CN115810243A - ATM safety box fixing device - Google Patents

Abstract

The utility model relates to a ATM safe box fixing device uses in safe technical field, and it is including the ATM that is used for depositing and withdrawing for be equipped with the safe door on depositing and withdrawing's the lateral wall of ATM and inside be formed with the safe chamber, be equipped with the safe that is used for depositing the paper money case in the safe chamber, be equipped with glide machanism and actuating mechanism in the safe chamber, glide machanism be in actuating mechanism order about down in the safe intracavity slides, and the safe that is used for depositing the paper money case passes through fixed establishment to be fixed glide machanism is last. This application has the effect that can promote the convenience of putting into ATM or taking out from ATM with the safe.

Description

ATM safety box fixing device

Technical Field

The application relates to the field of safe box technology, in particular to a fixing device for an ATM safe box.

Background

The ATM, i.e. the automatic teller machine, is a small machine installed in different places by banks, and records the basic account data (usually, bank card) of a customer by using a magnetic tape on a credit card sized adhesive tape, so that the customer can perform bank counter services such as withdrawal, deposit, transfer and the like through the machine.

In the related technology, the composition structure of the ATM can be divided into an upper part and a lower part, wherein the upper part is an operation console comprising a display screen, a keyboard, a card reader, a receipt printer and the like; the lower half part is a safe for storing money boxes. Under normal conditions, staff can pre-load bank notes into a bank note box to ensure that the money withdrawing work is normally carried out; the deposit can be accommodated in the paper money box, and the paper money is taken out by the staff when the paper money box is full, so that the normal operation of the deposit work is ensured.

In view of the above-described related art, the inventor has considered that it is inconvenient for a worker to put or take out a safe into or from an ATM when it is necessary to load or take out bills into or from the bill box because the safe is heavy.

Disclosure of Invention

In order to solve the problem that a safe box is heavy and is inconvenient to put into or take out of an ATM by a worker, the fixing device for the safe box of the ATM is provided.

The application provides a safe fixing device of ATM adopts following technical scheme:

the fixing device for the safe box of the ATM comprises the ATM for depositing and withdrawing money, a safe door is arranged on the side wall of the ATM for depositing and withdrawing money, a safe cavity is formed inside the safe door, a safe box for storing a money box is arranged in the safe cavity, a sliding mechanism and a driving mechanism are arranged in the safe cavity, the sliding mechanism is driven by the driving mechanism to slide in the safe cavity, and the safe box for storing the money box is fixed on the sliding mechanism through a fixing mechanism.

Through adopting above-mentioned technical scheme, it is fixed with glide machanism to pass through fixed establishment with the safe, and rethread actuating mechanism orders about glide machanism and slides, makes the safe can roll off or slide into the safe chamber to can promote the convenience of putting into the safe ATM or taking out from the ATM.

Optionally, the sliding mechanism includes a sliding seat and a plurality of sliding beads, a sliding groove is formed in a side wall of the ATM for depositing and withdrawing and adjacent to a side wall where the security door is located, the sliding seat is located a plurality of sliding holes are formed in a position in the sliding groove, the sliding beads are rotatably installed in the sliding holes in a one-to-one correspondence mode, and the sliding seat is fixed to the driving mechanism.

Through adopting above-mentioned technical scheme, adopt the pearl that slides to become rolling friction with the sliding friction between seat and the safe intracavity wall that slides to make actuating mechanism change in the seat that slides of drive, so that the safe can roll off or slide into the safe on the seat that slides, thereby can further promote the convenience of putting into the safe ATM or taking out from the ATM.

Optionally, the driving mechanism includes a driving motor, a driving screw rod and a driving lug, a driving cavity is formed in the bottom wall of the safety cavity, the driving motor is arranged in the driving cavity, the bottom wall of the safety cavity faces the safety door and is provided with a driving groove, one end of the driving groove is communicated with the driving cavity, the driving screw rod and the driving lug are arranged in the driving groove, the driving screw rod is coaxially arranged on the output shaft of the driving motor, the driving lug is fixed on the sliding seat, and the driving screw rod is threaded in the driving lug.

Through adopting above-mentioned technical scheme, driving motor orders about the drive lead screw and rotates, and then makes the drive lug slide in the drive inslot to the drive seat that slides, so that the safe can roll off or slide into the safe chamber on the seat that slides, thereby has saved the manpower, puts into the ATM with the safe or from the convenience that the ATM was taken out in with further promotion.

Optionally, the fixing assembly comprises a plurality of fixing protruding edges, the fixing protruding edges are arranged on the sliding seat, the fixing protruding edges surround to form a fixing space, and a safe for storing the money box is arranged in the fixing space.

Through adopting above-mentioned technical scheme, fixed bead can play certain fixed limiting displacement to the safe on the seat that slides, therefore the seat that slides when driving safe and slide in or the roll-off safe intracavity, the safe is difficult for slipping from the seat that slides to the improvement is put into ATM or is followed ATM built-in stability with the safe through actuating mechanism.

Optionally, a locking mechanism is arranged in the safety cavity, the locking mechanism includes a locking spring and a locking block, a first locking groove is formed in a side wall where the sliding groove is located of the ATM for depositing and withdrawing, and the locking spring and the locking block are both located in the first locking groove; one end of the locking spring is fixed on the bottom wall of the first locking groove, the other end of the locking spring is fixed on the locking block, a second locking groove is formed in the side wall of a safe box for storing the money box, the second locking groove corresponds to the first locking groove, the locking block is arranged on the driving part of the locking spring and extends into the second locking groove, and the locking block is arranged through the opening assembly and slides between the first locking groove and the second locking groove.

By adopting the technical scheme, when the safe box slides into the safe cavity, the part of the locking block under the acting force of the locking spring is positioned in the locking groove II, so that the safe box is locked in the safe cavity, and the safe box is not easy to steal; when the safe box slides out of the safe cavity, the opening assembly enables the locking block to slide out of the locking groove II, so that the safe box can be taken out smoothly.

Optionally, the opening assembly includes a rotating rod, a spur gear, a connecting rod, a rack and a pair of bevel gears, a first accommodating cavity is formed in a side wall of the ATM for depositing and withdrawing, which is opposite to a side wall where the security door is located, the first accommodating cavity is communicated with the driving cavity, the rotating rod is rotatably mounted on an inner wall of the first accommodating cavity, the spur gear and one of the bevel gears are coaxially mounted on the rotating rod, the other bevel gear is coaxially mounted on an output shaft of the driving motor, and the pair of bevel gears are meshed with each other; the ATM for depositing and withdrawing money is provided with a second accommodating cavity on the side wall where the sliding groove is located, the first accommodating cavity is communicated with the second accommodating cavity, the connecting rod is arranged in the second accommodating cavity, the rack is fixed at one end of the connecting rod and meshed with the spur gear, and the other end of the connecting rod is fixed on the locking block.

By adopting the technical scheme, when the safe box slides out of the safe cavity, the bevel gear can drive the rotating rod to rotate when the driving motor is started, and further the spur gear on the rotating rod rotates, so that the connecting rod can bring the locking block from the locking groove II into the locking groove I, and the safe box can slide out of the safe cavity; when the safe box slides into the safe cavity, the bevel gear drives the rotating rod and the spur gear to rotate in the opposite direction, so that the connecting rod can bring the locking block into the locking groove II from the locking groove I, and locking of the safe box is achieved.

Optionally, a moving groove is formed in one end, facing the driving lug, of the sliding seat along the axial direction of the driving screw rod, and the driving lug is arranged in the moving groove in a sliding manner.

By adopting the technical scheme, when the safe box needs to be taken out, the driving motor is started, the driving lug can firstly slide in the moving groove for a certain distance, and the opening assembly can firstly take the locking block out of the locking groove II; after the opening assembly brings the locking block out of the locking groove II, the driving lug is abutted against the groove wall of the moving groove, so that the sliding seat can be pushed out of the safety cavity.

Optionally, a first limiting groove is formed in a groove wall of the moving groove, the first limiting groove is communicated with the driving groove, a limiting mechanism is arranged in the first limiting groove, the limiting mechanism comprises a limiting spring and a limiting plate, one end of the limiting spring is fixed to the bottom wall of the first limiting groove, the other end of the limiting spring is fixed to the limiting plate, and the limiting plate is rotatably mounted on one side, away from the safety door, of the first limiting groove; a second limiting groove is formed in the driving lug corresponding to the first limiting groove, and the limiting plate is driven by the limiting spring to turn into the second limiting groove; one end of the limiting plate extends into the driving groove and abuts against the bottom wall of the driving groove, and a guide assembly is arranged on the bottom wall of the driving groove.

Through adopting above-mentioned technical scheme, when the drive lug supports tightly when the cell wall of shifting chute, the limiting plate overturns into spacing inslot two under the effort of spacing spring, thereby carry on spacingly to the drive lug, make the drive lug can push into the insurance intracavity through supporting tight limiting plate with the seat that slides, thereby reserve certain space in the shifting chute, so that the seat that slides is slipping into the insurance chamber completely, and the direction subassembly is dialled the limiting plate out behind spacing groove two, the drive lug can continue to slide, thereby can make the drive lead screw continue to rotate and make and open the subassembly and bring the locking piece back again in locking groove two, the realization is to the locking of safe.

Optionally, the direction subassembly includes the direction bead, the direction bead is followed the length direction in driving groove is located on the diapire in driving groove, the direction bead is located the limiting plate orientation one side of drive lug.

Through adopting above-mentioned technical scheme, the spacing groove two can be dialled out the limiting plate to the bead of direction after the seat that slides totally slips into the insurance chamber, makes the drive lug can continue to slide in the shifting chute to can make the drive lead screw continue to rotate and make and open the subassembly and take the locking piece back to the locking groove two again, realize the locking to the safe.

Optionally, a third accommodating cavity is formed in a side wall of the ATM for depositing and withdrawing, the third accommodating cavity is communicated with the first safety cavity and the first locking groove, a stop assembly is arranged in the third accommodating cavity, the stop assembly includes a stop rod and a stop spring, the stop rod includes a pair of stop parts and a connecting part arranged between the pair of stop parts, one end of the stop spring is fixed on an inner wall of the third accommodating cavity, and the other end of the stop spring is fixed on the connecting part; the locking block is provided with a stop hole, one stop part is inserted into the stop hole under the driving of the stop spring, and the other stop part extends into the safety cavity under the driving of the stop spring.

Through adopting above-mentioned technical scheme, after opening the subassembly and bring the locking piece into locking groove one, one of them locking part inserts in the locking hole under the effort of locking spring to make the locking piece can not pop out locking groove one again because of the effort of locking spring, thereby make the safe can slide into the insurance intracavity again, also can restrict the connecting rod and move to spur gear under the effort of locking spring simultaneously, reduce the condition that rack and spur gear take place to beat the tooth.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the safe box is fixed with the sliding mechanism through the fixing mechanism, and the sliding mechanism is driven to slide through the driving mechanism, so that the safe box can slide out of or into the safe cavity, and convenience in putting the safe box into or taking the safe box out of the ATM can be improved;

2. the sliding balls are adopted to change the sliding friction between the sliding seat and the inner wall of the safe cavity into rolling friction, so that the driving mechanism can drive the sliding seat more easily, the safe box on the sliding seat can slide out or into the safe cavity, and the effect of convenience in putting the safe box into the ATM or taking the safe box out of the ATM can be further improved;

3. the driving motor drives the screw rod to rotate, so that the driving lug slides in the driving groove, and the sliding seat is driven to slide, so that the safe box on the sliding seat can slide out or slide into the safe cavity, manpower is saved, and convenience in putting the safe box into the ATM or taking the safe box out of the ATM is further improved.

Drawings

FIG. 1 is a schematic view of a secure enclosure mounting apparatus for an ATM in accordance with an embodiment of the present application.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is a schematic view of a limiting mechanism in the embodiment of the present application.

Fig. 4 is a schematic view of a drive mechanism in an embodiment of the present application.

FIG. 5 is a schematic view of a locking mechanism and stop assembly in an embodiment of the present application.

Reference numerals: 1. an ATM machine; 11. a sliding groove; 12. a drive chamber; 13. a drive slot; 14. a first locking groove; 15. a first accommodating cavity; 16. a second accommodating cavity; 17. a third accommodating cavity; 2. a security door; 3. a fuse cavity; 4. a safe; 41. a locking groove II; 5. a sliding mechanism; 51. a sliding seat; 511. a sliding hole; 512. a moving groove; 513. a first limiting groove; 52. slipping the beads; 6; a drive mechanism; 61. a drive motor; 62. driving the screw rod; 63. a drive lug; 631. a second limiting groove; 7. a fixing mechanism; 71. fixing the convex edge; 9. a locking mechanism; 91. a locking spring; 92. a locking block; 921. a stop hole; 10. opening the assembly; 101. a rotating rod; 102. a spur gear; 103. a connecting rod; 104. a rack; 105. a bevel gear; 20. a limiting mechanism; 201. a limiting spring; 202. a limiting plate; 21. a guide assembly; 211. a guide rib; 22. a stop assembly; 221. a stop lever; 2211. a stopper portion; 2212. a connecting portion; 222. a retaining spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses ATM safe box fixing device. Referring to fig. 1 and 2, the fixing device for the safe box of the ATM comprises an ATM 1 and a safe door 2 hinged to a side wall of the ATM 1, a safe cavity 3 for storing a safe box 4 is formed in the ATM 1, a sliding mechanism 5 is arranged in the safe cavity 3, and the safe box 4 can slide out of or into the safe cavity 3 through the sliding mechanism 5. Specifically, the sliding mechanism 5 comprises a sliding seat 51 and a plurality of sliding beads 52, two inner walls of the atm 1 adjacent to the security door 2 are both provided with a sliding groove 11, and the sliding groove 11 is opened along the horizontal direction and extends towards the security door 2.

Referring to fig. 2 and 3, a plurality of sliding holes 511 are densely distributed in the sliding seat 51 in the opening direction of the sliding groove 11, and a plurality of sliding beads 52 are rotatably mounted in the sliding holes 511 one by one and abut against the bottom wall of the sliding groove 11. In addition, the fixing mechanism 7 is provided on the upper surface of the slide holder 51. Specifically, the fixing mechanism 7 includes a plurality of fixing ribs 71, the fixing ribs 71 are welded on the sliding seat 51 and enclose a fixing space, and the safe 4 is placed in the fixing space on the sliding seat 51.

Therefore, under the fixing action of the fixing rib 71, the safe box 4 can be limited to a designated position on the sliding seat 51, and when the sliding seat 51 slides, the safe box 4 can be driven by the sliding seat 51 and is not easy to shift, so that the safe box can slide out of or into the safe cavity 3; meanwhile, the sliding balls 52 are adopted to change the sliding friction between the sliding seat 51 and the inner wall of the safe cavity 3 into rolling friction, so that the convenience of putting the safe box 4 into the ATM 1 or taking the safe box 4 out of the ATM 1 can be improved.

Referring to fig. 4, a driving mechanism 6 is further provided in the fuse chamber 3. Specifically, the driving mechanism 6 comprises a driving motor 61, a driving screw 62 and a driving lug 63, a driving cavity 12 is formed in a side wall of the atm 1 opposite to the security door 2, the driving motor 61 is installed in the driving cavity 12, in addition, a driving groove 13 is arranged on a bottom wall of the security cavity 3 towards the security door 2, the driving groove 13 is communicated with the driving cavity 12, the driving screw 62 and the driving lug 63 are both arranged in the driving groove 13, the driving lug 63 is fixed with the sliding seat 51, and the driving screw 62 is coaxially installed on an output shaft of the driving motor 61 and is threaded through the driving lug 63. Therefore, the driving screw 62 can be driven to rotate by the driving motor 61, and the driving lug 63 slides along the opening direction of the driving groove 13 to drive the sliding seat 51 to slide out or into the safe cavity 3, so that the convenience of putting the safe box 4 into the ATM 1 or taking the safe box 4 out of the ATM 1 can be further improved.

Referring to fig. 5, the safe 4 is not directly fixed to the ATM 1 after the above-mentioned solution is adopted, so that the safe chamber 3 is further provided with a locking mechanism 9 in consideration of safety. Specifically, the locking mechanism 9 includes a locking spring 91 and a locking block 92, the atm 1 is provided with a first locking groove 14 on the side wall where the sliding groove 11 is located, the side wall of the safe box 4 is provided with a second locking groove 41 corresponding to the first locking groove 14, one end of the locking spring 91 is fixed on the bottom wall of the first locking groove 14, the other end of the locking spring is fixed on the locking block 92, and the locking block 92 extends into the second locking groove 41 under the acting force of the locking spring 91, so that the safe box 4 can be locked when the safe box 4 is located in the safe chamber 3. In the embodiment of the present application, in order to ensure high safety of safe deposit box 4 when it is stored in safe deposit chamber 3, a pair of locking mechanisms 9 is provided, and a pair of locking mechanisms 9 is provided on two sides of safe deposit box 4 in one-to-one correspondence.

Referring to fig. 4 and 5, the opening assembly 10 is disposed in the safe chamber 3, and the opening assembly 10 can control the locking block 92 to slide between the first locking groove 14 and the second locking groove 41, so as to control the unlocking and locking of the safe 4. Specifically, the opening assembly 10 comprises a rotating rod 101, a spur gear 102, a connecting rod 103, a rack 104 and a pair of bevel gears 105, a first accommodating cavity 15 is vertically arranged in the side wall of the ATM 1 opposite to the security door 2, the first accommodating cavity 15 is communicated with the driving cavity 12, the rotating rod 101 is arranged in the first accommodating cavity 15, one end of the rotating rod is rotatably arranged on the groove wall of the first accommodating cavity 15, the other end of the rotating rod extends towards the driving motor 61, one bevel gear 105 is coaxially arranged on the output shaft of the driving motor 61, the other bevel gear 105 is coaxially arranged on the rotating rod 101, and the pair of bevel gears 105 are meshed with each other. Therefore, when the driving motor 61 is started, the rotation lever 101 also starts to rotate at the same time.

The ATM 1 is further horizontally provided with a second accommodating cavity 16 in the side wall where the first accommodating cavity 15 is located, the second accommodating cavity 16 is communicated with the first accommodating cavity 15, and two ends of the second accommodating cavity 16 are continuously opened towards two adjacent side walls of the ATM 1 in a one-to-one correspondence mode until the two adjacent side walls are communicated with the first locking groove 14. The connecting rod 103 is located in the second accommodating cavity 16, the connecting rod 103 is in an "L" shape, one end of the connecting rod extends towards the rotating rod 101, the other end of the connecting rod extends towards the locking block 92 and is welded with the locking block 92, the rack 104 is fixed at one end of the connecting rod 103 close to the rotating rod 101, and the spur gear 102 is installed on the rotating rod 101 and meshed with the rack 104. Therefore, when the driving motor 61 is started, the rotating rod 101 rotates, and the spur gear 102 drives the connecting rod 103 to move, so as to bring the locking block 92 out of or into the second locking groove 41, thereby realizing the control of unlocking and locking the safe 4.

Referring to fig. 4 and 5, in order to operate the driving mechanism 6, the opener module 10 and the locking mechanism 9 together, it should be noted that the connecting rod 103 is required to be set to a length that is just far enough to be disengaged from the spur gear 102 when the locking block 92 is carried out of the second locking groove 41, so that the spur gear 102 does not always drive the connecting rod 103 to move when the driving motor 61 is continuously operated to send the sliding seat 51 out of the safety chamber 3. In addition, because the elastic force applied to the locking block 92 by the locking spring 91 can push the connecting rod 103 to move towards the spur gear 102, in order to reduce the gear beating between the rack 104 and the spur gear 102, the side wall of the ATM 1 is provided with a containing cavity three 17, the containing cavity three 17 is in a shape of '21274', one end of the containing cavity three 17 is communicated to the safety cavity 3, and the other end is communicated to the first locking groove 14.

A stop assembly 22 is arranged in the accommodating cavity iii 17, specifically, the stop assembly 22 includes a stop rod 221 and a stop spring 222, the stop rod 221 is composed of a pair of stop portions 2211 and a connecting portion 2212 integrally formed between the pair of stop portions 2211, one of the stop portions 2211 extends toward the locking block 92, and the locking block 92 is provided with a stop hole 921 for the insertion of the stop portion 2211; the other stop 2211 extends into the safe cavity 3 and abuts against the side wall of the safe 4. One end of the stopping spring 222 is fixed on the inner wall of the accommodating cavity iii 17, and the other end is fixed on the connecting portion 2212, and the stopping rod 221 has a tendency to move toward the safety door 2 under the action of the stopping spring 222.

Referring to fig. 3 and 5, in order to allow the driving motor 61 to control the locking mechanism 9 to unlock the safe 4 through the unlocking unit 10 before the driving slide holder 51 delivers the safe 4 out of the safe chamber 3, the slide holder 51 is provided with a moving groove 512 on a side facing the driving screw 62, the driving protrusion 63 is partially embedded in the moving groove 512, and the length of the moving groove 512 is greater than that of the driving protrusion 63. When safe 4 is fully located in safe chamber 3, drive tab 63 is located at the end of travel slot 512 adjacent drive motor 61.

Therefore, when the driving motor 61 is turned on and drives the driving protrusion 63 to push the sliding seat 51, the driving protrusion 63 will move a distance in the moving slot 512 until it abuts against the slot wall of the moving slot 512 far from the driving motor 61, so as to provide a certain operating space for the unlocking assembly 10 to bring the locking block 92 out of the locking slot two 41, and when the driving protrusion 63 abuts against the slot wall of the moving slot 512 far from the driving motor 61, the unlocking assembly 10 will just bring the locking block 92 out of the locking slot two 41, so as to unlock the safe box 4, and the driving protrusion 63 can push the sliding seat 51 to send the safe box 4 out of the safe chamber 3. Meanwhile, the first locking groove 14 and the second locking groove 41 are staggered, the locking block 92 is abutted by the side wall of the safe box 4 and is positioned in the first locking groove 14, the safe box 4 is not abutted any more with the stop rod 221, the stop rod 221 moves towards the safe door 2 under the action of the stop spring 222, and finally the stop part 2211 is inserted into the stop hole 921 to limit the locking block 92 in the first locking groove 14, so that the connecting rod 103 is not pushed to the spur gear 102 under the action of the locking spring 91 on the locking block 92, the gear beating between the rack 104 and the spur gear 102 is reduced, and meanwhile, the locking block 92 cannot block the safe box 4 when the safe box 4 is placed back into the safe cavity 3.

Referring to fig. 3 and 5, in order to enable the driving motor 61 to continue to control the locking mechanism 9 to lock the safe box 4 through the unlocking assembly 10 after the driving sliding seat 51 sends the safe box 4 into the safe chamber 3, a first limiting groove 513 is arranged on the sidewall of the moving groove 512, a second limiting groove 631 is arranged on the driving protrusion 63 corresponding to the first limiting groove 513, a first limiting groove 513 is internally provided with a limiting mechanism 20, the limiting mechanism 20 comprises a limiting spring 201 and a limiting plate 202, one end of the limiting spring 201 is fixed on the bottom wall of the first limiting groove 513, the other end of the limiting spring is fixed on the limiting plate 202, the limiting plate 202 is rotatably installed on one side of the first limiting groove 513 away from the safe door 2, and the limiting plate 202 has a tendency of turning over towards the first limiting groove 513 under the driving of the limiting spring 201.

In addition, be equipped with direction subassembly 21 on the diapire of drive groove 13, direction subassembly 21 is direction bead 211, direction bead 211 sets up along the length direction of drive groove 13, the moving groove 512 is run through downwards to spacing groove one 513, spacing groove one 513 extends and pastes in the diapire of drive groove 13 to limiting plate 202 bottom, direction bead 211 is located one side that limiting plate 202 is towards drive lug 63, the arc face of looks adaptation is established to the one side that direction bead 211 and limiting plate 202 are close to each other, direction bead 211 narrows down towards the safety door 2 gradually.

Therefore, when the driving motor 61 drives the driving protrusion 63 to push the sliding seat 51 toward the security door 2, the first limiting groove 513 corresponds to the second limiting groove 631, and the limiting plate 202 cannot be turned into the second limiting groove 631 due to the blocking of the guiding protrusion 211, but as the driving protrusion 63 moves toward the security door 2, the guiding protrusion 211 gradually narrows, and the limiting plate 202 finally turns into the second limiting groove 631 under the action of the limiting spring 201, so that when the driving motor 61 drives the driving protrusion 63 to push the sliding seat 51 into the security cavity 3, the driving protrusion 63 is limited by the limiting plate 202, and therefore the sliding seat 51 cannot move forward in the moving groove 512, and only the sliding seat 51 is pushed into the security cavity 3 by abutting against the limiting plate 202, when the driving protrusion 63 moves to the position of the guiding protrusion 211, the guiding protrusion 211 continuously moves in the driving protrusion 63 into the security cavity 3, the limiting plate 202 is gradually pulled out of the second limiting groove 631, and when the sliding seat 51 completely slides into the security cavity 3, the second limiting groove 631 is completely pulled out of the driving protrusion 631, and the locking groove 63 can move to provide a certain movement space for the locking block assembly 41.

Meanwhile, since the safe 4 is completely located in the safe cavity 3, the stop lever 221 is abutted by the safe 4 and slides in a direction away from the safe door 2, the stop portion 2211 slides out of the stop hole 921, and the locking spring 91 pushes the locking block 92 to drive the connecting rod 103 to move towards the spur gear 102 and enable the rack 104 to be meshed with the spur gear 102 again, so that the unlocking assembly 10 can enable the locking block 92 to be brought into the locking groove two 41 again, the locking operation of the safe 4 is achieved, the safe 4 can be locked in the safe cavity 3, and the safety is high.

The implementation principle of the fixing device for the ATM safe box in the embodiment of the application is as follows: the safe box 4 is fixed on the sliding seat 51 through the fixed convex rib 71, two side edges of the sliding seat 51 are embedded in the sliding grooves 11 on the two side walls of the ATM 1 one by one, a plurality of sliding holes 511 are densely distributed on the position of the sliding seat 51 in the sliding groove 11 along the opening direction of the sliding groove 11, and a plurality of sliding beads 52 are rotatably arranged in the sliding holes 511 one by one and abut against the bottom wall of the sliding groove 11; the driving lug 63 is fixed with the sliding seat, and the driving screw 62 is coaxially installed on the output shaft of the driving motor 61 and threaded in the driving lug 63. Therefore, the driving screw 62 can be driven to rotate by the driving motor 61, and the driving projection 63 slides along the opening direction of the driving groove 13 to drive the sliding seat to slide out or into the safe chamber 3, so that the effect of convenience in putting the safe 4 into the ATM 1 or taking the safe out of the ATM 1 can be improved.

The above preferred embodiments of the present application do not limit the scope of the present application, and therefore: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a ATM safe box fixing device, is equipped with security door (2) and inside safe chamber (3) that is formed with including ATM (1) that is used for depositing and withdrawing, be used for depositing and withdrawing ATM (1) on the lateral wall, is equipped with safe (4) that are used for depositing the paper money case in safe chamber (3), its characterized in that: a sliding mechanism (5) and a driving mechanism (6) are arranged in the safety cavity (3), the sliding mechanism (5) is driven by the driving mechanism (6) to slide in the safety cavity (3), and a safety box (4) for storing a money box is fixed on the sliding mechanism (5) through a fixing mechanism (7).

2. An ATM machine safe deposit box securing apparatus according to claim 1, wherein: glide machanism (5) including sliding seat (51) and a plurality of pearl (52) that slide for deposit and withdraw ATM (1) with be equipped with on the lateral wall that the lateral wall is adjacent at insurance door (2) place and slide groove (11), slide seat (51) are located be equipped with a plurality of holes (511) that slide on the position in groove (11), a plurality of slide pearl (52) one-to-one rotate install in a plurality of in the hole (511) that slides, slide seat (51) with actuating mechanism (6) are fixed.

3. An ATM machine safe deposit box securing apparatus according to claim 2, wherein: the driving mechanism (6) comprises a driving motor (61), a driving screw rod (62) and a driving lug (63), a driving cavity (12) is formed in the bottom wall of the safety cavity (3), the driving motor (61) is arranged in the driving cavity (12), the bottom wall of the safety cavity (3) faces towards the safety door (2) and is provided with a driving groove (13), one end of the driving groove (13) is communicated with the driving cavity (12), the driving screw rod (62) and the driving lug (63) are arranged in the driving groove (13), the driving screw rod (62) is coaxially arranged on an output shaft of the driving motor (61), the driving lug (63) is fixed on the sliding seat (51), and the driving screw rod (62) is threaded in the driving lug (63).

4. An ATM machine safe deposit box securing apparatus according to claim 2, wherein: the fixing assembly comprises a plurality of fixing protruding edges (71), the fixing protruding edges (71) are arranged on the sliding seat, a plurality of fixing protruding edges (71) are arranged in a surrounding mode to form a fixing space, and a safe box (4) used for storing the money box is arranged in the fixing space.

5. An ATM machine safe deposit box securing apparatus according to claim 3, wherein: a locking mechanism (9) is arranged in the safety cavity (3), the locking mechanism (9) comprises a locking spring (91) and a locking block (92), a first locking groove (14) is formed in the side wall, where the sliding groove (11) is located, of the ATM (1) for depositing and withdrawing money, and the locking spring (91) and the locking block (92) are located in the first locking groove (14); one end of the locking spring (91) is fixed to the bottom wall of the first locking groove (14), the other end of the locking spring (91) is fixed to the locking block (92), a second locking groove (41) is formed in the side wall of a safe (4) used for storing a money box, the second locking groove (41) corresponds to the first locking groove (14), the locking block (92) extends into the second locking groove (41) at the driven part of the locking spring (91), and the locking block (92) slides between the first locking groove (14) and the second locking groove (41) through an opening assembly (10).

6. An ATM machine safe deposit box securing apparatus according to claim 5, wherein: the opening assembly (10) comprises a rotating rod (101), a spur gear (102), a connecting rod (103), a rack (104) and a pair of bevel gears (105), a first accommodating cavity (15) is formed in the side wall, opposite to the side wall where the safety door (2) is located, of the ATM (1) for depositing and withdrawing, the first accommodating cavity (15) is communicated with the driving cavity (12), the rotating rod (101) is rotatably installed on the inner wall of the first accommodating cavity (15), the spur gear (102) and one of the bevel gears (105) are coaxially installed on the rotating rod (101), the other bevel gear (105) is coaxially installed on the output shaft of the driving motor (61), and the pair of bevel gears (105) are meshed; the ATM (1) for depositing and withdrawing money is provided with a second accommodating cavity (16) on the side wall where the sliding groove (11) is located, the first accommodating cavity (15) is communicated with the second accommodating cavity (16), the connecting rod (103) is arranged in the second accommodating cavity (16), the rack (104) is fixed at one end of the connecting rod (103) and meshed with the spur gear (102), and the other end of the connecting rod is fixed on the locking block (92).

7. An ATM machine safe deposit box securing apparatus according to claim 3, wherein: one end of the sliding seat (51) facing the driving lug (63) is provided with a moving groove (512) along the axial direction of the driving screw rod (62), and the driving lug (63) is arranged in the moving groove (512) in a sliding manner.

8. An ATM safe deposit box securing apparatus according to claim 7, wherein: a first limiting groove (513) is formed in the groove wall of the moving groove (512), the first limiting groove (513) is communicated with the driving groove (13), a limiting mechanism (20) is arranged in the first limiting groove (513), the limiting mechanism (20) comprises a limiting spring (201) and a limiting plate (202), one end of the limiting spring (201) is fixed to the bottom wall of the first limiting groove (513), the other end of the limiting spring (201) is fixed to the limiting plate (202), and the limiting plate (202) is rotatably installed on one side, away from the security door (2), of the first limiting groove (513); a second limiting groove (631) is formed in the driving lug (63) corresponding to the first limiting groove (513), and the limiting plate (202) is driven by the limiting spring (201) to turn into the second limiting groove (631); one end of the limiting plate (202) extends into the driving groove (13) and abuts against the bottom wall of the driving groove (13), and a guide assembly (21) is arranged on the bottom wall of the driving groove (13).

9. An ATM machine safe deposit box securing apparatus according to claim 8, wherein: direction subassembly (21) are including direction bead (211), direction bead (211) are followed the length direction of drive groove (13) is located on the diapire of drive groove (13), direction bead (211) are located limiting plate (202) orientation one side of drive lug (63).

10. An ATM safe deposit box securing apparatus according to claim 5, wherein: a third accommodating cavity (17) is formed in the side wall of the ATM (1) for depositing and withdrawing money, the third accommodating cavity (17) is communicated with the safety cavity (3) and the first locking groove (14), a stopping assembly (22) is arranged in the third accommodating cavity (17), the stopping assembly (22) comprises a stopping rod (221) and a stopping spring (222), the stopping rod (221) comprises a pair of stopping parts (2211) and a connecting part (2212) arranged between the pair of stopping parts (2211), one end of the stopping spring (222) is fixed to the inner wall of the third accommodating cavity (17), and the other end of the stopping spring (222) is fixed to the connecting part (2212); the locking block (92) is provided with a stop hole (921), one stop part (2211) is inserted into the stop hole (921) under the driving of the stop spring (222), and the other stop part (2211) extends into the safety cavity (3) under the driving of the stop spring (222).

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