阅读说明：本技术 便携式抽取器 (Portable drawing device ) 是由 道格拉斯·M·鲁卡维纳 多诺万·波德 胡安·阿维尔斯·金泰罗 于 2019-12-12 设计创作，主要内容包括：一种抽取清洁器,其包括供给箱、回收箱、泵、抽吸源、被设置为支撑抽吸源和泵的基座、外软管和软管附接组件。软管附接组件具有抽吸导管,其从与软管的近端连接的抽吸入口延伸至与回收箱流体连通的抽吸出口。该抽吸导管可与软管一起从基座移除。该软管附接组件还具有流体耦合,其可与抽吸导管一起移除。该流体耦合从与泵流体连通的耦合入口延伸至与供应管连接的耦合出口,该供应管具有一个或多个携带在抽吸导管内的部分。当抽吸导管与基座连接时,软管的近端至少部分地嵌入基座附近。(A extractor cleaner includes a supply tank, a recovery tank, a pump, a suction source, a base configured to support the suction source and the pump, an outer hose, and a hose attachment assembly. The hose attachment assembly has a suction conduit extending from a suction inlet connected to the proximal end of the hose to a suction outlet in fluid communication with the recovery tank. The suction duct is removable from the base with the hose. The hose attachment assembly also has a fluid coupling that is removable with the suction catheter. The fluid coupling extends from a coupling inlet in fluid communication with the pump to a coupling outlet connected to a supply tube having one or more portions carried within the aspiration conduit. When the suction catheter is connected to the base, the proximal end of the hose is at least partially embedded near the base.)

1. An extractor cleaning device comprising:

a supply tank for holding a cleaning liquid;

a recovery tank for receiving and storing the recovered liquid and contaminants;

a pump in fluid communication with the supply tank and operable to supply cleaning liquid from the supply tank;

a suction source in fluid communication with the recovery tank and operable to draw the recovered liquid and contaminants into the recovery tank;

a base configured to support the suction source and the pump;

an outer hose for conveying the recovered liquid and dirt to the extractor cleaner, the outer hose extending from a proximal end of the outer hose to a distal end of the outer hose; and

hose attachment assembly comprising

A suction duct removably connected to the base, the suction duct extending from a suction inlet connected to the proximal end of the outer hose to a suction outlet in fluid communication with the recovery tank, the suction duct being arranged to be removable from the base with the outer hose; and

a fluid coupling configured to be removable with the aspiration conduit, the fluid coupling extending from a coupling inlet in fluid communication with the pump to a coupling outlet connected to a supply tube, the supply tube having one or more portions carried within the aspiration conduit,

wherein the proximal end of the outer hose is at least partially embedded near the base when the suction catheter is connected with the base.

2. The extractor cleaner of claim 1, wherein the base has an upper end and a lower end opposite the upper end, the base being supported by the lower end to the surface, wherein the suction conduit and fluid coupling are removable from the lower end.

3. The extractor cleaner of claim 2 wherein the lower end forms a floor by which the base is supported to the surface, wherein the suction conduit and fluid coupling are removable from the base through the floor.

4. The extractor cleaner of claim 1 wherein the suction conduit and the fluid coupling are mounted on a cover member that is removably connected to the base of the extractor cleaner.

5. The extractor cleaner of claim 4, further comprising a latching mechanism configured to selectively secure the cover member to the base of the extractor cleaner and release the cover member from the base of the extractor cleaner.

6. The extractor cleaner of claim 1, wherein the suction inlet defines an inlet longitudinal axis, and the suction outlet extends in a direction transverse to the inlet longitudinal axis.

7. The extractor cleaner of claim 1 wherein the suction inlet defines an inlet longitudinal axis, the suction outlet extends in a direction perpendicular to the inlet axis, and the suction conduit is removable from the base in the direction of the suction outlet perpendicular to the plane of the base.

8. The extractor cleaner of claim 1, wherein the fluid coupling is a quick-disconnect fluid coupling.

9. The extractor cleaner of claim 1 wherein the suction inlet defines an inlet longitudinal axis extending parallel to a plane of the base and the suction outlet defines an outlet longitudinal axis extending perpendicular to the plane of the base when the suction conduit is coupled to the base.

10. The extractor cleaner of claim 9 wherein the fluid coupling is oriented perpendicular to the plane of the base when the suction conduit is connected to the base.

11. The extractor cleaner of claim 1, wherein the fluid coupling is positioned proximate the suction outlet and a longitudinal axis of the fluid coupling is parallel to a longitudinal axis of the suction outlet.

12. The extractor cleaner of claim 1 wherein the suction duct includes a tubular member having at least two elbows disposed in non-parallel planes opposite one another.

13. The extractor cleaner of claim 1, wherein the suction duct includes an elbow that exits a side of the base and extends to the suction inlet outside the base when the suction duct is connected to the base.

14. The extractor cleaner of claim 13 wherein a longitudinal axis of the suction inlet extends parallel to a plane of the base of the extractor cleaner.

15. The extractor cleaner of claim 14, wherein the suction outlet is connected to a recovery tank conduit along a second longitudinal axis, the suction outlet and the recovery tank conduit together forming a channel, wherein the channel is a tubular member having at least two elbows.

16. The extractor cleaner of claim 15, wherein the tubular member has a cross-sectional dimension, wherein a longitudinal axis of the suction inlet is spaced from the second longitudinal axis by a distance that is between 0.8 and 3 times the cross-sectional dimension.

17. The extractor cleaner of claim 1, wherein the supply tube carried within the suction conduit passes through a wall of the suction conduit to connect to the fluid coupling.

18. A hose attachment assembly for a cleaner, the hose attachment assembly comprising:

a hose;

a suction duct configured to be removably connected to the cleaner, the suction duct extending from a suction inlet connected to the hose to a suction outlet configured to be in fluid communication with the cleaner; and

a fluid coupling configured to be removable with the suction catheter, the fluid coupling extending from a coupling inlet configured to be in fluid communication with the cleaner to a coupling outlet connected to a supply tube, the supply tube having one or more portions carried within the suction catheter,

wherein the suction inlet defines an inlet longitudinal axis, an

Wherein the suction outlet extends in a direction transverse to the longitudinal axis of the inlet.

19. The hose attachment assembly of claim 18 wherein the fluid coupling is a quick-disconnect fluid coupling.

20. The extractor cleaner of claim 18 wherein the suction conduit and the fluid coupling are mounted on a cover member configured to be removably connected to the extractor cleaner.

21. The hose attachment assembly of claim 20, further comprising a latching mechanism configured to selectively secure and release the cover member to and from the extractor cleaning device.

22. The hose attachment assembly of claim 20 wherein the inlet longitudinal axis extends parallel to a plane of the cover member, the suction outlet defining an outlet longitudinal axis extending perpendicular to the plane of the cover member.

23. The hose attachment assembly of claim 22 wherein the fluid coupling is oriented perpendicular to the plane of the cover member.

24. The hose attachment assembly of claim 18 wherein the suction conduit comprises a tubular member having at least two elbows that are placed on non-parallel planes opposite each other.

25. The hose attachment assembly of claim 18 wherein the supply tube carried within the suction conduit passes through a wall of the suction conduit to connect to the fluid coupling.

Background

The present invention relates to a cleaning apparatus, and more particularly, to a portable removable cleaning apparatus.

Extractor cleaners, such as upright extractors or canister extractors, typically dispense cleaning liquid from a supply tank onto a surface (e.g., carpet, upholstery, or a hard floor) to clean the surface. The extractor cleaner then draws the cleaning solution and dirt from the surface into the recovery tank, leaving the surface relatively clean. Water may also be delivered from the supply tank to the surface to rinse the surface before and/or after the cleaning liquid is applied.

Disclosure of Invention

In some embodiments, the present invention relates to a suction cleaner. The extractor cleaning device includes a supply tank for holding cleaning liquid, a recovery tank for receiving and storing recovered liquid and dirt, a pump in fluid communication with the supply tank and operable to supply the cleaning liquid from the supply tank, a suction source in fluid communication with the recovery tank and operable to draw the recovered liquid and dirt into the recovery tank, a base configured to support the suction source and the pump, an outer hose for conveying the recovered liquid and dirt to the extractor cleaning device, the outer hose extending from a proximal end of the outer hose to a distal end of the outer hose, and a hose attachment assembly. The hose attachment assembly has a suction conduit extending from a suction inlet connected to the proximal end of the outer hose to a suction outlet in fluid communication with the recovery tank. The suction duct is removably connected to the base and is configured to be removable from the base with the outer hose. The hose attachment assembly also has a fluid coupling configured to be removable with the suction catheter. The fluid coupling extends from a coupling inlet in fluid communication with the pump to a coupling outlet connected to a supply tube having one or more portions carried within the aspiration conduit. The proximal end of the outer hose is at least partially embedded near the base when the suction catheter is connected to the base.

In some embodiments, the present invention relates to a hose attachment assembly for a cleaner. The hose attachment assembly includes a hose, a suction conduit, and a fluid coupling. The suction duct is configured to be removably connected to the cleaner, the suction duct extending from a suction inlet connected to the hose to a suction outlet configured to be in fluid communication with the cleaner. The fluid coupling is arranged to be removable with the suction duct, the fluid coupling extending from a coupling inlet arranged in fluid communication with the cleaner to a coupling outlet connected to the supply duct. The supply tube has one or more portions carried within the aspiration conduit. The suction inlet defines an inlet longitudinal axis and the suction outlet extends in a direction transverse to the inlet longitudinal axis.

Other features and advantages of the invention will become apparent from the following description and the appended claims, taken in conjunction with the accompanying drawings.

Drawings

FIG. 1 is a perspective view of a portable extractor cleaner according to an embodiment of the present invention;

FIG. 2 is a front view of the portable extractor cleaner of FIG. 1;

FIG. 3 is a right side view of the portable extractor cleaner of FIG. 1;

FIG. 4 is a left side view of the portable extractor cleaner of FIG. 1;

FIG. 5 is a top view of the portable extractor cleaner of FIG. 1;

FIG. 6 is a rear view of the portable extractor cleaner of FIG. 1;

FIG. 7 is a partially exploded perspective view of the portable extractor cleaner of FIG. 1;

FIG. 8 is a perspective view of the base, suction source and pump assembly of the portable extractor cleaner of FIG. 1;

FIG. 9 is a partially exploded perspective view of the base, suction source and pump assembly of the portable extractor cleaner of FIG. 1;

FIG. 10 is yet another perspective view of the portable extractor cleaner of FIG. 1;

FIG. 11 is a partially exploded perspective view of the base of the portable extractor cleaner of FIG. 1;

FIG. 12 is a perspective view of the main housing of the portable extractor cleaner of FIG. 1;

FIG. 13 is yet another perspective view of the main housing of the portable extractor cleaner of FIG. 1;

FIG. 14 is a perspective view of a recovery tank of the portable extractor cleaner of FIG. 1;

FIG. 15 is a further perspective view of the recovery tank of the portable extractor cleaner of FIG. 1;

FIG. 16 is a further perspective view of the recovery tank of the portable extractor cleaner of FIG. 1;

FIG. 17 is a partially exploded view of the supply tank of the portable extractor cleaner of FIG. 1;

FIG. 18 is a bottom perspective view of a extractor cleaner including a removable hose attachment assembly in accordance with another embodiment of the present invention;

FIG. 19 is a bottom perspective view of the extractor cleaner of FIG. 18 without the removable hose attachment assembly;

FIG. 20 is a top perspective view of the removable hose attachment assembly of the extractor cleaner of FIG. 18;

FIG. 21 is a partially exploded perspective view of the base, suction source and pump assembly of the portable extractor cleaner of FIG. 18;

FIG. 22 is a top perspective view of a removable hose attachment assembly according to another embodiment of the present invention;

FIG. 23 is a right side elevational view of the removable hose attachment assembly of FIG. 22;

FIG. 24 is a top view of the removable hose attachment assembly of FIG. 22.

Detailed Description

Before any embodiments are explained in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangements of components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments and of being practiced or of being carried out in various ways. It should be understood that the description herein of specific embodiments is not intended to limit the invention to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting.

In this context, the terms "horizontal" or "horizontally" are not limited to a direction or plane that is substantially or approximately parallel to a floor or other support surface on which the portable extractor is located, but more generally refer to a direction that is at a more oblique orientation relative to an upright orientation. Similarly, the terms "vertical" or "vertically" are not limited to a direction or plane that is substantially or approximately perpendicular to a floor or other support surface on which the portable extractor is located, but more generally refer to a direction that is in a more upright orientation relative to an inclined orientation. The terms "top", "bottom", "upper" and "lower" refer to relative positions in the vertical direction. The terms "front" and "rear" refer to relative positions along the longitudinal axis of the portable extractor in a horizontal direction. The term "cleaning solution" refers to water, a cleaning agent, a disinfectant or a mixture of water and a cleaning/disinfectant used for sweeping and rinsing.

Reference is now made to the drawings. Fig. 1-7 illustrate one embodiment of a portable extractor cleaner or extractor 100 having a front side 110, a rear side 112 opposite the front side 110, two opposing sides 114 and 116 disposed between the front side 110 and the rear side 112, and a top 118, wherein a horizontal longitudinal axis 105 is defined from the front side 110 to the rear side 112. The portable extractor 100 is a canister-type extractor that is structurally easy to carry and manipulate by a user to clean a surface. The portable extractor 100 may be adapted to clean a variety of surfaces, such as carpet, cloth furniture, hardwood floors, tile, and the like. The illustrated portable extractor 100 dispenses or sprays cleaning liquid onto a surface to be cleaned and then draws the recovered liquid and dirt from the surface through a cleaning tool (described below).

The portable extractor 100 includes a base 102 and a main housing 104 mounted on the base 102. A supply tank 106 for dispensing cleaning liquid to be dispensed onto the surface to be cleaned and a recovery tank 108 for receiving and storing recovery liquid and dirt drawn from the surface being cleaned are removably supported by the main housing 104. A recovery bin 108 is disposed at a front side 110 of the portable extractor 100. In the illustrated embodiment, the recovery tank 108 has portions that at least partially define the front side 110 and the top 118 of the portable extractor 100. More specifically, the recovery tank 108 includes a lid 212 that at least partially defines the top 118 of the portable extractor. In addition, the supply bin 106 is disposed rearward of the recovery bin 108 at the first side 114 of the portable extractor 100. In the illustrated embodiment, the supply box 106 has a portion that at least partially defines at least one of the top 118 and the first side 114. The portable extractor 100 also includes a battery pack 180 disposed spaced rearward of the supply box 106 and supported by the main housing 104 at the rear side 112 of the extractor opposite the front side 110.

In one embodiment, the main housing 104 is configured to removably support the recovery tank 108 in an upward orientation, wherein the tank lid 212 at least partially defines the top 118 of the portable extractor 100. The top of the lid 212 has a box latch 220, and the box latch 220 selectively secures and releases the lid 212 and the main housing 104 when the recovery tank 108 is supported by the main housing 104.

The cleaning tool 120 is fluidly connected to the recovery tank 108 via a flexible hose 122 for conveying recovery liquid and dirt drawn from the surface by the cleaning tool 120 to the recovery tank 108. The cleaning tool 120 and the supply tank 106 are also in fluid connection, e.g., the cleaning tool 120 communicates with the supply tank 106 via a conduit carried in a flexible hose 122 to distribute cleaning solution over the surface to be cleaned. The cleaning tool 120 is removably coupled to the main housing 104 at a second side 116 of the portable extractor 100 opposite the first side 114.

As shown in fig. 8-11, the base 102 may include a lower base 124 connected to an upper base 126. The lower base 124 and the upper base 126 may be separate components or may be releasably or permanently attached together using fasteners (e.g., screws, bolts, etc.), tabs (tabs), or hooks. Alternatively, the upper base 126 may be integrally formed with the lower base 124, or the upper base 126 and the lower base 124 may be integrally formed together. The lower base 124 has a flat bottom surface to support the portable extractor 100 on a floor or other generally flat support surface. The lower base 124 includes one or more peripheral flanges or projections 128 formed at least partially along the periphery of the lower base 124 near the bottom end of the base 102. The peripheral flange 128 extends upwardly and outwardly beyond the periphery of the upper base 126 for supporting one or more portions of the flexible tubing 122 when the flexible tubing 122 is wound onto the base 102 for storage. The peripheral flange 128 may define one or more access notches 129 therebetween to facilitate gripping and manipulation of the flexible hose 122.

In the illustrated embodiment, a pair of peripheral flanges 128 are provided at opposite front and rear ends, respectively, of the lower base 124. The illustrated peripheral flange 128 defines a pair of access notches 129 therebetween that are located on opposite sides of the lower base 124. Preferably, the sides of the access recess 129 are chamfered to prevent catching or snagging of the flexible hose 122 when the flexible hose 122 is removed from its storage position. In some embodiments, such as shown in fig. 8, the angle θ of the bevel on the side of the entry notch 129 may be greater than about 20 degrees, and more preferably may be in the range of about 35 degrees to about 55 degrees, and still more preferably may be about 50 degrees.

The upper base 126 is configured to support or carry thereon a suction source 130 and a pump assembly 132. The suction source 130 is in fluid communication with the recovery tank 108 and is operable to draw the recovered liquid and dirt from the surface being cleaned through the suction nozzle of the cleaning tool 120 and into the recovery tank 108 through the flexible hose 122. For example, the suction source 130 may include a motor and fan assembly 134, the motor and fan assembly 134 including a suction motor that rotates a fan or impeller to generate a suction airflow. In the illustrated embodiment, the suction source 130 is mounted on top of the upper base 126 near the rear end of the upper base 126 and the midpoint of the width of the upper base 126. The motor and fan assembly 134 may be vertically or vertically oriented such that the suction motor and its impeller are vertically aligned and rotate about a common vertical axis. With this arrangement, a portion of the motor and fan assembly 134 is received in a seat 140 integrally formed in the top of the upper base 126. The shape and size of the base 140 generally matches the shape and size of the portion of the motor and fan assembly 134 received therein. Additionally, a suction source housing 142 is above the motor and fan assembly 134 and is secured to the upper base 126. The suction source housing 142 is configured to cooperate with the upper base 126 to sandwich and securely retain the motor and fan assembly 134 therebetween.

The motor and fan assembly 134 is fluidly connected to the recovery tank 108 via a working air conduit having an intake port 136. The suction port 136 is disposed near the front end of the upper base 126 and extends upward from the upper base 126. The upper base 126 is generally perpendicular to the distal open end 138 to provide fluid coupling with the recovery tank 108 as further described below. The suction port 136 may be integrally formed with the upper base 126 or may be formed separately from the upper base 126. A proximal end of the suction inlet 136 opposite the distal open end 138 extends through the upper base 126 and is in fluid communication with the motor and fan assembly 134. For example, one or more passageways may be formed by partitions or passages defined between the upper and lower pedestals 126, 124 for conveying working air from the recovery tank 108 to the motor and fan assembly 134 through the intake opening 136 and exiting therefrom as exhaust air. In some embodiments, baffles 143 (fig. 9) may be mounted on shelves located at the rear end of the upper base 126 to direct air downwardly through slots formed in the shelves and/or rearwardly out of the motor and fan assembly 134 through the plenum 176 of the housing 160, as will be described further below.

The pump assembly 132 is in fluid communication with the supply tank 106 and the cleaning tool 120. The pump assembly 132 is operable to draw cleaning solution from the supply tank 106 and supply or deliver the cleaning solution to the cleaning tool 120 where it is dispensed onto the surface to be cleaned by the dispensing nozzle of the cleaning tool 120. The pump assembly 132 may include a pump 144 (which may be, for example, a DC pump or other suitable pump) and tubing or other conduits that fluidly communicate the pump 144 with the supply tank 106 and the cleaning tool 120. In the illustrated embodiment, the pump 144 is mounted on top of the suction source housing 142 above the motor and fan assembly 134. In the illustrated embodiment, the pump 144 is arranged horizontally with its longitudinal pump axis transverse to the front-to-back longitudinal axis 105 of the portable drawer 100. A pump cap 146 may be secured to the suction source housing 142 above the pump 144 to secure the pump 144 between the pump cap 146 and the suction source housing 142. In other embodiments, the suction source 130 and pump assembly 132 may be located elsewhere in the main housing 104.

The pump 144 of the pump assembly 132 is fluidly connected to the cleaning tool 120 by a conduit 148, the conduit 148 having one or more portions contained or carried within or adjacent the flexible hose 122 to deliver cleaning solution to the surface to be cleaned.

In addition, as shown particularly in fig. 10-11, there is a hose connector 150 to fluidly connect the flexible hose 122 to the recovery tank 108 to direct the recovered liquid and dirt into the recovery tank 108. The hose connector 150 includes an aspiration conduit 151 connected between a tubular distal portion 152 and an elbow-shaped proximal portion 154. The suction duct 151 is secured between the upper base 126 and the lower base 124 and may be attached to the lower base 124 and/or the upper base 126 using fasteners (e.g., screws, bolts, etc.), tabs, or hooks. In one embodiment, the suction duct 151 may be partially formed by the lower base 124. A tubular distal end 152 of the hose connector 150 extends upwardly from the upper base 126 through a hose connector opening 156 formed through the upper base adjacent the suction inlet 136. The tubular distal portion 152 is vertically oriented and terminates at a distal open end 150a of the hose connector 150. Elbow-shaped proximal end 154 of hose connector 150 exits the side of upper base 126 and extends to proximal open end 150b of hose connector 150 outside upper base 126. The proximal open end 150b of the hose connector 150 defines a horizontal longitudinal axis that is generally along or parallel to the front-to-back longitudinal axis 105 of the portable extractor 100. The hose connector 150 may be connected at its proximal open end 150b to the flexible hose 122 by a tubular hose cover 158. With this arrangement, the flexible hose 122 exits the hose cover 158 tangentially to the side of the upper base 126 in a generally horizontal direction to facilitate wrapping the hose around the lower base 124 on the peripheral flange 128 of the lower base and to minimize tension or kinking in the flexible hose 122.

As shown in fig. 1-10, the main housing 104 cooperates with the upper base 126 to cover, enclose, or otherwise house the suction source 130 and the pump assembly 132, and may be attached to the upper base 126 in a coupled relationship using fasteners (e.g., screws, bolts, etc.), tabs, or hooks. The main housing 104 includes a housing 160, and as described below, the housing 160 supports the supply tank 106 and the recovery tank 108 in an upright or vertical orientation.

Referring to fig. 12-13, in the illustrated embodiment, the housing 160 includes a front portion 162 having an inverted L-shaped profile. In particular, front portion 162 includes a forward facing vertical surface 164 and an upwardly facing horizontal platform 166 connected to vertical surface 164 at a lower end of front portion 162. The platform 166 includes a bin receiving portion 168. in one embodiment, the bin receiving portion 168 is generally shaped and dimensioned to match the shape and dimension of the bottom end of the recovery bin 108 to removably receive and support the recovery bin 108 in a vertical orientation. When the recovery tank 108 is mounted on the platform 166, portions of the recovery tank 108 at least partially define the front side 110 and the top 118 of the portable extractor 100, as described further below. Two holes 170, 172 are formed in the bin receiver 168 and extend through the platform 166. The first aperture 170 receives the distal open end 138 of the suction inlet 136 and provides fluid communication between the recovery tank 108 and the suction source 130. The second bore 172 receives the distal open end 150a of the hose connector 150 to provide fluid communication between the flexible hose 122 and the recovery tank 108.

The housing 160 also includes a rear portion 174 disposed opposite the front portion 162. The rear portion 174 defines one or more vents 176 for venting cooling air entering and exiting the suction source 130 and the battery cavity 178. In the illustrated embodiment, a plurality of slit-shaped ventilation portions 176 are symmetrically formed on both sides near the lower end of the rear portion 174. Alternatively, the plenum 176 may have any shape or location relative to the housing 160 suitable for discharging the cooling air entering and exiting the suction source 130.

A battery chamber 178 is provided at the rear side 112 of the portable extractor 100 opposite the front side 110 that removably receives and supports a battery pack 180. The battery pack 180 may include one or more battery cells for powering the portable extractor 100, the operation including the suction source 130 and the pump assembly 132. For example, the battery pack 180 may be a rechargeable battery pack 180 having one or more lithium-based batteries. In the illustrated embodiment, a battery chamber 178 is formed at the upper end of the rear portion 174 of the housing 160 and defines a longitudinal battery insertion axis that extends in a vertical direction. Thus, the battery pack 180 may be inserted into the battery cavity 178 along a vertical battery insertion axis. In particular, the battery chamber 178 is open at a top end thereof to removably receive and support the battery pack 180 in a vertical or upright orientation. The battery cavity 178 may include coupling structures to releasably engage complementary structures on the battery package 180 when the battery package 180 is inserted into the battery cavity 178. When the battery pack 180 is mounted to the battery chamber 178, the battery pack 180 makes electrically conductive connections with corresponding contacts in the battery chamber 178, which are electrically connected to the suction source 130 and the pump assembly 132.

Referring to fig. 3-5 and 7, the main housing 104 includes a battery cover 182 to selectively cover and expose the battery pack 180. In the illustrated embodiment, the battery cover 182 closes the battery pack 180 in the closed position in the upright direction. The lower end of the battery cover 182 is pivotally connected to the housing 160 by a hinge that allows the battery cover 182 to be rotated back and down to an open position to expose the battery pack 180. In the illustrated embodiment, the upper end of the battery cover 182 is substantially flush with the top of the housing 160 when the battery cover 182 is in its upright, closed position. The above-described arrangement of the battery compartment 178 and the battery pack 180 is compact, and the battery cover 182 can be opened and the battery pack 180 slid out of the battery compartment 178 using a single hand, thereby facilitating access and removal of the battery pack 180.

Referring again to fig. 12-13, the housing 160 also includes an intermediate portion 186 connected between the front portion 162 and the rear portion 174. A recessed supply tank cavity 184 is formed in the middle portion 186 along the upper edge of the housing 160 and opens to the top and sides of the housing 160. The recessed supply box cavity 184 defines a longitudinal supply box insertion axis extending in a generally vertical direction and a top end thereof forms an insertion opening for inserting the supply box 106. The supply box 106 may be inserted into the recessed supply box cavity 184 along a vertical supply box insertion axis. With this arrangement, the recessed supply box cavity 184 removably receives and supports the supply box 106 in a vertical or upright orientation. When the supply bin 106 is mounted in the recessed supply bin cavity 184, the supply bin 106 is spaced rearward of the recovery bin 108 and portions of the supply bin 106, as described further below, at least partially define the top 118 and the first side 114 of the portable extractor 100.

A handle 188 is attached to the top of the housing 160 for carrying the portable extractor 100. The illustrated handle 188 has an elongated shape and extends in a longitudinal direction of the housing 160. More specifically, the horizontal longitudinal axis 188 of the handle extends between the recovery tank 108 and the battery pack 180 generally along or parallel to the front-to-rear longitudinal axis 105 of the portable extractor 100. The handle 188 may be integrally formed as a single piece with the housing 160 or may be formed separately from the housing 160. In the illustrated embodiment, a first end of the handle 188 is connected to the top of the housing 160. In the illustrated embodiment, the main housing 104 includes a support member 190, and a second end of the handle 188, opposite the first end, is connected to a top of the support member 190. Alternatively, the handle 188 extends in a direction transverse to the housing 160. In particular, the horizontal longitudinal axis of the handle 188 may extend transverse to the longitudinal axis 105 of the portable extractor 100.

In the illustrated embodiment, the support members 190 are connected to the vertical face 164 of the front 162 of the housing 160 at an upper end of the front 162 and project forwardly above the platform 166 and may be located above the recovery tank 108. The support member 190 may be substantially flush with the top of the housing 160. In one alternative, the support member 190 has a display or other user interface thereon to allow for an operator. One or more portions of the support member 190 may be integrally formed with the housing 160 as a single component, or may be formed separately from the rest of the housing 160. In other embodiments, the handle 188 may have any shape or orientation relative to the housing 160 and the support member 190, and may be connected to other portions of the housing 160.

In addition, as shown in fig. 4 and 5, a tool holder 192, which releasably holds an elongated handle 194 of the cleaning tool 120, is coupled to the housing 160. The tool holder 192 is fixed or rotatable or otherwise adjustable to orient the cleaning tool 120 in different directions. In the illustrated embodiment, the tool holder 192 includes at least one C-shaped support clip having an opening that releasably retains an elongated handle 194 of the cleaning tool 120. As shown in fig. 4 and 5, the opening of the C-shaped support clip may face sideways. Alternatively, the opening of the C-shaped support clip may face upward. The tool holder 192 is attached on a side of the housing 160 proximate the bottom end of the housing 160 such that the opening of the C-shaped support clip defines a longitudinal axis that is oriented in a generally horizontal direction or parallel to the front-to-back longitudinal axis 105 of the portable extractor 100. Thus, the elongated handle 194 of the cleaning tool 120 is held horizontally and tangentially to the side of the housing 160 by the tool holder 192. This arrangement relieves tension on the end of the flexible hose 122 connected to the elongate handle 194 of the cleaning tool 120 when the hose is wrapped around the upper base 126 and provides a compact configuration for convenient storage of the portable extractor 100. Alternatively, the tool holder 192 may include a magnetic assembly including a magnet attached to one of the housing 160 or the elongated handle 194 of the cleaning tool 120 and a ferromagnetic plate attached to the other such that the ferromagnetic plate attracts the magnet to releasably retain the cleaning tool 120 to the side of the housing 160.

As shown in fig. 14-16, the recovery tank 108 includes a container 200, the container 200 defining an interior volume for receiving and storing recovery liquid and dirt drawn from the surface being cleaned by the suction airflow generated by the suction source 130. The container 200 may be at least partially translucent or transparent so that a user can easily observe the amount of cleaning liquid and dirt drawn from the surface being cleaned. The illustrated container 200 includes a front wall 202 and a rear wall 204 connected by a pair of opposing side walls 206 and 208. The front wall 202, rear wall 204, side walls 206 and 208 are integrally formed with a bottom wall 210 at the closed end of the container 200, the bottom wall 210 defining the bottom end of the recovery tank 108. A cover 212 for covering the container 200 is disposed at an open end of the container 200 opposite the closed end. A tank lid 212 may be removably attached to the open end of the container 200 to provide access from the interior space of the container 200 to empty and clean the container 200 once the recovery tank 108 is removed from the main housing 104. The lid 212 may have a lower portion or skirt that is received in the container 200 and may include a seal disposed around the edge of the lower portion to provide sealing engagement with the container 200. In this arrangement, the cover 212 may be axially inserted into and removed from the container 200. When the cover 212 is attached to the container 200, the cover 212 and the container 200 are secured against lateral movement relative to each other. In an alternative embodiment, the lid 212 may be hingedly connected to the container 200.

When the recovery tank 108 is mounted on the platform 166 with the rear wall 204 of the container 200 adjacent the vertical face 164 of the front 162, the front wall 202 of the container 200 defines at least a portion of the front side 110 of the portable extractor 100, the side walls 206 and 208 of the container 200 define at least a portion of the sides 114 and 116 of the portable extractor 100, and the lid 212 defines at least a portion of the top 118 of the portable extractor 100. As described below, the recovery tank 108, including the container 200 and the tank lid 212, may be removed from the main housing 104 as a single unit.

The rear top of the cover 212 defines a handle recessed area 218 that is open at its top and rear ends. The handle recessed area 218 receives the support member 190 therein when the recovery tank 108 is mounted on the platform 166. Preferably, the support member 190 is received in a clearance fit and the top of the lid 212 is substantially flush with the case. Additionally, the handle recessed area 218 and the support member 190 may cooperate with one another to provide an angled clearance area therebetween to facilitate removal of the recovery tank 108 from the main housing 104. In particular, the handle recessed area 218 may be provided with an interior bottom surface 218a, which may be generally flat or planar and oriented generally in a horizontal direction when the recovery tank 108 is mounted on the platform 166. The bottom surface 190a of the support member 190 is spaced above the handle recessed area 218 to provide clearance for the top rear end of the recovery tank 108 when the recovery tank 108 is tilted forward. The bottom surface 190a of the support member 190 may be inclined from the front end thereof to the rear end thereof. Accordingly, the bottom surface 190a of the support member 190 may be inclined rearwardly relative to the bottom surface 218a of the handle recessed area 218. This arrangement provides a clearance area for tilting the top rear end of the recovery tank 108 away from the main housing 104 when the recovery tank 108 is pivoted forwardly and downwardly about its front bottom end to a tilted working position. Once in the tilted, operative position, the recovery tank 108 can be conveniently lifted from the tank receiving portion 168 and removed from the main housing 104.

The tank lid 212 also includes a tank latch 220, the tank latch 220 being manually operable to selectively secure and release the recovery tank 108 to the main housing 104. In the illustrated embodiment, the case latch 220 is disposed at the front top of the case lid 212 forward of the handle recessed area 218. The box latch 220 may be a spring loaded button type lock having a latch actuator 220a for operating a pawl or other suitable lock to engage and disengage a latch engagement member 220b connected to the main housing 104. For example, the latch engagement member 220b may be an aperture or latch, such as a flange or tab, formed at the front end of the support member 190 or at the second end of the handle 188. In one embodiment, the box latch forms the only connection between the box cover 212 and the main housing 104.

With this arrangement, the bin latches 220 secure the bin cover 212 to the support member 190 when the recovery bin 108 is mounted on the platform 166. At the same time, the container 200 is securely held between the cover 212 and the platform 166 of the housing 160. Thus, the recovery tank 108 may be secured to the main housing 104 between the support members 190 at the top end of the recovery tank 108 and the platform 166 at the bottom end of the platform 166. Additionally, when the portable extractor 100 is lifted with a single hand grasping the handle 188, the bin latch 220 on the bin cover 212 is positioned proximate the handle 188 so that the user can release the recovery bin 108 by pressing on the bin latch 220 with the thumb of the hand lifting the portable extractor. Meanwhile, the user can take out the recovery tank 108 as a whole by grasping a recovery tank handle 222 (described below) located below the tank latch 220 with the other hand, and the recovery tank 108 includes the container 200 and the tank cover 212 installed separately from each other. In the illustrated embodiment, when the recovery tank 108 is released from the main housing 104, the tank latch 220 does not secure the tank lid 212 to the container 200. In one embodiment, the recovery bin is a collection bin with a lid, for example for a dry vacuum cleaner or other wet or dry cleaner, wherein the lid defines at least a portion of the top of the portable extractor and a latch connects the lid to the main body of the cleaner as described herein.

Preferably, a recovery tank handle 222 is provided on the front surface of the front wall 202 of the container 200 to facilitate removal and picking up of the recovery tank 108. The recovery tank handle 222 may be integrally formed with the container 200 or may be a separate component from the container 200. In the illustrated embodiment, the recovery tank handle 222 may be a tab or other protrusion integrally formed with the container 200 to define an aperture or opening to facilitate removal of the recovery tank 108 from the main housing 104 by insertion of a user's fingers. More preferably, the recovery tank handle 222 is positioned on the front wall 202 of the container 200 below the tank latch 220 and proximate to the tank latch 220 so that a user can remove the recovery tank 108 by one-handed sliding a finger into a finger hole defined by the recovery tank handle 222 and depressing the tank latch 220 with the thumb. In other embodiments, the recovery tank handle 222 may be formed separately from the container 200, or connected to another portion of the container 200.

The bottom wall 210 of the container 200 defines an air outlet 214 through which the working air is drawn from the recovery tank 108 and a recovery inlet 216 through which the recovered liquid and dirt enters the recovery tank 108 via the recovery inlet 216. The air outlet 214 and the recovery inlet 216 may be in the form of pipes extending upwardly from respective openings in the bottom wall 210 into the recovery tank 108. When the recovery tank 108 is mounted on the platform 166, the distal open end 138 of the suction inlet 136 is in sealing engagement with the air outlet 214 of the container 200, thereby ensuring fluid communication between the recovery tank 108 and the suction source 130, and the distal open end 150a of the hose connector 150 is in sealing engagement with the recovery inlet 216, thereby ensuring fluid communication between the hose 122 and the recovery tank 108. For example, a seal may be disposed around the distal open end 138 of the suction port 136 and the distal open end 150a of the hose connector 150 to seal the bottom wall 210 of the container 200.

As shown in FIG. 17, the supply box 106 includes a top wall 224, a bottom wall 226, and side walls 228 connecting the top and bottom walls 224, 226. Alternatively, supply tank 106 may be at least partially translucent or transparent, and a user may conveniently view the remaining amount of cleaning solution remaining in supply tank 106. The supply box 106 may be shaped to form one or more handle areas to facilitate removal and handling of the supply box 106 from the housing 160, such as by grasping the supply box 106 using protrusions and/or recesses. When the supply box 106 is installed in the recessed supply box cavity 184, the bottom wall 226 of the supply box 106 is supported on the interior bottom of the recessed supply box cavity 184, the outwardly facing portions of the side walls 228 define at least a portion of the sides 106 of the portable extractor 100, and the top wall 224 of the supply box 106 defines at least a portion of the top 118 of the portable extractor 100.

The supply tank 106 includes a lid 234 that closes the neck 230 for filling the supply tank. Referring to the illustrated embodiment, a neck 230 may extend from the bottom wall 226 to form a drain for the supply tank 106. Lid 234 may include a release valve 232 to control the flow of cleaning liquid from supply tank 106. Relief valve 232 may have a normally closed configuration to prevent cleaning solution from flowing out of supply tank 106 when supply tank 106 is removed from recessed supply tank cavity 184. For example, the release valve 232 may be a poppet valve that closes the valve when the supply tank 106 is removed from the portable extractor 100. In the illustrated embodiment, when the supply tank 106 is installed in the recessed supply tank cavity 184, a portion of the release valve 232 is coupleably received in a seat 236 formed in a bottom surface of the recessed supply tank cavity 184. The valve seat 236 may be configured to form a sealed connection with the release valve 232 and to form a sealed storage area that is filled with cleaning liquid or cleaning water flowing through the neck 230 when the release valve 232 is opened. For example, a valve release pin extends axially upward through the tube seat 236 and aligns with the release valve 232. When the supply tank 106 is installed in the recessed supply tank cavity 184, a valve release pin (shown in FIG. 12) in the valve seat 236 presses the release valve 232 to an open position. A supply tube from the tube holder 236 may deliver cleaning solution from the supply tank 106 to the tube holder 236 and to the pump assembly 132.

Referring to fig. 18-24, one embodiment of a portable extractor cleaner or extractor 100' is shown. In addition to the structures and features described above and illustrated in fig. 1-21 which are incompatible with the embodiment of fig. 18-24, reference is made herein to the embodiment of fig. 1-17 described above to more fully describe the features and elements (and possible alternatives) of the embodiment of fig. 18-24, like elements being identified by like reference numerals. For example, the portable extractor 100 ' includes a base 102 ' and a main housing 104 '. The main housing 104 'is mounted on the base 102' and removably supports the supply tank 106 'and the recovery tank 108'. The portable extractor 100 'also includes a suction source 130' in fluid communication with the recovery tank 108 ', a pump assembly 132' in fluid communication with the supply tank 106 ', and a cleaning tool 120'. The cleaning tool 120 ' is fluidly connected to the recovery tank 108 ' via an outer hose 122 '. In addition, as described below, the portable extractor 100' includes a removable hose attachment assembly 300.

With particular reference to fig. 20-24, a hose attachment assembly 300 is removably connected to the base 102 'and is configured to fluidly connect the outer hose 122' to the recovery tank 108 'to direct recovered liquid and dirt into the recovery tank 108'. The hose attachment assembly 300 includes a suction conduit 302 and a fluid coupling 304.

The suction duct 302 extends from a suction inlet 306 to a suction outlet 308, as described below. The suction catheter 302 may be removably connected to the base 102'. For example, the base 102 'may have an upper end 102 a' and a lower end 102b 'opposite the upper end 102 a', the base 102 'being supported on a surface by the lower end 102 b'. More specifically, when the base 102 'is on a surface, the lower end 102 b' includes a bottom side facing the support surface. With this arrangement, the suction duct 302 may be inserted into and removed from the seat 102 'from the lower end 102 b' through an inlet opening formed in the bottom side of the lower end 102b ', and may be removed below the seat 102' through the bottom side of the lower end 102b 'in a direction generally perpendicular to the bottom surface of the lower seat 124'. In the illustrated embodiment, at least a portion of the suction duct 302 is mounted on a cover 310, the cover 310 being adapted and shaped to fit into an inlet opening 320 formed in the lower base 124 'of the base 102'. The cover 310 may be removably attached to the upper base 126 'of the base 102' using fasteners (e.g., screws, bolts, etc.), tabs, or hooks. In some embodiments, the hose attachment assembly 300 may include a latching mechanism configured to selectively secure the cover 310 to the base 102 'and release the cover 310 from the base 102'. Optionally, hose attachment assembly 300 is not provided with cap 310.

In the illustrated embodiment, the suction duct 302 comprises a tubular member having a first elbow forming the suction inlet 306 and a second elbow forming the suction outlet 308, wherein the first and second elbows are positioned on non-parallel planes opposite one another. The suction outlet 308 extends upwardly from the upper base 126 ' through a hose connector opening 156 ' formed through the upper base 126 '. The hose connector opening 156 'may be proximate the suction inlet 136', the suction inlet 136 'being configured to provide a fluid coupling between the recovery tank 108' and the suction source 130 'of the portable extractor 100'. In some embodiments, the suction outlet 308 may be disposed in sealing engagement with the recovery inlet 216 'of the recovery tank 108'. In the illustrated embodiment, the hose connector opening 156 'is a hose connector port extending upwardly from the upper base 126' in a generally perpendicular direction that is configured to sealingly receive a portion of the suction outlet 308 therein and sealingly engage the recovery inlet 216 'of the recovery tank 108'. The hose connector port 156 ' may be integrally formed with the upper base 126 ' or may be formed separately from the upper base 126 '.

The suction outlet 308 is vertically oriented, defining an outlet longitudinal axis extending perpendicular to the bottom surface of the lower base 124'. The suction outlet 308 terminates at the distal open end 300a of the hose attachment assembly 300. In some embodiments, the tubular member of the aspiration conduit 302 may have one or more additional elbows connected between a first elbow forming the aspiration outlet 306 and a second elbow forming the aspiration outlet 308. In the illustrated embodiment, the suction outlet 308 may connect the recovery tank duct 309 along a longitudinal axis different from the longitudinal axis of the outlet, such that the suction outlet 308 and the recovery tank duct 309 together form a tubular channel of the suction duct 302 having at least two elbows.

The suction inlet 306 exits the side of the upper base 126 'and extends to the proximal open end 300b of the hose attachment assembly 300 outside of the upper base 126'. The suction inlet 306 defines a longitudinal axis that extends in a direction transverse to the outlet longitudinal axis of the suction outlet 308. In the illustrated embodiment, the suction inlet 306 defines a transverse, longitudinal axis that extends generally along or parallel to the front-to-back longitudinal axis 105 'of the portable extractor 100'. The suction inlet 306 may be connected to the hose 122 'at the proximal open end 300b via a tubular hose sheath 158'. The flexible hose 122 'extends from its proximal end 122 a' connected to the suction inlet 306 to its distal end 122b 'connected to the cleaning tool 120'. With this arrangement, the suction duct 302 communicates with the outer hose 122 ' such that the suction duct 302 can be removed from the base 102 ' with the outer hose 122 '. In addition, the flexible hose 122 'exits the hose cover 158' in a generally horizontal direction, tangential to the side of the upper base 126, to facilitate wrapping the hose around one or more portions of the base 102 ', particularly the peripheral flange 128' of the lower base 124 ', and to minimize tension or kinking in the flexible hose 122'. As shown in fig. 18, when the suction catheter 302 is coupled to the base 102 ', the proximal end 122 a' of the hose 122 'is at least partially embedded near the base 102'.

The fluid coupling 304 is configured to be removable from the base 102' with the suction catheter 302. For example, in the illustrated embodiment, the fluid coupling 304 is mounted on a cover 310 near the suction outlet 308. The fluid coupling 304 may be oriented such that its longitudinal axis is parallel to the longitudinal axis of the suction outlet 308. The fluid coupling 304 extends from a coupling inlet 312 to a coupling outlet 314, and may be, for example, a quick-disconnect fluid coupling. The coupling inlet 312 is in fluid communication with the pump 144 'of the pump assembly 132', and the coupling outlet 314 is connected to a supply tube 316, the supply tube 316 having one or more portions 318 carried within the aspiration conduit 302. In the illustrated embodiment, the supply tube 316 passes through a wall of the aspiration conduit 302 to connect to the coupling inlet 312 of the fluid coupling 304.