CN201215668Y

CN201215668Y - Double layer sliding valve mechanism

Info

Publication number: CN201215668Y
Application number: CNU2008200447922U
Authority: CN
Inventors: 黄伟青; 杜亮; 李喆
Original assignee: GRG Banking Equipment Co Ltd
Current assignee: GRG Banking Equipment Co Ltd
Priority date: 2008-03-11
Filing date: 2008-03-11
Publication date: 2009-04-01
Anticipated expiration: 2018-03-11

Abstract

The utility model discloses a double-layer sliding valve mechanism, which comprises a valve main body, and the valve main body further comprises an active layer and a passive layer, wherein the edge of the active layer is provided with a first edgefold, and the edge of the passive layer is provided with a second edgefold. When the active layer is sliding, the first edgefold and the second edgefold are buckled in double directions, and the passive layer is driven to slide, and a transmission block which is used to drive the active layer to slide is fixedly mounted on the active layer. The double-layer sliding valve mechanism reduces the overall dimensions of whole-bundle money outlet equipment, saves space, simplifies a dynamic transport mechanism, reduces the mutual friction among apparatuses, and leads the sliding of the valve to be more smooth.

Description

A kind of double-deck sliding gate mechanism

Technical field

The utility model relates to the dodge gate field, relates in particular to a kind of double-deck sliding gate mechanism.

Background technology

At present, sliding gate is widely used in paper money processing system, in the prior art, the gate of finance device is generally the individual layer sliding gate, for realizing extracting or depositing this function action of banknote, must give gate bigger space length, could guarantee that gate normally opens a sluice gate, like this, finance device need be designed to bigger size, could guarantee that so enough space lengths are opened sliding gate fully, the problem that such design brings is that the overall dimensions of finance device is excessive, uses occupation space excessive, caused waste unnecessary on the space, not meet finance device small and exquisite, requirement flexibly.

The utility model content

Technical problem to be solved in the utility model is, provides a kind of and takes up room that distance is little, gear train simple, slides along sliding finance device gate mechanism.

In order to solve the problems of the technologies described above, embodiment of the present utility model provides a kind of double-deck sliding gate mechanism, comprise: the gate body, its gate body further comprises active layers, driven layer, and first flanging is offered at described active layers edge, and second flanging is offered at described driven layer edge, when described active layers is slided, described first flanging and the two-way fastening of described second flanging drive described driven layer and slide, and fixing installing one is used to drive the drive block that described active layers is slided on the described active layers.Described first flanging and the described second flanging shape are respectively inverted U and L type.

A kind of double-deck sliding gate mechanism has following advantage in the technique scheme:

Because the gate body has comprised active layers and two layers of mechanism of driven layer, has well overcome the individual layer sliding gate and has opened a sluice gate and need reduce the overall dimensions of bundling money-discharging machine equipment than the shortcoming of large space distance, has saved the space; Be slidingly connected by active layers first flanging and the two-way fastening of driven layer second flanging and drive driven layer and slide and simplified power transmitting mechanism; By the gate sliding bearing is set, reduced the phase mutual friction of equipment room, make the slip of gate smooth more.

Description of drawings

Fig. 1 is that structural representation is opened a sluice gate in the double-deck sliding gate of the utility model embodiment inside;

Fig. 2 is the inner barrier gate structural representation of the double-deck sliding gate of the utility model embodiment.

Embodiment

Below with reference to accompanying drawing preferred embodiment of the present utility model is described.

Referring to Fig. 1, for opening a sluice gate structural representation in the double-deck sliding gate of the utility model embodiment inside, it comprises: the gate body, its gate body further comprises active layers 10, driven layer 12, first flanging 11 is offered at described active layers edge, second flanging 13 is offered at described driven layer edge, when described active layers 10 is slided, described first flanging 11 and described second flanging, 13 two-way fastenings, drive described driven layer 12 and slide, fixing installing one is used to drive the drive block 15 that described active layers 10 is slided on the described active layers 10.Described first flanging 11 and described second flanging 13 are shaped as inverted U and L type.

Preferably, active layers 10 and driven layer 12 be one side of the close drive block 15 installing bearing 17 in the bottom respectively, and along rolling gathering sill 19 slips that fixedly install, rolling gathering sill 19 is installed on the loading plate 6 bearing 17 respectively.

Described restraint device also comprises: pulling force holds up 50, limiting plate 52, spring 54; One end of limiting plate 52 is opened an ellipse circular hole 520, limit shaft 521 passes described circular hole 520 and is fixed on the loading plate 6, rotary middle spindle 522 is positioned at described limiting plate 52 middle parts and passes limiting plate 52 and is fixed on the loading plate 6, and limiting plate 52 rotates in the circular arc scope that limit shaft 521, rotary middle spindle 522, circular hole 520 are determined; The other end of limiting plate 52 and pulling force are held up 50 and are hinged, and this end pulling force is dorsad held up a side of 50 and is connected with spring 54, and pulling force holds up 50 makes spring 54 that deformation take place by 52 rotations of pulling limiting plate;

Described double-deck sliding gate mechanism comprises that one holds up 50 switches that link to each other with pulling force, is used to control described pulling force and holds up 50 unlatching, and preferred, this switch is one and is installed in the button 7 that can control the gate mechanism outside.

Described gate mechanism also comprises PTO 2, is with 3 synchronously, sensing device; Described PTO 2 is with 3 to be connected and to stop outputting power by the described PTO 2 of described sensing devices control with described synchronously, drive described 3 transmissions of being with synchronously during described PTO 2 outputting powers, describedly be with 3 to be meshed synchronously, drive described drive block 15 and move with described drive block 15.Described sensing device comprises first sensing device 42, second sensing device 44, the 3rd sensing device 46; First sensing device 42 is positioned at described limiting plate 52 1 sides and is installed in and can responds on the described in relative rotation loading plate 6 of described limiting plate 52; Second sensing device 44 and the 3rd sensing device 46 are positioned at described rolling gathering sill 19 1 sides and are installed in respectively and can respond on the described loading plate 6 that described active layers 10 opens fully or close fully.Drive block 15 is used to respond to the thin slice of described second induction installation 44 or the 3rd sensing device 46 away from the end installing one of described active layers 10.

Preferably, described induction installation is a U type sensor.

The following specifically describes the flow process that the double-deck sliding gate of the utility model embodiment starts, when using double-deck gate mechanism, press a gate that is arranged on the gate mechanism outside and start button 7, after button 7 is pressed, stop means 2 starts, pulling force is held up 50 pulling limiting plates 52, limiting plate 52 is that circular hole 520 and the limit shaft 521 determined former arcs that the center of circle is opened with limiting plate 52 1 ends are that radius clockwise rotates with the rotary middle spindle 522 that is arranged on limiting plate 52 middle parts, limiting plate 52 1 ends leave rolling sliding tray 19 gradually and remove the slip restriction of the bearing 17 that 52 pairs of active layers 10 of limiting plate are installed, first induction installation 42 was sensed limiting plate and was rotate in place this moment, start PTO 2, PTO 2 outputting powers drive is with 3 transmissions synchronously;

Mesh with the drive block 15 that is installed on the active layers 10 with 3 synchronously, be with 3 to drive the same moved further of described drive block synchronously, this moment, active layers 10 was subjected to drive block 15 tractive force left, and this acting force acted on the described bearing 17 that is installed on the active layers 10, bearing 17 is along 19 motions of rolling sliding tray, when active layers 10 slip certain distances, first flanging 11 on the active layers 10 and the fastening of second flanging 13 on the driven layer 12, active layers 10 slips connect drive simultaneously and slide for driven layer 12;

After active layers 10 connects driven layer 12 slip of drive one segment distance, thin slice 48 on the drive block 15 moves to second induction installation, 44 induction regions, second induction installation 44 is blocked by thin slice 48, PTO 2 stops outputting power, be with 3 to stop operating synchronously, active layers 3, driven layer 4 stop to slide, and the action of opening the door this moment is finished.

Referring to Fig. 2, be the inner barrier gate structural representation of the double-deck sliding gate of the utility model embodiment, specifically describe the flow process that the double-deck sliding gate of the utility model embodiment is closed below in conjunction with Fig. 2;

After gate is opened a sluice gate the regular hour, PTO 2 outputting powers, can be pre-set the concrete start-up time of PTO 2 by program, PTO 2 drives with moving 3 reverse drive of being with, be with 3 to drive the same moved further of described drive block synchronously, this moment, active layers 10 was subjected to drive block 15 tractive force to the right, and this acting force acted on the described bearing 17 that is installed on the active layers 10, bearing 17 is along 19 motions of rolling sliding tray, when active layers 10 slip certain distances, first flanging 11 on the active layers 10 and the fastening of second flanging 13 on the driven layer 12, active layers 10 slips connect drive simultaneously and slide for driven layer 12.

After active layers 10 connects driven layer 12 slip of drive one segment distance, thin slice 48 on the drive block 15 moves to the 3rd induction installation 46 induction regions, second induction installation 46 is blocked by thin slice 48 correspondences, PTO 2 stops outputting power, stop operating with moving band, active layers 3 drives driven layer 4 and stops to slide, pulling force is held up 50 and is stopped to export pulling force, limiting plate 52 is that circular hole 520 and the limit shaft 521 determined former arcs that the center of circle is opened with limiting plate 52 1 ends are that radius rotates counterclockwise with the rotary middle spindle 522 that is arranged on limiting plate 52 middle parts under the effect of spring 54 pulling force, recover the bearing 17 slip restrictions that limiting plate one end is installed active layers 10, this moment, the barrier gate action was finished.

A kind of double-deck sliding gate of the utility model mechanism has well overcome the individual layer sliding gate and has opened a sluice gate and need reduce the overall dimensions of bundling money-discharging machine equipment than the shortcoming of large space distance, has saved the space; Be slidingly connected by active layers first flanging and the two-way fastening of driven layer second flanging and drive driven layer and slide and simplified power transmitting mechanism; By the gate sliding bearing is set, reduced the phase mutual friction of equipment room, make the slip of gate smooth more.

Above disclosed only is a kind of preferred embodiment of the utility model, can not limit the interest field of the utility model certainly with this, and therefore the equivalent variations of being done according to the utility model claim still belongs to the scope that the utility model is contained.

Claims

1, a kind of double-deck sliding gate mechanism, comprise: the gate body, it is characterized in that: described gate body further comprises active layers, driven layer, first flanging is offered at described active layers edge, second flanging is offered at described driven layer edge, when described active layers is slided, and described first flanging and the two-way fastening of described second flanging, drive described driven layer and slide, fixing installing one is used to drive the drive block that described active layers is slided on the described active layers.

2, double-deck sliding gate as claimed in claim 1 mechanism, it is characterized in that: described first flanging and the described second flanging shape are respectively inverted U and L type.

3, double-deck sliding gate as claimed in claim 2 mechanism, it is characterized in that: described active layers and described driven layer be one side of the close described active layers drive block installing bearing in the bottom respectively, described bearing slides along the rolling gathering sill, and described rolling gathering sill is fixed on the loading plate.

4, double-deck sliding gate as claimed in claim 3 mechanism, it is characterized in that: described mechanism comprises a stop means, described restraint device comprises: pulling force is held up, limiting plate, spring;

One end of described limiting plate is offered an ellipse circular hole, limit shaft passes described circular hole and is fixed on the described loading plate, rotary middle spindle is positioned at described limiting plate middle part and passes described limiting plate and is fixed on the described loading plate, and described limiting plate rotates in the circular arc scope that described limit shaft, described rotary middle spindle, described circular hole are determined;

The other end of described limiting plate and described pulling force are held up and are hinged, and the side that the described dorsad pulling force of this end is held up is connected with described spring, and described pulling force is held up by spurring the rotation of described limiting plate and made and described spring generation deformation produce the pulling force that limiting plate is resetted.

5, double-deck sliding gate as claimed in claim 4 mechanism, it is characterized in that: also comprise a pushbutton switch, described pushbutton switch is used to control the unlatching that described pulling force is held up.

6, double-deck sliding gate as claimed in claim 1 mechanism, it is characterized in that: described mechanism also comprises PTO, synchronous band, sensing device, described PTO is connected with described synchronous band and stops outputting power by described sensing devices control PTO, drive described synchronous band transmission during described PTO outputting power, described synchronous band is meshed with described drive block, drives described drive block and moves.

7, double-deck sliding gate as claimed in claim 6 mechanism, it is characterized in that: described sensing device comprises first sensing device, second sensing device, the 3rd sensing device;

Described first sensing device can be responded to described limiting plate and whether turn to assigned address;

Whether described second sensing device and described the 3rd sensing device are responded to described gate body respectively and are opened fully or do not close fully.

8, double-deck sliding gate as claimed in claim 6 mechanism, it is characterized in that: described induction installation is a U type sensor.