PT110352B - MECHANISM OF DEMULTIPLICATOR GEARS FOR SPRAYING MOP DRYING BY CENTRIFUGATION AND ITS WORKING METHOD - Google Patents

Abstract

THE PRESENT INVENTION REFERS TO A MECHANISM FOR DRYING A MOP BY MOTOR CENTRIFUGATION COMPOSED OF A SET OF DEMULTIPLICATOR GEARS. THEIR OPERATION IS DONE BY VERTICAL DOWNTURN IMPULSES, EXERCISED IN THE MOP (1), THAT PUSH THE BASKET (2). Consequently, the basket (2) activates the rack system (3), which activates the bevel gear (4). THIS CHANGES THE ROTATION MOVEMENT TO THE HORIZONTAL, CAUSING THE GEAR OF THE LOWER CYLINDER GEAR (5). IN THE CONNECTION BETWEEN THIS AND THE UPPER CYLINDER GEAR (6) THE ROCKET SYSTEM (7) IS INCORPORATED, LIMITING THE UPPER CYLINDER GEAR (6) TO A UNIDIRECTIONAL ROTATION. THIS LAST ONE, BY THE TOOTH shaft (8), CONNECTS TO THE BASKET (2), LIMITING THE BASKET (2) TO A VERTICAL TRANSLATIONAL MOVEMENT AND ALLOWING ITS ROTATION IN SIMULTANEOUS, CLOSING THE MECHANISM. THE MECHANISM IS LIABLE FOR MANUFACTURING, BEING MOSTLY COMPOSED OF INJECTED PLASTIC PARTS.

Description

DESCRIPTION

Gearbox gearing mechanism for mop drying by centrifugation and its method of operation

Song of the invention

Technical field in which the invention is inserted

The present invention relates to a gear mechanism for centrifuging mop drying and its operating system, with improvements in the characteristics of the rotation mechanism.

State of the art

Mops are used to clean and remove liquids, dirt and dust from surfaces. This utensil is widely used in industrial and domestic environments. It is a product that has undergone constant improvements, both in technological terms, in the mop drying mechanisms and in the mop filaments that absorb water, as well as in production costs.

Currently, the most effective and efficient mop drying mechanism works by centrifugation, by rotating the mop and bucket at high speeds. When compared with previous mechanisms, such as squeezing the mop by hand or twisting and compressing it through the handle against a juicer, this solution implies less actuation force and allows greater speed and efficiency to dry the mop. This mechanism also allows for greater hygiene and safety, keeping the user away from direct contact with chemicals in cleaning products and with the dirt to be cleaned, such as sharp objects that are in the filaments. In addition, the production costs of the mechanism are lower than the costs of products on the market.

There are already several types of mop drying mechanisms for centrifugation. In the case of the product described in patent application No. US2012192373Al, the rotation mechanism is located inside the mop handle and is composed of several components, the main one responsible for rotation being a threaded vein. This same mechanism has already undergone further improvements with the addition of gearboxes, in order to reduce the load to be applied in its operation. Examples of these are the utility models CN202235236V and K 'CN2C545S515L'. However, this type of mechanism, even in its most basic form, still has high production costs for the market in which it operates. These costs are due to the materials used and, mainly, to the high cost of assembly.

There is also another important type of rotation mechanism, which includes a pedal as a gear actuator that drives the rotation of the basket and mop rotation. Examples of these are patent application No. US20100064469A1 and utility model N ^and CN203987918U. In its most basic form, this type of rotation mechanism improves the assembly costs in relation to the mechanism previously described. However, its handling by pedal is no longer accessible to any user, requiring some balance. Other negative factors are the space outside the bucket that is occupied by the pedal, making it difficult to store in smaller spaces, as well as the fact that it is more likely to tip over when the pedal is pressed, if the bucket is not properly filled.

The present invention provides a reduction in production costs, mostly containing parts manufactured by plastic injection and providing an easy assembly of the rotation mechanism, which can be almost completely assembled.

P-lc own user. The mechanism occupies a very small area, being located only inside the bucket, under the basket. Its handling is greatly simplified, with the user only having to apply a load on the mop handle in a downward direction. The gears that are not multiplied.ras. Result in a lower actuation load than the existing mechanisms.

Summary of the invention

The present invention relates to a mechanism for drying a mop by motor centrifugation. This mechanism includes a mop (1), a mechanism base (9), a basket (2j, a rack system (3), a bevel gear (4), a lower cylindrical gear (5), an upper cylindrical gear (6) and a ratchet system (7) »The downward movement of the mop (1) pushes the basket (2) down. Consequently, the basket; 2) activates the rack system (3) which in turn is connected to the ionic gear (4). The bevel gear (4) changes the movement of the rotation from vertical to horizontal, thus causing the lower cylindrical gear (5) to engage. In the connection between the lower cylindrical gear (5} and the upper cylindrical gear (6) the ratchet system (7) is incorporated, limiting the upper cylindrical gear (6) to a unidirectional rotation. The upper cylindrical gear (6) is connected to the basket (2), closing the drying mechanism of a mop by motor centrifugation. This connection is made by the toothed shaft (8) which limits the basket {2} to a vertical translational movement, allowing it to rotate simultaneously. mechanism, with the exception of the mop ile) and the basket (2), is compacted inside the bucket {10}. The complex gear reduction is inevitable so that the basket (2) rotates enough to dry the mop filaments, with few downward movements of the mop (1) and with a low actuation load to carry them out.

Detailed description of the invention

The present invention, shown in figures 1 to 8, relates to a gear mechanism for drying the mop by centrifugation and its method of operation. One of its advantages is the possibility of activating the mop rotation mechanism (1) through the head · (11), which is entirely inside the bucket (10), which facilitates its storage. This is only possible thanks to the innovative combination of a vertical rack system (3), demultiplifying cylindrical and bevel gears and a ratchet system (7}, in a single mechanism. The reduction of loads on the gears reduces the load required to reach the rotational speed of the basket (2) required for mop drying (1). There is also a reduction in production costs due to the easy and efficient assembly of the mechanism, reducing the time and cost of labor, as well as the type of components of the mechanism, most of which are parts easily manufactured by plastic injection As shown in Figures 1 to 8, this mechanism includes: bucket (12), basket (2), basket brake (13), mop base ( 14), mop rotating part holder (15), mop rotating part (16), cable fitting (17), rotating part-male fitting (18), rotating part — female fitting (19), rack (20), rack guide piece heira (21), pinion-conical wheel junction (22), conical reel-lower cylindrical wheel junction (23), lower-ratchet reel junction (24), one or more latches (25), upper cylindrical wheel (26), upper cylindrical gear-toothed shaft junction (27), mechanism support cover (28), mechanism base (9), pinion support piece (29), bevel gear support piece (30}, ratchet system (31), upper cylindrical reel support piece (32}, pinion shaft (33), conical reel shaft (34), ratchet shaft (35), screws (36), rivet (37), ball (38), ball bearing (39), needle bearing (40) and compression spring. The basket brake (13) is fitted with fittings or screws (36) in the basket (2).

The mop (1.) includes: handle (11), mop base (14), mop rotating part holder (15), mop rotating part (16), handle fitting (17), rotating part junction - male fitting piece (18), rotating piece junction. the female socket (19), rivet (37) and ball bearing (39).

The rack system (3) consists of the rack (20) and the pinion (41). The rack shaft (42) is integral with the rack (20).

The bevel gear (4) consists of the bevel wheel (43) and the bevel gear (44).

The lower cylindrical gear (5) consists of the lower cylindrical wheel (45) and the lower cylindrical gear (46).

The upper cylindrical gear (6) consists of the upper cylindrical wheel (26) and the upper cylindrical gear (47).

The ratchet system (7) is made up of the ratchet (48), one or more latches (25), which are mounted on the ratchet (48 ;, and the inner toothed circle (49). can be replaced by a unidirectional bearing.

The pinion-taper wheel junction (22) is the result of the coaxial integration of the pinion (41) with the taper wheel (43).

The conical reel-lower cylindrical wheel junction (23) is the result of the coaxial integration of the conical reel (44) with the lower cylindrical wheel (45).

The cylindrical reel junction i results from the integration of lower coaxia (46) with the ratchet (48). The super cylindrical reel junction: result of the upper coaxial integration (47) with the straight or threaded toothed shaft.

method of operation of the following steps: a cable (11) is exerted that consequently (14) against the basket (2). The bottom-ratchet bead (24) is the 1 of the toothed cylindrical reel (27) is the 1 of the cylindrical reel (8), which may have a toothed mechanism comprising the downward movement of the mop base between the mop (1) and the basket (2.) takes place between the fitting of the mop base (50) and the fitting of the basket (51). The mop (1) is free to rotate in order to accompany the rotation of the basket (2), while a downward load is applied to the handle (11) at the same time.

There should be a ball bearing (39) between the base of the mop (14) and the rotating part of the mop (reads) to reduce friction. The basket (2) is centered with the hole in the bucket (52), with the upper cylindrical reel-toothed shaft junction (27) and with the rack shaft (42). Q Downward movement of the basket (2) causes the shaft embedded in the basket (53) to activate the rack (20) by contacting the shaft of the rack (42) <Between the shaft embedded in the basket (53) and the shaft of the rack (42) there is a ball (38), in order to reduce friction on contact. Between the rack (20) and the base of the mechanism (9) there must also be a compression grinder, in order to assist the retraction of the rack (20). The rack (20) is positioned vertically and is engaged with. the pinion (41). The pinion-taper wheel junction (22) rotates around the pinion shaft (33) and thus the engagement of the taper wheel (43) with the taper pinion (44) is activated.

The streak between the wheel and the reel results in a disengagement of the gearing. In the bevel gear (4), the rotation movement of the horizontal to vertical axis is changed »The junction of the reel-wheel and the lower cylindrical wheel (23) rotates around the vein of the reel conical (34), thus activating the gearing between the lower cylindrical wheel (45) and the lower cylindrical gear (46). In the connection between the lower cylindrical gear (5) and the upper cylindrical gear (6), the ratchet system is incorporated (7), which limits the upper cylindrical gear (6) to unidirectional rotation, by engaging one or more latches (25) in the circle with an inner gear (49) coaxial and dug in the upper cylindrical wheel (26), The gear junction lower-racket cylindrical {24) and the upper cylindrical wheel (26) revolve around the ratchet shaft (35) and, when the ratchet system (7) is activated, by engaging the latches (25) in the toothed circle interior (49), the gear is activated and between the upper cylindrical wheel (26) and the upper cylindrical sprocket (47). The upper cylindrical reel-toothed shaft connection (27) is directly connected to the basket (2), closing the mechanism. This connection is made by meshing the toothed shaft (8) with the basket (2) restricting it to a vertical translational movement, causing it to rotate simultaneously and the base of the mop to rotate (14). - toothed shaft (27) is maintained on the vertical axis with the aid of the upper cylindrical reel support piece (32) and the mechanism support cover (28). The mechanism support cover (28) is fixed to the base of the mechanism (9) by inserts or screws (36). The support part of the upper cylindrical reel (32) is also fixed to the support cover of the mechanism (28) by fitting or screws (36)> Inside the support part of the upper cylindrical reel (32) the bearing must be added of needles (40), in order to reduce the friction in the rotation between the upper cylindrical reel-toothed shaft junction (27) and the support part of the upper cylindrical reel (32). The support part of the upper cylindrical reel (32) is separated from the support cover of the mechanism (28) to facilitate its manufacture by plastic injection. The pinion support part (29) and the bevel gear support part (30) assist in the assembly of the pinion shaft (33), also facilitating the manufacture of the mechanism base (9) by plastic injection »The support part of the bevel gear (30) supports the bevel gear shaft (34). The support piece of the ratchet system (31) is separated from the base of the mechanism (9) to facilitate its manufacture by plastic injection. The mechanism support cover (28) restrains the movement of the pinion support piece (29), gives the ratchet system support piece (31), the taper pinion shaft (34) and the ratchet shaft ( 35). The ratchet system support piece (31) supports the ratchet shaft (35). The entire rotation mechanism is compacted inside the bucket (10). A thorough reduction of the gears is necessary for the basket (2) to rotate enough to dry the mop filaments, with few downward movements of the mop and with a low actuation load to carry them out.

Description of the figures

Figure 1 represents the gearing mechanism for drying the mop by centrifugation, comprising: mop (1), basket (2), the rack system (3), bevel gear (4), inner cylindrical gear (5) , upper cylindrical gear (6), ratchet system (7) and toothed shaft (8).

Figure 2 represents the exploded view of the connection between the mop (1), the basket (2) and the upper cylindrical reel-toothed shaft junction (27). Also represented are the aeuLeου shaft, the c <sog ui), the basket lock. (13), the mop base (14), the cable fitting (17), the screws (oS), the ball (38), the upper cylindrical reel (47), the mop base fitting (50 ) and the shaft incorporated in the basket (53).

Figure 3 represents the sectional view, on the central and vertical piano, of the connection between the mop base (14), the basket (2, ·, the upper cylindrical reel-toothed shaft junction (27) and the crema (20 The contact between the basket (2) and the rack (20) occurs between the rack shaft (42) and the shaft incorporated in the basket (53). Among the shafts is the ball (38). surrounding the rotation of the mop base (14), which are: the rotating mop part (16), the mop rotating part holder (15), the cable fitting part (17), the rotating part fitting male fitting part (18), the workpiece joint, rotating-female fitting (19), the rivet (37) and the ball bearing (39) The rack guide piece (21) is also shown in this figure.

Figure 4 represents the support parts of the gear mechanism. These include the base of the mechanism (9), a. mechanism support cover (28), pinion support part (29), bevel gear support part (30), ratchet system support part (31), upper cylindrical reel support part (32), with the needle roller (40), the pinion shaft (33), the conical gear shaft (34), the roquee shaft (35) and the screws- {36). Also shown in this figure are the rack (20), the upper cylindrical reel-toothed shaft connection (27) and the rack (20), in order to frame the gear mechanism.

Figure 5 represents the set of gears and the supporting shafts, the figure containing the toothed shaft (8), the rack (20), the rack guide piece (21), the pinion-wheel conical junction (22), the conical reel-lower cylindrical wheel junction (23), the reel-lower cylindrical reel connection (24), the upper cylindrical wheel (26), the upper cylindrical reel-toothed shaft junction (27), the pinion shaft (33) , the tapered gear shaft (34), the pinion (41), the rack shaft (42), the tapered gear (44), the lower cylindrical wheel (45), the upper cylindrical gear (47) and the circle with interior gear (49).

Figure 6 represents Figure 5 with the rear view. It remains, the following components are presented; the toothed shaft (8), the rack guide piece (21), the conical reel-lower cylindrical wheel junction (23), one or more latches (25), the upper cylindrical wheel (26), the pinion shaft ( 33), the taper shaft (34), the ratchet shaft (35), the taper wheel (43), the taper wheel (44), the lower cylindrical wheel (45), the lower cylindrical gear (46) and the ratchet (48).

Figure 7 represents the set of parts belonging and surrounding the gear mechanism for drying the mop by centrifugation. In this, the basket (2), the base of the mechanism (9), the interior of the bucket (10), the handle (11), the bucket (12), the base of the mop (14) and the fitting of the basket are marked (51).

Figure 8 represents the exploded view of the set of parts belonging and surrounding the gear mechanism for drying the mop by centrifugation. In this, the basket (2), the base of the mechanism (9), the handle (11), the bucket (12), the base of the mop (14) and the hole of the bucket (52) are marked.

Lisbon, February 16, 2018.

Claims (9)

1) Mop base rotation (14). Method according to claim 24, characterized in that the toothed shaft (8) limits the basket (2) to a vertical and rotational translational movement. Method according to claim 24, characterized in that the pinion support part (29) and the bevel gear support part (30) support the pinion shaft (33), 1. Gear mechanism for centrifugal mop drying characterized by comprising the following components: bucket (12), basket (2), mop base (14), crema irra (20), pinion-wheel junction ( 22), lower cylindrical conical reel joint (23), lower-ratchet reel joint (24), one or more latches (25), wheel, upper cylindrical (26), upper reel-toothed shaft reel (27}, cap mechanism support piece (28), mechanism base (9), pinion support piece (29), bevel gear support piece (30), ratchet system support piece (31), reel support piece upper cylindrical (32), came from pinion: (33), came from conical gear (34), came from ratchet (35j and basket brake (13). 2. Mechanism according to claim 1, characterized in that the rack (20) has the rack vein (42) integral to it, Method according to claim 24, featuring the support piece of the castor system (31} supporting the ratchet shaft (35). 3. Mechanism according to claims 1 and 2, characterized in that the rack (20) is positioned vertically, Mechanism according to claim 1, characterized in that the pinion-taper wheel junction (22) is the coaxial integration of the pinion (41) with the taper wheel (43). 5, Mechanism according to claim 1, characterized in that the junction of conical reel-lower cylindrical (23) is the coaxial integration of the conical reel (44) with, the lower cylindrical wheel (45), Mechanism according to claim 1, characterized in that the junction of the lower cylindrical reel (24) is the coaxial integration of the lower cylindrical reel (46) with the ratchet (48). Method according to claim 24, rotated by the bevel gear support piece (33} supporting the bevel gear shaft (34). Mechanism according to claim 1, characterized in that the upper cylindrical wheel (26) contains a circle with an inner tooth (49) coaxial and dug in said upper cylindrical wheel (26). Mechanism according to claim 1, characterized in that the junction of the upper cylindrical gear (27) is the coaxial integration of the upper cylindrical gear (47) with the toothed shaft (8). Mechanism according to claims 1 and 8, characterized in that the toothed shaft (8) has a straight or threaded tooth. 10. Mechanism according to claims 1, 2 and 8, characterized in that the basket (2) is centralized with the hole in the bucket (52), with the upper cylindrical reel-toothed shaft junction (27) and with the shaft of the rack (42). 11. Mechanism according to claim 1, characterized in that between the rack (20) and the base of the mechanism (9) there is a compression mule. Mechanism according to claim 1, characterized in that the contact between the mop base (14) and the basket (2) is between the mop base (50) and the basket (51.). 13. Mechanism according to claim 1, characterized in that the mop base (14) has free rotation. 14-Mechanism according to claim 1, characterized in that the base of the mop (14) has a ball bearing (39). 15. Mechanism according to claims 1 and 2, characterized in that the contact between the basket (2) and the rack (20) is between the shaft incorporated in the basket (53) and the rack shaft (42). Mechanism according to claims 1, 2 and 15, characterized in that there is a sphere (38) between the shaft incorporated in the basket (53) and the shaft of the rack (42). 17. Mechanism according to claims 1 and 6, characterized by the latches. (25) are mounted on the racket (4 8). Mechanism according to claim 1, characterized in that it comprises a one-way bearing that replaces the racquet (48), the latches (25) and circulates it with an internal gear (49). Mechanism according to claims 1 and 8, characterized in that the upper cylindrical reel joint with toothed shaft (27) is fixed on the vertical axis by the support part of the upper cylindrical reel (32) and the support cover of the mechanism (28) . 20, Mechanism according to claim 1, characterized in that the support part of the upper cylindrical reel (32) is fixed to the support cover of the mechanism (28) by fitting or by screws (36). 21. Mechanism according to claim 1, characterized by a needle roller bearing (40) between the support part of the upper cylindrical reel (32) and the upper cylindrical reel-toothed shaft connection (27). Mechanism according to claim 1, characterized in that the lid of. mechanism support (28) be fixed to the base of the mechanism (9) by fittings or by screws (36). Mechanism according to claim 1, characterized. in that the basket brake (13) is fitted with fittings or screws (35) in the basket (2). 24. Method of operation of the mechanism described in the preceding claims, characterized by comprising the following steps: a) Downward movement of the mop base (14) against the basket (2); b) Downward movement of the basket (2) against the rack (20); c) Gearing the rack (20) with the pinion (41); d) Rotation of the pinion-taper wheel junction (22) in turn of the pinion shaft (33); e) Gearing the conical wheel (43) with the conical gear (44); f) Rotation of the conical reel-lower cylindrical wheel junction (23) around the shaft of the conical reel (34); g) Gearing the lower cylindrical wheel (4S) with the lower cylindrical gear (46); h) Rotation of the lower cylindrical reel junction (24) and the upper cylindrical wheel (26) around the ratchet shaft (35); i) Locking gear (25) in the inner toothed circle (49); j) Interlocking the upper cylindrical wheel (26) with the upper cylindrical gear (47) restricting it to a vertical transitional movement; k) Gearing the toothed shaft (8) with the basket (2); Method according to claim 24, characterized in that the support cover of the mechanism (28; to restrict the movement of the pinion support piece (29), the ratchet system support piece (31}, it came from the conical gear (34} and the ratchet shaft (35). Lisbon, February 16, 2Q18