Multicomponent dispenser

Abstract

A dispenser for dispensing a mixing of viscous materials is provided, to dispense a two or more component material such as a two or more component sealant or adhesive. The dispenser comprises a dispensing mechanism for dispensing respective materials from a material holder through a dynamic mixer. The dispensing mechanism is driven by a first electric motor and the dynamic mixer is driven by a second electric motor. Advantageously, a simple and effective multicomponent dispenser with a dynamic mixer is provided.

Claims

1. A electrically powered dispenser having a dynamic, disposable mixing attachment configured to mix and dispense a multi-component adhesive or sealant, the dispenser comprising: a dispenser including a holder portion defining two or more barrels configured to contain respective materials to be dispensed, a stock portion defining a handle enabling a user to hold the dispenser, a first motor operably coupled to two or more plungers, wherein each plunger is slidably disposed in a respective one of the two or more barrels and is configured to apply a dispensing pressure to the respective materials to be dispensed, and a second motor operably coupled to an output drive shaft having a mating end; a coupling plate removably held to a front end of the dispenser by one or more fasteners and providing a conduit for guiding flow of the respective materials to be dispensed; and a disposable mixer attachment removably held to the coupling plate by a retainer and configured to receive the guided flow of the respective materials to be dispensed, the disposable mixer attachment having a drive shaft driving a mixing component and configured to selectively couple with the mating end of the output drive shaft of the second motor, thereby enabling dynamic mixing of the respective materials to be dispensed.

2. The electrically powered dispenser of claim 1, wherein the second motor selectively couples to the disposable mixer attachment by a planetary gearbox and a gear set.

3. The electrically powered dispenser of claim 1, further comprising a controller configured to control the first motor as a variable speed motor based on a magnitude of a user input and to control the second motor as a fixed speed motor by switching the second motor on and off based on the presence of the user input.

4. The electrically powered dispenser of claim 1, wherein the first motor is housed by the stock portion.

5. The electrically powered dispenser of claim 1, wherein the second motor is secured to the holder portion adjacent to the front end of the dispenser.

6. The electrically powered dispenser of claim 1, wherein the holder portion is configured to accommodate one or more cartridges together defining two or more barrels containing the respective materials to be dispensed.

7. The electrically powered dispenser of claim 1, wherein the holder portion defines two barrels for containing the respective materials to be dispensed.

8. The electrically powered dispenser of claim 7, wherein the dispenser comprises two plungers driveable by the first motor into respective ones of the two barrels.

9. The electrically powered dispenser of claim 1, wherein the coupling plate is arranged to sealingly engage the barrels and defines respective material conduits to connect each barrel with a corresponding outlet port for engaging respective disposable mixer attachment inlets.

10. The electrically powered dispenser of claim 1, wherein the disposable mixer attachment is removeably secured to the holder portion, via the coupling plate.

11. The electrically powered dispenser of claim 1, wherein the second motor is disposed adjacent to the coupling plate.

12. The electrically powered dispenser of claim 1, wherein the mixer component is driven by the second motor when the disposable mixer attachment is coupled to the dispenser.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) A specific embodiment is now described by way of example only and with reference to the accompanying drawings, in which:

(2) FIG. 1 illustrates a dispenser in a partially cut-away view;

(3) FIG. 2 illustrates a partially cut-away and exploded view of a front end of the dispenser;

(4) FIG. 3 illustrates a mixer attachment; and

(5) FIG. 4 illustrates a partially cut-away view of the mixer attachment.

DETAILED DESCRIPTION

(6) With reference to FIG. 1, a dispenser 2 comprises a stock portion 4 and a holder portion 6. The stock portion 4 comprises a handle 8 for holding by a user. The stock portion 4 houses a motor 10 and has secured to it a battery pack 12 for powering the motor 10. The holder portion 6 comprises two barrels 14 secured to the stock portion, for containing respective materials to be dispensed, for example in the form of a foil pack. A plunger 16 attached to a push rod 18 is disposed slidably in each barrel 14. The push rods 18 are linked at a rear end of the dispenser by a cross rod 20, which also links the push rods 18 to a rack 22 driven by the motor 10 via a pinion and gear arrangement (not shown in FIG. 1). A dispensing trigger 24 actuates the motor 10 to advance the rack 22 and push rods 18 to apply a dispensing pressure via the plungers 16 to the materials to be dispensed by advancing the plungers 16 inside their respective barrels 14. A reverse trigger 26 is provided to initiate reverse operation of the motor to retract the rack 22, push rod 18 and plunger 16 inside the barrel to allow the dispenser to be refilled.

(7) A coupling plate 28 seals the barrels 14 at a front end of the dispenser and provides a fluidic path from the inside of the sealed barrels 14 to a mixer attachment 30, as will be described in detail below. A further motor 32 is housed by the holder portion 6, disposed at the front end of the holder portion 6, for driving a mixer mechanism that is coupled to the mixer attachment when the mixer attachment is in place.

(8) With reference to FIG. 2, a motor mounting block 34 is secured to the barrels 14 at the front of the dispenser 2 and provides a mounting block for a motor mounting 36, which houses a spur gear set 38. The motor 32 is coupled to the spur gear set 38 by a planetary gearbox 40. An output drive shaft 42 is coupled to an output gear of the spur gear set 38 and provides a mating recess 44 at the front end thereof for coupling to the mixer attachment.

(9) The coupling plate 28 is removably held against a sealing surface 46 of the motor mounting block 34 by four clamping toggles 48, which can engage respective recesses 50 to securely hold the coupling plate 28 against the motor mounting block 34 while sealing against the sealing surface 46. In the sealed configuration, the coupling plate 28 provides a conduit 52 for guiding flow from an outlet opening 54 of the barrel to a corresponding outlet opening 56 in the coupling plate. It will be understood that one conduit 52 and outlet 56 is provided for each barrel 14 and barrel outlet 54, that is two in the case described with reference to FIGS. 1 and 2.

(10) With reference to FIGS. 3 and 4, the mixer attachment 30 provides a dynamic mixer for attachment to the dispenser 2 and comprises respective mixer inlets 58 for engaging a corresponding conduit outlet 56 each, a mixer housing 60 and mixer outlet 62. The mixer attachment provides a flow path from each of the mixer inlets 58 to a common volume inside the mixer housing 60 where the materials from each of the mixer inlets 58 are mixed and then dispensed through the mixer outlet 62. Inside the mixer housing a plurality of mixer components 66 are disposed around a mixer shaft coupled to a mixer drive dog 68. A torque applied to the drive dog 68 causes rotation of the shaft and hence the mixer component 66, causing the mixer components to mix (stir) together the materials from each of the mixer inlets flowing through the volume inside the mixer housing 60.

(11) Returning to FIG. 2, the coupling plate 28 defines an aperture 70 through which the drive shaft 42 passes when the coupling plate is secured in place. To engage with the mixer attachment 30 held by the coupling plate 28, the mating recess 44 of the drive shaft 42 engages the drive dog 68, enabling the motor 32 to drive the mixer components 66 inside the mixer housing 60, thereby vigorously mixing the materials inside the mixer housing. The conduit outlets 56 are disposed in a mating arrangement with the mixer inlets 58, so that the mixer inlets 58 sealingly engage the conduit outlets 56 when the mixer attachment 30 is attached. To hold the mixer attachment 30 securely in place, a mixer retaining plate 72 is provided rotatably on a post 74 extending forward from the coupling plate 28 and has a first recess 76 for engagement with a neck of the mixer attachment 30 to hold the mixer attachment 30 in place and a second recess 78 for engaging a corresponding feature 80 on a second pole 82 extending forward from the coupling plate 28. With the mixer retaining plate 72 engaging both the neck of the mixer attachment 30 and the feature 80, the mixer attachment 30 is securely held in place.

(12) The dispenser 2 comprises a controller (not shown) for controlling the operation of the motors 10 and 32 in response to actuation of triggers 24 and 26 by a user. Trigger 24 is coupled to a potentiometer, so that actuation of the trigger 24 generates a command signal related to the degree to which the trigger 24 is depressed. In response to this control signal, the controller controls the motor 10 to turn with a variable speed as a function of the control signal, so that the dispensing speed of the dispenser 2 can be controlled by a degree to which the trigger 24 is depressed. The controller also controls the motor 32 in response to depression of the trigger 24. In contrast to the motor 10, the motor 32 is not controlled to rotate at a velocity corresponding to the degree of depression of the trigger 24 but rather is simply turned on to mix dispensed material when the trigger 24 is started to be depressed and turned off when the trigger 24 is not pressed anymore to mix any dispensed material. Control of the motor 32 may be a simple on off switch, or the motor may be controlled to rotate at a fixed speed and/or generating a fixed torque, or simply be controlled by supply with a fixed current voltage.

(13) In operation, each of the barrels 14 is loaded with a respective material in a foil pack and the coupling plate 28 is secured to the motor mounting block 34 by means of the clamping toggles 48. Typically, the materials will form a two (or more) component adhesive or sealant when dispensed and mixed together. A mixer attachment 30 is attached to the coupling plate 28 and held in place by means of the mixer retainer plate 72 being engaged. To dispense and mix the materials, the user depresses the trigger 24 to a desired degree and for a desired amount of time to dispense a desired amount of materials at a desired speed. Actuation of the trigger causes the motor 10 to drive the plunger 16 into the barrels 14, resulting in a dispensing pressure which causes flow of the materials through the respective conduits 52 into the mixer housing 60 where they are mixed by rotation of the mixer components 66 rotating inside the mixer housing 60. When it is desired to retract the plungers, for example to change the foil packs inside the barrels 14, a user depresses the trigger 26 until reverse rotation of the motor has caused the plungers 16 to retract sufficiently.

(14) While a specific example of an embodiment has been described, it will be appreciated that many operations, alterations and juxtapositions of the features described above are possible and will readily be apparent to the person skilled in the art and that, accordingly, the above description is made by way of example and not limitation.

(15) For example, the described embodiment can readily be adapted to other number of materials to be mixed, for example three or four. Further, while an embodiment with sealed barrels and materials in respective foil packs has been described above, it will be appreciated that the sealed barrels as material holders can be replaced with a holder for a cartridge combining two or more barrels holding respective materials and providing respective outlets for engagement with the mixer attachment.

(16) Various constructional details can also be varied. For example, other securing arrangements than the clamping toggle described above are equally possible, for example sliding arrangements or arrangements in which the coupling plate is held in place by threaded nuts. It will also be appreciated that the configuration of the drive dog and mating recess can be inversed so that the recess is provided on the mixer attachment 30 and the drive dog on the drive shaft 42. Evidently, other arrangements for coupling the drive shaft to the mixer attachment are equally possible.

(17) Regarding the control of the two separate motors discussed above, it is equally envisaged that both motors could be operated with variable speed or with a fixed speed. Equally either or both motors may be operated using a different control scheme, for example one or both could be operated with fixed current, or variable flux, voltage or torque control, as appropriate. Thus, any combination of the same or different control schemes for the two motors is possible, subject to the application constraints.