ELVAN ILYAS (TR)
| CLAIMS A sensored hygiene cloth dispenser of the invention, characterized in that it comprises the sensors which check if the liquid and the capsule are full when the machine is turned on, a sensor which brings movement to the system by passing the user’s hand around the device, a magnetic sensor by which the motor axle moves the kinesthetic gear in one revolution, a magnetic sensor by which the movement is transferred by means of the kinesthetic gear and rotates the gear (33) 60 degrees, a magazine positioning tab (49) and a cartridge positioning means (32) which fix the position of the gear (33), a gear (33) which sends one capsule into the chamber with a rotational movement of 60 degrees, a system which pushes the second capsule back into its housing with the help of a 10- degree angle of the magazine lower part (85) and in which simultaneously with the help of a kinesthetic pump, 45cc liquid is drawn from the reservoir and conveyed to the chamber. The sensored hygiene cloth dispenser of the invention according to Claim 1 or 2, characterized in that it consists of a main body (10) accommodating the structure thereon, a liquid chamber (11 ) storing the hygiene liquid, a gear housing (12) where the magazine is inserted, a centering axle (13) centering the magazine gear, a centering axle (14) of the peristaltic gear, a chamber (15) which is a liquid absorption pool for the hygiene cloth, a front tab (16) with locking tabs, cover locking points (17) of the magazine mechanism, an outlet (18) which is a liquid exit point for the hygiene liquid, a filling opening (19) of the liquid filling cover connection point, a peristaltic liquid container (20) which is the assembly housing of the peristaltic pump, a button group (21 ) of the assembly area which are on/off, charge and reset switches, a socket connector (22) of the electronic card socket connection gap, a magnetic sensor gap (23), assembly legs (25) for the lower cover, assembly legs (26) for battery, a liquid hose outlet (27) of the peristaltic pump, an angle connector housing (28) of the liquid hose, a centering means (29) of the mechanism gear, a mechanism power transfer shaft (30), a cartridge locking tab (31 ) of the napkin magazine, a cartridge positioning means (32) which ensures the cartridge to be positioned in every 60 degrees, a mechanism power transfer gear (33), a mechanism gear (34), a mechanism gear bearing (35) connected to the centering axle (13), assembly legs (36) for kinesthetic crushing wheels, a peristaltic gear (37), an assembly bearing (38) of the motor axle shaft, a magnet assembly point (39) attached for the magnetic sensor, a power transfer gear (40) transferring movement to the gear (33), a kinesthetic gear centering means (41 ), a kinesthetic gear centering means (42), a kinesthetic wheel bearing (43), a bearing (44) of the kinesthetic crushing wheels, a kinesthetic crushing wheel (45), an electronic card fastening tabs (46), an upper bearing part (47) for magazine gear bedding the mechanism gear centering means (29), an electronic card bearing (48), a magazine positioning tab (49), an electronic card sensor and socket housing (50), a motor assembly housing (51 ), a mechanism cover locking tabs (52), an upper friction surface (53) of the mechanism gear, an upper friction surface (54) of the kinesthetic gear, a motor shaft exit (55), a gear and peristaltic mechanism cover (56), assembly legs (57) for the mechanism cover, an upper bearing (58) of the kinesthetic tongue performing the kinesthetic gear centering (41 ), a sensor cover (59), assembly legs (60) for the sensor cover, a sensor cover locking tab (61 ), a 12 v de 100 rpm de motor (62), a motor shaft axle (63), an electronic card (64), a liquid chamber cover (65) with helical teeth locking itself within a half tour, cover assembly teeth (66) with helical teeth locking itself within a half tour, cover locking tabs (67), a battery (68), napkin dispensing tabs (69), a magazine handle (70), magazine locking tabs (71 ), a napkin housing (72), a power transfer shaft (73), a power transfer shaft gap (74) into which the mechanism power transfer shaft (30) enters, a magazine friction surface (75), a liquid outlet hole (76), a sensor housing (77) of the liquid level measurement, assembly legs (78) for the lower cover, a liquid outlet angle housing (79), a napkin outlet hole (80), a napkin guiding support (81 ), a magazine lower cover (82), a magazine positioning means (83) directing the magazine assembly, a magazine bearing (84) which engages the magazine locking tabs (71 ) from below, a friction surface (85) of the magazine lower part, magazine assembly tabs (86), a napkin magazine housing (87), a power transfer shaft gap (88) into which the mechanism power transfer shaft (73) enters, a magazine fastening tab (89) fastening the magazine locking tabs (71 ), a napkin capsule housing (90), a lower cover (91 ), leg housings (92), assembly housings (93) for the lower cover, a magazine cover (94) connected to the napkin magazine refilling cover gap (100), an upper body (95), a liquid filling cover inlet (96), a charge socket connection point (97), an on/off switch connection point (98), a reset switch connection point (99), a napkin magazine refilling cover gap (100), a sensor bearing (101 ), a sensor cover locking housing (102), upper body assembly tabs (103), an electronic card housing (104), a lower body locking tab (105), an angle locking tab (106), and hose locking and sealing tabs (107). The sensored hygiene cloth dispenser of the invention according to Claim 1 or 2, characterized in that it contains a sensor which checks if the liquid and the capsule are full (if not, the relevant warning light flashes when these deficiencies are corrected) and brings movement to the system when the user’s hand passes in front of it. The sensored hygiene cloth dispenser of the invention according to Claim 1 or 2, characterized in that it contains a motor axle which moves the kinesthetic gear in one revolution with the help of a magnetic sensor. The sensored hygiene cloth dispenser of the invention according to Claim 2 or 4, characterized in that it contains a kinesthetic gear which rotates the gear (33) 60 degrees. The sensored hygiene cloth dispenser of the invention according to Claim 2, 4 or 5, characterized in that it contains a magazine positioning tab (49) which fixes the position of the gear (33) and a cartridge positioning means (32). The sensored hygiene cloth dispenser of the invention according to any of the preceding claims, characterized in that it contains a gear (33) which sends one capsule into the chamber with a rotational movement of 60 degrees. The sensored hygiene cloth dispenser of the invention according to any of the preceding claims, characterized in that it contains a magazine lower part (85) which pushes the second capsule back into its housing with the help of a 10-degree angle, and simultaneously ensures that the liquid is drawn from the reservoir to the chamber with the help of a kinesthetic pump. The sensored hygiene cloth dispenser of the invention according to any of the preceding claims, characterized in that it contains a peristaltic pump which discharges the sufficient amount of liquid into the chamber (15) by taking advantage of the shrinkage of the silicone hose with a complete revolution of the motor when the user’s hand passes in front of the sensor. |
TECHNICAL FIELD
The invention relates to a sensored hygiene cloth dispenser developed to provide a cloth for the person’s use in any environment without any hand contact and thus without loss of hygiene.
STATE OF THE ART
Today, especially considering the recent pandemic (covid-19), many contactless devices and products have emerged as a need for use. In order to minimize contact, systems with sensors are preferred. One of the devices developed for this reason is dispensers.
Dispensers which have the feature of detecting human hands without any contact, automatically dispense soap and cloth when a hand is detected. The dispenser machine which is very advantageous in terms of use and hygiene, continues to be used more and more every day.
Existing dispensers need their disadvantages to be eliminated in terms of renewing their features such as different working principles, easy assembly and fast presentation, as in every device.
In publication No. WO/2021/173089 which also belongs to the applicant and is included in the state of the art, it is described that the invention is related to a hygiene cloth dispenser with a vertical motion drive multi-cylinder cartridge which provides increasing the low tablet numbers in the hygiene cloth dispensers and extends the cartridge filling time.
BRIEF DESCRIPTION OF THE INVENTION The present invention relates to a sensored hygiene cloth dispenser which meets the above-mentioned requirements, eliminates all disadvantages and brings some additional advantages.
This disclosure section of the patent application is intended to provide an overview from a brief description of the subject matter disclosed herein and should not be construed as limiting the disclosure to the features described in this brief description section.
This invention relates to a sensored hygiene cloth dispenser developed to provide a cloth for the person’s use in any environment without any hand contact and thus without loss of hygiene.
This invention can provide the relevant hygiene cloth to the person's use quickly and without contact.
This invention first applies the hygienic liquid on the cloth while presenting the relevant cloth to the user, and when the cloth is stored in a dry state, it is presented as moistened with hygienic liquid when presented to the person.
In the present invention, the dry storage of the cloth in the dispenser also prevents the evaporation of the related hygienic liquid by unnecessary contact with the air.
Thanks to the embodiment in the present invention, the cloth is brought to a hygienic condition as soon as possible and presented to the user.
REFERENCE LIST
10 Main body
11 liquid chamber
12 gear housing
13 centering axle
14 centering axle 15 chamber
16 front tab
17 cover locking points of the magazine mechanism
18 outlet for the hygiene liquid
19 filling opening
20 peristaltic liquid container
21 button group
21 a switch group
22 socket connector
23 magnetic sensor gap
25 assembly legs for the lower cover
26 assembly legs for battery
27 liquid hose outlet of the peristaltic pump
28 angle connector housing of the liquid hose
29 centering means of the mechanism gear
30 shaft
31 cartridge locking means
32 cartridge positioning means
33 gear
34 mechanism gear
35 mechanism gear bearing
36 assembly legs for kinesthetic crushing wheels
37 peristaltic gear
38 assembly leg for motor axle shaft
39 magnet assembly point
40 power transfer shaft
41 kinesthetic gear centering means
42 kinesthetic gear centering means
43 kinesthetic wheel bearing
44 bearing of the kinesthetic crushing wheels
45 kinesthetic crushing wheel
46 electronic card fastening tabs
47 upper bearing part of the magazine gear 48 electronic card bearing
49 magazine positioning tab
50 electronic card sensor and socket housing
51 motor assembly housing
52 mechanism cover locking tabs
53 upper friction surface of the mechanism gear
54 upper friction surface of the kinesthetic gear
55 motor shaft exit
56 mechanism cover
57 assembly legs for the mechanism cover
58 upper bearing of the kinesthetic tongue
59 sensor cover
60 assembly legs for the sensor cover
61 sensor cover locking tabs
6212 v de 100 rpm de motor
63 motor shaft axle
64 electronic card
65 liquid chamber cover
66 cover assembly teeth
67 cover locking tabs
68 battery
69 napkin dispensing tabs
70 magazine handle
71 magazine locking tabs
72 napkin housing
73 power transfer shaft
74 power transfer shaft gap
75 magazine friction surface
76 liquid outlet hole
77 sensor housing of the liquid level measurement
77a washer
78 assembly legs for the lower cover
79 liquid outlet angle housing 80 napkin outlet hole
81 napkin guiding support
82 magazine lower cover
83 magazine positioning means
84 magazine bearing
85 friction surface of the magazine lower part
86 magazine assembly tabs
87 napkin magazine housing
88 power transfer shaft gap
89 magazine fastening tab
90 napkin capsule housing
91 lower cover
92 leg housings
93 assembly housings for the lower cover
94 magazine cover
95 upper body
96 liquid filling cover inlet
97 charge socket connection point
98 on/off switch connection point
99 reset switch connection point
100 napkin magazine refilling cover gap
101 sensor bearing
102 sensor cover locking housing
103 upper body assembly tabs
104 electronic card housing
105 lower body locking tab
106 angle locking tab
107 hose locking and sealing tabs
BRIEF DESCRIPTION OF THE DRAWINGS
Examples illustrating embodiments of the disclosure are described below with reference to the drawings appended hereto. In the drawings, identical structures, elements or parts which appear in more than one form are usually designated with the same number in all the drawings in which they are shown. The dimensions and characteristics of the components shown in the drawings have generally been chosen for ease of presentation and clarity and are not shown to an absolute scale. The drawings are listed below with numbers.
Most of the drawings presented are in the form of schematic representations, and therefore, for illustrative clarity, certain elements can be drawn in a greatly simplified or non-scaled manner. The drawings are not designed as production drawings.
Fig. 1 : General representative view of the present invention
Fig. 1 a: General representative view from below of the present invention
Fig. 2: General representative view of the gear (33) of the present invention
Fig. 2a: General representative view of the gear bearing (35) of the present invention
Fig. 3: General representative view of the power transfer gear (41 ) of the present invention
Fig. 3a: General representative view of the gear kinesthetic centering means (42) of the present invention
Fig. 4: General representative view of the kinesthetic crushing wheel (44) of the present invention
Fig. 5: General representative view of the electronic card bearing (48) of the present invention
Fig. 5a: General representative view of the mechanism cover (56) of the present invention
Fig. 6: General representative view of the sensor cover (59) of the present invention
Fig. 8: General representative view of the 12 v de 100 rpm de motor (62) of the present invention
Fig. 9: General representative view of the electronic card (64) of the present invention Fig. 10: General representative view of the liquid chamber cover (65) of the present invention
Fig. 10a: General representative view from a different perspective of the sensor cover (65) of the present invention
Fig. 11 : General representative view of the battery (68) of the present invention
Fig. 12: General representative view of the power transfer shaft (73) of the present invention
Fig. 12a: General representative view of the power transfer shaft gap (74) of the present invention
Fig. 13: General representative view of the sensor housing of the liquid level measurement (77) of the present invention
Fig. 13a: General representative view of the liquid outlet angle housing (79) of the present invention
Fig. 14: General representative view of the magazine lower cover (82) of the present invention
Fig. 14a: General representative view of the magazine assembly tabs (86) of the present invention
Fig. 15: General representative view of the power transfer shaft gap (88) of the present invention
Fig. 15a: General representative view of the napkin capsule housing (90) of the present invention
Fig. 16: General representative view of the lower cover (91 ) of the present invention
Fig. 17: General representative view of the magazine cover (94) of the present invention
Fig. 18: General representative view of the upper body (95) of the present invention
Fig. 18a: General representative view from a different perspective of the upper body (95) of the present invention
Fig. 19: General representative view of the hose locking and sealing tabs (107) of the present invention
Fig. 20: General representative view of the detailed C-C’ section of the present invention Fig. 21 : General representative view of the detailed D-D’ section of the present invention
Fig. 22: General representative view of the detailed E-E’ section of the present invention
Fig. 23: General representative view of the detailed F-F’ section of the present invention
Fig. 24: The exploded view of the present invention
DETAILED DESCRIPTION OF THE INVENTION
In the disclosure and claims of the application, each of the words "contains", "includes" and "has/have" and their forms are not limited to the members in a list to which the words can be associated.
The disclosure has been described using various detailed descriptions provided by way of example and not intended to limit the scope of the disclosure. The described embodiments may contain different features, not all of which are required in all embodiments of the disclosure. Some embodiments of the disclosure use only some of the features or possible combinations of features. Variations of the disclosed embodiments of the disclosure and the embodiments of the disclosure comprising the different combinations of features specified in the disclosed embodiments will be apparent to those skilled in the art. It is intended to limit the scope of the disclosure to the claims only, and that the claims be interpreted to include all such variations and combinations.
The present invention is a sensored hygiene cloth dispenser consisting of: a main body (10) accommodating the structure thereon, a liquid chamber (11 ) storing the hygiene liquid, a gear housing (12) where the magazine is inserted, a centering axle (13) centering the magazine gear, a centering axle (14) of the peristaltic gear, a chamber (15) which is a liquid absorption pool for the hygiene cloth, a front tab (16) with locking tabs, cover locking points (17) of the magazine mechanism, an outlet (18) which is a liquid exit point for the hygiene liquid, a filling opening (19) of the liquid filling cover connection point, a peristaltic liquid container (20) which is the assembly housing of the peristaltic pump, a button group (21) of the assembly area which are on/off, charge and reset switches, a socket connector (22) of the electronic card socket connection gap, a magnetic sensor gap (23), assembly legs (25) for the lower cover, assembly legs (26) for battery, a liquid hose outlet (27) of the peristaltic pump, an angle connector housing (28) of the liquid hose, a centering means (29) of the mechanism gear, a mechanism power transfer shaft (30), a cartridge locking tab (31 ) of the napkin magazine, a cartridge positioning means (32) which ensures the cartridge to be positioned in every 60 degrees, a mechanism power transfer gear (33), a mechanism gear (34), a mechanism gear bearing (35) connected to the centering axle (13), assembly legs (36) for kinesthetic crushing wheels, a peristaltic gear (37), an assembly bearing (38) of the motor axle shaft, a magnet assembly point (39) attached for the magnetic sensor, a power transfer gear (40) transferring movement to the gear (33), a kinesthetic gear centering means (41 ), a kinesthetic gear centering means (42), a kinesthetic wheel bearing (43), a bearing (44) of the kinesthetic crushing wheels, a kinesthetic crushing wheel (45), an electronic card fastening tabs (46), an upper bearing part (47) for magazine gear bedding the mechanism gear centering means (29), an electronic card bearing (48), a magazine positioning tab (49), an electronic card sensor and socket housing (50), a motor assembly housing (51 ), a mechanism cover locking tabs (52), an upper friction surface (53) of the mechanism gear, an upper friction surface (54) of the kinesthetic gear, a motor shaft exit (55), a gear and peristaltic mechanism cover (56), assembly legs (57) for the mechanism cover, an upper bearing (58) of the kinesthetic tongue performing the kinesthetic gear centering (41 ), a sensor cover (59), assembly legs (60) for the sensor cover, a sensor cover locking tab (61 ), a 12 v de 100 rpm de motor (62), a motor shaft axle (63), an electronic card (64), a liquid chamber cover (65) with helical teeth locking itself within a half tour, cover assembly teeth (66) with helical teeth locking itself within a half tour, cover locking tabs (67), a battery (68), napkin dispensing tabs (69), a magazine handle (70), magazine locking tabs (71 ), a napkin housing (72), a power transfer shaft (73), a power transfer shaft gap (74) into which the mechanism power transfer shaft (30) enters, a magazine friction surface (75), a liquid outlet hole (76), a sensor housing (77) of the liquid level measurement, assembly legs (78) for the lower cover, a liquid outlet angle housing (79), a napkin outlet hole (80), a napkin guiding support (81 ), a magazine lower cover (82), a magazine positioning means (83) directing the magazine assembly, a magazine bearing (84) which engages the magazine locking tabs (71 ) from below, a friction surface (85) of the magazine lower part, magazine assembly tabs (86), a napkin magazine housing (87), a power transfer shaft gap (88) into which the mechanism power transfer shaft (73) enters, a magazine fastening tab (89) fastening the magazine locking tabs (71 ), a napkin capsule housing (90), a lower cover (91 ), leg housings (92), assembly housings (93) for the lower cover, a magazine cover (94) connected to the napkin magazine refilling cover gap (100), an upper body (95), a liquid filling cover inlet (96), a charge socket connection point (97), an on/off switch connection point (98), a reset switch connection point (99), a napkin magazine refilling cover gap (100), a sensor bearing (101 ), a sensor cover locking housing (102), upper body assembly tabs (103), an electronic card housing (104), a lower body locking tab (105), an angle locking tab (106), and hose locking and sealing tabs (107).
Assembly description
The assembly of the present invention is carried out by mounting the magazine gear (33) on the main body (1 ), and by mounting the peristaltic gear (37). After assembly, it is attached to the main body (1 ). The upper mechanism cover (56) is combined with the main body (1 ) by assembling the motor of the upper cover of the mechanism. The electronic card (64) is mounted, the switch assembly (button group (24)) is performed, and the sensor and the motor block assembly is completed. Then, the upper body (95) is attached to its place, the sensor cover (59) is attached, the lower cover closes the bottom, the napkin magazine group is assembled and mounted into their places. It is ready for use by being attached to the device.
Usage description
First, the machine is turned on. After that, the sensors check if the liquid and the capsule are full (if not, the relevant warning light starts to flash, when these deficiencies are corrected, the lights go out and the system is ready for use). With the help of the magnetic sensor, the motor axle moves the kinesthetic gear in one revolution. This movement rotates the gear (33) in Fig. 2 60 degrees by means of the kinesthetic gear. The position of the gear (33) is fixed with the help of magazine positioning tab (49) and cartridge positioning means (32). The gear (33) sends one capsule into the chamber with a rotational movement of 60 degrees, pushes the second capsule back into its housing with the help of a 10-degree angle of the magazine lower part (85), and simultaneously with the help of a kinesthetic pump, 45cc liquid is drawn from the reservoir and conveyed to the chamber.
By passing the user’s hand in front of the sensor, the motor performs a complete revolution and the peristaltic pump discharges the sufficient amount of liquid, i.e., 45cc liquid, into the chamber (15) by taking advantage of the shrinkage of the silicone hose. The amount of liquid discharged into the chamber can preferably be adjusted according to the absorption capacity of the hygiene cloth. At the same time, the peristaltic gear (37) powered by the motor rotates the magazine gear 60 degrees, allowing a hygiene cloth to fall from the cartridge into the chamber. After one hygiene cloth falls from the cartridge, the first piece of cloth falls into the chamber by striking against the napkin dispenser while the cartridge rotates so that the second cloth does not fall out, thus, the napkin just stays on the dispenser as it is above the capsule dispenser, preventing undesired falls.