CN216881219U - Conveying belt carrier roller mechanism for rolling and sizing - Google Patents

Abstract

The utility model provides a conveying belt carrier roller mechanism for roll forming, and belongs to the technical field of roll forming equipment. It includes the bottom roll seat and goes up the roller seat, last roller seat and bottom roll seat in be equipped with upper roll roller mounting groove and bottom roll roller mounting groove respectively, the bottom roll roller mounting groove in evenly be provided with a plurality of transmission rollers along the horizontal direction interval, the upper roll roller mounting groove in be equipped with a plurality of and transmission roller one-to-one's design roller along the horizontal direction, design roller and transmission roller between be equipped with roll-in transmission passageway, design roller bottom be equipped with an extrusion design structure. The roll-in transmission channel between stock roll and the transmission roller can be used for the roll-in of dysmorphism piece, and the transmission roller can drive the transmission of special-shaped piece in roll-in transmission channel, and extrusion shaping structure on the stock roll can carry out the roll-in design to many parallel arrangement's on the special-shaped piece simultaneously.

Description

Conveying belt carrier roller mechanism for rolling and sizing

Technical Field

The utility model belongs to the technical field of rolling and sizing equipment, and relates to a conveying belt carrier roller mechanism for rolling and sizing.

Background

The dysmorphism piece covers concrete upside or downside when concrete placement when using, and the dysmorphism piece can be embedded into and make the dysmorphism piece paste more firmly in the concrete, and the dysmorphism piece need make the special-shaped block shape on the dysmorphism piece keep unanimous after the shaping, but the equipment among the prior art is stereotyped the effect relatively poor.

In order to overcome the defects of the prior art, various solutions are proposed through continuous exploration, for example, a chinese patent discloses a press roller straightening device of a setting machine [ application number: 202021524410.3], comprising a control end and a material groove, wherein a first support and a second support are respectively arranged at two sides of the material groove, a press roller is erected between the first support and the second support, a lifting device is respectively arranged on the first support and the second support, and the lifting device is controlled by the control end; the material groove is provided with a plurality of pressure sensing devices, the pressure sensing devices are positioned under the central shaft of the compression roller, and the pressure sensing devices are connected to the control end, but the problems also exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provides a conveying belt carrier roller mechanism for roll forming.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a conveyer belt bearing roller mechanism for roll extrusion is stereotyped, includes the lower roll seat and goes up the roll seat, last roll seat and lower roll seat in be equipped with upper roll mounting groove and lower roll mounting groove respectively, the lower roll mounting groove in evenly be provided with a plurality of transmission rollers along the horizontal direction interval, the upper roll mounting groove in be equipped with a plurality of and transmission roller one-to-one's design roller along the horizontal direction, design roller and transmission roller between be equipped with roll-in transmission passageway, design roller bottom be equipped with an extrusion design structure.

In the above-mentioned a conveyer belt bearing roller mechanism for roll forming, an extrusion design structure include a plurality of setting grooves that evenly set up along the setting roller axial interval, the corresponding setting groove combination formation extrusion design passageway on a plurality of setting rollers.

In the above-mentioned a conveyer belt bearing roller mechanism for roll forming, the design groove both sides still be equipped with spacing groove shaping structure.

In foretell a conveyer belt bearing roller mechanism for roll extrusion is stereotyped, spacing groove shaping structure include spherical compression roller, spherical compression roller center department link firmly vertical connecting axle, the design inslot wall on still be equipped with spherical compression roller mounting groove, vertical connecting axle both ends rotate with spherical compression roller mounting groove and be connected.

In foretell a conveyer belt bearing roller mechanism for roll extrusion is stereotyped, the design roller top be equipped with an extrusion design structure the same, the size is different No. two extrusion design structures, the last roller seat on still be equipped with a plurality of design roller one-to-one the rotatory subassembly that switches.

In foretell a conveyer belt bearing roller mechanism for roll extrusion is stereotyped, rotatory switching module including setting up the horizontal connecting axle in the design roller axle center department, horizontal connecting axle both ends rotate and be connected with lifting slide, arbitrary lifting slide in be equipped with the rotary actuator who links to each other with horizontal connecting axle, last roller seat on still be equipped with the lift adjustment subassembly that links to each other with lifting slide.

In the above-mentioned a conveyer belt bearing roller mechanism for roll forming, a lift adjusting part include vertical setting at last roller seat top both sides a lift driver, two output shafts of a lift driver link firmly with two lifting slide respectively.

In the conveyer belt carrier roller mechanism for roll forming, two sides of the upper roller seat are provided with inwards concave vertical sliding grooves, and the outer ends of the lifting slide blocks are inserted into the vertical sliding grooves and are in sliding connection with the vertical sliding grooves.

In the above-mentioned a conveyer belt bearing roller mechanism for roll forming, the lower roller seat on still be equipped with the second number lift adjustment subassembly that can drive the lift of upper roller seat.

In the above-mentioned conveyer belt bearing roller mechanism for roll forming, the second lifting adjusting part include a plurality of second lifting drive ware that set up respectively in lower roller seat both sides, No. two lifting drive ware's output shaft tip and last roller seat link to each other.

Compared with the prior art, the utility model has the advantages that:

1. the roll-in transmission channel between design roller and the transmission roller can be used for the roll-in of dysmorphism piece, and the transmission roller can drive the transmission of dysmorphism piece in roll-in transmission channel, and the extrusion design structure on the design roller can carry out the roll-in design to many parallel arrangement's dysmorphism piece on the dysmorphism piece simultaneously.

2. The extrusion shaping channel formed by combining the shaping grooves on the shaping rollers can roll and shape the special-shaped blocks, so that the special-shaped blocks on the special-shaped sheets are the same in shape.

3. Spherical compression roller rotates through vertical connecting axle to be connected in spherical compression roller mounting groove, and spherical compression roller outer end protrusion in spherical compression roller mounting groove, heterotypic piece get into behind the extrusion design passageway, and spherical compression roller can form the arc recess with the extrusion of dysmorphism piece, and when dysmorphism piece embedding back in the concrete, the arc recess can increase the area of contact of dysmorphism piece and concrete and can play spacing effect.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a schematic view of the overall structure provided by the present invention;

FIG. 2 is a schematic structural view of an upper roller seat;

fig. 3 is an enlarged schematic view at a in fig. 2.

In the figure: lower roll seat 1, go up roll seat 2, go up bearing roller mounting groove 3, lower bearing roller mounting groove 4, transmission roller 5, forming roller 6, roll-in transmission channel 7, an extrusion design 8, forming groove 9, spacing groove shaping structure 10, spherical compression roller 11, vertical connecting axle 12, spherical compression roller mounting groove 13, rotatory switching module 14, horizontal connecting axle 15, lifting slide 16, rotary driver 17, a lift adjustment subassembly 18, a lift driver 19, vertical spout 20, No. two lift adjustment subassemblies 21, No. two lift drivers 22, No. two extrusion design 30.

Detailed Description

As shown in fig. 1-3, a conveyer belt bearing roller mechanism for roll forming, include lower roll seat 1 and go up roll seat 2, last roll seat 2 and lower roll seat 1 in be equipped with upper roll roller mounting groove 3 and lower roll roller mounting groove 4 respectively, lower roll roller mounting groove 4 in evenly be provided with a plurality of transmission rollers 5 along the horizontal direction interval, upper roll roller mounting groove 3 in be equipped with a plurality of and transmission roller 5 one-to-one shaping roller 6 along the horizontal direction, shaping roller 6 and transmission roller 5 between be equipped with roll-in transmission passageway 7, shaping roller 6 bottom be equipped with extrusion forming structure 8 No. one.

In this embodiment, the roll-in transmission channel 7 between the shaping roller 6 and the transmission roller 5 can be used for rolling the special-shaped sheet, the transmission roller can drive the special-shaped sheet to be transmitted in the roll-in transmission channel, and the first extrusion shaping structure 8 on the shaping roller can simultaneously roll and shape a plurality of special-shaped blocks arranged in parallel on the special-shaped sheet.

Specifically, as shown in fig. 1 to fig. 3, the first extrusion molding structure 8 includes a plurality of molding grooves 9 uniformly arranged along the axial direction of the molding roller 6 at intervals, and the corresponding molding grooves 9 on the molding roller 6 are combined to form an extrusion molding channel. The extrusion shaping channel formed by the combination of the shaping grooves on the shaping rollers 6 can roll and shape the special-shaped blocks, so that the special-shaped blocks on the special-shaped sheets have the same shape.

Preferably, as shown in fig. 1-3, the two sides of the shaping groove 9 are further provided with limiting groove forming structures 10. Spacing groove forming structure 10 includes spherical compression roller 11, 11 center departments of spherical compression roller link firmly vertical connecting axle 12, design groove 9 inner walls on still be equipped with spherical compression roller mounting groove 13, 12 both ends of vertical connecting axle rotate with spherical compression roller mounting groove 13 and be connected. Spherical compression roller rotates through vertical connecting axle to be connected in spherical compression roller mounting groove 13, and spherical compression roller outer end protrusion in spherical compression roller mounting groove 13, heterotypic piece get into behind the extrusion design passageway, and spherical compression roller can form the arc recess with the extrusion of dysmorphism piece, and when dysmorphism piece embedding back in the concrete, the arc recess can increase the area of contact of dysmorphism piece and concrete and can play spacing effect.

Preferably, as shown in fig. 1 to 3, the top of the sizing roller 6 is provided with a second extrusion molding structure 30 having the same structure as the first extrusion molding structure 8 and different sizes, and the upper roller base 2 is further provided with a rotation switching assembly 14 corresponding to the plurality of sizing rollers 6 one to one. No. two extrusion design structures 30 can extrude the design to the dysmorphism piece of unidimensional not, thereby rotatory switching module can drive the design roller and rotate and can switch an extrusion design structure 8 and No. two extrusion design structures 30.

Specifically, as shown in fig. 1 to 3, the rotation switching assembly 14 includes a horizontal connecting shaft 15 disposed at the axis of the sizing roller 6, two ends of the horizontal connecting shaft 15 are rotatably connected with a lifting slider 16, a rotation driver 17 connected with the horizontal connecting shaft 15 is disposed in any lifting slider 16, and a first lifting adjusting assembly 18 connected with the lifting slider 16 is further disposed on the upper roller base 2. The rotary driver can drive the horizontal connecting shaft to rotate, the horizontal connecting shaft can drive the shaping roller to rotate, and the first lifting adjusting assembly can synchronously drive the two lifting sliding blocks and the shaping roller to synchronously lift so as to adjust the distance between the shaping roller and the transmission roller.

It will be appreciated by those skilled in the art that the rotary drive may be a rotary cylinder or motor, or the like.

Specifically, as shown in fig. 1 to fig. 3, the first lifting adjusting assembly 18 includes first lifting drivers 19 vertically disposed on two sides of the top of the upper roller seat 2, and output shafts of the two first lifting drivers 19 are respectively fixedly connected to the two lifting sliders 16. Two first lifting drivers can synchronously drive two lifting slide blocks and the shaping roller to synchronously lift.

Preferably, as shown in fig. 2, two sides of the upper roller base 2 are provided with an inwardly recessed vertical sliding groove 20, and the outer end of the lifting slider 16 is inserted into the vertical sliding groove 20 and is slidably connected with the vertical sliding groove 20. The vertical sliding groove can limit the lifting slide block so as to prevent the lifting slide block from deviating during movement.

Those skilled in the art will appreciate that the first lifting drive can be a cylinder, a pneumatic cylinder, a linear motor, or the like.

Specifically, as shown in fig. 1, the lower roller base 1 is further provided with a second lifting adjustment assembly 21 capable of driving the upper roller base 2 to lift. The second lifting adjusting component 21 comprises a plurality of second lifting drivers 22 respectively arranged on two sides of the lower roller seat 1, and the end part of an output shaft of each second lifting driver 22 is connected with the upper roller seat 2. The synchronous action of the second lifting drivers can drive the upper roller seat to lift along the vertical direction, so that the distance between the upper roller seat and the lower roller seat can be adjusted.

Those skilled in the art will appreciate that the second lifting drive can be a cylinder, a pneumatic cylinder, a linear motor, etc.

The working principle of the utility model is as follows: a rolling transmission channel 7 between the shaping roller 6 and the transmission roller 5 can be used for rolling the special-shaped sheet, the transmission roller can drive the special-shaped sheet to be transmitted in the rolling transmission channel, and a first extrusion shaping structure 8 on the shaping roller can simultaneously roll and shape a plurality of special-shaped blocks arranged in parallel on the special-shaped sheet;

the extrusion shaping channel formed by combining the shaping grooves on the shaping rollers 6 can roll and shape the special-shaped blocks, the special-shaped blocks on the special-shaped sheets are same in shape, the spherical pressing roller is rotatably connected in the spherical pressing roller mounting groove 13 through the vertical connecting shaft, the outer end of the spherical pressing roller protrudes out of the spherical pressing roller mounting groove 13, after the special-shaped blocks enter the extrusion shaping channel, the spherical pressing roller can extrude the special-shaped blocks to form arc-shaped grooves, after the special-shaped blocks are embedded into concrete, the arc-shaped grooves can increase the contact area between the special-shaped blocks and the concrete and can play a limiting role, the second extrusion shaping structure 30 can extrude and shape the special-shaped blocks with different sizes, the rotary switching component can drive the shaping rollers to rotate so as to switch the first extrusion shaping structure 8 and the second extrusion shaping structure 30, the rotary driver can drive the horizontal connecting shaft to rotate, the horizontal connecting shaft can drive the shaping rollers to rotate, the first lifting adjusting assembly can synchronously drive the two lifting slide blocks and the shaping roller to synchronously lift so as to adjust the distance between the shaping roller and the conveying roller;

two lifting drive ware can two lifting slide blocks of synchronous drive and the synchronous lift of sizing roller, and vertical spout can carry on spacingly to lifting slide block in order to prevent that the skew from appearing when the motion, thereby a plurality of No. two lifting drive ware synchronization action can drive the upper roll seat and go up and down along vertical direction and can adjust the interval between upper roll seat and the lower roll seat.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Although the lower roller housing 1, the upper roller housing 2, the upper roller mounting groove 3, the lower roller mounting groove 4, the transfer roller 5, the setting roller 6, the roller transfer passage 7, the first extrusion setting structure 8, the setting groove 9, the limiting groove forming structure 10, the spherical pressing roller 11, the vertical connecting shaft 12, the spherical pressing roller mounting groove 13, the rotation switching assembly 14, the horizontal connecting shaft 15, the lifting slider 16, the rotation driver 17, the first lifting adjusting assembly 18, the first lifting driver 19, the vertical sliding chute 20, the second lifting adjusting assembly 21, the second lifting driver 22, the second extrusion setting structure 30, etc., are used more frequently herein, these terms are used only for more conveniently describing and explaining the essence of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. The utility model provides a conveyer belt bearing roller mechanism for roll extrusion is stereotyped, includes lower roll seat (1) and goes up roll seat (2), its characterized in that, last roll seat (2) and lower roll seat (1) in be equipped with upper roll mounting groove (3) and lower roll mounting groove (4) respectively, lower roll mounting groove (4) in evenly be provided with a plurality of transmission rollers (5) along the horizontal direction interval, upper roll mounting groove (3) in be equipped with a plurality of with transmission roller (5) one-to-one shaping roller (6) along the horizontal direction, shaping roller (6) and transmission roller (5) between be equipped with roll-in transmission passageway (7), shaping roller (6) bottom be equipped with one number extrusion design structure (8).

2. The carrier roller mechanism for the conveying belt for roll forming according to claim 1, wherein the first extrusion forming structure (8) comprises a plurality of forming grooves (9) uniformly arranged along the axial direction of the forming roller (6) at intervals, and the corresponding forming grooves (9) on the plurality of forming rollers (6) are combined to form an extrusion forming channel.

3. The carrier roller mechanism for the conveying belt for roll forming according to claim 2, wherein the forming structure (10) of the limiting groove is further arranged on two sides of the forming groove (9).

4. A conveyer belt roller mechanism for roll forming according to claim 3, wherein said limiting groove forming structure (10) comprises a spherical pressing roller (11), a vertical connecting shaft (12) is fixedly connected to the center of said spherical pressing roller (11), a spherical pressing roller mounting groove (13) is further provided on the inner wall of said forming groove (9), and both ends of said vertical connecting shaft (12) are rotatably connected to said spherical pressing roller mounting groove (13).

5. The carrier roller mechanism for the conveying belt for roll forming according to claim 1, 2, 3 or 4, wherein the top of the forming roller (6) is provided with a second extrusion forming structure (30) which has the same structure as the first extrusion forming structure (8) and different size, and the upper roller base (2) is further provided with a rotation switching assembly (14) which corresponds to the forming rollers (6) one by one.

6. The conveying belt carrier roller mechanism for roll forming according to claim 5, wherein the rotary switching assembly (14) comprises a horizontal connecting shaft (15) arranged at the axis of the forming roller (6), lifting sliders (16) are rotatably connected to two ends of the horizontal connecting shaft (15), a rotary driver (17) connected with the horizontal connecting shaft (15) is arranged in any lifting slider (16), and a first lifting adjusting assembly (18) connected with the lifting sliders (16) is further arranged on the upper roller base (2).

7. The carrier roller mechanism for the conveying belt for roll forming according to claim 6, characterized in that the first lifting adjusting assembly (18) comprises a first lifting driver (19) vertically arranged at two sides of the top of the upper roller seat (2), and output shafts of the two first lifting drivers (19) are respectively fixedly connected with the two lifting sliders (16).

8. A conveyor belt idler roller mechanism for roll forming according to claim 6, characterized in that, both sides of the upper roller base (2) are provided with inward recessed vertical sliding grooves (20), and the outer ends of the lifting slide blocks (16) are inserted into the vertical sliding grooves (20) and are slidably connected with the vertical sliding grooves (20).

9. A conveyor belt idler mechanism for roll forming according to claim 1, 2, 3 or 4, characterized in that the lower roller seat (1) is further provided with a second lifting adjusting component (21) capable of driving the upper roller seat (2) to lift.

10. The carrier roller mechanism for the conveying belt for roll forming according to claim 9, wherein the second lifting adjusting assembly (21) comprises a plurality of second lifting drivers (22) respectively arranged at two sides of the lower roller seat (1), and the end part of the output shaft of the second lifting driver (22) is connected with the upper roller seat (2).

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