CN109607053B

CN109607053B - Sunroof conveyer

Info

Publication number: CN109607053B
Application number: CN201910037282.5A
Authority: CN
Inventors: 吴迪; 靳宏伟; 张海龙; 刘洪凯; 刘佳宝
Original assignee: Changchun Hexin Machinery Manufacturing Co ltd
Current assignee: Changchun Hexin Machinery Manufacturing Co ltd
Priority date: 2019-01-15
Filing date: 2019-01-15
Publication date: 2024-01-26
Anticipated expiration: 2039-01-15
Also published as: CN109607053A

Abstract

The invention discloses an automobile skylight conveying device which comprises double conveying belts, wherein the double conveying belts are driven by a driving mechanism, a bandwidth adjusting mechanism and a hexagonal shaft mechanism are arranged between the double conveying belts at intervals, and the driving mechanism is arranged below the bandwidth adjusting mechanism. The invention has reasonable structural design, ingenious conception, convenient operation and high durability. The mechanism is applied to an automatic transmission production line of the automobile skylight, and meets the requirement of automatic adjustment of the bandwidth between the double conveyor belts when various skylight products are produced in a collinear way, so that the time for changing the types of the various skylight products is greatly shortened in the collinear production, the production efficiency is greatly improved, and the mechanism is one of important links of the automatic production line of the skylight.

Description

Sunroof conveyer

Technical Field

The invention belongs to the technical field of automobile accessories, and particularly relates to an automobile skylight conveying device.

Background

At present, when the automobile sunroof is produced, synchronous transmission is carried out through double conveyor belts, the minimum sunroof size 1000X840mm and the maximum sunroof size 1710X970mm are produced on the production line, and according to the product assembly process, the maximum sunroof and the minimum transmission bandwidth are required to be compatible, so that the minimum bandwidth is 450mm and the maximum bandwidth is 760mm, and when the automobile sunroof is transmitted, the transmitted positions of the sunroof are different due to the fact that the transmitted sunroof is different in size, the distance between the two conveyor belts which are transmitted in the past is fixed, when the difference of the sunroof size is large, the conveyor belts cannot meet the requirement that the sunroof with different sizes is assembled on the same production line, and therefore, different conveyor belts are required to be replaced for different sunroofs, so that the production efficiency is low, and the cost is high.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present invention provides an automotive sunroof conveying device capable of adjusting the distance between two conveyor belts to meet the conveying requirements of sunroof with different sizes.

The technical scheme of the invention is as follows:

the utility model provides an sunroof conveyer, includes two conveyer belts, this two conveyer belts are driven by actuating mechanism bandwidth adjustment mechanism and hexagonal axle mechanism are provided with to the interval between the two conveyer belts, actuating mechanism sets up bandwidth adjustment mechanism below.

Preferably, the bandwidth adjusting mechanism comprises a bottom plate, a section of sliding rail is respectively arranged on the bottom plate at a position close to two ends of the bottom plate, the two sections of sliding rail are arranged along the length direction of the bottom plate, each section of sliding rail is connected with a sliding block in a sliding manner, and a conveying belt fixing seat and a connecting plate are fixedly connected on each sliding block;

two cylinder fixing seats are arranged on the bottom plate and close to the middle of the bottom plate, one cylinder is respectively connected to the two cylinder fixing seats, the movement directions of the two cylinders are opposite, and piston rods of the cylinders are respectively connected with the connecting plates at the corresponding ends;

the position on the bottom plate, which is close to each section of the sliding rail, is also respectively provided with a mold changing groove fixing seat, each mold changing groove fixing seat is connected with a mold changing groove, each mold changing groove is provided with at least two placing grooves, an adjusting rod is placed between the corresponding two placing grooves, the positions on the two connecting plates, which correspond to the placing grooves, are provided with mounting holes with the same quantity as the placing grooves, different limiting shafts with different lengths can be mounted in different mounting holes, and the free ends of the limiting shafts can extend into the limiting holes at the two ends of the adjusting rod.

Preferably, a sensor fixing frame is respectively arranged below each of the mold changing grooves, and the sensors with the same number as the placing grooves are arranged on the two sensor fixing frames.

Preferably, at least one proximity switch is arranged on each of the fixing seats of the mold changing groove, and the sensing surface of the proximity switch faces the cylinder.

Preferably, a limiting block is respectively arranged on the bottom plate and close to the end parts of the two ends of the bottom plate, the limiting block abuts against the end parts of the sliding rail, and the limiting block is connected with the fixing seat of the conveying belt through bolts.

Preferably, two ends of the hexagonal shaft mechanism are respectively connected with the double conveyor belts through connecting seats.

Preferably, the hexagonal shaft mechanism includes a fixed shaft, one end of the fixed shaft is connected with the connection seat, the other end of the fixed shaft is connected with a shaft sleeve through a bearing, a hexagonal shaft is arranged in the shaft sleeve in a penetrating manner, one end of the hexagonal shaft extends into the shaft sleeve, the other end of the hexagonal shaft is connected with the connection seat, and the hexagonal shaft can axially move relative to the shaft sleeve.

The beneficial effects are that: the invention has reasonable structural design, ingenious conception, convenient operation and high durability. The mechanism is applied to an automatic transmission production line of the automobile skylight, and meets the requirement of automatic adjustment of the bandwidth between the double conveyor belts when various skylight products are produced in a collinear way, so that the time for changing the types of the various skylight products is greatly shortened in the collinear production, the production efficiency is greatly improved, and the mechanism is one of important links of the automatic production line of the skylight.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of the bandwidth adjusting mechanism in FIG. 1;

fig. 3 is a schematic structural view of the hexagonal shaft mechanism in fig. 1.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

the sunroof conveying device for an automobile as shown in fig. 1 to 3 comprises a double conveyor belt 3, wherein the double conveyor belt 3 is driven by a driving mechanism 4, a bandwidth adjusting mechanism 1 and a hexagonal shaft mechanism 2 are arranged between the double conveyor belt 3 at intervals, one hexagonal shaft mechanism 2 is arranged between the two bandwidth adjusting mechanisms 1, and the driving mechanism 4 is arranged below the bandwidth adjusting mechanisms 1.

As can be seen from fig. 2 in combination with fig. 1, the bandwidth adjusting mechanism 1 includes a bottom plate 11, the bottom plate 11 is transversely disposed below the dual conveyor belt 3, a section of slide rail 12 is respectively disposed on the bottom plate 11 near two ends of the bottom plate, the two sections of slide rails 12 are all disposed along the length direction of the bottom plate 11, each section of slide rail 12 is slidably connected with a slide block 13, a conveyor belt fixing seat 14 and a connecting plate 15 are fixedly connected to the slide block 13, and the dual conveyor belt 3 is fixed on the conveyor belt fixing seat 14; two cylinder fixing seats 16 are arranged on the bottom plate 11 near the middle of the bottom plate, one cylinder 17 is connected to the two cylinder fixing seats 16 respectively, the movement directions of the two cylinders 17 are opposite, and a piston rod of each cylinder 17 is connected with a connecting plate 15 at the corresponding end respectively.

The position on the bottom plate 11, which is close to each section of sliding rail 12, is fixedly connected with a mold changing groove fixing seat 18 respectively, each mold changing groove fixing seat 18 is connected with a mold changing groove 19, two mold changing grooves 19 are arranged in the same straight line along the horizontal direction, each mold changing groove 19 is provided with three placing grooves 190, the openings of the placing grooves 190 face upwards, an adjusting rod 111 is placed between the two corresponding placing grooves 190, three mounting holes 150 are formed in the two connecting plates 15, corresponding to each placing groove 190, limiting shafts 151 with different lengths can be mounted in the different mounting holes 150, namely, the lengths of the limiting shafts 151 mounted in each mounting hole 150 are different, one end of each limiting shaft 151 is mounted in each mounting hole 150, and the other end of each limiting shaft 151 can extend into the limiting holes 1110 at two ends of the adjusting rod 111. A limiting block 110 is fixedly connected to the bottom plate 11 near the two end parts of the bottom plate, the limiting block 110 abuts against the end parts of the slide rail 12, and the limiting block 110 is connected with the conveyor belt fixing seat 14 through bolts 112.

A sensor holder 191 is also connected to the lower part of each mold changing groove 19, and the same number of sensors 192 as the number of the placement grooves 190 are arranged on the two sensor holders 191, namely, one sensor 192 is connected to one sensor holder 191, and the other sensor holder 191 is connected to the two sensors 192. Meanwhile, two proximity switches 180 are respectively arranged on each of the mold changing groove fixing seats 18, the sensing surface of each proximity switch 180 faces the air cylinder 17, and a speed regulating valve is arranged on the air cylinder 17.

As can be seen from fig. 3 in combination with fig. 1, both ends of the above-mentioned hexagonal shaft mechanism 2 are respectively connected with the double conveyor belt 3 through the connection seats 20. Specifically, the hexagonal shaft mechanism 2 includes a fixed shaft 21, one end of the fixed shaft 21 is connected with a connecting seat 20, the other end is connected with a shaft sleeve 23 through a bearing 22, a hexagonal shaft 24 is arranged in the shaft sleeve 23 in a penetrating manner, one end of the hexagonal shaft 24 extends into the shaft sleeve 23, the other end is connected with the connecting seat 20, and the hexagonal shaft 24 can relatively move along the axial direction of the hexagonal shaft relative to the shaft sleeve 23.

The bandwidth adjustment process of the double conveyor belt 3 is that the adjusting rod 111 is taken out and placed in the other placing groove 190, then the limiting shaft 151 with the other length is installed in the mounting hole 150 corresponding to the placing groove 190, at this time, the cylinder 17 acts to drive the sliding block 13, the conveyor belt fixing seat 14 and the connecting plate 15 to move, when the connecting plate 15 moves to a proper position, the free end of the limiting shaft 151 stretches into the limiting holes 1110 at two ends of the adjusting rod 111, namely, the adjustment process is completed, and the double conveyor belt 3 is fixed on the conveyor belt fixing seat 14, and meanwhile, the adjustment of the bandwidth between the double conveyor belts 3 is completed. The double-conveyor belt 3 can drive the hexagonal shaft 24 to axially move along the shaft sleeve 23 while the bandwidth adjusting mechanism acts, so that the transmission torque and the bandwidth adjusting mechanism are matched to adjust the bandwidth of the double-conveyor belt 3, and the whole structure is compact.

The foregoing describes in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the invention by one of ordinary skill in the art without undue burden. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims

1. The utility model provides an sunroof conveyor, includes two conveyer belts (3), and this two conveyer belts (3) are driven by actuating mechanism (4), its characterized in that:

a bandwidth adjusting mechanism (1) and a hexagonal shaft mechanism (2) are arranged between the double conveyor belts (3) at intervals, and the driving mechanism (4) is arranged below the bandwidth adjusting mechanism (1);

the bandwidth adjusting mechanism (1) comprises a bottom plate (11), a section of sliding rail (12) is respectively arranged on the bottom plate (11) close to the two ends of the bottom plate, the two sections of sliding rails (12) are arranged along the length direction of the bottom plate (11), each section of sliding rail (12) is connected with a sliding block (13) in a sliding manner, and a conveying belt fixing seat (14) and a connecting plate (15) are fixedly connected to the sliding blocks (13);

two air cylinder fixing seats (16) are arranged on the bottom plate (11) near the middle part of the bottom plate, one air cylinder (17) is respectively connected to the two air cylinder fixing seats (16), the movement directions of the two air cylinders (17) are opposite, and piston rods of the air cylinders (17) are respectively connected with the connecting plates (15) at the corresponding ends;

a mold changing groove fixing seat (18) is further arranged on the bottom plate (11) close to each section of the sliding rail (12), each mold changing groove fixing seat (18) is connected with a mold changing groove (19), at least two placing grooves (190) are arranged on each mold changing groove (19), an adjusting rod (111) is arranged between the corresponding two placing grooves (190), mounting holes (150) with the same quantity as the placing grooves (190) are arranged on the two connecting plates (15) corresponding to the placing grooves (190), limiting shafts (151) with different lengths can be mounted in different mounting holes (150), and the free ends of the limiting shafts (151) can extend into the limiting holes (1110) at two ends of the adjusting rod (111);

a limiting block (110) is arranged on the bottom plate (11) near the end parts of the two ends of the bottom plate, the limiting block (110) is propped against the end parts of the sliding rail (12), and the limiting block (110) is connected with the conveyor belt fixing seat (14) through bolts;

two ends of the hexagonal shaft mechanism (2) are respectively connected with the double conveyor belts (3) through connecting seats (20).

2. The sunroof conveying device according to claim 1, wherein:

a sensor fixing frame (191) is arranged below each mold changing groove (19), and the sensors (192) with the same number as the placing grooves (190) are arranged on the two sensor fixing frames (191).

3. The sunroof conveying device according to claim 2, wherein:

at least one proximity switch (180) is arranged on each of the mold changing groove fixing seats (18), and the sensing surface of the proximity switch (180) faces the air cylinder (17).

4. The sunroof conveying device according to claim 1, wherein:

the hexagonal shaft mechanism (2) comprises a fixed shaft (21), one end of the fixed shaft (21) is connected with the connecting seat (20), the other end of the fixed shaft is connected with a shaft sleeve (23) through a bearing (22), a hexagonal shaft (24) is arranged in the shaft sleeve (23) in a penetrating mode, one end of the hexagonal shaft (24) stretches into the shaft sleeve (23), the other end of the hexagonal shaft is connected with the connecting seat (20), and the hexagonal shaft (24) can axially move relative to the shaft sleeve (23).