Method for capturing thread from an entraining air flow

Abstract

A system and method for capturing thread from an entraining air flow is provided, wherein the entraining airflow is selectively created in response to a location of the user relative to the device. The entraining airflow is sufficient to entrain an anticipated length of the thread, wherein the entraining airflow then passes through a grill. The grill shape, the airflow rate and the airflow velocity are selected to retain the entrained thread on the grill. The airflow is then terminated without requiring user intervention. Upon retention of a number of threads on the grill, the grill is separated from the housing and the retained threads are simultaneously disposed of in a desired container.

Claims

1. A method of retaining a length of thread, the method comprising: (a) initiating an airflow through a converging throat into a housing in response to locating a portion of a user within a given distance from a grill adjacent to the throat, at least a portion of the airflow passing through the grill; (b) at least partially entraining the length of thread in the airflow through the grill to engage the length of thread on the grill; and (c) terminating airflow through the converging throat.

2. The method of claim 1, further comprising initiating the airflow in response to one of the portion of the user and the length of thread being disposed within a given distance of the throat.

3. The method of claim 1, wherein terminating the airflow is in response to passage of a fixed amount of time from initiating the airflow.

4. The method of claim 1, further comprising removing the grill from the throat to remove the engaged length of thread.

5. The method of claim 1, further comprising removing the throat and the grill to remove the engaged length of thread.

6. The method of claim 1, wherein terminating the airflow is in response to the portion of the user leaving the given distance.

7. The method of claim 1, wherein terminating the airflow includes a proximity sensor initiating termination of the airflow in response to the portion of the user being outside the given distance.

8. The method of claim 1, wherein terminating the airflow is in response to a timer connected to at least one of a fan and a proximity sensor.

9. The method of claim 1, wherein the grill includes a plurality of bars configured to capture the length of thread entrained in the airflow.

10. The method of claim 1, wherein the housing has a removable wall selectively providing access to a fan independent of an inlet and an outlet of the housing.

11. The method of claim 1, wherein the housing is sized to retain a motor and a fan, the motor and the fan are sized to provide sufficient airflow through the throat to entrain the length of thread released within the given distance in the airflow.

12. The method of claim 1, wherein the housing includes an outlet and a cross-sectional area of the outlet is greater than a cross-sectional area of the throat.

13. The method of claim 1, further comprising disposing a power supply within the housing.

14. The method of claim 1, wherein the airflow through the inlet is sufficient to engage a length of thread between 0.5 to 8 of the grill.

15. The method of claim 1, wherein terminating the airflow is initiated by a controller operably connected to at least one of a fan and a proximity sensor.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING(S)

(1) FIG. 1 is a perspective view of the thread capturing device, with a portion of the device removed for illustration purposes; and

(2) FIG. 2 is an exploded perspective view of the thread capturing device.

(3) FIG. 3 is a perspective view of an alternative configuration of the device.

DETAILED DESCRIPTION OF THE INVENTION

(4) The thread capturing device 10 includes a housing 20 having an inlet 22 and an outlet 24; a fan assembly 40 and a removable grill 60.

(5) The housing 20 generally includes an enclosing body 30 such as having top 31, bottom 32, left 33, right 34, front 35 and back 36 walls. It is contemplated the top 31, bottom 32, left 33, right 34, front 35 and back 36 walls can be individually formed or as many as five of the walls can be integrally formed such as by casting or molding.

(6) One of the walls includes the inlet 22 and another wall includes the outlet 24. As seen in FIG. 1, the top wall 31 or lid includes the inlet 22 and the back wall 36 includes the outlet 24.

(7) In one configuration of the housing 20, as seen in FIG. 2, the side walls 33, 34 include opposing retaining channels 38 on an inside surface of the walls.

(8) The housing 20 can be formed from a variety of materials including metals, plastics, composites, or laminates. A representative size of the housing 20 is approximately 4 inches wide, approximately 8 inches long, and approximately 8 inches tall.

(9) The inlet 22 has an area of approximately 16 square inches and the outlet 24 has at least approximately 16 square inches.

(10) As seen in FIG. 2, the lid or top wall 31 can be removably attached to the remaining walls for accessing the interior of the housing 20 and the fan assembly 40.

(11) As seen in FIG. 2, the fan assembly 40 includes a plurality of blades 42, a motor 44 and an engaging collar 46, wherein peripheral edges of the engaging collar are sized to be received within the retaining channels 38 of the side walls 33, 34, thereby locating the fan assembly relative to the housing 20.

(12) The fan blades 42 are selected to provide a relatively high flow at a given rotation rate. Satisfactory fan blades 42 have been found to have a dimension of approximately 2.5 inches. The fan blades 42 can number from 2 to 5 or more.

(13) The motor 44 can be driven by an internal power source 48, such as a battery or plurality of batteries retained within the housing 20, or an external source by means of an electrical plug. A satisfactory motor 44 includes a dc motor of approximately 33 watts. However, as discussed below, the specific speed of the motor 44 is at least partly determined by the sizing of the housing 20 inlet and the configuration of the fan blades 42.

(14) In one configuration the fan assembly 40, the housing inlet 22 and housing outlet 24 are selected to provide an air flow of about between 3 and 8 ounces thrust.

(15) Referring to FIGS. 1 and 2, the thread capturing device 10 includes a throat 50 proximal to the inlet 22 of the housing 20, wherein the throat defines a converging section 52 extending from a wide end to a narrow end. The throat 50 can be fixedly or removably attached to the housing 20. In one configuration the throat 50 converges by between 10% and 70%. That is, the area of narrow end can be approximately 90% to 30% of the area of the wide end.

(16) The removable grill 60 is disposed within the throat 50. The grill 60 is removably located relative to the housing 20, such as by removably connecting the grill to the throat 50 which is affixed to the housing or affixing the grill relative to the throat, wherein the throat is removably attached to the housing. The grill 60 or throat 50 can be removably connected by gravity or a retaining mechanism such as magnets, detents, snap-fit, threads, or hook and loop fasteners. In FIG. 3, the grill 60 is located at or proximal to the bottom of the throat 50. Thus, the throat 50 and the grill 60 can be simultaneously removed, cleaned and replaced. However, it is also contemplated the grill 60 can be operably located nearer the inlet of the throat 50 such that the grill (and enmeshed threads) can be removed from the throat, the grill cleaned and replaced.

(17) The grill 60 includes at least one and more preferably, a plurality of slats or bars 62 extending across the area of the throat. The slats 62 are selected to engage the threads entrained in a passing airflow. Therefore, the slats 62 can have a cross section configured to enhance engagement with the threads. The slats 62 can also have a relatively abrupt edge or leading edge to assist in retention of threads. In one configuration, the grill 60 has a mesh size between approximately 15 mm to 200 mm, such that the threads accumulate on the grill.

(18) The grill 60 is operably retained within or connected to the throat 50 such that a portion of the grill and slats 62 occlude a portion of the inlet 22.

(19) The thread capturing device 10 can include a proximity sensor 70 known in the art, wherein the proximity sensor is configured to detect the presence of a user within a predetermined location of the housing 20, such as the inlet 22. The proximity sensor 70 can define a detecting region or volume, wherein the presence of a portion of the user within the zone is sensed and causes activation of the fan assembly 40. In one configuration, the proximity sensor 70 is selected to detect a user's hand within approximately 6 inches of the inlet. That is, the detecting region has a six inch dimension. Depending on the proximity sensor 70, the zone sensed by the proximity sensor can be substantially spherical or having generally planar edges. The proximity sensor 70 is operably connected to the fan assembly 40 or the power supply 48 for initiating rotation of the blades 42.

(20) It is also contemplated the thread capturing device 10 can include a control switch 74 for selectively disposing the device in an operative state or an inoperative state. The control switch 74 can be connected to at least one of the power source 48, the motor 44 and the proximity sensor 70.

(21) A controller 80 or timer (which can be integral with the controller or separate component 82, is operably connected to at least one of the fan assembly 40, the proximity sensor 70 and the power source 48. The controller 80 or timer 82 is configured to maintain operation of the fan assembly 40 for a fixed period of time from activation, or from the last activation. Satisfactory periods of operation include between approximately 1 to 8 seconds. Thus, the fan assembly 40 terminates operation independent of user intervention.

(22) In operation, a user having a thread to be captured passes their hand within the detecting region of the proximity sensor 70. Upon the proximity sensor 70 detecting passage or presence of the hand, the proximity sensor initiates rotation of the fan assembly 40 which creates an airflow across the grill 60 through the inlet 22 of the housing 20 and to the outlet 24 of the housing.

(23) The airflow is sufficient to entrain an anticipated length of thread such as between approximately one quarter inch to 6 or 12 inches from within the detecting zone of the proximity sensor 70. The thread is typical sewing thread for residential or even commercial weight, such as fixed length of one inch to 6 inches.

(24) As the generated airflow passes by the hand of the user (the hand having the thread), the length of thread is entrained within the airflow and removed from the hand. The airflow than passes across the grill 60 and the thread engages portions of the slats 62 and is thus retained by the grill. The controller 80 or timer 82 then terminates operation of the fan assembly 40 after the predetermined time period has elapsed since the last actuation of the proximity sensor 70 or fan assembly.

(25) Upon collection of a given number of threads on the grill 60, the user can use a control button 84 to place the thread capturing device in an inoperative state. The control button 84 can be in the form of a shut off, disable or disconnect switch between the power source 48 and the fan assembly 40. The user can then remove the grill 60 (or the grill and the throat 50) along with the captured threads. The captured threads from the removable grill 60 can then be readily disposed as a group into an appropriate disposal mechanism.

(26) The removable grill 60 (or grill and throat 50) is then reengaged with the housing 20 and the control button 84 is actuated to render the capturing device in the operative state and the cycle can repeat.

(27) Although the present invention has been described in terms of preferred embodiments, it will be understood that variations and modifications may be made without departing from the true spirit and scope thereof.