CN202902845U - Net belt deviation-correcting device - Google Patents

Abstract

The utility model discloses a net belt deviation-correcting device which comprises a rack (1), a net belt (3) and a plurality of fixed carrier rollers (3) fixed on the rack, wherein the net belt is arranged on the fixed carrier rollers and can move circularly. The net belt deviation-correcting device further comprises a movable carrier roller set (4), a sensing element (5) and a control component (6) which controls the moving of the movable carrier roller set according to sensing signals of the sensing element, wherein the control component is fixed on the rack, the movable carrier roller set is movably arranged on the rack along the direction perpendicular to the conveying direction of the net belt, the net belt is arranged on the movable carrier roller set, and the sensing element is movably installed on the rack and contacts with the edge of the net belt. The sensing element is arranged to contact with the edge of the net belt to sense the position of the net belt continuously and then to correct deviation of the net belt continuously. Thus, abnormal friction between the net belt and the rack is reduced, and the operating reliability of a hearth in a furnace is promoted.

Description

Deviation-rectifying device for mesh belt

Technical field

The utility model relates to the kiln field, particularly, relates to a kind of deviation-rectifying device for mesh belt for kiln.

Background technology

Kiln belongs to the continuity kiln, and guipure and electrical heating tunnel two parts of being weaved into by stainless steel form, and the stainless steel guipure is mainly used in the drying and roasting of catalyst, granular materials by fixedly carrying roller carrying.

Because guipure is in the situations such as furnace heating-up, cooling and passive carrying roller unbalance stress, can causes guipure in running, to produce and elongate or shorten, and then be wavy and advance.Make thus guipure often can produce the phenomenon of left and right sides sideslip, cause guipure and frame that improper friction occurs, cause the guipure edge abrasion, damage burner hearth etc.

The utility model content

The purpose of this utility model provides a kind of deviation-rectifying device for mesh belt, and this deviation-rectifying device for mesh belt can be rectified a deviation to guipure constantly.

To achieve these goals, the utility model provides a kind of deviation-rectifying device for mesh belt, this deviation-rectifying device for mesh belt comprises frame, guipure and a plurality of fixedly carrying rollers that are fixed on the frame, described guipure is capable of circulation to be arranged on the described fixedly carrying roller movably, wherein, described deviation-rectifying device for mesh belt also comprises movable carrying roller group, sensing element and control the Control Component that described movable carrying roller group moves according to the sensing signal of described sensing element, this Control Component is fixed on the described frame, described movable carrying roller group edge is arranged on the described frame movably perpendicular to the direction of the transmission direction of described guipure, described guipure is arranged on the movable carrying roller group, described sensing element be installed in movably on the described frame and with the EDGE CONTACT of described guipure.

Further, described movable carrying roller group comprises the first movable carrying roller and the second movable carrying roller that is parallel to each other, the roll shaft of the described first movable carrying roller and described the second movable carrying roller is fixedly connected with in the end, and described guipure is walked around the described first movable carrying roller and the described second movable carrying roller successively with S-shaped layout.

Preferably, the roll shaft of the described first movable carrying roller and described the second movable carrying roller is fixedly connected with by the first connector, described Control Component comprises controller and motor, described controller is electrically connected with described sensing element and described motor respectively, described the first connector is fixedly connected with the second connector, and this second connector is fixed in the rotating shaft of described motor swingably by screw arbor assembly.

Preferably, described deviation-rectifying device for mesh belt also comprises the tensioning carrying roller that the tensioning cylinder body is fixedly connected with expansion link with this tensioning cylinder body, described tensioning cylinder body is fixed on the described frame, described tensioning carrying roller is arranged on the described frame movably along the direction that is parallel to the transmission direction of described guipure, and described guipure is walked around described tensioning carrying roller and arranged.

Preferably, described a plurality of fixedly carrying rollers comprise fixedly carrying roller of upper strata, and described deviation-rectifying device for mesh belt also comprises carriage, and this carriage is fixed on the described frame, and on two described upper stratas fixedly between the carrying roller, described guipure is carried on the described carriage movably.

Preferably, described carriage comprises framework and is fixed on support member in this framework, and this support member is arranged symmetrically with along described pallet centerline, and this support member favours the length direction of described carriage, is provided with reinforcement between support member.

Preferably, described deviation-rectifying device for mesh belt also comprises gear wheel, and this gear wheel is arranged on the both sides of described guipure, and on two described upper stratas fixedly between the carrying roller.

Be set to EDGE CONTACT with guipure by sensing element in the utility model, with the position of sensing guipure continuously, and then constantly guipure is rectified a deviation, thereby reduced guipure and improper friction occurs frame, improved the operational reliability of burner hearth in kiln.

Other feature and advantage of the present utility model will partly be described in detail in the specific embodiment subsequently.

Description of drawings

Accompanying drawing is to be used to provide further understanding of the present utility model, and consists of the part of specification, is used from explanation the utility model with the following specific embodiment one, but does not consist of restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the part-structure schematic diagram of the side-looking of deviation-rectifying device for mesh belt of the present utility model, does not wherein comprise Control Component;

Fig. 2 is the part-structure schematic diagram of overlooking of deviation-rectifying device for mesh belt of the present utility model;

Fig. 3 is the structural representation of carriage in the utility model.

Description of reference numerals

1 frame, 2 guipures

3 fixing carrying roller 4 movable carrying roller groups

5 sensing elements, 6 Control Components

7 tensioning cylinder bodies, 8 tensioning carrying rollers

9 carriages, 10 gear wheels

31 upper stratas are carrying roller 32 middle fixedly carrying rollers fixedly

33 lower floors are carrying roller 41 first movable carrying rollers fixedly

42 second movable carrying roller 43 first connectors

61 controllers, 62 motors

63 second connectors, 91 frameworks

92 support members, 93 reinforcements

The specific embodiment

Below in conjunction with accompanying drawing the specific embodiment of the present utility model is elaborated.Should be understood that, the specific embodiment described herein only is used for description and interpretation the utility model, is not limited to the utility model.

In the utility model, in the situation that do opposite explanation, the noun of locality of use typically refers to upper and lower, left and right in the accompanying drawing such as " upper and lower, left and right ".

Referring to Fig. 1 to Fig. 3, the utility model relates to a kind of deviation-rectifying device for mesh belt, and this deviation-rectifying device for mesh belt is adapted in the kiln, but is not limited to use in kiln.Wherein, deviation-rectifying device for mesh belt comprises frame 1, guipure 2 and is fixed on a plurality of fixedly carrying rollers 3 on the frame 1, and guipure 2 is capable of circulation to be arranged on fixedly on the carrying roller 3 movably.As shown in Figure 1, frame comprises column, crossbeam and fixed head (unmarked) etc., a plurality of fixedly carrying rollers 3 can be further divided into the fixedly fixing carrying roller 33 of carrying roller 31, middle fixedly carrying roller 32 and lower floor of upper strata, the upper strata fixedly carrying roller 31 and lower floor fixedly carrying roller 33 be separately fixed on entablature and the sill, middle fixedly carrying roller 32 is fixed on the column, guipure 2 from lower floor fixedly carrying roller 33 through the centre fixedly behind the carrying roller 32 loopy moving to the upper strata fixedly on the carrying roller 31.The catalyst, granular materials etc. that are used for the operation such as drying and roasting on two upper stratas fixedly the guipure between the carrying roller 31 2 transmit.

As previously mentioned, guipure 2 may cause because of many reasons such as furnace heating-up, coolings the phenomenon of guipure 2 sideslips.For this reason, deviation-rectifying device for mesh belt of the present utility model also comprises movable carrying roller group 4, sensing element 5 and Control Component 6.Wherein, Control Component 6 is fixed on the frame 1, particularly, be fixed on the fixed head (unmarked) of frame 1, movable carrying roller group 4 edges are arranged on the frame 1 movably perpendicular to the direction of the transmission direction of guipure 2, guipure 2 is arranged on the movable carrying roller group 4, sensing element 5 be installed in movably frame 1 and with the EDGE CONTACT of guipure 2.Like this, since sensing element 5 can move and with the EDGE CONTACT of guipure 2, when guipure 2 sideslip, sensing element 5 is followed guipure 2 skews, whether the center line that can constantly detect like this sensing element 5 self changes, in other words whether the position at the edge of sensing guipure 2 changes constantly, and sensing signal is sent to Control Component 6, and then Control Component 6 is controlled the movement of movable carrying roller group 4 according to the sensing signal that receives.Wherein, sensing element 5 can be polytype sensor, and the utility model does not limit this.

As depicted in figs. 1 and 2, movable carrying roller group 4 specifically can comprise the first movable carrying roller 41 and the second movable carrying roller 42 that is parallel to each other, the roll shaft of the first movable carrying roller 41 and the second movable carrying roller 42 is fixedly connected with in the end, and guipure 2 is walked around the first movable carrying roller 41 and the second movable carrying roller 42 successively with S-shaped layout.Like this, when moving, movable carrying roller group 4 can apply clamping force to guipure 2 under the control of Control Component 6, the reliability that moves to improve guipure 2.The the first movable carrying roller 41 that be arranged in parallel and the second 42 of movable carrying rollers can make guipure 2 stressed even.

Further, the roll shaft of the first movable carrying roller 41 and the second movable carrying roller 42 is fixedly connected with by the first connector 43, so that the first movable carrying roller 41 and the second movable carrying roller 42 carry out synchronizing moving.Particularly, Control Component 6 comprises controller 61 and motor 62, and controller 61 and motor 62 are separately fixed on the fixed head of frame, and controller 61 is connected electrical connection (mainly be connected by electric wire, do not show electric wire among the figure) with sensing element 5 respectively with motor.And the first connector 43 is fixedly connected with the second connector 63, and this second connector 63 is fixed in the rotating shaft of motor 62 swingably by the screw arbor assembly (not shown).Wherein, the opposite direction of the first movable carrying roller 41 and the second movable carrying roller 42 synchronization-moving directions and guipure 2 sideslips, the control program incompatible realization that matches in the sensing signal that this can be by sensing element 5 and the controller 61.

Be appreciated that, the rotating shaft of motor 62 is rotated motion, revolving force is passed to screw arbor assembly, this screw arbor assembly is converted to horizontal revolving force the revolving force of vertical direction, after the end of the second connector 63 is hinged on the vertical bar of screw arbor assembly, can swing owing to the rotation of vertical bar, thereby make the first movable carrying roller 41 and the second movable carrying roller 42 synchronizing movings by the first connector 43 that is fixedly connected with the second connector 63.Therefore, for example, guipure is during along the direction sideslip that makes progress shown in Figure 2, controller 61 rotates facing one direction according to sensing signal control motor 62, so that the vertical bar of the screw arbor assembly that is attached thereto rotates facing one direction, and then drive with hinged the second connector 62 of vertical bar and swing, make the first movable carrying roller 41 and the second movable carrying roller 42 drive guipures 2 and move realization correction process to downward direction.

Because the EDGE CONTACT of sensing element 5 and guipure 2 in the utility model, whether change with the position at the edge of sensing guipure 2 continuously, namely can rectify a deviation to guipure 2 constantly, make the sideslip distance of guipure 2 be no more than 5cm, with frame 1 improper friction occuring thereby reduce guipure 2, has improved the operational reliability of burner hearth in kiln.

Because guipure 2 easily produces in the intensification of kiln or temperature-fall period and elongates or shortens.Therefore, referring to Fig. 1, the utility model can also comprise the tensioning carrying roller 8 that tensioning cylinder body 7 is fixedly connected with expansion link with this tensioning cylinder body 7, tensioning cylinder body 7 is fixed on the frame 1, tensioning carrying roller 8 is arranged on the frame 1 movably along the direction that is parallel to the transmission direction of guipure 2, and guipure 2 is walked around tensioning carrying roller 8 and arranged.When guipure 2 elongation, the expansion link of tensioning cylinder body 7 to the right direction in Fig. 1 is stretched out, and moves right thereby drive tensioning carrying roller 8, to increase the tensile force of guipure 2; When guipure 2 shortened, the expansion link of tensioning cylinder body 7 was retracted, and drove tensioning carrying roller 8 and was moved to the left, to reduce the tensile force of guipure 2.

Need to prove, the move left and right of tensioning carrying roller 8 on the crossbeam of frame 1 can realize by slide rail and chute, but be not limited to the mode of slide rail and chute, and those skilled in the art can carry out multiple modification to this, describe no longer one by one at this.In addition, although do not show among the figure, tensioning cylinder body 7 can be arranged in the both sides of guipure 2 symmetrically, applies identical tensile force with the two ends to tensioning carrying roller 8, makes the both sides of guipure 2 reach identical rate of tension.Wherein, tensioning cylinder body 7 can be hydraulic cylinder, but is not limited to hydraulic cylinder, but also can other manual tension device etc.

In addition and since the catalyst, granular materials etc. that are used for the operation such as drying and roasting on two upper stratas fixedly the guipure between the carrying roller 31 2 transmit, in order to increase the bearing capacity of guipure 2, deviation-rectifying device for mesh belt of the present utility model can also comprise carriage 9.Referring to Fig. 1, this carriage 9 is fixed on the frame 1, and on two upper stratas fixedly between the carrying roller 31, guipure 2 is carried on the carriage 9 movably.

Referring to Fig. 3, described carriage 9 comprises framework 91 and the support member 92 that is fixed in this framework 91, and this support member 92 is arranged symmetrically with along carriage 9 center lines, and this support member 92 favours the length direction of carriage 9.As shown in the figure, because support member 92 tilts to be arranged to symmetrically fish bone well, so that guipure 2 is subject to the frictional force towards the centerline direction of carriage 9 in transmission course, further play the effect of correction guipure 2.In addition, between support member 92, be provided with reinforcement 93, can improve the intensity of carriage 9.

In addition, referring to Fig. 1, deviation-rectifying device for mesh belt of the present utility model also includes gear wheel 10, and this gear wheel 10 is arranged on the both sides of guipure 2, and on two upper stratas fixedly between the carrying roller 31.After gear wheel 10 is set, owing to the barrier effect of gear wheel 10, also guipure 2 is played the effect of correction.

Below describe by reference to the accompanying drawings preferred embodiment of the present utility model in detail; but; the utility model is not limited to the detail in the above-mentioned embodiment; in technical conceive scope of the present utility model; can carry out multiple simple variant to the technical solution of the utility model, these simple variant all belong to protection domain of the present utility model.

Need to prove in addition, each concrete technical characterictic described in the above-mentioned specific embodiment in reconcilable situation, can make up by any suitable mode, for fear of unnecessary repetition, the utility model is to the no longer separately explanation of various possible combinations.

In addition, also can carry out any combination between the various embodiment of the present utility model, as long as it is without prejudice to thought of the present utility model, it should be considered as content disclosed in the utility model equally.

Claims (7)

1. deviation-rectifying device for mesh belt, this deviation-rectifying device for mesh belt comprises frame (1), guipure (2) and be fixed on a plurality of fixedly carrying rollers (3) on the frame (1), described guipure (2) is capable of circulation to be arranged on the described fixedly carrying roller (3) movably, it is characterized in that, described deviation-rectifying device for mesh belt also comprises movable carrying roller group (4), sensing element (5) and the Control Component (6) of controlling described movable carrying roller group (4) movement according to the sensing signal of described sensing element (5), this Control Component (6) is fixed on the described frame (1), described movable carrying roller group (4) edge is arranged on the described frame (1) movably perpendicular to the direction of the transmission direction of described guipure (2), described guipure (2) is arranged on the movable carrying roller group (4), described sensing element (5) be installed in movably described frame (1) upper and with the EDGE CONTACT of described guipure (2).

2. deviation-rectifying device for mesh belt according to claim 1, it is characterized in that, described movable carrying roller group (4) comprises the first movable carrying roller (41) and the second movable carrying roller (42) that is parallel to each other, the roll shaft of the described first movable carrying roller (41) and the described second movable carrying roller (42) is fixedly connected with in the end, and described guipure (2) is walked around the described first movable carrying roller (41) and the described second movable carrying roller (42) successively with S-shaped layout.

3. deviation-rectifying device for mesh belt according to claim 2, it is characterized in that, the roll shaft of the described first movable carrying roller (41) and the described second movable carrying roller (42) is fixedly connected with by the first connector (43), described Control Component (6) comprises controller (61) and motor (62), described controller (61) is electrically connected with described sensing element (5) and described motor (62) respectively, described the first connector (43) is fixedly connected with the second connector (63), and this second connector (63) is fixed in the rotating shaft of described motor (62) swingably by screw arbor assembly.

4. deviation-rectifying device for mesh belt according to claim 1, it is characterized in that, described deviation-rectifying device for mesh belt also comprises the tensioning carrying roller (8) that tensioning cylinder body (7) is fixedly connected with expansion link with this tensioning cylinder body (7), described tensioning cylinder body (7) is fixed on the described frame (1), described tensioning carrying roller (8) is arranged on the described frame (1) movably along the direction that is parallel to the transmission direction of described guipure (2), and described guipure (2) is walked around described tensioning carrying roller (8) and arranged.

5. deviation-rectifying device for mesh belt according to claim 1, it is characterized in that, described a plurality of fixedly carrying rollers (3) comprise fixedly carrying roller (31) of upper strata, described deviation-rectifying device for mesh belt also comprises carriage (9), this carriage (9) is fixed on the described frame (1), and be positioned at two described upper stratas fixedly between the carrying roller (31), described guipure (2) is carried on the described carriage (9) movably.

6. deviation-rectifying device for mesh belt according to claim 5, it is characterized in that, described carriage (9) comprises framework (91) and is fixed on the interior support member (92) of this framework (91), this support member (92) is arranged symmetrically with along described carriage (9) center line, and this support member (92) favours the length direction of described carriage (9), is provided with reinforcement (93) between support member (92).

7. deviation-rectifying device for mesh belt according to claim 5 is characterized in that, described deviation-rectifying device for mesh belt also comprises gear wheel (10), and this gear wheel (10) is arranged on the both sides of described guipure (2), and is positioned at two described upper stratas fixedly between the carrying roller (31).

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