CN203535656U - Card traction device of unattended card sender capable of adapting to different card thicknesses - Google Patents

Abstract

The utility model discloses a card traction device of an unattended card sender capable of adapting to different card thicknesses. The card traction device comprises a driving mechanism and a traction mechanism, wherein the traction mechanism comprises at least two pairs of upper rollers and lower rollers which are vertically arranged up and down, the lower rollers are erected on a side plate of the card sender and connected with the driving mechanism and rotate under driving of the driving mechanism, the upper part of the side plate is provided with vertically set guide holes, and the upper rollers are inserted in the guide holes and erected on the side plate. The side plate is further provided with springs, and the springs are connected with the upper rollers respectively. The upper rollers press the springs under the action of a pushing force generated when a card is inserted among and goes through the rollers, and the upper rollers are enabled to float up and down along the guide holes, thereby adjusting the gap between the upper roller and the lower roller so as to adapt to passage of cards with different thicknesses. The card traction device is simple in structure, can adapt to passage of cards with different thicknesses, and has compatibility for the cards with different thicknesses.

Description

A kind of card draw-gear that adapts to the unmanned card sender that different cards is thick

Technical field

The utility model relates to a kind of parts of card sender, specifically refers to a kind of card draw-gear that adapts to the unmanned card sender that different cards is thick.

Background technology

The a large amount of unmanned card senders that use of vehicle pass-through management of highway, community, vehicle by time card sender card is sent to out to bayonet socket automatically.Card draw-gear as card sender vitals plays the effect that guide card transmits.

The card draw-gear of existing unmanned card sender generally comprises driving mechanism and haulage gear, haulage gear comprises at least two pairs of upper roll wheels that be arranged in parallel up and down and lower roll wheel, upper roll wheel and lower roll wheel are all erected on the card path side plate of card sender, lower roll wheel is connected with driving mechanism, under driving mechanism drives, rotate, thereby the card entering between upper roll wheel and lower roll wheel is forwarded.

Upper roll wheel in the card draw-gear of existing unmanned card sender and lower roll wheel are to be all inlaid on card path side plate by bearing, upper roll wheel and lower roll wheel all can only circumferentially rotate, and can not fluctuate, be that gap between upper roll wheel and lower roll wheel is changeless, so cause a kind of card draw-gear for the card of specific thicknesses, the card of different-thickness not to be had to compatibility.The card that so transmits a kind of thickness just needs the card draw-gear of a set of correspondence to implement, and causes production cost greatly to improve.Simultaneously because the gap between upper roll wheel and lower roll wheel need to be consistent with card thickness, also higher to the requirement on machining accuracy of product, improve production cost.

Utility model content

The purpose of this utility model is to provide a kind of card draw-gear that adapts to the unmanned card sender that different cards is thick, and this card draw-gear is simple in structure, and the card that can adapt to different-thickness is current, and the card of different-thickness is all had to compatibility.

Above-mentioned purpose of the present utility model is achieved through the following technical solutions: a kind of card draw-gear that adapts to the unmanned card sender that different cards is thick, comprise driving mechanism and haulage gear, haulage gear comprises at least two pairs of upper roll wheels that be arranged in parallel up and down and lower roll wheel, lower roll wheel is erected on the side plate of card sender, be connected with driving mechanism, under driving, driving mechanism rotates, it is characterized in that: the top of described side plate has the pilot hole of vertically offering, described upper roll wheel is inserted in pilot hole, be erected on side plate, spring is also installed on described side plate, spring is connected with upper roll wheel respectively, top pressure spring under the thrust that described upper roll wheel produces when current between card insertion running roller, upper roll wheel can be fluctuated along pilot hole, thereby adjust the gap between upper roll wheel and lower roll wheel, to adapt to the card of different-thickness, pass through.

Card draw-gear of the present utility model, by the different in nature pilot hole arranging on spring and side plate, can float with respect to lower roll wheel upper roll wheel, adjusts gap between the two, to reach the current object of card of different-thickness.

In the utility model, described spring is leaf spring.

In the utility model, described upper roll wheel and lower roll wheel are three pairs, and three pairs of running rollers are left and right shape and are arranged side by side.

In the utility model, described driving mechanism comprises motor, belt wheel and gear, on the output shaft of motor, be set with belt wheel, in three lower roll wheels, be positioned on the roll shaft of lower roll wheel of the leftmost side and be set with belt wheel, on the roll shaft of the lower roll wheel in the middle part of being positioned at, be set with belt wheel and gear simultaneously, be positioned on the roll shaft of lower roll wheel of the rightmost side and be set with gear, between three belt wheels, by belt, be connected, by belt, carry out transferring power, between two gears, by transmission gear, be connected, by transmission gear, carry out transferring power.

In the utility model, described upper roll wheel and lower roll wheel are silica gel running roller.

Data for correct control card, the utility model can also be done following improvement: described card draw-gear also comprises direction control panel, described direction control panel is hinged on the side plate of card sender by jointed shaft, and between a pair of upper roll wheel of the leftmost side and lower roll wheel and other are to upper roll wheel and lower roll wheel, the side that direction control panel enters bayonet socket near card sender has enters card inclined-plane under being tilted to, with enter card inclined-plane back to one side be the card inclined-plane, top under being tilted to, it is described that to enter Yu Dingka inclined-plane, card inclined-plane oblique contrary, described enters card inclined-plane over against a pair of upper roll wheel of the leftmost side and the gap between lower roll wheel, described direction control panel can rotate around jointed shaft from entering when bayonet socket direction forward moves ahead at card under card thrust, thereby card can be passed through smoothly, and withstand side plate by upper end when card oppositely retreats, keep direction control panel motionless, the restriction of simultaneously blocking inclined-plane by top drops card downwards.

Compared with prior art, the utility model is not only simple in structure, and can adjust the gap between lower roll wheel and upper roll wheel, to adapt to the card of different-thickness, passes through, and the card of different-thickness is all had to compatibility, has good marketing and application prospect.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the utility model is described in further details.

Fig. 1 is the one-piece construction figure of the utility model card draw-gear;

Fig. 2 is the one-piece construction figure of another angle of the utility model card draw-gear;

Fig. 3 is the structural drawing of the utility model card draw-gear latus inframedium;

Fig. 4 is that the duty of the utility model card draw-gear is with reference to figure mono-;

Fig. 5 is that the duty of the utility model card draw-gear is with reference to figure bis-;

Fig. 6 is that the duty of the utility model card draw-gear is with reference to figure tri-;

Fig. 7 is that the duty of the utility model card draw-gear is with reference to figure tetra-;

Fig. 8 be the duty of the utility model card draw-gear with reference to figure five, now card is current smoothly;

Fig. 9 be the duty of the utility model card draw-gear with reference to figure six, now card oppositely moves, and contacts direction control panel;

Figure 10 be the duty of the utility model card draw-gear with reference to figure seven, now card falls into hair card recycling box.

Description of reference numerals

1, lower roll wheel; 2, upper roll wheel; 3, side plate; 31, pilot hole; 4, spring; 5, motor;

6, belt wheel; 7, belt; 8, gear; 9, transmission gear; 10, direction control panel;

10a, enter card inclined-plane; 10b, card inclined-plane, top; 11, the first optoelectronic switch; 12, the second optoelectronic switch;

13, the 3rd optoelectronic switch; 100, card

Embodiment

A kind of card draw-gear that adapts to the unmanned card sender that different cards is thick as shown in Figure 1 to Figure 3, comprise driving mechanism and haulage gear, haulage gear comprises three pairs of upper roll wheels that be arranged in parallel up and down 2 and lower roll wheel 1, the three pairs of upper roll wheels 2 and lower roll wheel 1 are left and right shape and are arranged side by side, every a pair of upper roll wheel 2 and lower roll wheel 1 all be arranged in parallel up and down, upper roll wheel 2 and lower roll wheel 1 are silica gel running roller, the two boards of the side plate 3 of card sender for vertically be arrangeding in parallel, lower roll wheel 1 is erected on the side plate 3 of card sender, be connected with driving mechanism, under driving, driving mechanism rotates, the top of two blocks of side plates 3 all has three special-shaped pilot holes 31 of vertically offering, for three pairs of pilot holes 31, three upper roll wheel 2 correspondences are inserted in three pairs of pilot holes 31, with this, be erected on side plate 3, a spring 4 is also all installed on two side plates 3, spring 4 adopts leaf spring, the bottom of leaf spring is fixed by screws on side plate 3, top is connected with upper roll wheel 2 respectively, concrete connected mode is that leaf spring is connected with the bearing of three upper roll wheels 2 respectively, when off working state, by leaf spring, be pressed on the bearing of three groups of running rollers, when off working state upper roll wheel 2 under the elastic force effect of leaf spring in unsteady least significant end, top pressure spring 4 under the thrust that this upper roll wheel 2 produces when current between card 100 insertion running rollers, upper roll wheel 2 can be fluctuated along pilot hole 31, thereby adjust the gap between upper roll wheel 2 and lower roll wheel 1, to adapt to the card 100 of different-thickness, pass through.

Described driving mechanism comprises motor 5, belt wheel 6 and gear 8, on the output shaft of motor 5, be set with belt wheel 6, in three lower roll wheels 1, be positioned on the roll shaft of lower roll wheel 1 of the leftmost side and be set with belt wheel 6, on the roll shaft of the lower roll wheel 1 in the middle part of being positioned at, be set with belt wheel 6 and gear 8 simultaneously, be positioned on the roll shaft of lower roll wheel 1 of the rightmost side and be set with gear 8, between three belt wheels 6, by belt 7, be connected, by belt 7, carry out transferring power, between two gears 8, by transmission gear 9, be connected, by transmission gear 9, carry out transferring power.

Lower three groups of lower roll wheels 1 in the card draw-gear of the present embodiment are inlaid on the side plate 3 of card sender by bearing, can only self circumferentially rotate, and the upper roll wheel 2 of upper three groups is located on side plate 3 by bearing bracket stand, except can self rotating, can also fluctuate with respect to lower roll wheel 1.When there is no the off working state of transfer card 100, upper roll wheel 2 under the elastic force effect of leaf spring in unsteady least significant end position.During current card 100, according to the card 100 of different-thickness, card 100 jack-up springs 4 move up, and the elastic force that upper roll wheel 2 is broken through spring 4 is upwards lifted the displacement of doing respective thickness, thereby can regulate operation to the card 100 of different-thickness.

Described card draw-gear also comprises direction control panel 10, direction control panel 10 is hinged on the side plate 3 of card sender by jointed shaft, and between a pair of upper roll wheel of the leftmost side and lower roll wheel and other are to upper roll wheel and lower roll wheel, the side that direction control panel 10 enters bayonet socket near card sender has enters card inclined-plane 10a under being tilted to, with enter card inclined-plane 10a back to one side be card inclined-plane, the top 10b under being tilted to, enter card inclined-plane 10a oblique contrary with top card inclined-plane 10b, enter card inclined-plane 10a over against a pair of upper roll wheel of the leftmost side and the gap between lower roll wheel, direction control panel 10 can rotate around jointed shaft when card 100 moves ahead from entering bayonet socket direction forward under card 100 thrust, thereby card 100 can be passed through smoothly, and withstand side plate by upper end when card 100 oppositely retreats, keep direction control panel motionless, the restriction of simultaneously blocking inclined-plane 10b by top drops card 100 downwards.The present embodiment be take and entered bayonet socket direction as forward shown in Fig. 1, with the party be reverse in the opposite direction.

The course of work of this card draw-gear is as shown in Fig. 4 to Figure 10, consult Fig. 4 to Fig. 7, during current card 100, card 100 enters bayonet socket guide by being positioned at card machine triggers the first optoelectronic switch 11, motor 5 drives three lower roll wheels 1 in below to clockwise rotate, card 100 is driven and forwards, the upper roll wheel 2 above that is positioned at one group of running roller of the leftmost side is overcome to the pressure jack-up of spring 4, gap between upper roll wheel 2 and lower roll wheel 1 can be passed for card 100, serve card 100 to move on through the gap between upper roll wheel 2 and lower roll wheel 1, what simultaneously card 100 was pushed direction control panel 10 open in the process of moving ahead enters card inclined-plane 10a, direction control panel 10 can be rotated counterclockwise around jointed shaft, card 100 continues displacement forward under running roller drives to be pushed direction control panel 10 open and continues to move ahead, enter and pass one group of running roller in the middle of being positioned at, until trigger the second optoelectronic switch 12 that is located at one group of running roller rear in the middle of being positioned at, motor 5 stops operating, direction control panel 10 homings, card sender carries out data judgement by control system to card 100.

When card 100 data correct judgment, control system is sent instruction to motor 5, and motor 5 forward rotation drive card 100 to continue to pass through forward by being positioned at one group of running roller at middle part with the one group of running roller that is positioned at the rightmost side, card are sent, as shown in Figure 8.

When card 100 data are out of one's reckoning, control system is sent instruction to motor 5, motor 5 rotates backward, by being positioned at one group of running roller at middle part, drive card 100 to be positioned at backward, card 100 touches card inclined-plane, the top 10b of direction control panel 10, and now because the upper end of direction control panel 10 is withstood side plate and kept motionless, card 100 drops downwards in the restriction of top card inclined-plane 10b, fall into the card recycling box of card sender, as shown in Figure 9, Figure 10.

As the conversion of the present embodiment, the upper roll wheel 2 of haulage gear and lower roll wheel 1 can be also at least two pairs of two pairs or four equities, and in multipair running roller, every a pair of upper roll wheel 2 and lower roll wheel 1 all be arranged in parallel up and down.

Above-described embodiment of the present utility model is not the restriction to the utility model protection domain; embodiment of the present utility model is not limited to this; all this kind is according to foregoing of the present utility model; according to ordinary skill knowledge and the customary means of this area; do not departing under the above-mentioned basic fundamental thought of the utility model prerequisite; the modification of other various ways that the utility model said structure is made, replacement or change, within all should dropping on protection domain of the present utility model.

Claims (6)

1. a card draw-gear that adapts to the unmanned card sender that different cards is thick, comprise driving mechanism and haulage gear, haulage gear comprises at least two pairs of upper roll wheels that be arranged in parallel up and down and lower roll wheel, lower roll wheel is erected on the side plate of card sender, be connected with driving mechanism, under driving, driving mechanism rotates, it is characterized in that: the top of described side plate has the pilot hole of vertically offering, described upper roll wheel is inserted in pilot hole, be erected on side plate, spring is also installed on described side plate, spring is connected with upper roll wheel respectively, top pressure spring under the thrust that described upper roll wheel produces when current between card insertion running roller, upper roll wheel can be fluctuated along pilot hole, thereby adjust the gap between upper roll wheel and lower roll wheel, to adapt to the card of different-thickness, pass through.

2. the card draw-gear of the unmanned card sender that adaptation different cards according to claim 1 is thick, is characterized in that: described spring is leaf spring.

3. the card draw-gear of the unmanned card sender that adaptation different cards according to claim 2 is thick, is characterized in that: described upper roll wheel and lower roll wheel are three pairs, and three pairs of running rollers are left and right shape and are arranged side by side.

4. the card draw-gear of the unmanned card sender that adaptation different cards according to claim 3 is thick, it is characterized in that: described driving mechanism comprises motor, belt wheel and gear, on the output shaft of motor, be set with belt wheel, in three lower roll wheels, be positioned on the roll shaft of lower roll wheel of the leftmost side and be set with belt wheel, on the roll shaft of the lower roll wheel in the middle part of being positioned at, be set with belt wheel and gear simultaneously, be positioned on the roll shaft of lower roll wheel of the rightmost side and be set with gear, between three belt wheels, by belt, be connected, by belt, carry out transferring power, between two gears, by transmission gear, be connected, by transmission gear, carry out transferring power.

5. the card draw-gear of the unmanned card sender that adaptation different cards according to claim 4 is thick, is characterized in that: described upper roll wheel and lower roll wheel are silica gel running roller.

6. according to the card draw-gear of the thick unmanned card sender of the adaptation different cards described in claim 1 to 5 any one, it is characterized in that: described card draw-gear also comprises direction control panel, described direction control panel is hinged on the side plate of card sender by jointed shaft, and between a pair of upper roll wheel of the leftmost side and lower roll wheel and other are to upper roll wheel and lower roll wheel, the side that direction control panel enters bayonet socket near card sender has enters card inclined-plane under being tilted to, with enter card inclined-plane back to one side be the card inclined-plane, top under being tilted to, it is described that to enter Yu Dingka inclined-plane, card inclined-plane oblique contrary, described enters card inclined-plane over against a pair of upper roll wheel of the leftmost side and the gap between lower roll wheel, described direction control panel can rotate around jointed shaft from entering when bayonet socket direction forward moves ahead at card under card thrust, thereby card can be passed through smoothly, and withstand side plate by upper end when card oppositely retreats, keep direction control panel motionless, the restriction of simultaneously blocking inclined-plane by top drops card downwards.

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