CN105314382A - Separating system and method for deformed steel bars not of specified length and deformed steel bars of specified length - Google Patents

Abstract

The embodiment of the invention discloses a separating system and method for deformed steel bars not of the specified length and deformed steel bars of the specified length. The system comprises a lifting chain set arranged on one side of an aligned baffle, a conveying roller bed is further arranged in the direction perpendicular to the conveying direction of the lifting chain set, and with the plane where the upper roller surface of the conveying roller bed is located as the datum plane, the lifting chain set is in movable connection within the travel between the position higher than the datum plane and the position lower than the datum plane in the direction perpendicular to the datum plane. An electromagnetic lifter is further arranged on the side, away from the aligned baffle, of the lifting chain set, and electromagnets on the electromagnetic lifter are movably connected within the travel between the position flush with the datum plane and the position higher than the datum plane in the direction perpendicular to the datum plane. According to the system and method, automatic separation of the deformed steel bars not of the specified length and the deformed steel bars of the specified length is achieved through alternating action of the lifting chain set, the conveying roller bed and the electromagnetic lifter, the work efficiency is high, and the automation degree of a deformed steel bar production line is improved; moreover, the labor intensity of operators is lowered, and the operation environment is improved.

Description

A kind of screw-thread steel leads to chi material and scale material piece-rate system and method

Technical field

The present invention relates to technical field of steel rolling, particularly relate to a kind of screw-thread steel and lead to chi material and scale material piece-rate system and method.

Background technology

Screw-thread steel is a kind of surface reinforcing bar with ribbing, is widely used in the civil engineerings such as house, bridge, road.Large to general-utilitys such as express highway, railway, bridge, culvert, tunnel, flood control, dams, the little basis to building construction, beam, post, wall, plate, the screw thread steel capital is indispensable structural materials.As shown in Figure 1, its production procedure is: first, and the steel billet heated through heating furnace 1 is rolled into the bar meeting trimmed size in roughing mill 21, middle milling train 22 and finishing mill 23; Secondly, sheared by Double Dimension Flying Shears 4 pairs of bars, the bar after shearing is transferred to cold bed 5 and cools, cooled bar is passed through the screw-thread steel 7 of cold shears 6 cutting to length to specified length; Finally, by conveyer chain 8, screw-thread steel 7 is sent to bander 9 and carries out bailing.Wherein, when carrying out cutting to length by cold shears 6 pairs of bars, in order to make the screw-thread steel after cutting to length 7 end part aligning, be also provided with flush baffle plate 61 in the downstream of cold shears 6.

In the production process of screw-thread steel, because steel billet exists deviation, then the bar length after roughing mill 21, middle milling train 22 and finishing mill 23 rolling can not be completely the same, then after cutting to length, inevitably there will be the screw-thread steel 7 of inadequate specified length.Such as, the length of one block of steel billet after rolling is 358 meters, the specified length (cut lengths) of screw-thread steel 7 is 9 meters, the screw-thread steel 7 of the screw-thread steel 7 and 1 section 88 meters long of 3 sections 90 meters long is then cut into by Double Dimension Flying Shears 4, the screw-thread steel 7 of the screw-thread steel 7 and 1 section 8 meters long of 39 sections 9 meters long is cut into again through cold shears 6, namely occurred in the screw-thread steel 7 after cutting to length that the screw-thread steel of length against regulation (is called logical chi material 71 by the screw-thread steel of inadequate specified length in this article, the screw-thread steel of the length that conforms with the regulations is called scale material 72), logical chi material 71 and scale material 72 is caused to mix, affect subsequent process flow.

In prior art, when logical chi material 71 and scale material 72 mix, general by manually logical chi material 71 being chosen.But because screw-thread steel 7 temperature after shearing about has 150 DEG C, operating personal often there will be the operating risks such as heatstroke, scald or scuffing when picking logical chi material 71.In addition, because the quality of screw-thread steel 7 itself is comparatively large, cause that the working strength of operating personal is large, inefficiency.Along with the expansion of industry size, the raising of rhythm of production, the low bottleneck more and more becoming restriction production capacity and promote of the separation efficiency of logical chi material 71 and scale material 72, therefore, realizes screw-thread steel and leads to chi material 71 and scale material 72 quick separating and become and need the urgent key issue solved.

Summary of the invention

Provide a kind of screw-thread steel in the embodiment of the present invention and lead to chi material and scale material piece-rate system and method, lead to chi material and scale material working strength is large, inefficiency and there is the problem of potential safety hazard to solve the artificial screw-thread steel that is separated in prior art.

In order to solve the problems of the technologies described above, the embodiment of the invention discloses following technical scheme:

A kind of screw-thread steel leads to chi material and scale material piece-rate system, for screw-thread steel manufacturing line, comprise and be located at flush baffle plate side, for transmitting the lift chain group of screw-thread steel, described lift chain group comprises many lift chain be parallel to each other, direction of transfer perpendicular to described lift chain group is also provided with one section by the molecular transfer roller of multiple roller, with the plane at the upper roll surface place of described transfer roller for reference plane, described lift chain group is along the direction perpendicular to described reference plane, be flexibly connected in the stroke above and below described reference plane, also electromagnetic lifter is provided with away from the side of described flush baffle plate in described lift chain group, described electromagnetic lifter comprises at least one block of electromagnet, described electromagnet is along the direction perpendicular to described reference plane, be flexibly connected in concordant and stroke higher than described reference plane, and described electromagnet is being positioned at described transfer roller perpendicular to the projection on described reference plane direction.

Preferably, described lift chain comprises canned paragraph and dropping section, described canned paragraph and dropping section are by being parallel to the jointed shaft rotary connection of described reference plane, described dropping section is provided with lift chain actuating device away from one end of described jointed shaft, drives described dropping section to swing along described jointed shaft by described lift chain actuating device.

Preferably, described lift chain actuating device comprises air cylinder device or motor.

Preferably, described lift chain and described roller are staggered along described transfer roller direction.

Preferably, described roller rotates towards the direction of described electromagnetic lifter.

Preferably, the quantity of described electromagnet is one piece, arranges along the direction perpendicular to described transfer roller.

Preferably, described electromagnetic lifter comprises bracing frame, described electromagnet is connected with support frame as described above translation by the pilot bar perpendicular to described reference plane, also be provided with electromagnetic lifter actuating device between described electromagnet and support frame as described above, drive described electromagnet along the direction crank motion that pilot bar limits by described electromagnetic lifter actuating device.

Preferably, described electromagnetic lifter actuating device comprises air cylinder device or motor.

A kind of screw-thread steel leads to chi material and scale material separation method, and described method comprises:

When above screw-thread steel is sent to transfer roller, controls lift chain group and stop operating, and control lift chain group and move downward, until lift chain group is lower than the upper roll surface of transfer roller, screw-thread steel falls within transfer roller;

Control electromagnet moves downward, until electromagnet is concordant with reference plane;

To electromagnet energising, and control electromagnet upward movement one segment distance;

Control transfer roller is rotated, and logical chi material is moved to lower procedure along the direction of transfer of transfer roller;

Control lift chain group upward movement, until lift chain group is higher than the upper roll surface certain distance of transfer roller;

To electromagnet power-off, scale material drops down onto in lift chain group;

Control lift chain group to start to rotate, scale material is moved to lower procedure.

Preferably, the direction of transfer of described lift chain group and the direction of transfer of described transfer roller mutually vertical.

From above technical scheme, a kind of screw-thread steel that the embodiment of the present invention provides leads to chi material and scale material piece-rate system and method and utilizes lift chain group, transfer roller and the alternating movement of electromagnetic lifter to achieve screw-thread steel to lead to chi material and be separated with the automatic of scale material, work efficiency is high, improve the degree of automation of screw-thread steel manufacturing line, accelerate rhythm of production; In addition, owing to adopting mechanical device to be automatically separated with scale material logical chi material, therefore, reduce the labour intensity of operating personal, improve operating environment, reduce the risk of the operations such as operating personal heatstroke, scald, scuffing.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, for those of ordinary skills, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the production procedure schematic diagram of screw-thread steel;

Fig. 2 leads to chi material and scale material piece-rate system birds-eye view for a kind of screw-thread steel that the embodiment of the present invention provides;

Fig. 3 leads to chi material and scale material piece-rate system front elevation for a kind of screw-thread steel that the embodiment of the present invention provides;

The transfer roller structural representation that Fig. 4 provides for the embodiment of the present invention;

The lift chain structural representation that Fig. 5 provides for the embodiment of the present invention;

The electromagnetic lifter structural representation that Fig. 6 provides for the embodiment of the present invention;

Symbol in Fig. 1-Fig. 6 is expressed as: 1-heating furnace, 21-roughing mill, milling train in 22-, 23-finishing mill, 4-Double Dimension Flying Shears, 5-cold bed, 6-cold shears, 61-is flush baffle plate, 7-screw-thread steel, 71-leads to chi material, 72-scale material, 8-conveyer chain, 9-bander, 10-lift chain group, 11-lift chain, 111-dropping section, 112-canned paragraph, 113-jointed shaft, 114-lift chain actuating device, 12-transfer roller, 121-roller, 13-electromagnetic lifter, 131-electromagnet, 132-bracing frame, 133-pilot bar, 134-electromagnetic lifter actuating device, 14-air cylinder device, 141-cylinder tail support, 142-cylinder end pin axle, 143-cylinder, 144-cylinder head bearing pin, 145-cylinder head support.

Detailed description of the invention

Technical scheme in the present invention is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, should belong to the scope of protection of the invention.

In the production process of screw-thread steel 7, enter after cutting to length in the screw-thread steel 7 of conveyer chain 8 usually doped with logical chi material 71, and logical chi material 71 is the steel not meeting production requirement, before double thread steel 7 carries out bundling, therefore need logical chi material 71 to choose in scale material 72.

In order to improve the production efficiency of screw-thread steel 7, reduce the labour intensity of operating personal, embodiments provide a kind of screw-thread steel and lead to chi material and scale material piece-rate system, it is applied in screw-thread steel 7 manufacturing line, Fig. 2 leads to chi material and scale material piece-rate system birds-eye view for a kind of screw-thread steel that the embodiment of the present invention provides, Fig. 3 leads to chi material and scale material piece-rate system front elevation for a kind of screw-thread steel that the embodiment of the present invention provides, as Fig. 2 and shown in composition graphs 3, a kind of screw-thread steel that the embodiment of the present invention provides leads to chi material and scale material piece-rate system and comprises and be located at flush baffle plate 61 side (between cold shears 6 and flush baffle plate 61), for transmitting the lift chain group 10 of screw-thread steel 7, it comprises many lift chain be parallel to each other 11, this lift chain group 10 is as the part of conveyer chain 8 in screw-thread steel 7 manufacturing line or the conveyer chain 8 that replaces in screw-thread steel 7 manufacturing line, be applied in the manufacturing line of screw-thread steel 7.

The transfer roller structural representation that Fig. 4 provides for the embodiment of the present invention, as shown in Figure 4, transfer roller 12 is made up of multiple roller 121 be arranged in parallel, extends along the X-direction in Fig. 2, and wherein, lift chain 11 and roller 121 are staggered in the X direction.

With the plane at the upper roll surface place of transfer roller 12 for reference plane, lift chain group 10 in the present invention not only can transmit screw-thread steel 7 in the Y direction but also can above rise in the direction (vertical) perpendicular to reference plane or decline, and then the screw-thread steel 7 driving it to carry rises or declines in vertical, its extreme higher position of rising is higher than reference plane, the extreme lower position declined is lower than reference plane, namely lift chain group 10 is being flexibly connected above and below in the stroke of reference plane, then when lift chain group 10 drops to the position lower than reference plane, the screw-thread steel 7 that it carries mounts in transfer roller 12, screw-thread steel 7 is realized by the conversion of lift chain group 10 to transfer roller 12.

Wherein, the mode of motion of lift chain group 10 in vertical can for translation or swing, and in embodiments of the present invention, the one end adopting the mode swung to realize lift chain group 10 is above and below crank motion in the stroke of reference plane.The lift chain structural representation that Fig. 5 provides for the embodiment of the present invention, as shown in Figure 5, lift chain 11 comprises canned paragraph 112 and dropping section 111, canned paragraph 112 maintains static, rotaryed connection with one end of canned paragraph 112 by the jointed shaft 113 being parallel to reference plane in one end of dropping section 111, lift chain actuating device 114 is also provided with away from one end of jointed shaft 113 at dropping section 111, drive dropping section 111 to swing along jointed shaft 113 by lift chain actuating device 114, and then realize dropping section 111 and be higher or lower than reference plane.Lift chain actuating device 114 adopts air cylinder device 14 in embodiments of the present invention, this air cylinder device 14 is by cylinder tail support 141, cylinder end pin axle 142, cylinder 143, cylinder head bearing pin 144 and cylinder head support 145 form, wherein, cylinder tail support 141 is fixedly installed on the support surface as the supporter of air cylinder device 14, cylinder tail support 141 is by cylinder end pin axle 142 and cylinder 143 pivotal joint, cylinder 143 is by cylinder head bearing pin 144 and cylinder head support 145 pivotal joint, cylinder head support 145 is fixedly installed on dropping section 111 one end away from jointed shaft 113, dropping section 111 is driven to swing by the crank motion of cylinder 143.Certainly, other actuating device that lift chain actuating device 114 can also adopt the present invention to commonly use except air cylinder device 14, such as motor etc., should not it can be used as the restriction of scope.

Electromagnetic lifter 13 is also provided with away from the side of flush baffle plate 61 in lift chain group 10; electromagnetic lifter 13 comprises at least one block of electromagnet 131; in a kind of preferred version; the quantity of electromagnet 131 is one piece; arrange along the direction perpendicular to transfer roller 12; but the quantity of electromagnet 131 can be adjusted to 3 pieces, 4 pieces or 5 pieces etc. according to needs of production correspondence, and it all should fall within protection scope of the present invention.

The electromagnetic lifter structural representation that Fig. 6 provides for the embodiment of the present invention, as shown in Figure 6, electromagnet 131 is flexibly connected along the direction perpendicular to reference plane, its concrete connection mode is: the both sides of transfer roller 12 are located at by the bracing frame 132 of electromagnetic lifter 13, electromagnet 131 is connected with bracing frame 132 translation by the pilot bar 133 perpendicular to reference plane, make electromagnet 131 can along the direction up-and-down movement perpendicular to reference plane, its extreme lower position declined is parallel with reference plane, electromagnet 131 is made to adsorb one end of scale material 72, its extreme higher position of rising is higher than reference plane, and then drag one end of scale material 72 away from reference plane, when transfer roller 12 is run, logical chi material 71 is sent to lower procedure, the logical chi material 71 of realization is separated with scale material 72.

In order to drive magnetic 131 moves; electromagnetic lifter actuating device 134 is also provided with between electromagnet 131 and bracing frame 132; the actuating device that electromagnetic lifter actuating device 134 can adopt those skilled in the art to commonly use; such as air cylinder device 14 or motor etc.; in a kind of preferred embodiment of the present invention, adopt air cylinder device 14 as electromagnetic lifter actuating device, but should not it can be used as the restriction of scope.In electromagnetic lifter 13, the concrete structure of air cylinder device 14 with reference to the air cylinder device 14 in above-mentioned lift chain 11, in order to save length, can not repeat them here.

Based on said system, the embodiment of the present invention also provides a kind of screw-thread steel to lead to chi material and scale material separation method, and it mainly comprises the following steps:

Step S100: when above screw-thread steel 7 is sent to transfer roller 12, controls lift chain group 10 and stops operating, and controls lift chain group 10 and move downward, until lift chain group 10 is lower than the upper roll surface of transfer roller 12, screw-thread steel 7 falls within transfer roller 12;

Screw-thread steel 7 after cold shears 6 is sheared enters lift chain group 10, and along the Y-direction transmission in Fig. 2, in screw-thread steel 7 now, logical chi material 71 and scale material 72 mix.When lift chain group 10 transmits screw-thread steel 7 along Y-direction, it is higher than the upper roll surface of transfer roller 12 in vertical, and therefore, transfer roller 12 can not interfere the transmission route of lift chain group 10.

When detecting that screw-thread steel 7 is sent to the top of transfer roller 12, control lift chain group 10 to stop operating, now screw-thread steel 7 stops at the top of transfer roller 12, further, control lift chain group 10 to move downward, then when the upper roll surface of lift chain group 10 lower than transfer roller 12 in vertical, the stop that screw-thread steel 7 in lift chain group 10 is subject to transfer roller 12 has no idea to continue to decline, mounted in transfer roller 12, and lift chain group 10 continues to decline, screw-thread steel 7 is made to realize by the conversion of lift chain group 10 to transfer roller 12, screw-thread steel 7 now in transfer roller 12 leads to chi material 71 and scale material 72 mixes.

Step S200: control electromagnet 131 and move downward, until electromagnet 131 is concordant with reference plane;

Because electromagnetic lifter 13 is arranged on the side of lift chain group 10 away from flush baffle plate 61, the i.e. non-flush side (as shown in Figure 2) of screw-thread steel 7, scale material 72 is only had to have enough length extension value electromagnet 131 positions, therefore, when control electromagnet 131 moves downwardly to concordant with reference plane, only have the end of scale material 72 can touch electromagnet 131.

Step S300: electromagnet 131 is energized, and control electromagnet 131 upward movement one segment distance;

After electromagnet 131 is energized, electromagnet 131 produces suction, the one end of the scale material 72 be in contact with it is adsorbed on electromagnet 131, and with electromagnet 131 upward movement, dragged away from the upper surface of transfer roller 12 by electromagnet 131, and logical chi material 71 is not owing to being adsorbed by electromagnet 131, be therefore still positioned in transfer roller 12.

Step S400: control transfer roller 12 and rotate, logical chi material 71 is moved to lower procedure along the direction of transfer of transfer roller 12;

When transfer roller 12 is rotated, logical chi material 71 is sent to lower procedure along the X-direction in Fig. 2, and scale material 72 is owing to being adsorbed by electromagnet 131, is therefore still fixed on original place, now namely achieves being separated of logical chi material 71 and scale material 72.

Step S500: control lift chain group 10 upward movement, until lift chain group 10 is higher than the upper roll surface certain distance of transfer roller 12;

When lift chain group 10 moves up to the upper roll surface higher than transfer roller 12, screw-thread steel 7 mounts again in lift chain group 10, screw-thread steel 7 is made to realize by the conversion of transfer roller 12 to lift chain group 10, owing to logical chi material 71 being transported in step S400, therefore, the screw-thread steel 7 now in lift chain group 10 is all scale material 72.

Step S600: to electromagnet 131 power-off, scale material 72 drops down onto in lift chain 11;

Lose the adsorption affinity of double thread steel 7 after electromagnet 131 power-off, screw-thread steel 7 again drops down onto in lift chain group 10 under self gravitation effect.

Step S700: control lift chain group 10 and start to rotate, scale material 72 is moved to lower procedure.

Lift chain group 10 is rotated, and continues to transmit screw-thread steel 7 along Y-direction, and screw-thread steel 7 is now all scale material 72, directly can enter lower procedure and carry out bundle and roll transport etc.

According to technique scheme, a kind of screw-thread steel provided by the present invention leads to chi material and scale material piece-rate system and method, in lift chain group 10 and the logical chi material 71 of intersection's realization of transfer roller 12 and being separated of scale material 72, logical chi material 71 and scale material 72 is made to be sent to lower procedure along orthogonal X-direction and Y-direction respectively, achieve logical chi material 71 to be separated with the automatic of scale material 72, not only work efficiency is high, improves the degree of automation of screw-thread steel manufacturing line, accelerates rhythm of production; And reduce the labour intensity of operating personal, improve operating environment, reduce the risk of the operations such as operating personal heatstroke, scald, scuffing.

It should be noted that, in this article, the such as relational terms of " first " and " second " etc. and so on is only used for an entity or operation to separate with another entity or operational zone, and not necessarily requires or imply the relation that there is any this reality between these entities or operation or sequentially.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

The above is only the specific embodiment of the present invention, those skilled in the art is understood or realizes the present invention.To be apparent to one skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein can without departing from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. a screw-thread steel leads to chi material and scale material piece-rate system, for screw-thread steel manufacturing line, it is characterized in that, comprise and be located at flush baffle plate (61) side, for transmitting the lift chain group (10) of screw-thread steel (7), described lift chain group (10) comprises many lift chain be parallel to each other (11), direction of transfer perpendicular to described lift chain group (10) is also provided with one section of transfer roller (12) be made up of multiple roller (121), with the plane at the upper roll surface place of described transfer roller (12) for reference plane, described lift chain group (10) is along the direction perpendicular to described reference plane, be flexibly connected in the stroke above and below described reference plane, electromagnetic lifter (13) is also provided with away from the side of described flush baffle plate (61) described lift chain group (10), described electromagnetic lifter (13) comprises at least one block of electromagnet (131), described electromagnet (131) is along the direction perpendicular to described reference plane, be flexibly connected in concordant and stroke higher than described reference plane, and described electromagnet (131) is being positioned at described transfer roller (12) perpendicular to the projection on described reference plane direction.

2. system according to claim 1, it is characterized in that, described lift chain (11) comprises canned paragraph (112) and dropping section (111), described canned paragraph (112) and dropping section (111) are by being parallel to jointed shaft (113) rotary connection of described reference plane, described dropping section (111) is provided with lift chain actuating device (114) away from one end of described jointed shaft (113), drives described dropping section (111) to swing along described jointed shaft (113) by described lift chain actuating device (114).

3. system according to claim 2, is characterized in that, described lift chain actuating device (114) comprises air cylinder device (14) or motor.

4. system according to claim 1, is characterized in that, described lift chain (11) and described roller (121) are staggered along described transfer roller (12) direction.

5. system according to claim 1, is characterized in that, described roller (121) rotates towards the direction of described electromagnetic lifter (13).

6. system according to claim 1, is characterized in that, the quantity of described electromagnet (131) is one piece, arranges along the direction perpendicular to described transfer roller (12).

7. the system according to claim 1 or 6, it is characterized in that, described electromagnetic lifter (13) comprises bracing frame (132), described electromagnet (131) is connected with support frame as described above (132) translation by the pilot bar (133) perpendicular to described reference plane, electromagnetic lifter actuating device (134) is also provided with, the direction crank motion driving described electromagnet (131) to limit along pilot bar (133) by described electromagnetic lifter actuating device (134) between described electromagnet (131) and support frame as described above (132).

8. system according to claim 7, is characterized in that, described electromagnetic lifter actuating device (134) comprises air cylinder device (14) or motor.

9. screw-thread steel leads to chi material and a scale material separation method, and adopt the system described in any one of claim 1-8, it is characterized in that, described method comprises:

When screw-thread steel (7) is sent to transfer roller (12) top, control lift chain group (10) to stop operating, and control lift chain group (10) and move downward, until lift chain group (10) is lower than the upper roll surface of transfer roller (12), screw-thread steel (7) falls within transfer roller (12);

Control electromagnet (131) to move downward, until electromagnet (131) is concordant with reference plane;

To electromagnet (131) energising, and control electromagnet (131) upward movement one segment distance;

Controlling transfer roller (12) to rotate, moving to lower procedure by leading to the direction of transfer of chi material (71) along transfer roller (12);

Control lift chain group (10) upward movement, until lift chain group (10) is higher than the upper roll surface certain distance of transfer roller (12);

To electromagnet (131) power-off, scale material (72) drops down onto in lift chain group (10);

Control lift chain group (10) to start to rotate, scale material (72) is moved to lower procedure.

10. method according to claim 9, is characterized in that, the direction of transfer of described lift chain group (10) is mutually vertical with the direction of transfer of described transfer roller (12).