CN213793879U - Steel strip flattening conveying guide mechanism for continuous production of heat shields - Google Patents
Steel strip flattening conveying guide mechanism for continuous production of heat shields Download PDFInfo
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- CN213793879U CN213793879U CN202022620633.6U CN202022620633U CN213793879U CN 213793879 U CN213793879 U CN 213793879U CN 202022620633 U CN202022620633 U CN 202022620633U CN 213793879 U CN213793879 U CN 213793879U
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Abstract
The utility model discloses a carry guiding mechanism with steel band is leveled to separate heat exchanger continuous production, which comprises a frame, fine-tuning around being fixed with on the top surface of the roof of frame, be fixed with on the top surface of the movable plate of fine-tuning around, the lower part between two curb plates is equipped with the transport guide roll that extends around a plurality of around going up around supporting shell, it installs a plurality of adjusting cylinder that compress tightly on supporting shell's the roof to go up, the bottom mounting of all push rods that compress tightly adjusting cylinder is on same last lifter plate, be fixed with down the compacting plate on the bottom surface of rising lifter plate, the compacting plate is in all directly over carrying the guide roll down. The utility model discloses can normally carry the steel band that the thick steel band rolled up out to can adjust the transport position of steel band, guarantee normal transport, carry stably, effectual.
Description
Technical Field
The utility model relates to a hardware processing equipment technical field, more specifically say and relate to a smooth guiding mechanism that carries of steel band for heat exchanger continuous production that separates.
Background
The existing tubular heat shield is generally formed by punching a plate body with a corresponding shape on a steel plate through a punching die, and then subsequent processing is carried out, generally, the plate body is formed by punching on a common horizontal steel plate, after one product is finished, waste materials and formed materials of the product need to be taken out, and a new steel plate is installed.
SUMMERY OF THE UTILITY MODEL
The utility model aims at overcoming prior art's is not enough, provides a smooth guiding mechanism that carries of steel band for heat exchanger continuous production, and it can be with the steel band normal transportation that the thick steel band rolled out to can adjust the transport position of steel band, guarantee normal transport, carry stably, effectual.
The utility model provides a technical problem's scheme is:
a steel belt leveling conveying guide mechanism for continuous production of heat shields comprises a rack, wherein a front fine adjustment mechanism and a rear fine adjustment mechanism are fixed on the top surface of a top plate of the rack, an upper support shell is fixed on the top surface of a movable plate of the front fine adjustment mechanism and the rear fine adjustment mechanism, a plurality of conveying guide rollers extending front and rear are arranged at the lower part between a front side plate and a rear side plate of the upper support shell, a plurality of pressing and adjusting oil cylinders are mounted on the top plate of the upper support shell, the bottom ends of push rods of all the pressing and adjusting oil cylinders are fixed on the same upper lifting plate, a lower pressing plate is fixed on the bottom surface of the upper lifting plate, and the lower pressing plate is positioned right above all the conveying guide rollers;
the guide roller device is characterized in that a right supporting plate is fixed on the right side wall of the rack, side guide supporting plates with arc-shaped wall surfaces are fixed on the front portion and the rear portion of the right side wall of the right supporting plate, two ends of the guide rollers are hinged to the upper portions of the two side guide supporting plates through bearings, and all the guide rollers are uniformly distributed along the top surfaces of the side guide supporting plates.
The left end top surface of two side guide support plates is formed with vertical portions extending upwards, an upper guide roller is arranged between the two vertical portions, and two ends of the upper guide roller are hinged to the two vertical portions through bearings.
The top surface of the conveying guide roller is level with the top surface of the guide roller at the leftmost end.
A horizontal connecting plate is fixed on the upper part of the right side wall of the right supporting plate, the middle part of the top surface of the horizontal connecting plate is hinged with two vertical guide rollers through a bearing, and the top ends of the two vertical guide rollers are hinged on the upper top plate through the bearing;
the two vertical guide rollers are positioned between the upper guide roller and one of the guide rollers.
The front and back fine adjustment mechanism comprises end connection plates fixed to the front portion and the rear portion of the top face of a top plate of the rack, two ends of a middle conveying screw extending front and back are hinged to the two end connection plates through bearings, a fine adjustment motor is fixed to the outer side wall of one end connection plate and drives the middle conveying screw to rotate, an adjusting block is screwed on the middle conveying screw, and a moving plate is fixed to the top face of the adjusting block.
The bottom surface of the moving plate is fixed with a plurality of sliding blocks, the top surface of the top plate of the rack is fixed with a guide strip extending forwards and backwards, and the upper part of the guide strip is inserted in a sliding groove formed in the bottom surface of each sliding block.
The right part below between two curb plates around going up the support housing is equipped with main horizontal guide plate, and the left side wall of main horizontal guide plate is fixed on the right side wall of last support housing, and the top surface of main horizontal guide plate is flat mutually with the top surface of carrying the guide roll.
And a wear-resistant layer is fixed on the bottom surface of the main horizontal guide plate and clings to the top surface of the right support plate.
All the conveying guide rollers are hinged to the front side plate and the rear side plate of the upper supporting shell through bearings, one end of each conveying guide roller extends out of the outer side wall of one side plate of the upper supporting shell and is fixedly provided with a double-row chain wheel, the outer side wall of the corresponding side plate of the upper supporting shell is fixedly provided with a motor connecting plate, a fine adjustment motor is fixedly arranged on the motor connecting plate, and an output shaft of the fine adjustment motor is connected with one end of one conveying guide roller through a coupler;
one of the double-row chain wheels of two adjacent conveying guide rollers is connected through a chain.
The utility model discloses an outstanding effect is: the steel belt that it can roll up thick steel coil out normally carries to can adjust the transport position of steel belt, guarantee normal transport, carry stably, it is effectual.
Drawings
Fig. 1 is a partial structural schematic diagram of the present invention;
FIG. 2 is a partial top view of the forward and rearward fine adjustment mechanism;
FIG. 3 is a partial top plan view at the delivery guide roller;
FIG. 4 is a partial top view of the structure at the right support plate;
fig. 5 is a partially enlarged view of fig. 1.
Detailed Description
In an embodiment, as shown in fig. 1 to 5, a steel strip leveling conveying guide mechanism for continuous production of heat shields comprises a frame 10, wherein a front and rear fine adjustment mechanism 20 is fixed on the top surface of a top plate of the frame 10, an upper support shell 22 is fixed on the top surface of a movable plate 21 of the front and rear fine adjustment mechanism 20, a plurality of conveying guide rollers 23 extending front and rear are arranged at the lower part between front and rear side plates of the upper support shell 22, a plurality of pressing adjustment cylinders 24 are mounted on the top plate of the upper support shell 22, the bottom ends of push rods of all the pressing adjustment cylinders 24 are fixed on the same upper lifting plate 25, a lower pressing plate 26 is fixed on the bottom surface of the upper lifting plate 25, and the lower pressing plate 26 is positioned right above all the conveying guide rollers 23;
a right support plate 30 is fixed on the right side wall of the frame 10, side guide support plates 31 with arc-shaped wall surfaces are fixed at the front part and the rear part of the right side wall of the right support plate 30, two ends of the guide rollers 32 are hinged at the upper parts of the two side guide support plates 31 through bearings, and all the guide rollers 32 are uniformly distributed along the top surfaces of the side guide support plates 31.
Further, the top surfaces of the left ends of the two side guide support plates 31 are formed with vertical portions 33 extending upward, an upper guide roller 34 is disposed between the two vertical portions 33, and both ends of the upper guide roller 34 are hinged to the two vertical portions 33 through bearings.
Further, the top surface of the conveying guide roller 23 is flush with the top surface of the leftmost guide roller 32.
Further, a horizontal connecting plate 35 is fixed on the upper portion of the right side wall of the right supporting plate 30, the middle of the top surface of the horizontal connecting plate 35 is hinged with two vertical guide rollers 36 through bearings, and the top ends of the two vertical guide rollers 36 are hinged on the upper top plate through bearings;
the two vertical guide rollers 36 are located between the upper guide roller 34 and one of the guide rollers 32.
Further, the front and rear fine adjustment mechanism 20 includes end connection plates 27 fixed to the front and rear portions of the top surface of the top plate of the rack 10, two ends of a middle conveying screw 28 extending in the front and rear direction are hinged to the two end connection plates 27 through bearings, a fine adjustment motor 29 is fixed to the outer side wall of one of the end connection plates 27, an output shaft of the fine adjustment motor 29 is a spline shaft, the spline shaft is inserted into a spline hole formed in one end of the middle conveying screw 28, the fine adjustment motor 29 drives the middle conveying screw 28 to rotate, an adjustment block 281 is screwed to the middle conveying screw 28, and a moving plate 21 is fixed to the top surface of the adjustment block 281.
Further, a plurality of sliders 211 are fixed to the bottom surface of the moving plate 21, a guide bar 1 extending forward and backward is fixed to the top surface of the top plate of the frame 10, and an upper portion of the guide bar 1 is inserted into a sliding groove formed in the bottom surface of the slider 211.
Further, a main horizontal guide plate 221 is provided below a right portion between the front and rear side plates of the upper support casing 22, a left side wall of the main horizontal guide plate 221 is fixed to a right side wall of the upper support casing 22, and a top surface of the main horizontal guide plate 221 is flush with a top surface of the conveying guide roller 23.
Further, a wear-resistant layer 222 is fixed on the bottom surface of the main horizontal guide plate 221, and the wear-resistant layer 222 is tightly attached to the top surface of the right support plate 30.
Further, all the conveying guide rollers 23 are hinged to the front side plate and the rear side plate of the upper supporting shell 22 through bearings, one end of each conveying guide roller 23 extends out of the outer side wall of one side plate of the upper supporting shell 22 and is fixed with a double-row chain wheel 231, the outer side wall of the corresponding side plate of the upper supporting shell 22 is fixed with a motor connecting plate 223, a fine adjustment motor 224 is fixed on the motor connecting plate 223, and an output shaft of the fine adjustment motor 224 is connected with one end of one conveying guide roller 23 through a coupling;
one of the sprockets of the double row of sprockets 231 of the adjacent two of the conveying guide rollers 23 is connected by a chain.
When the steel belt winding conveyor is used, the steel belt winding conveyor can be arranged on one side of the steel belt winding conveyor, one end of a steel belt is output by the steel belt winding conveyor and enters the feeding port at the left end of the upper support shell 22 of the steel belt winding conveyor, the steel belt winding conveyor is positioned between the conveying guide roller 23 and the lower pressing plate 26, and the lower pressing plate 26 is pushed by all push rods of the pressing adjusting oil cylinders 24 to realize descending;
then, the steel strip is conveyed rightward along the main horizontal guide plate 221 and through the through-grooves between the upper guide rollers 34 and the corresponding guide rollers 32, and then, through the middle through-groove formed between the two vertical guide rollers 36, is conveyed rightward along all the guide rollers 32.
In the conveying process, the fine adjustment motor 29 operates to realize the forward and backward movement of the moving plate 21, realize the forward and backward fine adjustment of the steel belt conveyed in the moving plate, ensure the steel belt to be normally conveyed along the middle part of the guide roller 32, reduce the offset and ensure the conveying effect.
The above embodiments are only used for illustrating the present invention, and not for limiting the present invention, and those skilled in the relevant technical field can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.
Claims (9)
1. The utility model provides a heat exchanger continuous production levels with steel band and carries guiding mechanism, includes frame (10), its characterized in that: a front and rear fine adjustment mechanism (20) is fixed on the top surface of a top plate of the rack (10), an upper support shell (22) is fixed on the top surface of a movable plate (21) of the front and rear fine adjustment mechanism (20), a plurality of conveying guide rollers (23) extending front and rear are arranged at the lower part between a front side plate and a rear side plate of the upper support shell (22), a plurality of pressing adjustment oil cylinders (24) are mounted on the top plate of the upper support shell (22), the bottom ends of push rods of all the pressing adjustment oil cylinders (24) are fixed on the same upper lifting plate (25), a lower pressing plate (26) is fixed on the bottom surface of the upper lifting plate (25), and the lower pressing plate (26) is positioned right above all the conveying guide rollers (23);
the utility model discloses a guide roller, including frame (10), be fixed with on the right side wall of frame (10) right branch fagging (30), the front portion and the rear portion of the right side wall of right branch fagging (30) all are fixed with side guide support plate (31) that the top surface is the arc wall, and the both ends of a plurality of guide roller (32) pass through the bearing and articulate in the upper portion department of two side guide support plates (31), and all guide roller (32) are along the top surface evenly distributed of side guide support plate (31).
2. The steel strip leveling conveying guide mechanism for the continuous production of the heat shield as claimed in claim 1, is characterized in that: the top surfaces of the left ends of the two side guide supporting plates (31) are formed with vertical parts (33) extending upwards, an upper guide roller (34) is arranged between the two vertical parts (33), and two ends of the upper guide roller (34) are hinged to the two vertical parts (33) through bearings.
3. The steel strip leveling conveying guide mechanism for the continuous production of the heat shield as claimed in claim 1, is characterized in that: the top surface of the conveying guide roller (23) is level with the top surface of the guide roller (32) at the leftmost end.
4. The steel strip leveling conveying guide mechanism for the continuous production of the heat shield as claimed in claim 2, is characterized in that: a horizontal connecting plate (35) is fixed on the upper part of the right side wall of the right supporting plate (30), the middle part of the top surface of the horizontal connecting plate (35) is hinged with two vertical guide rollers (36) through a bearing, and the top ends of the two vertical guide rollers (36) are hinged on the upper top plate through a bearing;
the two vertical guide rollers (36) are located between the upper guide roller (34) and one of the guide rollers (32).
5. The steel strip leveling conveying guide mechanism for the continuous production of the heat shield as claimed in claim 1, is characterized in that: front and back fine-tuning (20) are including fixing tip connecting plate (27) at the front portion and the rear portion of the top surface of roof of frame (10), and the both ends of the middle conveyor screw (28) that extend around articulate on two tip connecting plates (27) through the bearing, are fixed with fine setting motor (29) on the lateral wall of one of them tip connecting plate (27), and fine setting motor (29) drive middle conveyor screw (28) and rotate, and regulating block (281) spiro union is on middle conveyor screw (28), is fixed with movable plate (21) on the top surface of regulating block (281).
6. The steel strip leveling conveying guide mechanism for the continuous production of the heat shields as claimed in claim 5, wherein: a plurality of sliding blocks (211) are fixed on the bottom surface of the moving plate (21), a guide strip (1) extending forwards and backwards is fixed on the top surface of a top plate of the rack (10), and the upper portion of the guide strip (1) is inserted into a sliding groove formed in the bottom surface of each sliding block (211).
7. The steel strip leveling conveying guide mechanism for the continuous production of the heat shield as claimed in claim 1, is characterized in that: the right part below between two curb plates around going up support casing (22) is equipped with main horizontal guide plate (221), and the left side wall of main horizontal guide plate (221) is fixed on the right side wall of last support casing (22), and the top surface of main horizontal guide plate (221) is flat mutually with the top surface of carrying guide roll (23).
8. The steel strip leveling, conveying and guiding mechanism for the continuous production of the heat shields as claimed in claim 7, is characterized in that: and a wear-resistant layer (222) is fixed on the bottom surface of the main horizontal guide plate (221), and the wear-resistant layer (222) is tightly attached to the top surface of the right support plate (30).
9. The steel strip leveling conveying guide mechanism for the continuous production of the heat shield as claimed in claim 1, is characterized in that: all conveying guide rollers (23) are hinged to the front side plate and the rear side plate of the upper supporting shell (22) through bearings, one end of each conveying guide roller (23) extends out of the outer side wall of one side plate of the upper supporting shell (22) and is fixed with a double-row chain wheel (231), the outer side wall of the corresponding side plate of the upper supporting shell (22) is fixed with a motor connecting plate (223), a fine adjustment motor (224) is fixed on the motor connecting plate (223), and an output shaft of the fine adjustment motor (224) is connected with one end of one conveying guide roller (23) through a coupler;
one of the double-row sprockets (231) of two adjacent conveying guide rollers (23) is connected by a chain.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022620633.6U CN213793879U (en) | 2020-11-13 | 2020-11-13 | Steel strip flattening conveying guide mechanism for continuous production of heat shields |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022620633.6U CN213793879U (en) | 2020-11-13 | 2020-11-13 | Steel strip flattening conveying guide mechanism for continuous production of heat shields |
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CN213793879U true CN213793879U (en) | 2021-07-27 |
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CN202022620633.6U Active CN213793879U (en) | 2020-11-13 | 2020-11-13 | Steel strip flattening conveying guide mechanism for continuous production of heat shields |
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