Patent Grant
11236451
This application is a U.S. National Phase application, under 35 U.S.C. § 371, of International Application no. PCT/1132017/056446, with an international filing date of Oct. 17, 2017, and claims benefit of Italian Application no. 102016000104608 filed on Oct. 18, 2016, each of which are hereby incorporated by reference for all purposes.
The present invention relates to a reel for fabric treating machines.
The present invention further relates to a fabric treating machine, particularly for discontinuous treatment of fabrics in rope form.
More specifically, the machine according to the invention is used for industrial fabric treatment processes and is suitable for different treatments, such as, for example, dyeing, bleaching or washing.
The present invention further relates to a method for removing and replacing a drag element included in said reel.
In the fabric treating machines known in the art, the fabric is wound on itself in rope form and then immersed into a treatment bath.
The machines intended for this operation include, therefore, a tank containing the bath of treatment liquid and a plurality of motorized reels, each one rotatable about its own axis of rotation. On each reel a respective fabric in rope form to be treated is laid, which, closed into a loop, runs down from the reel into the bath and then back up on the opposite side of the reel. Each reel is contained in a respective boxed body arranged over the tank and is connected to the tank and supported through a duct that delivers the rope fabric from the reel to the tank and a return duct that guides the fabric from the tank to the reel.
The fabric in rope form is made to circulate by turning the reel and by hitting the fabric itself with a jet of treatment liquid sprayed by suitable nozzles. Each nozzle is arranged in the delivery duct and is connected to the tank. The treatment liquid to be sprayed is taken from the bath and supplied to the nozzles through a recirculation duct which, at an upper portion of the tank, divides into as many branches as the number of ropes to be treated.
For the reel to act properly upon the fabric, suitable drag elements are arranged on the cylindrical side surface of the reel, which are typically made of rubber and extend over the whole axial length of the reel.
Such drag elements generate the necessary friction between the reel and the fabric, so that the latter can be effectively pulled by the turning reel.
According to the state of the art, each drag element is kept constrained to the reel by means of two parallel rods welded to the axial ends of the reel. The drag element is forced (e.g. through the use of a hammer) into the housing delimited by the two rods and the cylindrical side surface of the reel, so that it will stay in position during the operation of the machine.
The drag elements are subject to wear, and therefore need to be periodically replaced, e.g. approx. every two months.
The present Applicant has verified that removing and replacing the drag elements requires complex and difficult operations (which sometimes require dismounting the reel from the machine), resulting in long downtimes.
This translates into decreased productivity of the machine and reduced efficiency of the entire treatment process.
It is one object of the present invention to provide a reel for fabric treating machines wherein the drag elements can be removed in a quick and simple manner.
It is another object of the present invention to provide a reel for fabric treating machines wherein the drag elements can be removed without the reels having to be dismounted from the machine.
These and other objects are substantially achieved through a reel for fabric treating machines as set out in the appended claims.
Further features and advantages will become more apparent from the following detailed description of some preferred but non-limiting embodiments of the invention.
This description will refer to the annexed drawings, which are also provided merely as explanatory and non-limiting examples, wherein:
With reference to the annexed drawings, reference numeral 100 designates as a whole a reel for fabric treating machines in accordance with the present invention.
Reference numeral 1 indicates a fabric treating machine, particularly for discontinuous treatment of fabrics in rope form, wherein the reel 100 can be used.
The machine 1 (
In the upper part of the machine 1, above the tank 2, a plurality of reels 100 are arranged, each one being motorized and rotatable about its own horizontal axis of rotation. Each reel 100 is useful for supporting and guiding a respective rope formed by a fabric T along a closed treatment path within the main tank 2.
The rotation of each reel 100 is attained by means of a respective drive member 150, as schematized in
Each reel 100 is arranged inside a boxed container 5 mounted above the tank 2 by means of a first tubular body 6 and a second tubular body 7. The boxed containers 5 are mutually aligned and are arranged along an axis parallel to the main axis Y-Y of the main tank 2.
The above-mentioned tubular bodies 6, 7, in addition to supporting the boxed container 5, put the reel 100 in communication with the inside of the main tank 2. The rope fabric T runs down from the reel 100 into the tank 2 through the first tubular body 6 and then runs back up from the tank 2 to the reel 100 through the second tubular body 7.
Each boxed body 5 has a top opening 5a, which is normally closed by a respective closing element. This opening can be used for monitoring and/or maintenance operations.
In the first tubular body 6 at least one distribution member 160 is inserted (as schematized in
The recirculation duct 8 has a first end 9 connected to the bottom of the tank 2 and a second end 10 connected to the bottom of a cylindrical body 11 having a vertical axis, which contains, in a per se known manner, a heat exchanger. The pump P is arranged on the duct 8 between the tank 2 and the cylindrical body 11.
At an upper end of the cylindrical body 11 there is a collector 12 integrated into the cylindrical body 11, and thus having a cylindrical side wall 13 in common with the cylindrical body 11 and a top wall 14 that closes the top end of said cylindrical body 11.
The collector 12 delimits an internal cylindrical volume separated from the exchanger by a septum 15 with at least one passage for the treatment liquid.
The collector 12 has a vertical main axis X-X and is positioned at substantially the same height as the first tubular bodies 6.
From the side wall 13, as many branching pipes 16 extend as the number of the reels 100. Each branching pipe 16 connects the collector 12 to the nozzle located in the tubular body 6.
In one embodiment (
In one embodiment (schematized in
The following will describe in detail the structure of one of said reels 100.
Preferably, more than one reel 100 has such a structure; more preferably, all reels of the machine 1 have said structure.
The reel 100 (
The reel 100 further comprises first and second flanges 114, 115, respectively mounted to the first and second axial ends 112, 113 of the main body 110.
The flanges 114, 115 are integral with the main body 110; by way of example, the constraint between the main body 110 and the flanges 114, 115 can be obtained by welding.
The reel 100 further comprises at least one drag element 120 (
Preferably, the reel 100 is equipped with a plurality of drag elements; by way of example, there may be six drag elements, angularly equidistant along the side surface 111 of the main body 110.
Each drag element is preferably made of elastomeric material, e.g. rubber.
The reel 100 further comprises at least one constraining device 130, associated with the drag element 120 for holding said element 120 in said operating position.
Preferably, all of the drag elements that are present on the reel 100 are associated with one constraining device having the same structural and functional characteristics as the constraining device 130 that will be described below.
Preferably each drag element is associated to a respective constraining device 130, capable of operating in a way substantially independent from the other constraining devices. In accordance with the invention, the constraining device 130 can be switched between a first condition, in which it holds the drag element 120 in the operating position, and a second condition, in which it allows the drag element 120 to be removed.
Preferably, when the constraining element 130 associated with a determined drag element 120 is switched in its second condition, and allows removal of said determined drag element 120, the constraining devices associated with other drag elements remain in their first condition, thereby maintaining the respective drag elements in operating position.
In other terms, the constraining devices which are present on the reel 100, preferably operate in a substantially independent way from each other.
In this way, it is possible to avoid that, when a determined drag element has to be removed, also the other drag elements are released from the reel, thereby for example falling in the main tank 2 of the machine 1.
By way of example,
Preferably, the constraining device 130 defines a housing 130a in which the drag element 120 is at least partially inserted.
When the constraining device 130 is in the first condition, the housing 130a has a certain width; when the constraining device 130 is in the second condition, the housing 130a is wider.
Thus, the drag element 120 can be removed and replaced quickly without requiring much operator effort.
More in detail, the constraining device 130 may comprise a first rod 131 and a second rod 132.
The first rod 131 and the second rod 132 are mounted on the main body 110 and define the housing 130a.
In brief, the housing 130a is the spatial region comprised between the first rod 131, the second rod 132 and the corresponding underlying portion of the side surface 111 of the main body 110.
Preferably, when the constraining device 130 is in the first condition, the first rod 131 has a different arrangement relative to the second rod 132 than when the constraining device 130 is in the second condition.
In other words, the first and second conditions of the constraining device 130 correspond to different mutual positions of the first and second rods 131, 132.
In one embodiment, the first rod 131 is substantially integral with the main body 110.
Preferably, the first rod 131 is substantially parallel to the longitudinal axis of the main body 110.
Preferably, the first rod 131 has a first end 131a secured to the first flange 114 and a second end 131b secured to the second flange 115.
By way of example, the ends 131a, 131b may be welded to the first flange 114 and to the second flange 115, respectively.
As an alternative, the first rod 131 may be constrained in such a way that it can rotate about its own longitudinal axis, without however being able to make any other movement relative to the main body 110.
In one embodiment, the second rod 132 is movable relative to the main body 110.
Preferably, the second rod 132 (
The slot 113a may have a first portion 113b with a substantially rectangular profile, and a second portion 113c with a substantially circular profile. The second portion 113c constitutes an extension of the first portion 113b.
In general, the slot 113a is so shaped and sized as to allow the second end 132b of the second rod 132 to be moved between a first position, in which it defines the first condition of the constraining device 130, and a second position, in which it defines the second condition of the constraining device 130.
As shown in
The coupling between the groove 132′ and the profile of the slot 113a substantially prevents any movement of the second rod 132 in the axial direction.
Preferably, the first end 132a of the second rod 132 is simply inserted in a respective hole in the first flange 114, without any further constraint. This allows the second rod 132 to be moved between the first and second positions of its second end 132b.
Preferably, when the second end 132b is in the first position, the second rod 132 is parallel to the longitudinal axis of the main body 110.
Preferably, when the second end 132b is in the second position, the second rod 132 is transversal (as opposed to parallel) to the longitudinal axis of the main body 110.
Note that the cross-section of the first and second rods 131, 132 is preferably substantially circular. Other configurations may however be conceived, provided that a housing can be formed which is suitable for engaging with the drag element 120.
Preferably, the reel 100 further comprises a fastening member 140.
The fastening member 140 acts upon the constraining device 130 to hold the constraining device 130 in its first condition.
In practice, the fastening member 140 causes the constraining device 130 to firmly hold the drag element 120 in the operating position, particularly when the machine 1 is in use.
More in detail, the fastening member 140 can be switched between an operating condition, in which it holds the constraining device 130 in the first condition, and an idle condition, in which it allows the constraining device 130 to be moved into the second position.
Preferably, the fastening member 140 acts upon the second end 132b of the second rod 132 to hold said second end 132b in the first position.
With reference to
Preferably, the fastening member 140 comprises a support element 141 secured to the second flange 115 and an active element 142 supported by the support element 141. The active element 142 is movable relative to the support element 141.
The support element 141 can be made in the form of a small block, e.g. substantially parallelepiped in shape, having a threaded through hole.
The active element 142 can be made in the form of an at least partially threaded pin, adapted to be coupled to the through hole in the support element 141.
By means of a per se known tool, the active element 142 is screwed in order to act upon the second end 132b of the second rod 132 and push and hold the same in its first position; the active element 142 can then be unscrewed to substantially release the second end 132b of the second rod 132, thus allowing the same to be brought, e.g. manually, into the second position, so as to loosen the constraint on the drag element 120 and allow it to be removed.
Preferably, the active element 142 can be made in such a way that it cannot be removed from the support element 141 (e.g. captive screw). In other words, the active element 142 can be unscrewed up to some sort of end-of-travel element and/or up to a condition in which any additional unscrewing action will no longer produce any axial movement of the active element 142, so that, in particular, it will not come out of the support element 141.
This will make the process of removing/replacing the drag element 120 even faster, since the operator will not have to pay special attention to the fact that the active element 142 might disengage from the support element 141 (e.g. because fully unscrewed from the threaded seat) and then fall into the boxed body 5 and/or the main tank 2.
It has to be noted that, as said, the reel 100 preferably comprises a plurality of drag elements 120, each associated to a respective constraining device 130. Advantageously, each constraining element 130 is associated with a respective fastening member, preferably having structure and working substantially identical to the fastening member 140 disclosed hereabove. By way of example,
In an embodiment, each fastening member is further provided with a covering structure that is analogous to the covering structure 170 that will be disclosed in the following.
The drag element 120 (
Preferably, the drag element 120 has an operating portion 122 adapted to act upon fabrics to be subjected to the treatment. In particular, the operating portion 122, due to the friction generated with the fabric wound around the main body 110, drags the fabric and promotes the forward movement thereof along the treatment path.
Preferably, the drag element 120 also has an engagement portion 121 adapted to be constrained to the constraining device 130.
In particular, the engagement portion 121 may have a pair of grooves 121a, 121b with mutually facing convexity. Such grooves 121a, 121b allow the engagement portion 122 to be coupled by interference with the housing 131.
In one embodiment, a covering structure 170 is included for the fastening member 140. The covering structure 170 may cover one or more fastening members 140. It is thus possible to prevent the fabric from catching on the fastening members 140.
In one embodiment (
In one embodiment (
Each covering element 174 (
Preferably, the covering element 174 has a through hole 179 that allows access to the active element 142 (e.g. for screwing/unscrewing it) without requiring removal of the covering element 174.
The covering element 174 can be made from any material suitable for this purpose, e.g. thin sheet metal.
When the drag element 120 needs to be removed, the following steps are carried out.
First of all, the reel 100 is turned in order to bring the drag element 120 under the opening 5a of the boxed body 5, so that the operator can act upon the drag element 120 without removing the reel 100 from the machine 1.
Subsequently the fastening member 140 is moved from its current operating condition (
The second end 132b of the second rod 132 can then be moved from the first position to the second position, thus switching the constraining device 130 from the first condition to the second condition.
As aforesaid, in the second condition the housing 130a is wider than when the constraining device 130 is in the first condition.
The drag element 120 can thus be removed in a simple and quick manner (
A new drag element 120′, wholly similar to the drag element 120, is then prepared (
The new drag element 120′ is inserted into the housing 130a defined by the constraining device 130. Note that at this point of the process the constraining device is still in the second condition. The new drag element 120′ can therefore be inserted in a simple and quick manner. In order to facilitate the insertion, a friction-reducing substance, such as water and soap, may be associated beforehand with the new drag element 120′.
Once the new drag element 120′ has been positioned, the constraining device 130 is switched from the second condition to the first condition, so as to maintain a firm constraint on the new drag element 120′.
For this purpose, one preferably screws the active element 142 of the fastening member 140 that acts upon the second end 132b of the second rod 132, pushing it until the latter reaches its first position. In this way, the housing 130a will have again the same size as it had at the beginning (before starting the step of removing the drag element 120); the new drag element 120′ will thus be held firmly in position due to the coupling thereof with the rods 131, 132.
The invention offers significant advantages.
First of all, the invention allows the drag elements of a reel to be removed in a simple and fast manner, leading to considerable time savings in the course of the treatment process.
Furthermore, the drag elements can also be removed and replaced without dismounting the reel from the machine; in this case as well, the complexity of the task and the time necessary for carrying it out are reduced.
| Number | Date | Country | Kind |
|---|---|---|---|
| 102016000104608 | Oct 2016 | IT | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/IB2017/056446 | 10/17/2017 | WO | 00 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2018/073745 | 4/26/2018 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 2796169 | Smith | Jun 1957 | A |
| 4001945 | Aurich et al. | Jan 1977 | A |
| 4380311 | Torii | Apr 1983 | A |
| 5307973 | Schmidt et al. | May 1994 | A |
| 20160272450 | Cros et al. | Sep 2016 | A1 |
| Entry |
|---|
| International Search Report, dated Nov. 20, 2017 for corresponding International Application No. PCT/IB2017/056446. |
| Written Opinion, dated Nov. 20, 2017 for corresponding International Application No. PCT/IB2017/056446. |
| Number | Date | Country | |
|---|---|---|---|
| 20190233999 A1 | Aug 2019 | US |
