CN109455458B - T-shaped template conveying device - Google Patents

Abstract

The invention relates to the technical field of conveying equipment, in particular to a T-shaped template conveying device which comprises a conveying support and a guardrail support, wherein the conveying support forms a conveying channel, the guardrail support is of a modular structure, the guardrail support is sleeved on the conveying support, an inclined roller is matched with a shaft sleeve-shaped roller, a T-shaped template is leaned against the inclined roller, the bottom end of the T-shaped template is pressed on the shaft sleeve-shaped roller, conveying is carried out through the matching of the roller and the roller, friction and rolling of the T-shaped template when the T-shaped template is horizontally placed are avoided, and damage is reduced.

Description

T-shaped template conveying device

Technical Field

The invention relates to the technical field of conveying equipment, in particular to a T-shaped template conveying device.

Background

The T-shaped templates in the prior art are horizontally placed for conveying, and large-area and large-amount frequent friction can occur between the T-shaped templates and a conveying device in the conveying process, so that the middle contact part of the T-shaped templates is damaged.

Disclosure of Invention

In order to solve the defects and problems of T-shaped template transportation in the prior art, a T-shaped template conveying device is provided.

The technical scheme adopted by the invention for solving the technical problem is as follows: the T-shaped template conveying device comprises a conveying support and a guardrail support, wherein the conveying support forms a conveying channel, the guardrail support is of a modular structure, and the guardrail support is sleeved on the conveying support;

a roller long supporting rod and a roller short supporting rod respectively extend forwards from a rear plate of the conveying support, a roller is matched between the roller long supporting rod and the roller short supporting rod, the roller is inclined, the included angle between the roller and a vertical line is 10 degrees, and a plurality of rollers are distributed on the conveying support side by side to form a roller channel;

the roller supporting frame is fixed on a transverse plate of the conveying support and comprises two vertical plates, a roller is connected to the upper ends of the two vertical plates and is in a shaft sleeve shape, the end with the large outer diameter of the roller faces outwards, the end with the small outer diameter of the roller faces inwards, and a plurality of rollers are distributed on the conveying support side by side to form a roller channel;

the roller is driven by two driving hexagonal belt wheels and a driven hexagonal belt wheel; the driving hexagonal wheel belt is respectively connected with a driving guide wheel, a driving reversing wheel, an adjusting wheel, a driving wheel and an elastic wheel; the driven hexagonal wheel belt is connected with a driven reversing wheel, a driven guide wheel, a reversing adjusting wheel and a supporting wheel;

the driving guide wheels are arranged at the lower ends of the two vertical plates, a driving hexagonal belt is matched between the driving guide wheels and the idler wheels, and the driving guide wheels and the idler wheels are linked through the driving hexagonal belt; the active reversing wheel is fixed on the conveying support, the active reversing wheel is arranged at the side end of the active hexagonal wheel belt and used for reversing the active hexagonal wheel belt, the adjusting wheel is hung on a transverse plate of the conveying support through two hanging rods, and the height of the adjusting wheel can be adjusted through the two hanging rods; the driving wheel is fixed on the guardrail bracket through a supporting plate and is driven by a motor arranged on the guardrail bracket; the elastic wheel is fixed on the guardrail bracket through an adjusting rod, and the elasticity of the driving hexagonal wheel belt is adjusted through the adjusting rod belt;

the driven reversing wheel is arranged on the side edge of the driven hexagonal wheel belt, the driven reversing wheel is connected with the driving reversing wheel through a chain, and the driving reversing wheel is linked with the driven reversing wheel through the chain; the reversing adjusting wheel is fixed on the guardrail bracket through a reversing adjusting rod, and the tightness of the driven hexagonal wheel belt is adjusted through the reversing adjusting rod; the supporting wheel is arranged on the guardrail support, and the upper end of the supporting wheel is matched with the outer end of the driven hexagonal wheel belt.

The two driving hexagonal belt wheels are in a symmetrical state and are driven by the motor.

The oblique lower angle of the roller is right opposite to the outer diameter connecting position of the roller.

The invention has the beneficial effects that: compared with the prior art, the T-shaped template conveying device has the advantages that the inclined roller is matched with the shaft sleeve-shaped roller, the T-shaped template is leaned against the inclined roller, the bottom end of the T-shaped template is pressed on the shaft sleeve-shaped roller, conveying is carried out through the matching of the roller and the roller, the T-shaped template is prevented from being rubbed and rolled when being horizontally placed, and damage is reduced.

Drawings

The T-shaped template conveying device of the invention is further explained by combining the attached drawings and the detailed description.

FIG. 1 is a schematic structural diagram of a T-shaped template conveying device according to the present invention;

FIG. 2 is a schematic view of the structure in the direction A-A in FIG. 1;

FIG. 3 is a schematic view of the structure in the direction B-B in FIG. 1;

FIG. 4 is a schematic view of the structure in the direction C-C in FIG. 1;

FIG. 5 is a partially enlarged view of the portion D in FIG. 1;

fig. 6 is a schematic diagram of a partially enlarged structure of a portion E in fig. 1.

Detailed Description

As shown in fig. 1 to 6, the T-shaped formwork conveying device of the present invention includes a conveying support 10 and a guardrail support 20, wherein the conveying support 10 forms a conveying passage, the guardrail support 20 is of a modular structure, and the guardrail support 20 is sleeved on the conveying support 10.

As shown in fig. 1 to 6, a roller long support rod 12 and a roller short support rod 13 respectively extend forwards from a rear plate 11 of a conveying support 10, a roller 14 is matched between the roller long support rod 12 and the roller short support rod 13, the roller 14 is connected between the roller long support rod 12 and the roller short support rod 13 through a hinge relationship, the roller 14 is inclined, the included angle between the roller 14 and a vertical line is 10 degrees, and a plurality of rollers 14 are distributed on the conveying support 10 side by side to form a roller channel.

As shown in fig. 1 to 6, a roller support frame 16 is fixed to the cross plate 15 of the conveying bracket 10. The roller supporting frame 16 comprises two vertical plates 17, and a roller 18 is connected to the upper ends of the two vertical plates 17. The roller 18 is in a shaft sleeve shape, one end of the roller 18 with a large outer diameter faces outwards, one end of the roller 18 with a small outer diameter faces inwards, and a plurality of rollers 18 are distributed on the conveying support 10 side by side to form a roller channel. The roller 18 is matched with the roller 14 for use, the inclined lower angle of the roller 14 is just opposite to the outer diameter connecting part of the roller 18, the T-shaped template 0 leans against the roller 14, and the roller 14 has a certain inclined angle, so that the T-shaped template 0 leans against the roller 14 and cannot fall down, the lower end of the T-shaped template 0 is pressed at the outer diameter connecting part of the roller 18, the roller 18 drives the T-shaped template 0 to be transported forwards, and the upper end of the T-shaped template 0 is driven by the roller 14.

As shown in fig. 1 to 6, the roller 18 is driven by two driving hexagonal belts 30 and one driven hexagonal belt 40, and the two driving hexagonal belts 30 are symmetrical. The driving hexagonal pulley 30 is connected to a driving guide pulley 31, a driving reverse pulley 32, an adjustment pulley 33, a driving pulley 34, and a tension pulley 35. The driven hexagonal belt 40 is connected to a driven reverse wheel 41, a driven guide wheel 42, a reverse regulating wheel 43, and a support wheel 44.

As shown in fig. 1 to 6, the driving guide wheel 31 is disposed at the lower end of the two risers 17, a driving hexagonal belt 30 is engaged between the driving guide wheel 31 and the roller 18, the driving guide wheel 31 and the roller 18 are linked through the driving hexagonal belt 30, and the driving guide wheel 31 mainly plays a role in guiding and guiding the driving hexagonal belt 30. The driving reversing wheel 32 is fixed on the conveying support 10, and the driving reversing wheel 32 is arranged at the side end of the driving hexagonal belt 30 and used for reversing the driving hexagonal belt 30. The adjusting wheel 33 is hung on the transverse plate 15 of the conveying bracket 10 through two hanging rods 36, and the height of the adjusting wheel 33 can be adjusted through the two hanging rods 36, namely, the mounting position of the adjusting wheel 33 can be adjusted by adjusting the fastening height of the fastening screw, so that the mounting position of the adjusting wheel 33 is changed in height, and the matching relation between the adjusting wheel 33 and the roller 18 can be adjusted.

As shown in fig. 1 to 6, the driving wheel 34 is fixed on the guardrail bracket 20 through a supporting plate 37, the driving wheel 34 is driven by a motor 19 arranged on the guardrail bracket 20, a belt 191 is used for driving the driving wheel 34 and the motor 19, and both the driving hexagonal wheel belts 30 are driven by the motor 19. The tension wheel 35 is fixed on the guardrail support 20 through an adjusting rod 38, and the tightness of the driving hexagonal wheel belt 30 is adjusted through the adjusting rod 38, that is, the left and right mounting positions of the tension wheel 35 can be adjusted by adjusting the left and right fastening positions of the fastening screws, so that the left and right mounting positions of the tension wheel 35 are changed left and right, and the tightness of the driving hexagonal wheel belt 30 can be adjusted.

As shown in fig. 1 to 6, the driven reversing wheel 41 is disposed at a side of the driven hexagonal belt, the driven reversing wheel 41 is connected to the driving reversing wheel 32 through a chain 45, and the driving reversing wheel 32 is linked to the driven reversing wheel 41 through the chain 45, that is, the driving reversing wheel 32 drives the driven reversing wheel 41 to rotate through the chain 45.

As shown in fig. 1 to 6, the reversing adjustment wheel 43 is fixed to the guard rail bracket 20 by a reversing adjustment rod 46, and the degree of tightness of the driven hexagonal belt 40 is adjusted by the reversing adjustment rod 46, that is, the left and right installation positions of the reversing adjustment rod 46 can be reversed by adjusting the fastening left and right positions of the fastening screw, so that the left and right installation positions of the reversing adjustment rod 46 are changed left and right, and the degree of tightness of the driven hexagonal belt 40 can be adjusted. The driven guide wheel 42 is provided at the lower end of the roller 18 and is interlocked with the roller 18 through the driven hexagonal belt 40. The supporting wheel 44 is provided on the guard rail bracket 20, and the upper end of the supporting wheel 44 is engaged with the outer end of the driven hexagonal belt 40. Namely, the supporting wheel 44 performs a supporting and guiding function on the driven hexagonal belt 40.

In conclusion, compared with the prior art, the T-shaped template conveying device provided by the invention has the advantages that the inclined roller is matched with the shaft sleeve-shaped roller, the T-shaped template is leaned against the inclined roller, the bottom end of the T-shaped template is pressed on the shaft sleeve-shaped roller, and the T-shaped template is conveyed through the matching of the roller and the roller, so that the T-shaped template is prevented from being rubbed and rolled when being horizontally placed, and the damage is reduced.

The present invention has been described in terms of embodiments thereof, which are illustrative and not restrictive, and it is to be understood that the scope of the invention is not limited thereto, and that variations and/or modifications may be made by those skilled in the art without departing from the scope of the invention as defined in the appended claims, and all such modifications and changes are intended to be included within the scope of the invention.

Claims (1)

1. The utility model provides a T template conveyor which characterized in that: the conveying device comprises a conveying support and a guardrail support, wherein the conveying support forms a conveying channel, the guardrail support is of a modular structure, and the guardrail support is sleeved on the conveying support;

a roller long supporting rod and a roller short supporting rod respectively extend forwards from a rear plate of the conveying support, a roller is matched between the roller long supporting rod and the roller short supporting rod, the roller is inclined, the included angle between the roller and a vertical line is 10 degrees, and a plurality of rollers are distributed on the conveying support side by side to form a roller channel;

the roller supporting frame is fixed on a transverse plate of the conveying support and comprises two vertical plates, a roller is connected to the upper ends of the two vertical plates and is in a shaft sleeve shape, the end with the large outer diameter of the roller faces outwards, the end with the small outer diameter of the roller faces inwards, and a plurality of rollers are distributed on the conveying support side by side to form a roller channel;

the roller is driven by two driving hexagonal belt wheels and a driven hexagonal belt wheel; the driving hexagonal wheel belt is respectively connected with a driving guide wheel, a driving reversing wheel, an adjusting wheel, a driving wheel and an elastic wheel; the driven hexagonal wheel belt is connected with a driven reversing wheel, a driven guide wheel, a reversing adjusting wheel and a supporting wheel;

the driving guide wheels are arranged at the lower ends of the two vertical plates, a driving hexagonal belt is matched between the driving guide wheels and the idler wheels, and the driving guide wheels and the idler wheels are linked through the driving hexagonal belt; the active reversing wheel is fixed on the conveying support, the active reversing wheel is arranged at the side end of the active hexagonal wheel belt and used for reversing the active hexagonal wheel belt, the adjusting wheel is hung on a transverse plate of the conveying support through two hanging rods, and the height of the adjusting wheel can be adjusted through the two hanging rods; the driving wheel is fixed on the guardrail bracket through a supporting plate and is driven by a motor arranged on the guardrail bracket; the elastic wheel is fixed on the guardrail bracket through an adjusting rod, and the elasticity of the driving hexagonal wheel belt is adjusted through the adjusting rod belt;

the driven reversing wheel is arranged on the side edge of the driven hexagonal wheel belt, the driven reversing wheel is connected with the driving reversing wheel through a chain, and the driving reversing wheel is linked with the driven reversing wheel through the chain; the reversing adjusting wheel is fixed on the guardrail bracket through a reversing adjusting rod, and the tightness of the driven hexagonal wheel belt is adjusted through the reversing adjusting rod; the supporting wheel is arranged on the guardrail bracket, and the upper end of the supporting wheel is matched with the outer end of the driven hexagonal wheel belt; the two driving hexagonal belt wheels are in a symmetrical state and are driven by a motor; the oblique lower angle of the roller is right opposite to the outer diameter connecting position of the roller.

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