Intelligent registration system for hotel
Technical Field
The invention relates to the field of hotel electronic equipment, in particular to an intelligent registration system for a hotel.
Background
At present, in the domestic hotel industry, when a guest check-in procedure is handled, many guests still stay in a manual operation stage, namely, the handling of the guest check-in procedure is completed through a hotel management system of each hotel and relevant information such as the guest and accounts manually input by a foreground operator, and the mode is time-consuming and labor-consuming. With the progress of science and technology, particularly the rapid development of information technology, card swiping registration systems are gradually introduced in the domestic hospitality industry, operators can complete check-in and registration only by placing identification cards on card swipers of the registration systems, but the existing registration systems still need manual card swiping registration one by one, and if the people live in groups and teams, the number of people is large, and the registration is still inconvenient.
Disclosure of Invention
The invention provides an intelligent hotel registration system capable of releasing cards in batches, automatically registering and automatically receiving cards in batches, aiming at solving the problems that the existing hotel registration system can only manually swipe and receive cards by one card and is inconvenient to register when the number of people is large.
In order to achieve the purpose, the invention adopts the following technical scheme: an intelligent registration system for a hotel comprises a shell, an integrated industrial-grade industrial-control host and a card reader, wherein the integrated industrial-grade industrial-control host and the card reader are arranged in the shell, the card reader is electrically connected with the integrated industrial-grade industrial-control host, a card inlet groove, a card reading channel and a card receiving groove are sequentially arranged in the shell from top to bottom, an upper opening of the card reading channel is positioned on the inner bottom surface of the card inlet groove, and a lower opening of the card reading channel is positioned above the inner side of the card; the card feeding groove is internally provided with a card feeding push plate which can slide back and forth between the card feeding baffle and the card feeding auxiliary plate, and one side of the card feeding push plate, which is far away from the card reading channel, is elastically connected with the card feeding auxiliary plate through a plurality of card feeding springs; a blanking block penetrating port is formed in the card feeding baffle, a blanking block capable of moving up and down is arranged in the blanking block penetrating port, the front end of the blanking block extends into the card feeding groove, the rear end of the blanking block is positioned in the shell, and in the process of moving down, the front end of the blanking block extends into the card feeding groove and can only drive one identity card to move down; a card feeding roller is arranged on the pipe wall at the upper opening of the card reading channel, the card feeding roller is driven to rotate by a motor, and the motor is electrically connected with the integrated industrial-grade industrial control host; a sliding block hole is formed in the pipe wall of the lower opening of the card reading channel, a blocking sliding block capable of blocking the identity card in the card reading channel from sliding is arranged in the sliding block hole, the blocking sliding block is driven by an electric push cylinder, and the electric push cylinder is electrically connected with the integrated industrial-grade industrial control host; the card reader is embedded in the channel wall of the card reading channel and is positioned above the sliding block hole; the upper surface of the blocking sliding block is divided into three continuous surfaces, namely a high plane, a middle inclined plane and a low plane, the high plane is positioned on one side close to the card reading channel, the middle inclined plane is positioned between the high plane and the low plane, and the position of the high plane is higher than that of the low plane; a connecting rod is arranged on the lower side of the blanking block, the upper end of the connecting rod is fixed with the blanking block, a roller capable of rotating automatically is arranged at the lower end of the connecting rod, and the roller is attached to the upper surface of the upper side of the blocking slide block; a guide bracket of the connecting rod and a return spring of the connecting rod are arranged in the shell; the card collecting device comprises a supporting plate arranged on the bottom surface of the card collecting groove, a card collecting positioning plate vertically fixed on the supporting plate and a card collecting push plate capable of sliding on the supporting plate; the card receiving positioning plate is positioned between the card receiving baffle plate and the card receiving auxiliary plate, a plurality of limiting cross rods are arranged on two sides of the card receiving positioning plate towards the direction of the card receiving baffle plate, and opposite card limiting barbs are arranged on the limiting cross rods on the two sides; the card receiving push plate is positioned between the card receiving baffle and the card receiving positioning plate and between the limiting cross rods on the two sides of the card receiving positioning plate, and the card receiving push plate is elastically connected with the card receiving positioning plate through a plurality of card receiving springs; the lower opening of the card reading channel is positioned above the space between the card receiving baffle and the card receiving push plate; a through hole for the supporting plate to pass through is formed below the card receiving baffle, and through holes for the limiting cross rods on the two sides of the card receiving positioning plate to pass through are formed in the two sides of the card receiving baffle; the supporting plate and the card collecting positioning plate are also driven by the electric pushing cylinder, so that the card collecting positioning plate can slide back and forth between the card collecting baffle plate and the card collecting auxiliary plate.
Preferably, a cleaning roller and an auxiliary roller are sequentially arranged on the lower side of the card feeding roller, the cleaning roller and the auxiliary roller can rotate along the central axis of the cleaning roller and the auxiliary roller, one sides of the card feeding roller, one sides of the cleaning roller and one sides of the auxiliary roller are sequentially meshed with each other through gears, the rotation directions of the card feeding roller and the cleaning roller are opposite, the rotation directions of the card feeding roller and the auxiliary roller are consistent, the outer surface of the cleaning roller is provided with a hairbrush, and the auxiliary roller and the card feeding roller are consistent in structure.
Preferably, a plurality of friction ribs for increasing the contact friction force with the identity card are arranged on the circumferential side walls of the card feeding roller and the auxiliary roller.
Preferably, the card feeding roller and the auxiliary roller are provided with rubber layers on the outer sides of the circumferential side walls.
Preferably, the length of the cross section of the card reading channel is matched with the width of the identity card, and the width of the cross section is larger than the thickness of one identity card and smaller than the thickness of two identity cards.
Preferably, a lock ring is fixed on the connecting rod, the return spring is sleeved on the connecting rod, the lower end of the return spring is connected with the lock ring, the upper end of the return spring is connected with the guide support, and the return spring keeps a compressed state.
Preferably, a polished rod and a sleeve are arranged in the card feeding springs, one end of the polished rod extends into a port at one end of the sleeve and can slide in the sleeve, the other end of the polished rod is fixed with the card feeding push plate, and the other end of the sleeve is fixed with the card feeding auxiliary plate.
Preferably, a polished rod and a sleeve are arranged in each card receiving spring, one end of the polished rod extends into a port at one end of the sleeve and can slide in the sleeve, the other end of the polished rod is fixed with the card receiving push plate, and the other end of the sleeve is fixed with the card receiving positioning plate.
Therefore, the invention has the following beneficial effects: 1. the card can be put, registered and received in batches, and the operation is convenient; 2. the card swiping precision is high and the efficiency is high due to automatic control; 3. the consistency of the card outlet position is good, and the card is convenient to take.
Drawings
Fig. 1 is a schematic structural view of the present invention.
Fig. 2 is a structural sectional view of the present invention.
Fig. 3 is an enlarged view at a in fig. 2.
Fig. 4 is an enlarged view at b in fig. 2.
Fig. 5 is an enlarged view at c in fig. 2.
Fig. 6 is a schematic structural diagram of the card collecting device and the blocking slider in the invention.
Fig. 7 is a top view of the card-receiving device and the blocking slider of the present invention.
Fig. 8 is a schematic view of the structure of the blanking block when sorting down the identification cards.
Fig. 9 is a schematic structural diagram of the card reader when reading and registering the identity card.
Fig. 10 is a schematic view of the configuration of the registered identification card just after sliding into the card receiving slot.
Fig. 11 is a schematic view of another angle of the registered identification card just after sliding into the card receiving slot.
Fig. 12 is a schematic structural diagram of the inside of the card receiving groove when the piston rod of the electric pushing cylinder retracts to grab the card.
Fig. 13 is a schematic structural view of the piston rod of the electric pushing cylinder extending out of the card receiving slot after card receiving.
1: a housing; 2: integrating industrial control hosts; 3: a card reader; 4: a card inlet slot; 401: a card inlet baffle plate; 402: a card feeding auxiliary plate; 403: a card feeding push plate; 404: a card-feeding spring; 405: a feed block penetration opening; 5: a card reading channel; 501: a card feeding roller; 502: cleaning the roller; 503: an auxiliary drum; 6: a card receiving slot; 601: a card receiving baffle; 602: a card receiving auxiliary board; 603: a support plate; 604: a card receiving positioning plate; 605: a limiting cross bar; 606: a card receiving push plate; 607: a card limiting barb; 608: a card receiving spring; 7: blanking blocks; 8: a blocking slide block; 9: a connecting rod; 901: a locking ring; 10: a roller; 11: a guide bracket; 12: an electric pushing cylinder; 13: a return spring; 14: a polish rod; 15: a sleeve; 16: an identity card.
Detailed Description
The invention is further described with reference to the accompanying drawings and specific embodiments.
An intelligent registration system for hotels is shown in fig. 1 to 13 and comprises a shell 1, an integrated industrial-grade industrial-control host 2 and a card reader 3, wherein the integrated industrial-grade industrial-control host 2 and the card reader 3 are arranged in the shell 1, the integrated industrial-grade industrial-control host 2 is powered by an external power supply, the card reader 3 is electrically connected with the integrated industrial-grade industrial-control host 2, a card inlet slot 4, a card reading channel 5 and a card receiving slot 6 are sequentially arranged in the shell 1 from top to bottom, an upper opening of the card reading channel 5 is located on the inner bottom surface of the card inlet slot 4, and a lower opening of the card reading channel 5 is located above the inner side.
The inner side panel of the card inlet slot 4 is a card inlet baffle 401, the outer side panel is a card inlet auxiliary plate 402, and the distance between the left side wall and the right side wall of the card inlet slot 4 is matched with the width dimension of the identity card 16. A card feeding push plate 403 capable of sliding back and forth between the card feeding baffle 401 and the card feeding auxiliary plate 402 is arranged in the card feeding slot 4, one side of the card feeding push plate 403, far away from the card reading channel 5, is elastically connected with the card feeding auxiliary plate 402 through two card feeding springs 404, a polish rod 14 and a sleeve 15 are arranged in the two card feeding springs 404, one end of the polish rod 14 extends into the port at one end of the sleeve 15 and can slide in the sleeve 15, the other end of the polish rod is fixed with the card feeding push plate 403, the other end of the sleeve 15 is fixed with the card feeding auxiliary plate 402, and the polish rod 14 and the sleeve 15 are used for supporting the card feeding springs 404 and also used for sliding guide of the card feeding push plate 403; a blanking block penetrating port 405 is formed in the card feeding baffle 401, a blanking block 7 capable of moving up and down is arranged in the blanking block penetrating port 405, the front end of the blanking block 7 extends into the card feeding groove 4, the rear end of the blanking block is located inside the shell 1, and in the process of moving down the blanking block 7, the front end of the blanking block extends into the card feeding groove 4, can only drive an identity card 16 which is attached to the card feeding baffle 401 at the foremost side to move down, and the lower side of the identity card 16 is pulled down into an upper port of the card reading channel 5.
The length of the cross section of the card reading channel 5 is matched with the width of the identity cards 16, and the width of the cross section is larger than the thickness of one identity card 16 and smaller than the thickness of two identity cards 16. A card feeding roller 501, a cleaning roller 502 and an auxiliary roller 503 are sequentially arranged on the pipe wall at the upper opening of the card reading channel 5 from top to bottom, as shown in fig. 3, the card feeding roller 501, the cleaning roller 502 and the auxiliary roller are all transversely arranged and are parallel to each other, the card feeding roller 501 is driven to rotate by a motor, and the motor is electrically connected with the integrated industrial-grade industrial-control host 2 and is controlled by the integrated industrial-grade industrial-control host 2; the cleaning roller 502 and the auxiliary roller 503 can rotate along the central axis thereof, one side of the cleaning roller 502 is meshed with one side of the card feeding roller 501 through a gear, one side of the auxiliary roller 503 is meshed with one side of the cleaning roller 502 through a gear, the cleaning roller 502 and the auxiliary roller 503 are indirectly driven to rotate through a driving motor of the card feeding roller 501, the rotation directions of the card feeding roller 501 and the cleaning roller 502 are opposite, and the rotation directions of the card feeding roller 501 and the auxiliary roller 503 are consistent. The card feeding roller 501 and the auxiliary roller 503 are identical in structure, the outer sides of the circumferential side walls of the card feeding roller 501 and the auxiliary roller 503 are both rubber layers, a plurality of friction ribs used for increasing the contact friction force with the identity card are arranged on the circumferential side walls, and the outer surface of the cleaning roller 502 is a brush. One side of the circumferential side wall of the card feeding roller 501, the cleaning roller 502 and the auxiliary roller 503 is located in the card reading channel 5, the card feeding roller 501 and the auxiliary roller 503 are used for driving the identity card 16 in the card reading channel 5 to move downwards, and the cleaning roller 502 is used for cleaning one side of the identity card 16 to be read and registered, so that the identity card 16 can be better and more accurately identified by the card reader 3. A sliding block hole 504 is formed in the pipe wall at the lower opening of the card reading channel 5, and a blocking sliding block 8 capable of blocking the sliding of the identity card 16 in the card reading channel 5 is arranged in the sliding block hole 504, as shown in fig. 4. The blocking sliding block 8 is driven by an electric pushing cylinder 12, the blocking sliding block 8 is connected with a piston rod of the electric pushing cylinder 12 through a connecting block, and the electric pushing cylinder 12 is electrically connected with the integrated industrial-grade industrial-control host 2 and is controlled by the integrated industrial-grade industrial-control host 2. The card reader 3 is embedded in the channel wall of the card reading channel 5 and located above the sliding block hole 504, the card reader 3, the card feeding roller 501, the cleaning roller 502 and the auxiliary roller 503 are located on the same side of the wall of the card reading channel 5, when the identity card 16 in the card reading channel 5 is intercepted by the blocking slider 8 and falls on the upper surface of the blocking slider 8, the identity card 16 is located in the identification area of the card reader 3 in the card reading channel 5, and the card reader 3 can read and register the identity card 16. The upper surface of the blocking slide block 8 is divided into three continuous surfaces, namely a high plane, a middle inclined plane and a low plane, the high plane is positioned at one side close to the card reading channel 5, the middle inclined plane is positioned between the high plane and the low plane, and the position of the high plane is higher than that of the low plane; a connecting rod 9 is arranged on the lower side of the blanking block 7, the upper end of the connecting rod 9 is fixed with the blanking block 7, a roller 10 capable of rotating is arranged at the lower end of the connecting rod 9, the roller 10 is attached to the upper surface of the upper side of the blocking slide block 8, and the roller 10 can move up and down on three continuous surfaces, namely a high plane, a middle inclined plane and a low plane of the blocking slide block 8 along with the back and forth movement of the blocking slide block 8; the shell body 1 is internally provided with a guide support 11 of the connecting rod 9 and a return spring 13 of the connecting rod 9, the guide support 11 is provided with a through hole of the connecting rod 9, and the connecting rod 9 penetrates through the through hole in the guide support 11 and is in sliding fit with the through hole. The connecting rod 9 is fixed with a locking ring 901, the return spring 13 is sleeved on the connecting rod 9, as shown in fig. 5, the lower end of the return spring 13 is connected with the locking ring 901, the upper end of the return spring is connected with the guide support 11, the return spring 13 keeps a compression state, the return spring 13 provides a downward thrust for the connecting rod 9, and the roller 10 at the lower end of the connecting rod 9 can be attached to the arc surface on the upper side of the blocking slider 8.
The inner side panel of the card receiving slot 6 is a card receiving baffle 601, the outer side panel is a card receiving auxiliary plate 602, and a card receiving device is arranged in the card receiving slot 6, as shown in fig. 6 and 7, the card receiving device comprises a supporting plate 603 arranged at the bottom surface of the card receiving slot 6, a card receiving positioning plate 604 vertically fixed on the supporting plate 603, and a card receiving push plate 606 capable of sliding on the supporting plate 603; the card receiving positioning plate 604 is located between the card receiving baffle 601 and the card receiving auxiliary plate 602, two sides of the card receiving positioning plate 604 are respectively provided with two limiting cross rods 605 towards the direction of the card receiving baffle 601, the limiting cross rods 605 at the two sides are symmetrically arranged in parallel, and the distance between the limiting cross rods 605 at the two opposite sides is matched with the width size of the identity card 16. The limiting cross rods 605 on the two sides are provided with opposite limiting clamping barbs 607; the card receiving push plate 606 is positioned between the card receiving baffle 601 and the card receiving positioning plate 604 and between the limiting cross rods 605 at two sides of the card receiving positioning plate 604, the card receiving push plate 606 and the card receiving positioning plate 604 are elastically connected through a card receiving spring 608, a polish rod 14 and a sleeve 15 are arranged in the card receiving spring 608, one end of the polish rod 14 extends into a port at one end of the sleeve 15 and can slide in the sleeve 15, the other end of the polish rod is fixed with the card receiving push plate 606, the other end of the sleeve 15 is fixed with the card receiving positioning plate 604, and the polish rod 14 and the sleeve 15 are used for supporting the card receiving spring 608 and also used for sliding guiding the card receiving push plate 606; the lower opening of the card reading channel 5 is positioned above the card receiving baffle 601 and the card receiving push plate 606; a through hole for the supporting plate 603 to pass through is arranged below the card receiving baffle 601, and through holes for the limiting cross rods 605 at two sides of the card receiving positioning plate 604 to pass through are arranged at two sides of the card receiving baffle 601; the supporting plate 603 and the card receiving positioning plate 604 are also driven by the electric pushing cylinder 12 driving the blocking slider 8, and one end of the supporting plate 603 passes through a through hole below the card receiving baffle 601 to be connected with a piston rod of the electric pushing cylinder 12, so that the card receiving positioning plate 604 can slide back and forth between the card receiving baffle 601 and the card receiving auxiliary plate 602.
In the initial state, the piston rod of the electric push cylinder 12 retracts; the block slide block 8 retreats without cutting off the card reading channel 5; the blanking block 7 is jacked up to the upper plane along with the connecting rod 9 by the middle slope of the upper side of the blocking slide block 8, as shown in fig. 2.
When the card feeding device is used, a batch of identity cards 16 are placed between the card feeding baffle 401 and the card feeding push plate 403 in the card feeding groove 4 in a tidy and vertical mode, under the action of the card feeding spring 404, one side of the batch of identity cards 16 is attached to the card feeding baffle 401, the other side of the batch of identity cards 16 is attached to the card feeding push plate 403, the batch of identity cards are always kept in a vertical clamping state, and the innermost identity card 16 which is attached to and contacted with the card feeding baffle 401 is located at the upper opening of the card reading channel 5. Starting a driving motor of the card feeding roller 501, enabling the card feeding roller 501 and the auxiliary roller 503 to synchronously rotate in the card feeding direction, and enabling the cleaning roller 502 and the card feeding roller 501 to rotate reversely; the electric pushing cylinder 12 works to extend the piston rod outwards to drive the blocking slide block 8 to advance, the front end of the blocking slide block 8 enters the card reading channel 5 from the slide block hole 504 and cuts off the card reading channel 5, as shown in fig. 8, meanwhile, the roller 10 at the lower end of the connecting rod 9 slides to the lower plane of the upper side of the slide block hole 504, the blanking block 7 and the connecting rod 9 move downwards under the action of self gravity and the return spring 13, the blanking block 7 is pulled into the card slot 4 to be in contact with the card feeding baffle 401, the lower side of the identity card 16 is pulled into the upper opening of the card reading channel 5 and is in contact with the card feeding roller 501 on the upper opening of the card reading channel 5, the self-rotating card feeding roller 501 drives the identity card 16 to move downwards continuously to be in contact with the cleaning roller 502 and the auxiliary roller 503 in sequence, and when in contact with the cleaning roller 502, the card reading brush outside the cleaning roller 502 can clean one side of the identity card, More accurate identification. After the identity card 16 in the card reading channel 5 finally comes out of contact with the auxiliary roller 503, it slides down to the upper surface of the blocking slider 8, and the identity card 16 is read and registered by the card reader 3, as shown in fig. 9. After the identity card 16 is registered, the piston rod of the electric pushing cylinder 12 retracts again, in the retraction process of the piston rod, the blocking slide block 8 is pulled to retreat, the supporting plate 603, the card receiving positioning plate 604 and the limiting cross rod 605 are also pulled to move, at the moment that the card reading channel 5 is opened at the front end of the blocking slide block 8, the identity card 16 positioned above the blocking slide block 8 slides down onto the supporting plate 603 in the card receiving groove 6, and at the moment, the identity card 16 is positioned between the card receiving baffle 601 and the limiting cross rod 607 on the limiting cross rod 605 and between the limiting cross rods 605 on two sides, as shown in fig. 10 and 11. The piston rod of the electric pushing cylinder 12 continuously retracts to stop the sliding block 8 from continuously retreating, the connecting rod 9 and the blanking block 7 on the upper side are jacked up, and an identity card 16 is attached to the card inlet baffle 401 in the card inlet groove 4; meanwhile, the supporting plate 603, the card receiving positioning plate 604 and the limiting cross rod 605 continue to move towards the card receiving baffle 601, the limiting card barbs 607 on the limiting cross rods 605 on two sides can slide across two sides of the identity card 16 which just falls into the card receiving slot 6, and then the identity card 16 is clamped and limited between the card receiving baffle 601 and the card receiving push plate 606, as shown in fig. 12, and because the card receiving spring 608 is arranged between the card receiving push plate 606 and the card receiving positioning plate 604, the card receiving push plate 606 has a buffer distance, and different numbers of identity cards 16 can be clamped and adapted between the card receiving baffle 601 and the card receiving push plate 606. When the piston rod of the electric cylinder 12 is extended again, and the supporting plate 603, the card receiving positioning plate 604 and the limiting cross rod 605 move toward the card receiving auxiliary plate 602, the card limiting barb 607 drives the card receiving baffle 601 and the card receiving push plate 606 to move together, at this time, the identity card 16 is clamped and limited between the card limiting barb 607 and the card receiving push plate 606, and a card receiving is completed once, as shown in fig. 13. And the piston rod of the electric push cylinder 12 extends out again, which means that the sliding block 8 is blocked to enter the card reading channel 5 from the sliding block hole 504 again and cut off the card reading channel 5, meanwhile, the blanking block 7 and the connecting rod 9 move downwards again, and an identity card 16 is fed into the upper opening of the card reading channel 5 again to perform reading and registering of the next identity card 16. And the linkage is circulated until the identity card 16 in the card slot 4 is registered.