Transfer comb and transfer system between two belt conveyors (Machine-translation by Google Translat

专利摘要:
Transfer comb and transfer system between two belt conveyors. A comb (100, 100') and a transfer system between two belt conveyors (1, 2) with a first conveyor belt (1) being the conveyor belt for a product (10) in a first forward direction (C1) towards the second conveyor belt (2) or receiving belt in a second forward direction (C2); wherein said comb (100, 100') comprises a first region (101) from which a plurality of prongs (102) parallel to each other arise, where the comb (100) comprises a second region (101') with at least one roller (103) arranged obliquely with respect to a vertical axis of the tines (102); and wherein said rollers (103) rotate in the opposite direction to the second feed direction (C2) of the second conveyor belt (2).
公开号:ES2684984A1
申请号:ES201700347
申请日:2017-03-31
公开日:2018-10-05
发明作者:Javier San Miguel Nuñez
申请人:Afher Eurobelt SA；
IPC主号:

专利说明:

TRANSFER COMB AND TRANSFER SYSTEM BETWEEN TWO TAPE CONVEYORS

OBJECT OF THE INVENTION
 5
The object of the present invention is a product transfer comb between two belt conveyors of the type used in the industry, as well as the transfer system that implements it.

STATE OF THE TECHNIQUE 10

Different types of belt conveyors are described in the state of the art, the conveyor systems, in general, are used to transport products, for example, in the packaging and food industries. The conveyor belts or belts of these systems can be designed, for example, as rubber mats or belts or 15 metal mesh belts but also as mats or modular chains of metal and / or plastic. Then, the diverter elements can be designed, for example, as pulleys, but also as sprockets of single or multiple chains. In conveyor systems, frequently a number of conveyor belts or belts are connected successively. Examples of conveyors such as those indicated, we have them, for example, in documents ES2304266, EP1688374, EP2706023, EP2703321, EP2966012, EP2168890 and EP2145843.

In the places where the products are to be transported to or from the conveyor surface, such as in right angle and in-line transitions between conveyor belts or belts and in interposed processing stations, sliding devices are used. An example of such a sliding device is a finger sliding plate that cooperates with grooves formed on the surface of a conveyor belt or belt, for example, as set forth in US6138819 or a finger sliding device as set forth. in EP0930254 or 30 also as described in EP2990360.

Conveyor systems are increasingly used to transport small batches of products. In many of the productive processes accumulation systems are used in order to avoid the productive one in case of any expected or unexpected event. For them, product accumulation tables are used in order to keep it temporarily e
incorporate it into the production line at the right time.
Preferably, the conveyor systems are then designed such that the conveyor system performs product accumulations without human intervention.

A drawback of static sliding plates, also called plates 5 with fingers or combs, is that at the end of a series of production, the last products remain behind in the sliding plates or combs. That is, there is a problem of dead zones in the accumulation lungs that make the last row of products to be transferred need human intervention to literally push the products towards the second conveyor belt. 10

In addition, and because the accumulation occurs in the entire width of the conveyor systems or accumulation tables and added that its evacuation and incorporation into the production line must be done in the shortest possible time, the products usually accumulate in one of the ends of the transfer comb, subjecting a lot of pressure to the products in the first rows, where there are cases of breaking them due to the pressure exerted by the products of the last rows on those of the first. This effect occurs because, in many cases, the union or transfer between both tapes (sending and receiving) is performed perpendicularly, which, together with the frictions between products and tape and the speed of the receiving tape, causes the products 20 tend to accumulate on the side or corner of the first tape (sending) coinciding with the direction of the second tape (receiving) as shown, for example, in FIG. 1.

Conveyor systems with overlapping transverse arrangement thereof have been developed. To make the intermediate space as small as possible, the longitudinal edge 25 of the second conveyor belt or belt that is in front of the first conveyor belt or belt may be provided with a bevel, as described in EP 0 722 896. A The drawback of this conveyor system is that where less stable products are involved, the intermediate space between the first and second conveyor belts or belts must be perfectly aligned. As mainly the chains 30 are made of plastic materials normally with use and their consequent wear causes this alignment to be lost, so that the products can fall. Then, the longitudinal edge of the second belt or conveyor belt forms a kind of stop. An additional disadvantage is that the aforementioned longitudinal edge is susceptible to damage caused by products that bump against the edge. 35

Document ES2299728 describes intermediate elements comprising fingers that preferably extend in uniformly spaced relationship, parallel to the direction of transport of the first belt or conveyor belt. The backs of the fingers form a comb-shaped part of the sliding surface at the entrance between the first conveyor surface and the second conveyor surface. With the aid 5 of such a comb-shaped sliding surface, the products can not only be supported during sliding, but also the entry of larger dirt particles into the transfer space or zone while dirt particles can be prevented Smaller can be discharged between the fingers by way of separation. As can be seen, it is a combination of the above: 10 transfer system with fingers or combs and intermediate chain with bevel. So this system suffers from the same problems described above.

To alleviate this problem, document US5749454 describes a transfer system that incorporates a plurality of electrically fed rollers and that rotate in the same direction in the direction of the first belt (or shipping belt) which, although reduces the dead zone and alleviates (which does not solve) the problem of the last row, increases the problem of the material jam in a specific area of the transfer zone, especially in ribbons arranged at right angles, as shown in FIG. 1. In fact, if rollers are incorporated in the direction of the first belt (delivery), the described effect is accentuated, generating sufficient pressures to damage the product under greater pressure.

DESCRIPTION OF THE INVENTION
 25
It is an object of the invention a transfer comb between two belt conveyors with a first conveyor belt being the belt for sending a product in a first direction towards the second conveyor or receiving belt in a second direction of advance. The transfer comb comprises a first region from which a plurality of barbs parallel to each other emanate and which comprises at least one roller 30 arranged obliquely with respect to a vertical axis of the barbs and where said rollers rotate in the opposite direction to the second direction of advancement of the second conveyor belt.

In a particular embodiment, the rollers are operated inferiorly by a tongue integral with the second belt, so that they rotate in the opposite direction to the second direction of advance of the second conveyor belt. In another particular embodiment, the
The movement of the rollers is materialized by means of an additional contiguous and continuous belt with the second conveyor belt and which drives the rollers at the bottom. Finally, in another particular embodiment, the rollers are motorized, but always their direction of rotation must be the opposite and oblique to the direction of advance of the second conveyor belt or receiving and evicting belt of the product. 5

The synergistic effect that occurs between the oblique arrangement of the at least one roller with respect to the vertical axis of the spikes, and the rotation of the at least one roller in the opposite direction to the direction of advance of the second conveyor belt causes that when the product is near the transfer zone between belts (that is, the comb) the product is dragged by the movement of at least one roller in the opposite direction to the advance of the second conveyor belt, increasing the transfer area between belts and avoiding unwanted accumulations at one end or corner of the comb. Thus, in the face of the state of the art, a greater transfer area is achieved (ie greater production capacity), product accumulations are avoided in certain areas of the transfer area that cause jams and product breakage and, in addition, avoid that the last row of a series of products needs to be pushed manually, since once it enters the comb roller zone, the movement of these in combination with the inertia of the product from the first conveyor belt will effectively cause them to pass the second belt without any brake. twenty

All in accordance with the independent claims that accompany the present specification. Particular embodiments of the invention according to the present specification are shown in the dependent claims.
 25
Throughout the description and the claims the word "comprises" and its variants are not intended to exclude other technical characteristics, additives, components or steps. For those skilled in the art, other objects, advantages and features of the invention will be derived partly from the description and partly from the practice of the invention. The following examples and drawings are provided by way of illustration, and are not intended to restrict the present invention. In addition, the present invention covers all possible combinations of particular and preferred embodiments indicated herein.

BRIEF DESCRIPTION OF THE FIGURES
 35
Next, we will describe very briefly a series of drawings that help
to better understand the invention and which expressly relate to an embodiment of said invention that is presented as a non-limiting example thereof.

FIG. 1 shows a transfer between two conveyor belts with a transfer comb such as those described in the state of the art, and in which the problem of jamming can be observed in a certain area of the transfer area in perspective. (FIG. 1A) and in plan (FIG. 1B).

FIG. 2 shows a detailed view of the transfer system object of the present invention, in a first practical embodiment with tabs for actuating the wheels, both in perspective (FIG. 2A) and in elevation (FIG. 2B) and isolated transfer detail (FIG.2C).

 FIG. 3 shows a detailed view of the transfer system object of the present invention, in a second practical embodiment with a flat band (PVC, PU, rubber, cloth or any material of equivalent characteristics) for driving the wheels, both perspective (FIG.3A) and elevation (FIG.3B) and isolated transfer detail (FIG.3C).

FIG. 4 shows a detailed view of the transfer system object of the present invention, in a third practical embodiment without any additional element for driving the wheels, both in perspective (FIG. 4A) and in elevation (FIG. 4B ) and isolated transfer detail (FIG. 4C).

FIG. 5 shows a transfer between two conveyor belts with a transfer system 25 as shown in FIG. 2, and in which it can be seen how the problem of jamming in a certain area of the perspective transfer area is solved. (FIG. 5A) and in plan (FIG. 5B).

FIG. 6 shows a transfer between two conveyor belts with a transfer system 30 as shown in FIG. 3, and in which it can be seen how the problem of jamming in a certain area of the perspective transfer area is solved. (FIG. 6A) and in plan (FIG. 6B).

FIG. 7 shows a transfer between two conveyor belts with a transfer system 35 as shown in FIG. 3, both in perspective (FIG. 7A) and
in plan (FIG. 7B).

FIG. 8 shows a perspective view of a transfer between two conveyor belts with a transfer system as shown in FIG. 4.
 5
FIG. 9 shows a perspective view of a transfer comb with roller wheels, in accordance with a practical embodiment of the present invention.

FIG. 10 shows a perspective view of a roller and motorized transfer comb, in accordance with a practical embodiment of the present invention. 10

DETAILED EXPLANATION OF THE EMBODIMENTS OF THE INVENTION

Various practical embodiments of the invention are shown in the attached figures. The object of the present invention is to avoid the problem that currently arises in the 15 transfers between two belt conveyors (1,2) being a first conveyor belt (1) the shipping belt of a product (10) in a first sense of advance (C1) towards the second conveyor belt (2) or reception belt in a second direction of advance (C2) which, in turn, transfers the product (10) to a third conveyor belt (3). To make the transfer, a comb (4) has been used with a plurality of spikes 20 interspersed between the links of the first conveyor belt (1) such that the thrust of the first belt (1) transfers the product (10) to through the comb (4) to the second tape (2) and from this second tape (2) the product (10) is transferred to the third (3) since both tapes, second (2) and third (3), run in parallel and the exchange is facilitated by some lateral guides (5). 25

As it is possible to appreciate in FIG. 1, precisely the movement in the second direction of advance (C2) implies that the product (10) that is already in the second belt (2) accumulates against a lateral guide (5), that is to say, that it accumulates in the corner in favor of the second direction of advance (C2) generating a jam that can even cause the breakage 30 of part of the product (10) by the pressure exerted by the product itself (10) against the guide (5) in its advance while the jam occurs. To avoid this problem, the present invention describes a transfer comb (100,100 ') and a transfer system which, thanks to the transfer comb of the invention (100,100') prevents products from accumulating (10) in the corners of the transfer zones (see figures 5 to 7). 35

For the sake of a better understanding of the present detailed explanation, a summary table of the different practical embodiments of the present invention, the references used in the figures and a brief review thereof are shown below:

 Reference  Figure Description
 100  FIG. 9 Transfer Comb
 100 ’  FIG. 10 Motorized transfer comb
 5
The transfer comb (100,100 ') object of the present invention has, therefore, two practical embodiments, wherein both comprise a first region (101) from which a plurality of barbs (102) parallel to each other emanate, and a second flat region (101 ') comprising at least one roller (103) configured to rotate with respect to a horizontal axis (103a) and arranged obliquely with respect to a vertical axis of the barbs (102). In a second embodiment, moreover, at least one roller (103) is motorized (104) in its rotation relative to its horizontal axis (103a). In both embodiments, the surface of the rollers (103) protrudes superiorly and inferiorly from the horizontal defined by the surface of the second flat region (101 ') such that drive means (20.30) can rotate said roller (103) in practical embodiments of the transfer system.

Both transfer combs (100,100 ') can be used interchangeably in any of the practical embodiments of the transfer systems shown in Figures 2 to 8 and which will be described in greater detail below. twenty

As can be seen in the attached figures, the present invention essentially comprises a transfer comb (100,100 ') between two belt conveyors (1,2) with a first conveyor belt (1) being the shipping belt of a product (10) in a first direction of advance (C1) towards the second conveyor belt (2) or reception belt 25 in a second direction of advance (C2) which, in turn, transfers the product (10) to a third conveyor belt (3). To make the transfer, a comb (100) has been used, in this example without motorization, with a plurality of spikes (102) intercalated between the links of the first conveyor belt (1) such that the thrust of the first belt ( 1) transfer the product (10) through the comb (100) to the second tape (2) and from this 30 second tape (2) the product (10) is transferred to the third (3) since both tapes, second (2) and third (3), run in parallel and the exchange is facilitated by lateral guides (5), as best seen in Figures 5 to 8.

The comb (100) comprises at least one roller (103) arranged obliquely with respect to a vertical axis of the barbs (102); and where said rollers (103) rotate in the opposite direction to the second direction of advance (C2) of the second conveyor belt (2). In the first embodiment, shown in detail in FIG. 2, the transfer comb (100) comprises a plurality of rollers (103) that are operated inferiorly by at least one tongue (20) integral with the second tape (2) in the second direction of advance (C2). The tabs (20) cause, at the passage marked by the second belt (2) in its second direction of advance (C2), the rollers (103) or rollers rotate in the opposite direction to the second direction of advance (C2). The effect of said rotation in the opposite direction to the advance of the second belt 10 (2) causes the product (10) arranged in the first belt (1) to be directed obliquely and contrary to the advance of the second belt ( 2) what causes the product (10) to be distributed throughout the transfer area and thus prevent accumulation in a single corner as in traditional systems (FIG. 1). This novel effect is shown in detail in FIG. 5. fifteen

In FIG. 3 and in FIG. 7 essentially the same system described for FIG. 2 is shown but in this case the tabs (20) in solidarity with the second belt (2) have been replaced by a flat band (30) of a material selected from PVC, PU, rubber, fabric or any material of equivalent characteristics, whose rotation is independent of that of the second belt 20 (2) which facilitates implementing different speeds or directions of rotation depending on the specific application. In any case, the effect of said rotation in the opposite direction to the advance of the second belt (2) causes the product (10) arranged in the first belt (1) to be directed obliquely and contrary to the advance of the Second belt (2), which causes the product (10) to be distributed throughout the transfer zone and thus prevents accumulation in a single corner as was the case in traditional systems (FIG. 1). This novel effect is shown in detail in FIG. 6.

In a third practical embodiment shown in FIG. 4 and in FIG. 8, there is no means of actuation (20,30) of the rollers or rollers (103), but the effect achieved is the same, since the The product's own thrust (10) in the direction of advance of the first belt (1) means that when it passes through the wheels (103) it is directed obliquely and contrary to the advance of the second belt (2), which causes that the product (10) is distributed throughout the transfer area and thus prevents accumulation in a single corner as was the case in traditional systems (FIG. 1). 35

权利要求:
Claims (6)
[1]

[ 1]
 1.- A transfer comb (100,100 ') between two belt conveyors (1,2) being a first conveyor belt (1) the shipping belt of a product (10) in a first direction of advance (C1) towards the second conveyor belt (2) or reception belt 5 in a second direction of advance (C2); wherein said comb (100,100 ') comprises a first region (101) from which a plurality of spikes (102) parallel to each other emanate and characterized in that the comb (100) comprises a second region (101') with at least one roller (103) arranged obliquely with respect to a vertical axis of the barbs (102); and where said rollers (103) rotate in the opposite direction to the second direction of advance (C2) 10 of the second conveyor belt (2).

[ 2]
 2. The transfer comb (100,100 ') according to claim 1 wherein the rollers (103) are operated inferiorly by at least one tongue (20) integral with the second belt (2) in the second direction of advance (C2 ). fifteen

[ 3]
 3. The transfer comb (100,100 ’) according to claim 1 wherein the rollers (103) are driven by a continuous belt (30) independent of the second belt (2) in the second direction of advance (C2).
 twenty
[ 4]
 4. The transfer comb (100 ’) according to claim 1 wherein the rollers (103) are motorized in the second direction of advance (C2).

[ 5]
 5.- A transfer system between two belt conveyors (1,2) with a first conveyor belt (1) being the shipping belt of a product (10) in a first direction 25 (C1) towards the second conveyor belt (2) or reception tape in a second direction of advance (C2); and characterized in that between the first tape (1) and the second tape (2) comprises a transfer comb (100) according to any one of claims 1 to 4.
  30

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同族专利:

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公开号 | 公开日

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ES2684984B1|2019-04-04|

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ES2894523T3|2022-02-14|

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EP3381844B1|2021-08-04|

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EP3381844A1|2018-10-03|

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优先权:

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申请号 | 申请日 | 专利标题

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ES201700347A|ES2684984B1|2017-03-31|2017-03-31|Transfer comb and transfer system between two belt conveyors|ES201700347A| ES2684984B1|2017-03-31|2017-03-31|Transfer comb and transfer system between two belt conveyors|

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EP17169227.0A| EP3381844B1|2017-03-31|2017-05-03|Conveyor transfer system|

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ES17169227T| ES2894523T3|2017-03-31|2017-05-03|Transfer system for a belt conveyor|