CN210236364U - Automatic change mechanism of getting of dinner plate machine - Google Patents
Automatic change mechanism of getting of dinner plate machine Download PDFInfo
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- CN210236364U CN210236364U CN201920415740.XU CN201920415740U CN210236364U CN 210236364 U CN210236364 U CN 210236364U CN 201920415740 U CN201920415740 U CN 201920415740U CN 210236364 U CN210236364 U CN 210236364U
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Abstract
The utility model discloses an automatic change out mechanism is got to clamp of dinner plate machine, including two sets of lift drive assembly, jack catch that can the up-and-down motion and enabling lift drive assembly to draw in or open flexible subassembly, two sets of lift drive assembly set up relatively, lift drive assembly include the installation department and with the lift portion that the installation department is connected, the jack catch is fixed with lift portion. The clamping mechanism is used for grabbing the edge of the dinner plate and conveying the dinner plate to the plate outlet, so that the dinner plate can not contact with the meal containing area, the pollution of the meal containing area is reduced, and an air pump or a vacuum pump is not required to be arranged.
Description
Technical Field
The utility model relates to an automatic technical field, more specifically the theory that says so, it relates to an automatic change mechanism is got to clamp of dinner plate machine.
Background
The following background is provided to aid the reader in understanding the present invention and is not admitted to be prior art.
Most companies have staff restaurants, the dinner plate is mostly exposed at a window and taken by the staff independently, and the dinner plate is exposed outside for a long time and basically has concentrated dinner by the staff, so that the dinner plate can cause a sanitation problem. Some automatic dinner plate machines adopt the sucking disc to absorb the automatic mode of sending out of dinner plate, and the position that this kind of automatic dish machine sucking disc was absorb is all in dinner plate meal containing area basically, and the long-term use of sucking disc can produce a lot of bacteriums, consequently has very big sanitary problem, adopts sucking disc basically all to dispose air pump or vacuum pump in addition, just so makes this kind of dinner plate machine appearance design size great, should not carry, and the pump operation has very big noise moreover.
Disclosure of Invention
An object of the utility model is to provide a closed places equipment inside in with the dinner plate and does not receive external pollution, and pure mechanical structure realizes that the dinner plate snatchs the automatic dinner plate machine that goes out that the dinner plate edge can not produce the contact to the district of containing meal.
The utility model provides a technical scheme that its technical problem adopted is:
automatic change out dinner plate machine, including the dinner plate, a machine support, press from both sides and get mechanism and sideslip mechanism, install in the frame and press from both sides and get mechanism and sideslip mechanism, the dinner plate is under, it is last to press from both sides and get the mechanism, press from both sides and get two sets of lift drive assembly that the mechanism is including can up-and-down motion, the jack catch and enable the lift drive assembly and draw in or open flexible subassembly, two sets of lift drive assembly set up relatively, the lift drive assembly includes the installation department and the lift portion of being connected with the installation department, the jack catch is fixed with the lift portion, sideslip mechanism is including removing the optical axis, sideslip drive assembly, leading part and deflector, sideslip drive assembly orders about the removal optical axis and removes, the installation department removes along removing the optical axis, the deflector is located between two.
Outer casing
According to the preferable scheme, the plate outlet machine is provided with a shell, the shell comprises a front plate, a rear plate, two side plates, a bottom plate and a top plate, the front plate, the rear plate and the two side plates are all fixed with a mounting bottom plate, the rack, the clamping mechanism and the traversing mechanism are all located inside the shell, the front plate is provided with a plate inlet and a door used for closing the plate inlet, and the rear plate is provided with a plate outlet. Preferably, the door is connected through a hidden hinge, and the door is provided with an invaginated handle. The tray inlet is opposite to the tray outlet, the tray inlet refers to a manual tray placing position, and the tray outlet refers to a tray taking position of diners.
Preferably, the disc outlet is provided with a bracket, the bracket is fixed with the rear plate, and the bracket is provided with a laser diffuse reflection sensor. The bracket is used for placing the dinner plate clamped by the clamping mechanism, and the laser diffuse reflection sensor is used for detecting whether the dinner plate is arranged at the position of the plate opening. Preferably, the laser light diffuse reflection sensor is located at a middle position of the carriage.
Preferably, the back plate is provided with a face recognition or card swiping all-in-one machine. The operational parameters of the dish machine can be set. Preferably, the face recognition or card swiping all-in-one machine is connected with the back plate through a universal support. Through gimbal, face identification or all-in-one of punching the card can carry out angular adjustment as required.
Preferably, the front door is provided with an emergency stop switch button, a start switch button, a reset switch button and an alarm indicator lamp. Wherein, the scram switch button: when the equipment is abnormal, the emergency stop switch is pressed, and the machine stops working; starting a switch button: when the equipment is powered on, a start switch button is pressed to start entering a normal working state; resetting the switch button: when the equipment is abnormal or the dinner plate is absent, a reset switch button needs to be pressed down to enable the equipment to enter a state when the dinner plate is initially placed; alarm indicator lamp: the indicator lights flash when the equipment is abnormal or the dinner plate in the equipment is not available.
Rack
Preferably, the rack comprises a top mounting plate and a bottom mounting plate, and the top mounting plate and the bottom mounting plate are connected through a support rod. Specifically, the number of the support rods is four, each support rod is provided with a rolling linear bearing, and the rolling linear bearings are fixed with the adapter plate through bearing adapter blocks. Specifically, the mounting top plate and the mounting bottom plate are fixed with the supporting rod through the shaft fixing seat respectively.
Preferably, the front plate, the rear plate and the two side plates are all fixed with the mounting bottom plate.
Preferably, four casters are mounted at the bottom of the mounting base plate. The equipment is convenient to carry, the caster can be locked, and the caster can be prevented from moving when the caster needs to be fixed. Preferably, bolt holes are uniformly distributed in the surface of the mounting base plate, so that the shell is connected with the mounting base plate conveniently.
Preferably, a space is provided between the top of the mounting top plate and the housing for mounting electrical components such as controllers and drivers.
Clamping mechanism
The clamping mechanism is used for clamping the dinner plate.
As the preferred scheme, each group of lifting driving components is provided with a group of clamping jaws which are symmetrically arranged, and the dinner plate is positioned between the two groups of clamping jaws.
As preferred scheme, the installation department includes the sideslip flat board, linear stepping motor and step motor lead screw, linear stepping motor passes through the sideslip flat board and is fixed with the removal optical axis, the portion of going up and down is including unsteady connecting block and mount pad, linear stepping motor output shaft passes through the step motor lead screw and is fixed with unsteady connecting block, the mount pad is opened there is the hole that floats, unsteady connecting block is located unsteady hole, the length in unsteady hole is greater than the length of unsteady connecting block, the unsteady connecting block passes through the round pin axle and is connected with the mount pad, the jack catch is. Specifically, the mounting seat is provided with a connecting hole for the pin shaft to pass through, the connecting hole is a long round hole, and two ends of the pin shaft are fixed through shaft clamps. The connecting hole is provided with a space for enabling the pin shaft to move left and right along the connecting hole, so that the floating block can move left and right along the floating hole, and due to the machining error, the screw rod of the linear stepping motor cannot be clamped and cannot rotate due to the machining error when moving up and down, and a certain buffer distance is allowed to exist in the X-axis direction.
Preferably, the moving optical axes are arranged in parallel, the telescopic assembly comprises longitudinal moving bearing assemblies and springs, the longitudinal moving bearing assemblies are respectively sleeved on the two groups of moving optical axes, two sides of each group of moving optical axes are respectively provided with one longitudinal moving bearing assembly, the transverse moving flat plate is fixed with the moving optical axes through the longitudinal moving bearing assemblies, each spring is provided with a fixed end and a telescopic end, each fixed end is fixed with the corresponding moving optical axis, and each telescopic end is fixed with the corresponding longitudinal moving bearing assembly. Before the dinner plate is clamped, the spring is in an initial state, when the clamping mechanism clamps the edge of the dinner plate, the lifting driving assembly moves downwards, the two groups of clamping jaws gradually open towards two sides, and the transverse moving flat plate connected with the clamping jaws drives the longitudinal moving bearing assembly to push the spring to compress towards two sides. It should be noted that, the clamping mechanism is mounted on the movable optical axis, and two sets of movable optical axes are provided because the longitudinal movement bearing assembly itself rotates around the movable optical axis, and the rotation of the longitudinal movement bearing assembly is limited by the two sets of movable optical axes, so as to ensure the stability of the clamping mechanism.
Preferably, the mounting portion comprises a guide shaft, the guide shaft is symmetrically arranged along the transverse moving flat plate, the guide shaft is provided with a guide fixed end and a free end, the guide fixed end is fixed with the transverse moving flat plate, the mounting seat is provided with a through hole, a sliding shaft sleeve is mounted in the through hole, and the sliding shaft sleeve corresponds to the free end. When the lifting part is lifted, the free end of the guide shaft is drawn out or penetrates through the sliding shaft sleeve, so that the guide effect of the vertical movement of the clamping mechanism and the movement stability are realized. Preferably, the linear stepping motor is located at a center line position between the two movable optical axes, so that the stability of the clamping mechanism is ensured.
As preferred scheme, the jack catch includes extrusion section and clamping section, and the extrusion section is connected with the clamping section, and the extrusion section is the inclined plane, and the clamping section is vertical face or for the groove, and including last plane, chucking face and lower plane when for the groove, go up plane, chucking face and lower plane and form the groove. In the initial state, the dinner plate is positioned between the two groups of extrusion sections, the clamping jaws move downwards under the driving of the lifting driving assembly, the extrusion sections move downwards along the edge of the dinner plate, the springs on the two sides compress in the direction away from the dinner plate to drive the clamping jaws to open towards the two sides, and the distance between the clamping jaws is increased until the edge of the dinner plate falls between the clamping sections and is clamped. It will be appreciated that the clamping segments when slots are provided may have a variety of configurations, for example, square slots, arcuate slots, etc. Preferably, the clamping section is selected to be an arc-shaped groove, and when the edge of the dinner plate is clamped in the clamping section, the edge of the dinner plate is clamped in the arc-shaped surface more stably and is not easy to fall off.
Preferably, the clamping jaw is provided with a blocking section, the blocking section is connected with the clamping section, and the upper plane extends to form the blocking section, so that the clamping jaw is prevented from being dropped excessively to cause missing of the dinner plate. The extrusion section, the clamping section and the blocking section are sequentially connected, so that the dinner plate is smoothly clamped by the clamping mechanism.
Preferably, each group of clamping jaws is symmetrically arranged along the mounting seat, or the clamping sections have a certain length, and the clamping jaws are located at the center of the mounting seat. The clamping jaws are symmetrically arranged along the mounting seat, or the clamping sections have certain length and are positioned in the center of the mounting seat, so that the edges of the dinner plate can be clamped stably.
Preferably, the clamping jaw is provided with a fixed seat, and the fixed seat is fixed with the mounting seat.
It should be noted that the shape of the claw is not limited, and the claw can be changed according to the edge shape of different dinner plates.
Preferably, the clamping mechanism comprises a contact displacement sensor, the contact displacement sensor is fixed with the mounting seat through a fixing plate, the contact displacement sensor is provided with a contact head corresponding to the surface of the dinner plate, and the end part of the contact head is lower than the bottom surface of the clamping jaw. Each group of lifting driving components is provided with a contact type displacement sensor.
Preferably, the contact displacement sensor is located at the end of the mounting seat, and the width of the mounting seat is smaller than that of the dinner plate, so that the contact displacement sensor can contact with the surface of the dinner plate. In the process that the linear stepping motor drives the clamping jaw and the contact type displacement sensor to synchronously descend, the contact head of the contact type displacement sensor can be firstly contacted with the surface of the dinner plate, the contact type displacement sensor is compressible by the spring, the linear stepping motor continues to drive the contact type displacement sensor and the clamping jaw to descend after contact, the contact type displacement sensor can detect the descending distance at the moment, and the clamping jaw is controlled to accurately clamp the dinner plate by controlling the descending distance.
Transverse moving mechanism
The transverse moving mechanism is used for conveying the dinner plate to the plate outlet and resetting the clamping mechanism.
As preferred scheme, the frame includes two installation risers, two installation risers parallel arrangement, and two installation risers all are fixed with the installation roof. Preferably, the transverse moving driving assembly comprises a power motor, a driving belt wheel, a driven belt wheel and a synchronous belt, the power motor and the driven belt wheel are respectively installed on the two installation vertical plates, an output shaft of the power motor is fixed with the driving belt wheel, the driving belt wheel and the driven belt wheel are in meshing transmission through the synchronous belt, and the synchronous belt is connected with the moving optical shaft.
Preferably, the driven pulley includes first driven pulley second driven pulley and third driven pulley, the hold-in range includes first synchronous belt and second hold-in range, first driven pulley and second driven pulley are fixed with an installation riser respectively, power motor and third driven pulley are fixed with another installation riser respectively, driving pulley passes through first hold-in range and first driven pulley meshing transmission, first driven pulley passes through synchronizing shaft with second driven pulley, second driven pulley and third driven pulley pass through second hold-in range meshing transmission. In order to realize that the two ends of the movable optical axis synchronously move along the X-axis direction, the first driven belt wheel arranged on the vertical plate arranged on the other side is driven to rotate by synchronous belts, the first driven belt wheel can drive the second driven belt wheel and the third driven belt wheel on the same side to rotate by the synchronous shafts, and therefore the synchronous belts on the two sides can move simultaneously under the driving of a power motor.
The transverse moving driving assembly enables the synchronous belt to drive the moving optical axis to reciprocate along the X-axis direction, and the X-axis direction is perpendicular to the moving optical axis. In order to realize that the two ends of the movable optical axis synchronously move along the X-axis direction, the first driven belt wheel arranged on the vertical plate arranged on the other side is driven to rotate by synchronous belts, the first driven belt wheel can drive the second driven belt wheel and the third driven belt wheel on the same side to rotate by the synchronous shafts, and therefore the synchronous belts on the two sides can move simultaneously under the driving of a power motor.
Preferably, the sideslip mechanism includes two sets of fixed optical axes, and two sets of fixed optical axes all are fixed in between two installation risers, and two sets of fixed optical axes are parallel, and removal optical axis both ends are connected with fixed optical axis through sideslip bearing subassembly respectively, and the hold-in range passes through the hold-in range fixed plate and is connected with the sideslip bearing subassembly. Specifically, the fixed optical axis passes through the traversing bearing assembly, and two ends of the moving optical axis are respectively fixed with the traversing bearing assembly.
Preferably, the guide plate comprises a clamping section and a buffering section, the clamping section is smoothly connected with the buffering section, and the buffering section is an opened inclined surface. The clamping mechanism clamps the dinner plate to move along the clamping section to the direction of the plate outlet and moves to the buffer section, and the spring is slowly compressed until the dinner plate falls down.
Preferably, the guide plate has a stop section. When the clamping mechanism returns, the stopping section can prevent the clamping mechanism from continuously moving towards the plate inlet, so that the clamping mechanism stops at the plate placing position. Too great a distance of movement can cause the jaws to miss the dish. It can be understood that the form setting of the stopping section is not limited, and only the requirement that the clamping mechanism can be prevented from moving forward is met, for example, the stopping section is perpendicular to the clamping section, or the included angle between the stopping section and the clamping section is an acute angle, preferably, the stopping section is perpendicular to the clamping section and is set to be a perpendicular shape, the guide plate cannot be damaged, and the clamping mechanism cannot be clamped.
Preferably, the guide plate is provided with an expanding section, the expanding section is smoothly connected with the buffering section, and the expanding section is a plane. When the gripping mechanism reaches the opening section, the jaws have released the tray.
The deflector comprises a stopping section, a clamping section, a buffering section and an opening section, wherein the opening section, the buffering section, the clamping section and the stopping section are sequentially connected. When the clamping mechanism moves towards the direction of the dish outlet, the clamping mechanism clamps the dinner plate at the clamping section and puts down the dinner plate at the buffer section; when the clamping mechanism moves towards the direction of the disk inlet, the stopping section stops the claw from continuing to move forward.
Preferably, every group lift drive assembly respectively corresponds and sets up a deflector, perhaps is equipped with a deflector between two sets of lift drive assemblies, and the deflector both sides all are including hindering stopping section, clamping section, buffer segment and opening the section, and the deflector both ends are fixed with the installation riser respectively.
Preferably, the guide part comprises a guide wheel, a base and a connecting rod, the two ends of the connecting rod are respectively connected with the guide wheel and the base, and the base is fixed with the transverse moving flat plate. Specifically, the guide wheel has a guide surface, and the guide surface corresponds to the guide plate. Specifically, the transverse moving flat plate is provided with an extending surface, the base is fixed on the extending surface, and the guide wheel is positioned between the two groups of moving optical axes.
Lifting mechanism
A certain number of dinner plates are placed on the rack, the clamping mechanism clamps one dinner plate, and then the lifting mechanism automatically lifts the dinner plate upwards to enable the dinner plate to reach the position to be clamped.
Preferably, the automatic dinner plate discharging machine comprises a lifting mechanism, the lifting mechanism comprises a tray and a lifting driving assembly, and the lifting driving assembly drives the tray to ascend and descend. The tray is used for placing dinner plates.
Preferably, promote drive assembly including promoting driving motor, synchronous action wheel, synchronous follow driving wheel, promote the hold-in range, promote lead screw and slider, promote driving motor output shaft and be connected with synchronous action wheel, promote the hold-in range and connect synchronous action wheel and synchronous follow driving wheel, synchronous follow driving wheel and promote the lead screw fixed, the slider reciprocates along promoting the lead screw, the slider is fixed with the tray. The lifting power motor drives the synchronous driving wheel to rotate, the synchronous driving wheel is connected with the synchronous driven wheel through the lifting synchronous belt, so that the synchronous driving wheel and the synchronous driven wheel are meshed for transmission, the synchronous driven wheel drives the lifting lead screw to rotate, and the lifting lead screw drives the sliding block to move up and down and simultaneously drives the tray to move up and down.
Preferably, hoist mechanism includes two keysets, two keysets parallel arrangement, and the tray is located between two keysets, and the slider passes through the slider switching piece to be fixed with one of them keysets, and the spout has all been opened to the lateral wall of two keysets, and the tray lateral wall has the guide rail, spout and guide rail cooperation.
Preferably, the lateral wall of the adapter plate is provided with a sliding groove, the lateral wall of the tray is provided with a guide rail, and the sliding groove is matched with the guide rail. The tray can slide in and out along the adapter plate, so that the tray can be conveniently stretched in and pulled out to place the dinner plate.
Preferably, a set of positioning strips is arranged on the inner side and the outer side of the tray respectively, one-level bulges are arranged on two sides of each set of positioning strips respectively and symmetrically along the middle points of the positioning strips, and the distance for accommodating the dinner plate is arranged between the two-level bulges on two sides. When placing the dinner plate, the dinner plate includes meal containing area and marginal zone, and meal containing area lies in between two sets of location strips, and the marginal zone lies in on two sets of location strips, and the dinner plate can be held up to two sets of location strips, conveniently places the dinner plate, and the one-level arch can prevent to control about the dinner plate. Preferably, the primary protrusion comprises a movement prevention section and a release section, the movement prevention section is connected with the vertical surface, and the release section is an inclined surface which is opened outwards. The tray is clamped between the anti-migration segments, although it will be understood that clamping is not strictly a clamp, but rather that the tray has some space to move left and right. When the dinner plate moves to the loosening section, the loosening section is an inclined plane which is opened outwards, the left and right space range of the dinner plate is larger, and in addition, a dinner plate with a large size can be placed.
Preferably, two sides of the positioning strip are respectively provided with a second-level bulge, the second-level bulge is vertically connected with the first-level bulge, and the second-level bulge is lower than the first-level bulge. The secondary bulges block the meal containing area, so that the dinner plate can not only be prevented from sliding out, but also be suitable for the dinner plate with small size.
Preferably, the tray is provided with a handle at the outer side, so that the tray can be conveniently drawn out to place the dinner plate.
Preferably, the lifting screw is located between the mounting top plate and the mounting bottom plate. Specifically, the lifting screw is provided with a fixed side and a supporting side, the fixed side is connected with the installation groove plate through a screw fixing seat, the installation groove plate is fixed with the installation top plate, and the supporting side is fixed with the installation bottom plate through a screw supporting seat.
As preferred scheme, hoist mechanism is equipped with first proximity switch sensor and second proximity switch sensor, and first proximity switch sensor and second proximity switch sensor are fixed with the keysets through the proximity switch support respectively, and first proximity switch sensor and second proximity switch sensor stagger and place. The first proximity switch sensor is used for detecting that the tray rises to the highest position, and the second proximity switch sensor is used for detecting that the tray descends to the lowest position, and staggered placement means that the first proximity switch sensor and the second proximity switch sensor are not on a vertical line, and the detection of the first proximity switch sensor and the second proximity switch sensor can be influenced because of being located on the same vertical line.
As preferred scheme, hoist mechanism includes location detection device, location detection device includes that spherical knot and third proximity switch sensor, the spherical knot includes public head and female head, public head passes through the connecting plate and is fixed with the tray, female head and third proximity switch sensor are fixed with the frame respectively, female head has the insertion groove that is used for holding public head, public head and female head position correspond, third proximity switch sensor is located the insertion groove top, when public head and female head joint, third proximity switch sensor does not contact with public head. Placing the dinner plate and finishing, when the tray slides to public head and female first joint, the third proximity switch sensor detects the dinner plate and places in place, sends corresponding signal, later presses start button, and start button is just effective, just can carry out follow-up action. Preferably, the frame includes the connection riser, and the connection riser is located between two keysets, and the connection riser both ends are fixed with the keyset respectively, and female head and third proximity switch sensor are fixed with the connection riser respectively. Specifically, the third proximity switch sensor is fixed with the connecting vertical plate through the switch bracket. Preferably, the positioning detection devices are symmetrically arranged in two groups along the central line of the connecting vertical plate.
The utility model discloses a working process: a worker starts a machine through a face recognition or card swiping integrated machine, after a clamping mechanism moves to a plate clamping position, a linear stepping motor drives opposite clamping jaws to move downwards synchronously, in the process that the clamping jaws move downwards, the contact type displacement sensor contacts can be firstly contacted with the surface of a plate to judge the position of the plate, the clamping jaws are controlled to move downwards so that the clamping jaws accurately press downwards for a certain distance to clamp the edge of the plate, springs on two sides are compressed towards the fixed optical axis direction of the same side respectively, after the clamping jaws clamp the plate, the two linear stepping motors synchronously drive the clamping jaws to move upwards so as to drive the plate clamped by the clamping jaws to move upwards for a certain distance, after the clamping jaws move in place, a power motor drives synchronous belts on two sides to move so as to drive the clamping mechanism to move transversely, when a guide wheel moves to a buffer section along the side edge of a guide plate, the springs continue to be compressed, so that the distance, after the dinner plate is put down, the linear stepping motor continues to lift the clamping jaw and upwards lift a certain distance, then the power motor drives the synchronous belt to move reversely, so that the lifting mechanism returns to the position for clamping the dinner plate again, the lifting mechanism automatically upwards lifts the dinner plate, the dinner plate reaches the position for clamping, and the next dish discharging process is started.
The utility model has the advantages that:
1. the utility model discloses a jack catch snatchs the dinner plate edge and send the dinner plate to a dish mouth, can not contact flourishing meal district, reduces flourishing meal district and pollutes.
2. The lifting mechanism, the clamping mechanism and the transverse moving mechanism are matched with each other, the dinner plate is lifted to the position to be clamped by the lifting mechanism, the clamping mechanism clamps the edge of the dinner plate, and the transverse moving mechanism conveys the dinner plate to the plate outlet, so that the plate outlet automation is realized.
3. The clamping mechanism and the transverse moving mechanism are adopted, and an air pump or a vacuum pump is not required to be configured, so that the external design size of the dinner plate outlet machine is small, the dinner plate outlet machine is easy to carry, and the noise generated when the pump operates is reduced.
4. The lifting mechanism can lift the dinner plate to the position to be clamped without manual placement, and the automatic degree is high.
5. The automatic dinner plate discharging machine can realize automatic dinner plate discharging by swiping a card or swiping a face of a staff, and has high automation.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic view of the front plate of the housing of the dish outlet machine.
Fig. 3 is a schematic view of the back plate of the housing of the dish outlet machine.
Fig. 4 is a perspective view of the gripping mechanism and the traversing mechanism.
Fig. 5 is a plan view of the gripping mechanism and the traversing mechanism.
Fig. 6 is a front view of the gripping mechanism and the traversing mechanism.
Fig. 7 is a side view of the grasping mechanism and the traversing mechanism.
Fig. 8 is a schematic view of the gripping mechanism.
Fig. 9 is another schematic view of the gripping mechanism.
Fig. 10 is a schematic structural view of the mounting seat.
FIG. 11 is a schematic diagram of the structure of one embodiment of the pawl.
FIG. 12 is a front view of one embodiment of a pawl.
Figure 13 is a front view of a second embodiment of the pawl.
Figure 14 is a front view of a third embodiment of the pawl.
Fig. 15 is a schematic structural view of the guide plate.
Fig. 16 is a schematic structural view of the lifting mechanism.
Fig. 17 is an enlarged schematic view of a in fig. 16, where a is a positioning detection device.
Fig. 18 is a schematic structural view of the female head.
Fig. 19 is a schematic structural diagram of the lift drive assembly.
Fig. 20 is a schematic structural view of the tray.
Fig. 21 is an enlarged view of B in fig. 20.
Fig. 22 is a schematic structural view of the lock bar.
The labels in the figure are: the automatic card reading device comprises a shell 1, a front plate 101, a rear plate 102, side plates 103, a bottom plate 104, a top plate 105, a door 106, a face recognition or card swiping all-in-one machine 107, a universal support 1071, a switch combination 108, an emergency stop switch button 1081, a start switch button 1082, a reset switch button 1083, an alarm indicator light 1084, a disc inlet 1011, a disc outlet 1021, a bracket 1022, a laser diffuse reflection sensor 1023 and a handle 1061; the device comprises a machine frame 2, a mounting top plate 201, a mounting bottom plate 202, a supporting rod 203, a rolling linear bearing 204, a bearing adapter block 205, a shaft fixing seat 207, a caster 208, a mounting vertical plate 210, a switch bracket 211 and a connecting vertical plate 212;
the clamping mechanism 3, the lifting driving component 301, the mounting part 304, the transverse moving flat plate 306, the extension surface 3061, a linear stepping motor 307, a stepping motor screw rod 311, a guide shaft 316, a guide fixed end 3161, a free end 3162 and a sliding shaft sleeve 3163; the lifting part 305, the floating connecting block 308, the mounting seat 309, the floating hole 3091, the connecting hole 3092, the through hole 3093, the pin shaft 310, the shaft clamp 3101, the claw 302, the extrusion section 3021, the clamping section 3022, the upper plane 30221, the clamping surface 30222, the lower plane 30223, the blocking section 3023, the fixed seat 3024, the telescopic assembly 303, the longitudinal moving bearing assembly 312, the spring 313, the fixed end 3131 and the telescopic end 3132; contact displacement sensor 314, fixed plate 315, contact 3141;
a traverse mechanism 4, a moving optical axis 401, a guide part 403, a guide wheel 4031, a guide surface 4034, a base 4032, a connecting rod 4033, a guide plate 404, a stopping section 4041, a clamping section 4042, a buffering section 4043, an opening section 4044, a traverse driving component 402, a power motor 405, a driving pulley 406, a driven pulley 407, a synchronous belt 408, a first driven pulley 4071, a second driven pulley 4072, a third driven pulley 4073, a first synchronous belt 4081, a second synchronous belt 4082, a synchronous belt fixing plate 4083, a synchronous shaft 409, a fixed optical axis 410 and a traverse bearing component 411;
the device comprises a lifting mechanism 5, a tray 501, a handle 5011, a guide rail 5012, a sliding groove 5031, an adapter plate 503, a lifting driving assembly 502, a lifting power motor 504, a synchronous driving wheel 505, a synchronous driven wheel 506, a lifting synchronous belt 507, a lifting lead screw 508, a fixed side 5081, a supporting side 5082, a sliding block 509, a sliding block adapter block 510, a mounting groove plate 511, a lead screw fixing seat 512, a lead screw supporting seat 513, a positioning strip 514, a primary protrusion 5141, an anti-moving section 5142, a loosening section 5143, a secondary protrusion 5144, a first proximity switch sensor 515, a second proximity switch sensor 516, a proximity switch bracket 517, a positioning detection device 518, a spherical buckle 519, a third proximity switch sensor 520, a male head 5191, a female head 5192, an insertion groove 5193 and a connecting plate 521;
a dinner plate 6.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and the following detailed description.
An automatic dinner plate discharging machine is shown in fig. 1, and comprises a dinner plate 6, a frame 2, a clamping mechanism 3 and a transverse moving mechanism 4, wherein the frame 2 is provided with the clamping mechanism 3 and the transverse moving mechanism 4, the dinner plate 6 is arranged below, the clamping mechanism 3 is arranged above, the clamping mechanism 3 comprises two groups of lifting driving components 301 capable of moving up and down, a clamping jaw 302 and a telescopic component 303 capable of enabling the lifting driving components 301 to be folded or unfolded, the two groups of lifting driving components 301 are arranged oppositely, the lifting driving components 301 comprise an installation part 304 and a lifting part 305 connected with the installation part 304, the clamping jaw 302 is fixed with the lifting part 305, the transverse moving mechanism 4 comprises a moving optical axis 401, a transverse moving driving component 402, a guide component 403 and a guide plate 404 installed on the frame 2, the moving optical axis 401 is installed on the frame 2, the transverse moving optical axis 401 is driven by the transverse moving driving component 402 to move, the guide plate 404 is located between the two sets of lifting drive assemblies 301, the guide member 403 is mounted on the mounting portion 3011, and the guide member 403 moves along the path of the guide plate 404 to drop the dish 6.
Outer casing
Preferably, as shown in fig. 2-3, the dish outlet machine is provided with a housing 1, the housing includes a front plate 101, a rear plate 102, two side plates 103, a bottom plate 104 and a top plate 105, the rack 2, the gripping mechanism 3, the traversing mechanism 4 and the lifting mechanism 5 are all located inside the housing 1, the front plate 101 is provided with a tray inlet 1011 and a door 106 for closing the tray inlet, and the rear plate 102 is provided with a tray outlet 1021. Preferably, the door 106 is attached by a hidden hinge, and a recessed handle 1061 is mounted on the door 106. The tray inlet 1011 is opposite to the tray outlet 1021, the tray inlet 1011 is a manual tray placing position, and the tray outlet 1021 is a tray holding position for the diner.
Preferably, as shown in FIG. 2, the front panel 101 is mounted with a switch assembly 108 including a scram switch button 1081, a start switch button 1082, a reset switch button 1083 and an alarm indicator 1084. Among them, scram switch button 1081: when the equipment is abnormal, the emergency stop switch is pressed, and the machine stops working; start switch button 1082: when the equipment is powered on, a start switch button is pressed to start entering a normal working state; reset switch button 1083: when the equipment is abnormal or the dinner plate is absent, the reset switch button 1083 needs to be pressed, so that the equipment enters a state when the dinner plate is initially placed; alarm indicator 1084: the indicator lights flash when the equipment is abnormal or the dinner plate in the equipment is not available.
Preferably, as shown in fig. 3, the tray outlet 1021 is provided with a bracket 1022, the bracket 1022 is fixed to the rear plate 102, and the bracket 1022 is provided with a laser diffuse reflection sensor 1023. The tray 1022 is used for placing the dinner plate gripped by the gripping mechanism 3, and the laser diffuse reflection sensor 1023 is used for detecting whether the dinner plate is at the disk mouth 1021. Preferably, the laser light diffusion reflection sensor 1023 is located at a middle position of the bracket 1022.
Preferably, as shown in fig. 3, the back plate 102 is provided with a face recognition or card swiping integrated machine 107, which can set the operation parameters of the dining plate machine. Preferably, the face recognition or card swipe integrated machine 107 is connected to the rear panel 102 through a gimbal 1071. Through gimbal 1071, face identification or all-in-one of punching the card 107 can carry out angular adjustment as required.
Rack
Preferably, as shown in fig. 1, the rack 2 includes a top mounting plate 201 and a bottom mounting plate 202, and the top mounting plate 201 and the bottom mounting plate 202 are connected by a support rod 203. Specifically, four support rods 203 are provided, each support rod 203 is provided with a rolling linear bearing 204, the rolling linear bearing 204 is fixed to the adapter plate 503 through a bearing adapter block 205, and the installation top plate 201 and the installation bottom plate 202 are fixed to the support rods 203 through shaft fixing seats 207, as shown in fig. 16.
Preferably, the front plate 101, the rear plate 102 and both side plates 103 are fixed to the mounting baseplate 202.
Preferably, as shown in FIG. 1, four casters 208 are mounted to the bottom of the mounting base 202. The equipment is convenient to carry, and the caster 208 can be locked to prevent the caster from moving when the caster needs to be fixed. Preferably, bolt holes are uniformly distributed around the mounting base plate 202, so that the housing 1 is connected with the mounting base plate 202.
Preferably, a space is provided between the top of the top mounting plate 201 and the housing 1 for mounting electrical components such as a controller and a driver.
Clamping mechanism
The clamping mechanism 3 is used for clamping the dinner plate 6.
Preferably, as shown in fig. 4-7, each set of lifting driving components 301 has a set of claws 302, the two sets of claws 302 are symmetrically arranged, and the dinner plate is located between the two sets of claws 302.
Preferably, as shown in fig. 8 to 10, the mounting portion 304 includes a traverse plate 306, a linear stepping motor 307, and a stepping motor screw 311, the linear stepping motor 307 is fixed to the moving optical axis 401 through the traverse plate 306, the elevating portion 305 includes a floating connection block 308 and a mounting base 309, an output shaft of the linear stepping motor is fixed to the floating connection block 308 through the stepping motor screw 311, the floating connection block 308 is connected to the mounting base 309, and the claw 302 is fixed to the mounting base 309. As shown in fig. 10, the mounting base 309 is provided with a floating hole 3091, the floating connection block 308 is located in the floating hole 3091, the length of the floating hole 3091 is greater than that of the floating connection block 308, and the floating connection block 308 is connected with the mounting base 309 through a pin 310. Specifically, the mounting base 309 is provided with a connecting hole 3092 for the pin 310 to pass through, the connecting hole 3092 is an oblong hole, and two ends of the pin 310 are fixed by the shaft clamp 3101. The connecting hole 3092 has a space for enabling the pin 310 to move left and right along the connecting hole, so that the floating connecting block 308 can move left and right along the floating hole 3091, and due to machining errors, in order to ensure that the stepping motor lead screw 311 of the linear stepping motor 307 cannot be clamped and cannot rotate due to the machining errors when moving up and down, a certain buffer distance is allowed to exist in the direction of the floating hole 3091 by the linear stepping motor 307.
Preferably, as shown in fig. 4-5, the telescopic assembly 303 includes a longitudinal movement bearing assembly 312 and a spring 313, the longitudinal movement bearing assembly 312 is respectively sleeved on the movable optical axis 401, one longitudinal movement bearing assembly 312 is respectively disposed at two sides of the movable optical axis 401, the traverse plate 306 is fixed to the movable optical axis 401 through the longitudinal movement bearing assembly 312, the spring 313 has a fixed end 3131 and a telescopic end 3132, the fixed end 3131 is fixed to the movable optical axis 401, and the telescopic end 3132 is fixed to the longitudinal movement bearing assembly 312. Before the dinner plate is clamped, the spring 313 is in an initial state, when the clamping mechanism 3 clamps the edge of the dinner plate, the two groups of opposite lifting driving assemblies 301 move downwards, the two groups of clamping claws 302 gradually open towards two sides, the transverse moving flat plate 306 connected with the clamping claws 302 drives the longitudinal moving bearing assembly 312 to push the spring 313 to compress towards two sides until the clamping claws clamp the edge of the dinner plate 6, when the guide part 403 moves the spring 313 along the side edge of the guide plate 404 to continue to be compressed, the distance between the clamping mechanisms 3 is increased, the dinner plate is placed to the plate outlet 1021, and when the clamping mechanism 3 moves reversely, the springs on two sides retract reversely until the initial state is recovered.
Preferably, the moving optical axes 401 are arranged in two groups in parallel. It should be noted that the gripping mechanism 3 is mounted on the movable optical axis 401, and two sets of movable optical axes 401 are provided because the longitudinal movement bearing assembly 312 rotates around the movable optical axis 401, and the two sets of movable optical axes 401 restrict the rotation of the longitudinal movement bearing assembly 312, thereby ensuring the stability of the gripping mechanism 3.
Preferably, as shown in fig. 9, the mounting portion 304 includes a guide shaft 316, the guide shaft 316 is symmetrically disposed along the traverse plate 306, the guide shaft 316 has a guide fixed end 3161 and a free end 3162, the guide fixed end 3161 is fixed to the traverse plate 306, as shown in fig. 10, the mounting seat 309 has a through hole 3093, a sliding sleeve 3163 is mounted in the through hole 3093, and the sliding sleeve 3163 corresponds to the free end 3162. When the lifting part is lifted, the free end 3162 of the guide shaft 316 is drawn out of or passed through the sliding shaft sleeve 3163, so that the guide function of the up-and-down movement of the gripping mechanism 3 and the stability of the movement are realized. Preferably, the linear stepping motor 307 is located at a center line position between the two moving optical axes 401, and stability of the gripping mechanism 3 is ensured.
As a preferable scheme, as shown in fig. 9-12, the claw 302 comprises a pressing section 3021 and a clamping section 3022, the pressing section 3021 is connected with the clamping section 3022, the pressing section 3021 is a bevel, and the clamping section 3022 is a vertical surface, see fig. 13; or a groove, which when a groove includes a top flat surface 30221, a gripping surface 30222 and a bottom flat surface 30223, the top flat surface 30221, the gripping surface 30222 and the bottom flat surface 30223 form a groove, see fig. 14. In the initial state, the dish is located between the two sets of the pressing sections 3021, the claws 302 are driven by the lifting driving assembly 301 to move downward, the pressing sections 3021 move downward along the edge of the dish 6, the springs 313 on both sides compress in the direction away from the dish, the claws 302 are driven to expand toward both sides, and the distance between the claws 302 increases until the edge of the dish falls between the holding sections 3022 and is clamped. It will be appreciated that the clamp section 3022 may be provided in a variety of configurations, such as a square slot, an arcuate slot, etc., when the slot is provided. Preferably, the holding section 3022 is selected to be an arc-shaped groove, and as shown in fig. 12, when the tray edge is caught in the holding section 3022, the tray edge is more stably caught in the arc-shaped surface and is not easily dropped.
Preferably, as shown in fig. 11-14, the latch 302 has a blocking section 3023, the blocking section 3023 is connected to the holding section 3022, and the upper plane 30221 extends to form the blocking section 3023 to prevent the latch 302 from dropping too far and causing a missing dish. The squeezing section 3021, the holding section 3022 and the blocking section 3023 are connected in sequence, so that the tray is smoothly clamped by the clamping mechanism 3.
Preferably, as shown in fig. 8-9, each set of two jaws 302 is symmetrically disposed along the mounting block 309, or the clamping section 3022 has a certain length, and the jaws 302 are located at the center of the mounting block 309. The symmetrical arrangement of the jaws 302 along the mounting 309 or the length of the clamping section 3022 in the centre of the mounting 309 is advantageous for a stable clamping of the edge of the dish.
Preferably, as shown in fig. 11, the claw 302 has a fixed seat 3024, and the fixed seat 3024 is fixed with the mounting seat 309.
It should be noted that the shape of the claw 302 is not limited, and can be changed according to the edge shape of different dinner plates.
Preferably, as shown in fig. 8-9, the gripping mechanism 3 comprises a contact displacement sensor 314, the contact displacement sensor 314 is fixed to the mounting base 309 by a fixing plate 315, the contact displacement sensor 314 has a contact head 3141 corresponding to the surface of the dish, and the end of the contact head 3141 is lower than the bottom surface of the claw 302. Preferably, the contact displacement sensor 314 is located at the end of the mounting base 309, and the mounting base 309 has a width smaller than the width of the dish, so that the contact displacement sensor 314 can contact the surface of the dish. In the process that the linear stepping motor 307 drives the jaw 302 and the contact type displacement sensor 314 to synchronously descend, the contact head 3141 of the contact type displacement sensor 314 is firstly contacted with the surface of the dinner plate, and the contact type displacement sensor 314 is compressible by a spring inside, so that the linear stepping motor 307 continuously drives the contact type displacement sensor 314 and the jaw 302 to descend after the contact, at the moment, the contact type displacement sensor 314 can detect the descending distance, and the jaw 302 is controlled to accurately clamp the dinner plate by controlling the descending distance.
Transverse moving mechanism
The traversing mechanism 4 is used for delivering the dinner plate to the plate outlet 1021 and resetting the clamping mechanism 3.
Preferably, as shown in fig. 4, the frame 2 includes two mounting vertical plates 210, the two mounting vertical plates 210 are arranged in parallel, and both the two mounting vertical plates 210 are fixed to the mounting top plate 201. Preferably, the traverse driving assembly 402 includes a power motor 405, a driving pulley 406, a driven pulley 407 and a synchronous belt 408, the power motor 405 and the driven pulley 407 are respectively mounted on the two mounting vertical plates 210, an output shaft of the power motor is fixed to the driving pulley 406, the driving pulley 406 and the driven pulley 407 are engaged and driven by the synchronous belt 408, and the synchronous belt 408 is connected to the moving optical axis 401. The traverse driving assembly 402 drives the synchronous belt 408 to drive the moving optical axis 401 to reciprocate along the X-axis direction, which is perpendicular to the moving optical axis 401.
Preferably, as shown in fig. 4, the driven pulley 407 includes a first driven pulley 4071, a second driven pulley 4072 and a third driven pulley 4073, the timing belts include a first timing belt 4081 and a second timing belt 4082, the first driven pulley 4071 and the second driven pulley 4072 are respectively fixed to one mounting upright 210, the power motor 405 and the third driven pulley 4073 are respectively fixed to the other mounting upright 210, an output shaft of the power motor 405 is fixed to the driving pulley 406, the driving pulley 406 is in meshing transmission with the first driven pulley 4071 through the first timing belt 4081, the first driven pulley 4071 is connected to the second driven pulley 4072 through the timing shaft 409, and the second driven pulley 4072 and the third driven pulley 4073 are in meshing transmission through the second timing belt 4082. In order to realize that the two ends of the moving optical axis 401 synchronously move along the X-axis direction, the synchronous belt 408 drives the first driven pulley 4071 installed on the other side installation vertical plate 210 to rotate, and the first driven pulley 4071 can drive the second driven pulley 4072 and the third driven pulley 4073 on the same side to rotate through the synchronous shaft 409, so that the synchronous belts 409 on the two sides move simultaneously under the driving of one power motor 405.
Preferably, as shown in fig. 4-5, the traversing mechanism 4 includes two groups of fixed optical axes 410, the two groups of fixed optical axes 410 are both fixed between the two mounting vertical plates 210, the two groups of fixed optical axes 410 are parallel, two ends of the moving optical axis 401 are respectively connected with the fixed optical axes 410 through a traversing bearing assembly 411, the synchronous belt 408 is connected with the traversing bearing assembly 411 through a synchronous belt fixing plate 4083, specifically, the fixed optical axis 410 passes through the traversing bearing assembly 411, and two ends of the moving optical axis 401 are respectively fixed with the traversing bearing assembly 411.
Preferably, as shown in fig. 15, the guide plate 404 includes a clamping section 4042 and a buffering section 4043, the clamping section 4042 and the buffering section 4043 are smoothly connected, and the buffering section 4043 is a flared slope. The clamping mechanism 3 clamps the dinner plate and moves towards the direction of the plate outlet 1021 along the clamping section, the dinner plate moves to the buffer section 4043, and the springs 313 on the two sides are slowly compressed until the dinner plate falls down.
Preferably, as shown in fig. 15, the guide plate 404 has a stopping section 4041. When the gripping mechanism 3 returns, the movement distance is too long, which may cause the jaws to miss the tray, and the stopping section 4041 can prevent the gripping mechanism 3 from moving further toward the tray inlet 1011, and stopping at the tray placement position. It will be appreciated that the stopping section 4041 is not limited in form, and only needs to be sufficient to prevent the gripping mechanism 3 from moving forward, for example, the stopping section 4041 is perpendicular to the clamping section 4042, or the included angle between the stopping section 4041 and the clamping section 4042 is an acute angle, preferably, the stopping section 4041 is perpendicular to the clamping section 4042, and is disposed in a perpendicular shape, which will not damage the guide plate 404 and will not jam the gripping mechanism 3.
Preferably, as shown in FIG. 15, guide plate 404 has flared section 4044, flared section 4044 is smoothly connected to buffer section 4043, and flared section 4044 is planar. When the gripper mechanism 3 reaches the expanded section 4044, the jaws 302 have released the tray.
The guide plate 404 includes a stopping section 4041, a clamping section 4042, a buffering section 4043, and an expanding section 4044, and the stopping section 4041, the clamping section 4042, the buffering section 4043, and the expanding section 4044 are connected in sequence. When the clamping mechanism 3 moves towards the direction of the tray outlet 1021, the clamping mechanism 3 clamps the dinner tray at the clamping section 4042 and puts down the dinner tray at the buffer section 4043; when the gripping mechanism 3 moves toward the disk entrance 1011, the stopping section 4041 stops the claw 302 from moving forward, as shown in fig. 4.
Preferably, each group of lifting driving assemblies 301 is provided with one guide plate 404, or one guide plate 404 is provided between two groups of lifting driving assemblies 301, both sides of the guide plate 404 include a stopping section 4041, a clamping section 4042, a buffering section 4043 and an opening section 4044, and both ends of the guide plate 404 are fixed with the mounting vertical plate 210 respectively.
Preferably, as shown in fig. 9, the guide member 403 includes a guide wheel 4031, a base 4032 and a connecting bar 4033, the two ends of the connecting bar 4033 are respectively connected to the guide wheel 4031 and the base 4032, and the base 4032 is fixed to the traverse plate 306. Specifically, the guide wheel 4031 has a guide surface 4034, and the guide surface 4031 corresponds to the guide plate 404. Specifically, the traverse plate 306 has an extension surface 3061, the base 4032 is fixed to the extension surface 3061, and the guide wheel 4031 is located between the two sets of moving optical axes 401.
Lifting mechanism
A number of trays are placed on the rack, and the lifting mechanism automatically lifts the trays upward after the gripping mechanism 3 grips a tray, so that the trays reach the position to be gripped, see fig. 16-22.
Preferably, the automated meal-discharging plate machine comprises a lifting mechanism 5, and referring to fig. 16, the lifting mechanism 5 comprises a tray 501 and a lifting driving assembly 502, and the lifting driving assembly 502 drives the tray 501 to ascend and descend. The tray 501 is used for placing the dinner plate 6.
Preferably, as shown in fig. 19, the lifting driving assembly 502 includes a lifting power motor 504, a synchronous driving wheel 505, a synchronous driven wheel 506, a lifting synchronous belt 507, a lifting lead screw 508 and a slider 509, the lifting power motor 504 is fixed to the mounting top plate 319, an output shaft of the lifting power motor is connected to the synchronous driving wheel 505, the lifting synchronous belt 507 is connected to the synchronous driving wheel 505 and the synchronous driven wheel 506, the synchronous driven wheel 506 is fixed to the lifting lead screw 508, the slider 509 moves up and down along the lifting lead screw 508, and the slider 509 is fixed to the tray 501. The lifting power motor 504 drives the synchronous driving wheel 505 to rotate, the synchronous driving wheel 505 and the synchronous driven wheel 506 are connected through a lifting synchronous belt 507, so that the synchronous driving wheel 505 and the synchronous driven wheel 506 are in meshing transmission, the synchronous driven wheel 506 drives the lifting lead screw 508 to rotate, and the lifting lead screw 508 drives the sliding block 509 to move up and down and simultaneously drives the tray 501 to move up and down.
Preferably, as shown in fig. 1, the lifting screw 5 is located between the mounting top plate 201 and the mounting bottom plate 202. Specifically, as shown in fig. 16 and 19, the lift screw 508 has a fixing side 5081 and a support side 5082, the fixing side 5081 is connected to the mounting groove plate 511 via a screw fixing base 512, the mounting groove plate 511 is fixed to the mounting top plate 201, and the support side 5082 is fixed to the mounting bottom plate 202 via a screw supporting base 513.
Preferably, as shown in fig. 20 to 21, the lifting mechanism 5 includes two adapter plates 503, the two adapter plates 503 are disposed in parallel, the tray 501 is located between the two adapter plates 503, the slider 509 is fixed to one of the adapter plates 503 through the slider adapter block 510, the side walls of the two adapter plates 503 are both provided with sliding grooves 5031, the side walls of the tray 501 are provided with guide rails 5012, and the sliding grooves 5031 are matched with the guide rails 5012. The tray 501 can slide in and out along the adapter plate 503, so that the tray 501 can be conveniently extended in and pulled out to place the dinner plate.
Preferably, as shown in fig. 20 and 22, a set of positioning strips 514 is respectively arranged on the inner side and the outer side of the tray 501, a primary protrusion 5141 is respectively arranged on each side of each set of positioning strips 514, the primary protrusions 5141 are symmetrically arranged along the midpoint of the positioning strips 514, and a distance for accommodating a dinner plate is arranged between the primary protrusions 5141 on both sides. When placing the dinner plate, the dinner plate includes meal containing area and marginal zone, and meal containing area lies in between two sets of location strips, and the marginal zone lies in on two sets of location strips, and the dinner plate can be held up to two sets of location strips, conveniently places the dinner plate, and the one-level arch can prevent to control about the dinner plate. Preferably, as shown in fig. 21, the primary projection 5141 includes a movement prevention section 5142 and a release section 5143, the movement prevention section 5142 is a vertical surface, and the release section 5143 is an inclined surface that is opened outward. The tray is clamped between the anti-migration segments 5142, although it will be understood that clamping is not strictly a clamp, and that the tray has some space to move left and right. When the dinner plate moves to the loosening section 5143, the loosening section 5143 is an inclined plane which is opened outwards, the space range of the dinner plate moving left and right is larger, and besides, the dinner plate with a large size can be placed.
Preferably, as shown in fig. 21, two sides of the positioning bar 514 are respectively provided with a secondary projection 5144, the secondary projection 5144 is vertically connected with the primary projection 5141, and the secondary projection 5144 is lower than the primary projection 5141. The secondary protrusions 5144 block the meal containing area, not only preventing the dinner plate from sliding out, but also being suitable for the dinner plate with small size.
Preferably, as shown in fig. 19, the tray 501 is provided with a handle 5011 on the outer side to facilitate the tray 501 to be drawn out for placing the dinner plate.
Preferably, the lifting mechanism 5 is provided with a first proximity switch sensor 515 and a second proximity switch sensor 516, as shown in fig. 20, the first proximity switch sensor 515 and the second proximity switch sensor 516 are respectively fixed to the interposer 503 by a proximity switch bracket 517, and the first proximity switch sensor 515 and the second proximity switch sensor 516 are disposed in a staggered manner. The first proximity switch sensor 515 is configured to detect that the tray 501 is raised to the uppermost position, and the second proximity switch sensor 516 is configured to detect that the tray 501 is lowered to the lowermost position.
Preferably, the lifting mechanism 5 comprises a positioning detection device 518, as shown in fig. 16 to 18, the positioning detection device 518 comprises a ball buckle 519 and a third proximity switch sensor 520, the ball buckle 519 comprises a male head 5191 and a female head 5192, the male head 5191 is fixed with the tray 501 through a connecting plate 521, the female head 5192 and the third proximity switch sensor 520 are respectively fixed with the frame 2, the female head 5192 is provided with an insertion groove 5193 for accommodating the male head 5191, the male head 5191 and the female head 5192 correspond in position, the third proximity switch sensor 520 is positioned above the insertion groove 5193, and when the male head 5191 is clamped with the female head 5192, the third proximity switch sensor 520 does not contact with the male head 5191. After the dinner plate is placed, when the tray 501 slides to the joint of the male head 5191 and the female head 5192, the third proximity switch sensor 520 detects that the dinner plate is placed in place and sends out a corresponding signal, and then the start button is pressed down and is effective, so that subsequent actions can be carried out.
Preferably, the frame 2 includes a connecting vertical plate 212, the connecting vertical plate 212 is located between the two adapter plates 503, and the female head 5192 and the third proximity switch sensor 520 are respectively fixed to the connecting vertical plate 212. Specifically, the third proximity switch sensor 520 is fixed to the connecting vertical plate 212 through the switch bracket 211.
Preferably, the positioning detection devices 518 are symmetrically arranged in two groups along the center line of the connecting vertical plate 212.
The utility model discloses a working process: a worker starts a machine through a face recognition or card swiping integrated machine, after a clamping mechanism moves to a plate clamping position, a linear stepping motor drives opposite clamping jaws to move downwards synchronously, in the process that the clamping jaws move downwards, the contact type displacement sensor contacts can be firstly contacted with the surface of a plate to judge the position of the plate, the clamping jaws are controlled to move downwards so that the clamping jaws accurately press downwards for a certain distance to clamp the edge of the plate, springs on two sides are compressed towards the fixed optical axis direction of the same side respectively, after the clamping jaws clamp the plate, the two linear stepping motors synchronously drive the clamping jaws to move upwards so as to drive the plate clamped by the clamping jaws to move upwards for a certain distance, after the clamping jaws move in place, a power motor drives synchronous belts on two sides to move so as to drive the clamping mechanism to move transversely, when a guide wheel moves to a buffer section along the side edge of a guide plate, the springs continue to be compressed, so that the distance, after the dinner plate is put down, the linear stepping motor continues to lift the clamping jaw and upwards lift a certain distance, then the power motor drives the synchronous belt to move reversely, so that the lifting mechanism returns to the position for clamping the dinner plate again, the lifting mechanism automatically upwards lifts the dinner plate, the dinner plate reaches the position for clamping, and the next dish discharging process is started.
The structures referred to in the present invention or these terms of art used are further described below. These illustrations are merely exemplary of how the present invention may be implemented and are not intended to limit the present invention in any way.
The utility model shown and described herein may be implemented in the absence of any element, limitation, or limitations specifically disclosed herein. The terms and expressions which have been employed are used as terms of description and not of limitation, and there is no intention in the use of such terms and expressions of excluding any equivalents of the features shown and described or portions thereof, and it is recognized that various modifications are possible within the scope of the invention. It should therefore be understood that although the present invention has been specifically disclosed by various embodiments and optional features, modification and variation of the concepts herein described may be resorted to by those skilled in the art, and that such modifications and variations are considered to be within the scope of this invention as defined by the appended claims.
The contents of the articles, patents, patent applications, and all other documents and electronically available information described or cited herein are hereby incorporated by reference in their entirety to the same extent as if each individual publication was specifically and individually indicated to be incorporated by reference. Applicants reserve the right to incorporate into this application any and all materials and information from any such articles, patents, patent applications, or other documents.
Claims (10)
1. The automatic dinner plate taking mechanism is characterized by comprising two groups of lifting driving assemblies capable of moving up and down, clamping jaws and telescopic assemblies capable of enabling the lifting driving assemblies to be folded or unfolded, wherein the two groups of lifting driving assemblies are arranged relatively, each lifting driving assembly comprises an installation part and a lifting part connected with the installation part, and the clamping jaws are fixed with the lifting parts.
2. The automatic dinner plate taking mechanism as claimed in claim 1, wherein the mounting part comprises a transverse moving plate, a linear stepping motor and a stepping motor lead screw, the linear stepping motor is fixed with the moving optical axis through the transverse moving plate, the lifting part comprises a floating connecting block and a mounting seat, an output shaft of the linear stepping motor is fixed with the floating connecting block through the stepping motor lead screw, the mounting seat is provided with a floating hole, the floating connecting block is located in the floating hole, the length of the floating hole is greater than that of the floating connecting block, the floating connecting block is connected with the mounting seat through a pin shaft, and the clamping jaw is fixed with the mounting seat.
3. The automated dish taking machine as claimed in claim 2, wherein the movable optical axes are arranged in two sets in parallel, the retractable assembly comprises a longitudinal movement bearing assembly and a spring, the longitudinal movement bearing assembly is respectively sleeved on the two sets of movable optical axes, one longitudinal movement bearing assembly is respectively arranged on both sides of each set of movable optical axes, the transverse moving plate is fixed with the movable optical axes through the longitudinal movement bearing assemblies, the spring has a fixed end and a retractable end, the fixed end is fixed with the movable optical axes, and the retractable end is fixed with the longitudinal movement bearing assemblies.
4. The automated dish machine gripper mechanism of claim 3, wherein the mounting portion comprises a guide shaft symmetrically disposed along the traverse plate, the guide shaft having a guide fixed end and a free end, the guide fixed end being fixed to the traverse plate, the mounting base having a through hole, a sliding sleeve being disposed in the through hole, the sliding sleeve corresponding to the free end.
5. The automated dish machine gripper mechanism of claim 1, wherein the jaw comprises a pressing section and a clamping section, the pressing section is connected with the clamping section, the pressing section is an inclined plane, the clamping section is a vertical plane or a groove, the groove comprises an upper plane, a clamping plane and a lower plane, and the upper plane, the clamping plane and the lower plane form a groove.
6. The automated dish machine griping mechanism of claim 5, wherein the gripping section is an arcuate slot.
7. The automated dish taking mechanism of claim 5, wherein the jaw has a blocking section, the blocking section is connected to the holding section, and the upper plane extends to form the blocking section.
8. The automated dish taking machine as claimed in claim 2, wherein each set of two jaws are symmetrically disposed along the mounting base, or the gripping section has a length, and the jaws are located at the center of the mounting base.
9. The automated dish taking mechanism of claim 2, wherein the jaw comprises a fixed seat, and the fixed seat is fixed to the mounting seat.
10. The automated dish-catching mechanism of claim 2, wherein the catching mechanism comprises a contact displacement sensor fixed to the mounting base, the contact displacement sensor having a contact head corresponding to the surface of the dish, the end of the contact head being lower than the bottom of the jaw.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920415740.XU CN210236364U (en) | 2019-03-29 | 2019-03-29 | Automatic change mechanism of getting of dinner plate machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920415740.XU CN210236364U (en) | 2019-03-29 | 2019-03-29 | Automatic change mechanism of getting of dinner plate machine |
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CN210236364U true CN210236364U (en) | 2020-04-03 |
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CN201920415740.XU Expired - Fee Related CN210236364U (en) | 2019-03-29 | 2019-03-29 | Automatic change mechanism of getting of dinner plate machine |
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2019
- 2019-03-29 CN CN201920415740.XU patent/CN210236364U/en not_active Expired - Fee Related
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Granted publication date: 20200403 Termination date: 20210329 |