Connecting plate, the connecting plate are equipped with the pilot hole of bar shaped, and the long axis of the pilot hole is parallel to the first path；The machine Cabinet is equipped with the guide pin structure for being slidably connected with pilot hole.

8. machine core channel as claimed in claim 7 docking mechanism, it is characterised in that: the guide pin structure includes for setting In on the cabinet and through the pilot hole inner thread sleeve, the screw for being connect with the inner thread sleeve, be set to Between the screw and the inner thread sleeve and be located at the connecting plate above upper clamp plate and be sheathed on the inner screw sheath The outer diameter of cylinder periphery and the lower clamp plate being located at below the connecting plate, the upper clamp plate and the lower clamp plate is all larger than the guiding The width in hole.

9. machine core channel as claimed in claim 7 docking mechanism, it is characterised in that: machine core channel docking mechanism further includes Self-resetting elastic component for being set between the first passage plate and the cabinet, the Self-resetting elastic component are set to described lead To the lower section of pin shaft structure.

10. financial self-service equipment, it is characterised in that: including the machine core, the cabinet and such as any one of claim 1-9 The machine core channel docking mechanism.