阅读说明：本技术 地板处理机器 (Floor treatment machine ) 是由 西蒙·威尔特 于 2019-04-23 设计创作，主要内容包括：本发明涉及用于擦洗、抛光、打磨或压光地板的地板处理机器的领域,并且特别涉及其中设置有一个或多个被驱动的可旋转工作头(例如擦洗刷)以搅打地板表面的机器的领域。在一个方面,提供了一种手扶式地板处理机器,包括：基座部分,其设有至少一个用于处理地板的可旋转的工作头并由该至少一个用于处理地板的可旋转的工作头支撑；手柄部分,其用于沿着行进的工作方向使机器转向或引导机器,并适于能相对于基座部分枢转；用于使工作头相对于基座部分旋转的驱动装置,用于支撑手柄部分的地板接合的轮装置,轮装置具有基本横向的旋转轴线,以允许沿工作方向行进,该轮装置通过连杆机构被联接到基座部分,连杆机构允许基座部分和相关联的工作头相对于轮装置竖直行进,但提供横向约束以限制或防止基座部分相对于轮装置偏摇,其中,手柄部分的下部区域通过铰接接头可枢转地连接到轮装置,该布置使得手柄部分能被操纵以作用在轮装置上,以使轮装置绕由轮装置的地板接合的接触部所限定的偏摇轴线而偏摇转向,轮装置的偏摇使基座部分响应于偏摇转向而偏摇。轮装置可包括设置在手柄部分的下部区域的轮、辊或球,优选为单个轮、辊或球。轮装置优选地具有固定的横向旋转轴线。(The present invention relates to the field of floor treatment machines for scrubbing, polishing, sanding or calendering floors, and in particular to the field of machines in which one or more driven rotatable working heads (e.g. scrub brushes) are provided to whip a floor surface. In one aspect, there is provided a walk behind floor treatment machine comprising: a base section provided with and supported by at least one rotatable working head for treating a floor; a handle portion for steering or guiding the machine in a working direction of travel and adapted to be pivotable relative to the base portion; drive means for rotating the working head relative to the base portion, floor-engaging wheel means for supporting the handle portion, the wheel means having a substantially transverse axis of rotation to allow travel in a working direction, the wheel means being coupled to the base portion by a linkage mechanism which allows vertical travel of the base portion and associated working head relative to the wheel means but provides transverse restraint to limit or prevent yaw of the base portion relative to the wheel means, wherein a lower region of the handle portion is pivotally connected to the wheel means by a hinged joint, the arrangement being such that the handle portion can be manipulated to act on the wheel means to yaw steer the wheel means about a yaw axis defined by floor-engaging contact portions of the wheel means, yaw of the wheel means causing the base portion to yaw in response to the yaw steer. The wheel means may comprise a wheel, roller or ball, preferably a single wheel, roller or ball, disposed at a lower region of the handle portion. The wheel arrangement preferably has a fixed transverse axis of rotation.)

1. A walk behind floor treatment machine comprising:

a base section provided with and supported by at least one rotatable working head for treating a floor;

a handle portion for steering or guiding the machine in a working direction of travel and adapted to be pivotable relative to the base portion;

a drive means for rotating the working head relative to the base portion,

a floor engaging wheel arrangement for supporting the handle portion, the wheel arrangement having a substantially transverse axis of rotation to allow travel in the working direction, the wheel arrangement being coupled to the base portion by a linkage mechanism that allows the base portion and associated working head or heads to travel vertically relative to the wheel arrangement but which provides a transverse constraint to limit or prevent the base portion from yawing relative to the wheel arrangement,

wherein a lower region of the handle portion is pivotably connected to the wheel means by a hinged joint, the arrangement being such that the handle portion can be manipulated to act on the wheel means to cause the wheel means to yaw steer about a yaw axis defined by a floor engaging contact of the wheel means, the yaw of the wheel means causing the base portion to yaw in response to the yaw steer.

2. The floor treatment machine of claim 1, wherein the wheel arrangement comprises a wheel, roller or ball, preferably a single wheel, roller or ball, disposed at a lower region of the handle portion.

3. The floor treatment machine of claim 1 or 2, wherein the wheel arrangement has a fixed transverse axis of rotation.

4. The floor treatment machine of any of the preceding claims, wherein the linkage comprises a tilt pivot connection with the wheel arrangement, and preferably the connection is coaxial with the axis of rotation of the wheel arrangement.

5. The floor treatment machine of any of the preceding claims, wherein the linkage comprises a tilt pivot connection with the base portion.

6. The floor treatment machine of claims 4 and 5, wherein the tilt pivot connection allows vertical travel of the base portion relative to the wheel arrangement.

7. The floor treatment machine of any of the preceding claims, wherein the one or more rotatable working heads support the base portion on a floor surface via the linkage mechanism, the linkage mechanism allowing the working heads to travel vertically floatingly relative to the wheel arrangement.

8. The floor treatment machine of any of the preceding claims, wherein a lower region of the handle portion is attached to the wheel arrangement by an articulated joint that allows the handle to pivot up/down about the joint.

9. The floor treatment machine of claim 8, wherein the articulation joint allows the handle to pivot side-to-side about the joint.

10. The floor treatment machine of claim 9, wherein the upper/lower pivot of the articulation joint is disposed at a pivot that is coaxial with the axis of rotation of the wheel arrangement.

11. The floor treatment machine of any of the preceding claims, wherein a side-to-side pivot of the articulation joint is disposed at a location vertically spaced from the up/down pivot.

12. The floor treatment machine of claim 11, wherein the articulation joint includes a yoke that houses wheels, rollers, or balls of the wheel arrangement, the yoke pivoting about an axis of rotation of the wheels.

13. The floor treatment machine of claim 12, wherein the side-to-side pivot is disposed on an upper bridge portion of the yoke.

14. The floor treatment machine of claim 13, wherein the side-to-side pivot comprises a U-section bracket that rotates 90 degrees relative to the yoke and receives a lower end of the handle.

15. The floor treatment machine of any of the preceding claims, wherein the base section and associated working head or heads are provided at a front region of the machine, the wheel arrangement is provided at a rear of the base section and working head by the linkage mechanism between the wheel arrangement and the working head or heads and the base section, and the wheel arrangement is preferably substantially centrally disposed relative to the working head or heads.

16. The floor treatment machine of any preceding claim, wherein the machine is a wet scrubber provided with a cleaning liquid reservoir and a cleaning liquid delivery outlet.

17. The floor treatment machine of claim 16, wherein a trailing squeegee liquid collector is provided that is coupled to the machine by a trailing linkage that allows the squeegee collector to pivot up/down relative to the wheel arrangement.

18. The floor treatment machine of claim 17, wherein two spaced apart, rearward facing support wheels or rollers are provided that project toward the rear of the squeegee collector.

19. The floor treatment machine of claim 17 or 18, wherein the tail linkage is pivotably coupled to the wheel arrangement coaxially with a transverse axis of the wheel arrangement.

20. The floor treatment machine of any of the preceding claims, wherein forward propulsion of the machine is provided by rotation of the working head.

21. The floor treatment machine of any of the preceding claims, wherein the drive comprises one or more motors carried by the base section and coupled to the one or more working heads.

22. The floor treatment machine of claim 21, wherein there are two generally disc-shaped working heads disposed side-by-side and oriented for rotation about respective vertical axes of rotation, having two motors, each motor disposed above its associated working head.

23. The floor treatment machine of claim 22, wherein the motor is configured and/or controlled to counter-rotate the one or more working heads relative to each other to provide propulsion.

24. The floor treatment machine of any of the preceding claims, wherein a distal end of the handle portion is provided with a transversely oriented handgrip for gripping by a user's hand on each side of the handgrip.

Technical Field

The present invention relates to the field of floor treatment machines for scrubbing, polishing, sanding or calendering floors. In these machines, one or more driven rotatable working heads (e.g., scrub brushes) are provided to whip the floor surface. In particular, the present invention relates to a walk-behind machine provided with a handle for steering and guiding the machine as it travels over a floor surface.

Background

EP2832277(i-mop GmbH) discloses a handheld wetland scrubber having two side-by-side working heads, each comprising a disc-shaped floor brush. There is a rear squeegee and associated suction drive and reservoir for collecting liquid from the floor surface. The brushes support the weight of the machine and counter-rotate to provide propulsion. The suction drive is arranged on the handle part of the machine together with a washing liquid container for feeding the washing liquid dispenser. The handle has dual pivots that allow the handle to move up and down as well as side-to-side. A problem with these machines is that their directional stability is not very high. This is due to the lack of a guide constraint provided by the rotating head and the double pivoting handle which allows the user to easily sweep side-to-side along an arc, but is less suitable for the machine to move linearly in a orderly manner over the surface to be cleaned. In addition, these machines have difficulty turning sharply to negotiate corners or obstacles. The labor of controlling the machine can be tiring for the operator and limit productivity.

Disclosure of Invention

The present invention seeks to provide a floor treatment machine having better directional control, in particular straight and turning control. These and other objects are achieved by various aspects of the present invention, as will be apparent from the following description.

According to one aspect of the present invention, there is provided a floor treatment machine (preferably walk-behind) comprising:

a base section provided with and supported by at least one rotatable working head for treating a floor;

a handle portion for steering or guiding the machine in a working direction of travel and adapted to be pivotable relative to the base portion;

drive means for rotating the working head relative to the base section, floor engaging wheel means for supporting the handle section, the wheel means having a substantially transverse axis of rotation to allow travel in the working direction, the wheel means being coupled to the base section by a linkage mechanism which allows vertical movement of the base section and working head relative to the wheel means but provides a transverse constraint to limit or prevent yaw of the base section relative to the wheel means,

wherein a lower region of the handle portion is pivotably connected to the wheel means by a hinged joint, the arrangement being such that the handle portion can be manipulated to act on the wheel means to yaw steer the wheel means about a yaw axis defined by a floor-engaging contact of the wheel means, the yaw of the wheel means causing the base portion to yaw in response to the yaw steer.

The wheel means may comprise wheels, rollers or balls, single or co-axial adjacent pairs. Preferably there is a single wheel, roller or ball, most conveniently located in the lower region of the handle portion. The wheel arrangement may preferably have a fixed transverse axis of rotation (when placed on the floor). In other words, there is no caster wheel (wheeling). However, the wheel or roller may be adapted to be tilted one turn (and thus it is tilted about an axis coaxial with the direction of travel).

The linkage coupling the wheel assembly and the machine base portion may include a tilt pivot connection to the wheel assembly. The connection may be coaxial with the axis of rotation of the wheel arrangement. In addition, or alternatively, the linkage may include a tilt pivot connection with the base portion. Preferably, the linkage has two such pivots to allow the base portion to travel vertically relative to the wheel arrangement. The linkage may conveniently comprise one or preferably two side-by-side struts, with a pivotal connection to the base portion at one end of one or more of the struts and a pivotal connection to the wheel arrangement at the other end.

The one or more rotatable working heads preferably support the base portion on the floor surface by a linkage mechanism that allows the working heads to travel vertically in a floating relationship relative to the wheel arrangement. The lower region of the handle portion may be attached to the wheel arrangement by a hinged joint which allows the handle to pivot up/down about the joint. The articulation joint may allow the handle to pivot side-to-side about the joint. The upper/lower pivot of the articulated joint may be arranged at a pivot coaxial with the wheel arrangement axis of rotation. The side-to-side pivot of the articulation joint may be disposed at a position vertically spaced from the up/down pivot. The articulated joint may comprise a yoke accommodating the wheels, rollers or balls of the wheel arrangement, the yoke preferably pivoting about a wheel rotation axis. The side-to-side pivot may be provided on an upper bridge portion of the yoke. The side-to-side pivot may comprise a U-section bracket that rotates 90 degrees relative to the yoke and receives the lower end of the handle, with the pivot pin bridging the bracket cheeks.

The base section and associated working head may be provided at a front region of the machine. The wheel arrangement may be provided at the rear of the work head and base section (preferably substantially at the centre of the machine or central region of the base section) by a linkage extending between the wheel arrangement and the base section.

In a preferred aspect of the invention, the machine is a wet scrubbing machine. The wet scrubber may be provided with a cleaning solution reservoir and a cleaning solution delivery outlet. Preferably, a scraper liquid collector is provided, which is coupled to the machine by a tail linkage. The linkage mechanism may allow the squeegee collector to travel up/down relative to the wheel assembly. The trailing linkage is preferably pivotally coupled to the wheel arrangement coaxially with the transverse axis of the wheel arrangement. The machine may be provided with a blade suction drive and a dirty liquid collection reservoir.

Two spaced apart, rearward facing support wheels or rollers may be provided which project to the rear of the blade collector. The squeegee collector can take a transport (or storage) configuration in which the squeegee is pivoted downward and suspended from the tail linkage (and wheels/rollers on the floor) or folded vertically upward away from the floor. The wheels may simply be used to support the scraper collector.

Forward propulsion of the machine is preferably provided by rotation of the working head. For transversely mounted rollers, the direction of rotation control moves forward or backward. For a preferred disc-shaped working head rotating about a vertical axis, the propulsion can be provided by using two counter-rotating working heads. For a single such working head, the user may turn the handle slightly to rotate the working head slightly, which will result in improved traction on one side of the working head, which will cause forward propulsion if that side is the return swivel side.

The drive means may comprise one or more motors carried by the base section and coupled to the working head. In a preferred arrangement, there are two generally disc-shaped working heads disposed side-by-side and oriented for rotation about respective vertical axes of rotation. Conveniently there are two motors, each motor being located above its associated working head. Other arrangements are possible, such as a single motor driving both heads via pulleys, chains or gear sets. For simplicity, a single motor is preferred for each head. The dual motors are configured and/or controlled to counter-rotate the work heads relative to each other to provide propulsion. Scrub brush driven machines are well known in the art. For example, a single brush may be sensed to be driven by tilting the machine (base section) onto the back side of a rotating disc-like, floor-facing working head.

The machine of the invention is preferably a walk-behind machine. To facilitate handling and guidance, the distal end of the handle portion may be provided with a transversely oriented handgrip for the user to grasp with the hand on each side of the handgrip. The handle may be provided with a speed control lever and a cleaning liquid dispensing actuator.

Drawings

The following is a description, by way of example only, and with reference to the accompanying drawings, of one way of implementing the invention.

In the drawings:

fig. 1 is a three-quarter perspective view from above of a floor scrubbing dryer as an embodiment of the present invention.

Fig. 2 is a side view of the floor scrubbing dryer of fig. 1.

Fig. 3 is a front perspective view of the floor scrubbing dryer of fig. 1 and 2.

Fig. 4 a-4 d are plan views of the floor scrubbing dryer of fig. 1-3 in various use configurations.

Detailed Description

In fig. 1, a floor scrubbing dryer in accordance with the present invention is shown generally at 10. The machine comprises an elongate handle portion 12 of rectangular cross-section. The handle portion 12 includes a top end region and a bottom end region. A handle 13 is mounted transversely through the aperture in the region of the top end of the handle portion 12. A control unit (not shown) is also provided at the tip region. During use, a user walks behind the machine and uses the handle 13 to direct it onto the floor surface to be cleaned.

The bottom end region of the handle portion 12 is pivotally attached between the upstanding ears of the U-section mounting bracket 14. The pivot is oriented fore and aft to enable side-to-side rotation of the handle portion relative to the bracket 14 about pivot axis 15 (as shown by arrow A, A' in fig. 3). The shaft 15 is substantially perpendicular to the length of the handle portion 2 and allows the handle to swing laterally side-to-side about the base end region.

The stand 14 has a lower region configured as a fork or yoke (yoke)17 formed by two spaced downwardly extending cheeks. The guide wheel 18 is located between the cheeks and is mounted for rotation about an axis 19, as shown in figure 2. The shaft allows the tip region of the handle to pivot forward/backward, up/down through an arc V about a transverse axis provided by shaft 19.

In the present embodiment, the wheel 18 is arranged to be rotatable about a single axis and is otherwise fixed in position. However, in other embodiments, wheels 18 may be configured to tilt one turn to the left or right as a user maneuvers machine 18 around a floor surface. This may improve operation of machine 10. The same tilting can be applied to other wheel arrangements, such as rollers or balls.

A pair of elongate, forwardly extending, spaced apart mounting struts 21 are pivotally attached at their rear end regions to opposite respective sides of the axle 19 projecting from either side of the wheel 18. The front end region of each strut is attached to a pair of upstanding, spaced apart generally triangular brackets 22 formed on a rectangular work base 23. The attachment is made by means of a pivot connection 24 having a transverse axis of rotation.

The base portion supports two motors, a left scrub motor 25 and a right scrub motor 26, side by side thereon. The left and right scrub brushes 27, 28 are attached to respective dependent rotors (not shown) of the motor below the base portion 23. The left and right scrubbers are mounted to the rotor using conventional means such as a hub or spider (not shown).

Each scrub brush 27, 28 comprises a disc-shaped base portion 29 and an annular array of fibre brushes 30 secured to the underside of the base portion. The scrub brushes are arranged to be rotatable in opposite directions and about parallel vertical axes as shown in fig. 1, which may provide forward or backward propulsion.

As best seen in fig. 2, the squeegee collector 30 is pivotally mounted to the rear of the wheel 18. Collector 30 includes an elongated, lenticular collector arm 31. The front and rear collector blades 32, 33 are mounted below the collector arm 31 so that both the front and rear blades 32, 33 can contact the floor when the machine 1 is in normal use. The collector vanes 32, 33 are made of an elastomeric material as is conventional. The interior of the blade (chamber 34) defined between the leading and trailing blades is in fluid communication with a suction drive (not shown), which may be mounted on the handle 12 or base portion 23, to carry and draw waste water that has passed through the scrub brush. The waste water sucked from the suction chamber 34 is stored in a water tank (not shown). The suction drive and water tank may be located above the scrubber mounting bracket 11, or on the handle portion 2, or at another convenient location on the machine 1.

The left and right rear wheel assemblies 35 and 36 are each mounted to the collector arm 31 and project rearwardly and contiguously. Each rear wheel assembly includes a rear caster. The squeegee collector is attached to the axle 19 by a pair of laterally spaced rearwardly extending struts 38 so that the collector can pivot up/down about the axle. Thus, the squeegee collector can be folded up or down for storage. Furthermore, the collector can follow the floor undulations when in use without losing suction as a result of the machine moving forward.

Fig. 4 a-4 d show various configurations of the handle portion 12, base portion 23 and wheel yoke 17. Fig. 4a shows a configuration in which the handle portion 12 is in a left-to-right position and at an angle to the floor surface. The configuration of fig. 4a is similar to the configuration shown in fig. 1.

Fig. 4b shows a configuration in which the handle portion 12 has been rotated such that the handgrip 13 has been moved to the left. Fig. 4b shows a configuration in which a user is turning the machine 10 to the left.

Fig. 4c shows a configuration in which the handle portion 12 is upright so that the handlebar 13 is parallel to the floor surface. When the handle portion 12 has been rotated so that the handle 13 is moved to the left.

Fig. 4d shows an arrangement in which the handle portion 2 has been rotated so that the handle grip 13 is now located in front of the scrubbers 27, 28.

In the foregoing description and the associated drawings, we have not shown features that would normally occur but are not essential to the core aspects of the invention. These include cleaning liquid reservoirs and dispensers, suction drives for blade collectors or dirty water reservoirs fed by blade collectors. These are well known to those skilled in the art and therefore will not be described in detail herein. For a polisher or calender, etc., such an assist feature may not be needed.

In use, the machine of the present invention has a number of unique features and advantages. Another point of contact is now provided between the scrubber base section and the floor so that the base section remains stably level with the floor and rotating brush supported by the point of contact. In this arrangement, the wheels 18 rotate as the machine moves forward, but provide a fixed set distance from the floor to the base portion. This arrangement provides better handling than prior art machines without guide wheels, as the guide wheels serve to prevent the entire machine base from yawing, thereby providing more effective stable control. By its fixed transverse axis of rotation, it provides longitudinal stability and helps prevent the machine base from skidding or slipping on the floor surface.

Another advantage of the guide wheel is that weight can be carried on the guide wheel by the handle without the weight acting directly on the scrub brush to over-bend the brush filaments or interfere with smooth rotation and scrubbing. Thus, heavy mechanical elements such as wash water or dirty water collection reservoirs may be load bearing attached to the handle. Similarly, the suction drive motor or battery may be carried by or attached to the handle (preferably in the lower region to ensure weight is transferred to the wheels rather than being shared too much by the handle being held by the user operator). In this arrangement, the machine provides a stable scrubbing platform whose performance is not affected by weight changes caused by the use or collection of cleaning liquid.