CN110040438B

CN110040438B - Feeding and conveying device for aluminum pipes

Info

Publication number: CN110040438B
Application number: CN201910409437.3A
Authority: CN
Inventors: 邓玉娟; 胡晓庆
Original assignee: Quzhou College of Technology
Current assignee: Quzhou College of Technology
Priority date: 2019-05-17
Filing date: 2019-05-17
Publication date: 2021-07-20
Anticipated expiration: 2039-05-17
Also published as: CN110040438A

Abstract

The invention relates to a feeding and conveying device for aluminum pipes, which comprises a bottom plate, wherein an aluminum pipe storage device is arranged at the right part of the bottom plate, and an aluminum pipe conveying device is arranged in the middle of the bottom plate; the chain transmission device is arranged at the left part of the bottom plate. The utility model discloses a portable electric heating device, including bottom plate, extension rod, auxiliary table, supplementary desktop, it has the logical groove of U-shaped to open at the bottom plate middle part admittedly, supplementary desktop is last to have the logical groove of U-shaped, and logical inslot slidable mounting has square stand, and the upper portion right side of square stand is equipped with preceding extension rod, preceding extension rod middle part is equipped with spacing step, and preceding extension rod front portion is opened there is the cylinder inside groove, is equipped with the device of getting in the cylinder inside groove. The aluminum pipe storage device has high automation degree, can respectively pick up and release the aluminum pipes in the rotating stop period by controlling the reciprocating forward and reverse 180-degree alternate rotation of the rotating rod on the basis of the function of storing the aluminum pipes, and is matched with the stop conveying of the bearing frame, so that the intermittent conveying and feeding of the stored aluminum pipes are effectively realized, and the aluminum pipe storage device is very convenient to use.

Description

Feeding and conveying device for aluminum pipes

Technical Field

The invention relates to automatic mechanical equipment, in particular to a feeding and conveying device for aluminum tubes.

Background

An aluminum pipe is one of metal pipes, and is often used as an outer pipe of an electric heating pipe. In practice, people need to process the aluminum tubes one by one in a production line manner by adopting corresponding equipment according to the actual application of the aluminum tubes, but the premise of ensuring the processing is that the stored aluminum tubes can be conveyed and fed one by one intermittently to the processing equipment, but the traditional feeding equipment is difficult to realize the feeding task in terms of the current technology.

Disclosure of Invention

The invention provides a loading and conveying device for aluminum tubes, which aims to realize the purpose of conveniently and intermittently conveying and loading stored aluminum tubes.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

the aluminum pipe feeding and conveying device comprises a bottom plate, wherein an aluminum pipe storage device is arranged at the right part of the bottom plate, and an aluminum pipe conveying device is arranged in the middle of the bottom plate; the chain transmission device is arranged at the left part of the bottom plate.

The utility model discloses a portable electric heating device, including bottom plate, extension rod, auxiliary table, supplementary desktop, it has the logical groove of U-shaped to open at the bottom plate middle part admittedly, supplementary desktop is last to have the logical groove of U-shaped, and logical inslot slidable mounting has square stand, and the upper portion right side of square stand is equipped with preceding extension rod, preceding extension rod middle part is equipped with spacing step, and preceding extension rod front portion is opened there is the cylinder inside groove, is equipped with the device of getting in the cylinder inside groove.

A 180-degree forward and backward driving assembly matched with the square upright column is arranged below the auxiliary table; an auxiliary transmission assembly for connecting the 180-degree forward and reverse driving assembly and the chain transmission device is arranged between the 180-degree forward and reverse driving assembly and the chain transmission device.

The aluminum pipe storage device comprises a storage table fixedly mounted on a bottom plate, the upper part of the storage table is U-shaped, a limiting guardrail is arranged at the front part of the storage table, a sliding groove is formed in the middle of the storage table, and a push plate is horizontally and slidably mounted on the sliding groove; and a first spring for connecting the push plate and the storage table is arranged between the push plate and the right side wall of the storage table.

The chain transmission device comprises two rotating shafts which are arranged on the bottom plate through bearing seats, and each rotating shaft is provided with a chain wheel; a chain for driving and connecting the two chain wheels is arranged between each two corresponding chain wheels; the chain is provided with a bearing frame in a transmission way.

Each bearing frame is provided with a loading groove with a semicircular cross section.

The nesting device comprises an air cylinder fixedly arranged on the rear side wall of the cylindrical inner groove, the air cylinder is connected with a control block, and the front end of the control block is V-shaped; the left side and the right side of the cylindrical inner groove are both communicated with through holes, an auxiliary rod is horizontally and slidably mounted in each through hole, and the middle part of each auxiliary rod is provided with a step; all be equipped with the No. two spring that links to each other with the two between the inside wall of step and cylinder inside groove, extension rod axle center one side all is equipped with the inclined plane before every auxiliary rod is being close to.

The 180-degree forward and backward driving assembly comprises two eccentric shafts which are arranged on the bottom surface of the auxiliary table through bearings; each eccentric shaft is provided with a branch gear and an L-shaped swinging rod; the two sub-gears are meshed with each other; the bottom plate is fixedly provided with a motor which is connected with an incomplete gear, and the upper end surface of the incomplete gear is provided with a lug matched with the swinging rod at an eccentric position; the upper end of any one of the two eccentric shafts is connected with a rotating rod, the rotating rod is provided with a matching groove, and the lower part of the square upright post penetrates through the matching groove.

The two eccentric shafts are distributed in a central symmetry mode by taking the center of the incomplete gear as a reference.

The auxiliary transmission assembly comprises a transmission gear which is meshed and matched with the incomplete gear, the transmission gear is connected with a vertical shaft, a first bevel gear is mounted at the upper part of the vertical shaft, a second bevel gear is meshed with the first bevel gear, and the second bevel gear is connected with a longitudinal shaft; a belt transmission component connected with the longitudinal shaft and the rotating shaft on the right side is arranged between the longitudinal shaft and the rotating shaft.

The belt transmission component consists of a belt and two belt wheels; one of the two pulleys is mounted on the longitudinal shaft and the other pulley is mounted on the rotating shaft on the right side.

The longitudinal shaft and the vertical shaft are both installed on the bottom plate through bearing seats.

In the present invention, the aluminum tubes are stacked and stored in a horizontal arrangement with their axes extending back and forth at the left position on the storage table.

The invention has the beneficial effects that:

the aluminum pipe storage device has high automation degree, can respectively pick up and release the aluminum pipes in the rotating stop period by controlling the reciprocating forward and reverse 180-degree alternate rotation of the rotating rod on the basis of the function of storing the aluminum pipes, and is matched with the stop conveying of the bearing frame, so that the intermittent conveying and feeding of the stored aluminum pipes are effectively realized, and the aluminum pipe storage device is very convenient to use.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a front view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a partial enlarged view at I of FIG. 2;

FIG. 4 is a top view of the swing lever;

FIG. 5 is a cross-sectional view A-A of FIG. 1;

fig. 6 is a sectional view B-B of fig. 1.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be described more clearly and more completely with reference to the drawings in the following embodiments, and it is understood that the described embodiments are only a part of the present invention, rather than all of the present invention, and based on the embodiments, other embodiments obtained by those skilled in the art without inventive exercise are within the protection scope of the present invention.

As shown in fig. 1 to 6, the loading and conveying device for the aluminum pipes comprises a bottom plate 1, wherein an aluminum pipe storage device is arranged at the right part of the bottom plate 1, and an aluminum pipe conveying device is arranged at the middle part of the bottom plate 1; the chain transmission device is arranged at the left part of the bottom plate 1.

Auxiliary table 5 is fixedly installed in the middle of bottom plate 1, auxiliary table 5 is last to be opened there is a logical groove 5a of U-shaped, and slidable mounting has square stand 6 in leading to groove 5a, and square stand 6's upper portion right side is equipped with preceding extension rod 6a, preceding extension rod 6a middle part is equipped with spacing step 6b, and preceding extension rod 6a front portion is opened there is cylinder inside groove 6c, is equipped with the device of getting of cover in the cylinder inside groove 6 c.

A 180-degree forward and backward driving component matched with the square upright post 6 is arranged below the auxiliary table 5; an auxiliary transmission assembly for connecting the 180-degree forward and reverse driving assembly and the chain transmission device is arranged between the 180-degree forward and reverse driving assembly and the chain transmission device.

The aluminum pipe storage device comprises a storage table 8 fixedly arranged on a bottom plate 1, the upper part of the storage table 8 is U-shaped, a limiting guardrail 8b is arranged at the front part of the storage table 8, a sliding groove 8a is arranged in the middle of the storage table 8, and a push plate 23 is horizontally and slidably arranged on the sliding groove 8 a; a first spring 7 connecting the push plate 23 and the storage table 8 is arranged between the push plate and the right side wall of the storage table.

The chain transmission device comprises two rotating shafts which are arranged on the bottom plate 1 through bearing seats, and each rotating shaft is provided with a chain wheel 3; a chain 2 which is used for driving and connecting the two chain wheels 3 is arranged between each two corresponding chain wheels 3; the chain 2 is provided with a bearing frame 4 in a transmission way.

Each loading frame 4 is provided with a loading groove with a semicircular cross section.

The nesting device comprises an air cylinder 19 fixedly arranged on the rear side wall of the cylindrical inner groove 6c, the air cylinder 19 is connected with a control block 20, and the front end of the control block 20 is V-shaped; the left side and the right side of the cylindrical inner groove 6c are both communicated with through holes 6d, an auxiliary rod 26 is horizontally and slidably arranged in each through hole 6d, and a step 21 is arranged in the middle of each auxiliary rod 26; a second spring 22 connected with the step 21 and the inner side wall of the cylindrical inner groove 6c is arranged between the step 21 and the inner side wall, and an inclined surface is arranged on one side of each auxiliary rod 26 close to the axis of the front extension rod 6 a.

The 180-degree forward and backward driving assembly comprises two eccentric shafts 24 which are arranged on the bottom surface of the auxiliary table 5 through bearings; each eccentric shaft 24 is provided with a branch gear 15 and an L-shaped swinging rod 17; the two partial gears 15 are meshed with each other; the bottom plate 1 is fixedly provided with a motor 9, the motor 9 is connected with an incomplete gear 16, and a convex block 16a matched with the swinging rod 17 is arranged at the eccentric position of the upper end surface of the incomplete gear 16; the upper end of any one eccentric shaft 24 of the two eccentric shafts 24 is connected with a rotating rod 18, the rotating rod 18 is provided with a matching groove 18a, and the lower part of the square upright post 6 passes through the matching groove 18 a.

The two eccentric shafts 24 are arranged in a centrosymmetric manner with respect to the center of the incomplete gear 16.

The auxiliary transmission assembly comprises a transmission gear 13 meshed and matched with the incomplete gear 16, the transmission gear 13 is connected with a vertical shaft 27, a first bevel gear 14 is installed at the upper part of the vertical shaft 27, a second bevel gear 12 is meshed with the first bevel gear 14, and the second bevel gear is connected with a longitudinal shaft 25; a belt transmission component connected with the longitudinal shaft 25 and the rotating shaft on the right side is arranged between the longitudinal shaft and the rotating shaft.

The belt transmission component consists of a belt 10 and two belt wheels 11; one of the two pulleys 11 is mounted on the longitudinal axis 25, the other pulley 11 being mounted on the rotating shaft on the right side.

The longitudinal shaft 25 and the vertical shaft 27 are both mounted on the base plate 1 through a bearing seat.

In the invention, the aluminum tubes are horizontally arranged and stored at the left position on the storage table 8 in a manner that the axes extend forwards and backwards, wherein the rear end surface of each aluminum tube is abutted against the limit guardrail 8 b. And under the elastic force of the first spring 7, the push plate 23 slides to the left and the aluminum pipe is extruded to the left, so that the leftmost aluminum pipe is abutted against the left side wall of the storage table 8.

In the initial state, the square post 6 is located at the right rear position of the through groove 5 a. Before the aluminum pipe processing equipment is used, the aluminum pipe processing equipment can be arranged beside the right side of the chain 2, namely a feeding point is arranged on the right side of the chain 2.

When the aluminum pipe drawing machine is used, the motor 9 drives the incomplete gear 16 to rotate anticlockwise at a constant speed, the bump 16a and the right side rotate anticlockwise at the beginning and push the swinging rod 17 on the left side to rotate anticlockwise, and under the transmission action of the gear teeth, the sub-gear 15, the swinging rod 17 and the rotating rod 18 on the right side all rotate clockwise, so that the square upright 6 is driven to slide forwards along the track of the right part of the through groove 5a, and the front part of the front extension rod 6a moves forwards and is inserted into the pipe inner cavity of the leftmost aluminum pipe. Meanwhile, the incomplete gear 16 and the transmission gear 13 start to carry out meshing transmission, and under the action of the bevel gear meshing transmission and the transmission of the belt 10, the chain wheel 3 rotates clockwise to drive the chain 2 to drive the bearing frame 4 to drive the right.

When the limiting step 6b on the extension rod 6a slides forwards to abut against the rear end face of the leftmost aluminum pipe, the lug 16a at the moment is disengaged from the abutting state with the swinging rod 17 on the left side, the incomplete gear 16 is engaged and disengaged from the transmission gear 13, the bearing frame 4 is transmitted to the position right in front of the left track of the through groove 5a, and the transmission of the chain 2 is stopped.

Before the lug 16a rotates to abut against the swinging rod 17 on the right side, the square upright 6 and the extension rod 6a are static, at this time, the control block 20 can be pushed forwards through the air cylinder 19, the inclined surfaces of the two auxiliary rods 26 are pushed by the V-shaped surface at the front end of the control block 20, so that the two auxiliary rods 26 respectively slide towards the left side and the right side in a back-to-back manner, and the two auxiliary rods 26 after sliding can limit the front end surface of the leftmost aluminum pipe.

When the lug 16a rotates to abut against the swing rod 17 on the right side and drives the lug to rotate anticlockwise, and when the lug 16a is disengaged from the swing rod 17 on the right side, the rotating rod 18 can rotate anticlockwise for 180 degrees, so that the leftmost aluminum pipe can slide backwards, leftwards and forwards along the track of the through groove 5a along with the square upright column 6 and the extension rod 6a, and the aluminum pipe is inserted above the loading groove of the bearing frame 4 positioned right in front of the track on the left side of the through groove 5 a. After the aluminum tubes are taken away from the upper part of the storage table 8, the rest of the aluminum tubes can move leftwards continuously under the elastic force of the first spring 7 and the pushing plate 23, so that the subsequent feeding is facilitated. Before the lug 16a rotates to abut against the swinging rod 17 on the left side, the air cylinder 19 pulls the control block 20 backwards, and the two auxiliary rods 26 slide towards each other under the action of the elastic restoring force of the second spring 22, so that the limit on the front end surface of the aluminum pipe is released.

The lug 16a rotates to the process of being abutted against the swinging rod 17 on the left side and driving the swinging rod to rotate anticlockwise, the rotating rod 18 can finish 180-degree clockwise rotation, so that the square upright post 6 and the extension rod 6a slide forwards at last along the track of the through groove 5a in the backward direction and then in the rightward direction, namely, the aluminum pipe is pulled away from the extension rod 6a and falls into the loading groove on the corresponding bearing frame 4, and the aluminum pipe can be conveniently transported and fed. And the extension rod 6a can continue to sleeve the aluminum pipe after rotating clockwise along with 180 degrees of the rotating rod 18, so that subsequent feeding is facilitated.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a material loading conveyer of aluminum pipe, includes bottom plate (1), its characterized in that: an aluminum pipe storage device is arranged at the right part of the bottom plate (1), and an aluminum pipe conveying device is arranged in the middle of the bottom plate (1); the chain transmission device is arranged at the left part of the bottom plate (1);

an auxiliary table (5) is fixedly arranged in the middle of the bottom plate (1), a U-shaped through groove (5 a) is formed in the auxiliary table (5), a square upright post (6) is slidably mounted in the through groove (5 a), a front extension rod (6 a) is arranged on the right side of the upper portion of the square upright post (6), a limiting step (6 b) is arranged in the middle of the front extension rod (6 a), a cylindrical inner groove (6 c) is formed in the front portion of the front extension rod (6 a), and a sleeving device is arranged in the cylindrical inner groove (6 c);

a 180-degree positive and negative driving component matched with the square upright post (6) is arranged below the auxiliary table (5); an auxiliary transmission assembly for connecting the 180-degree forward and reverse driving assembly and the chain transmission device is arranged between the 180-degree forward and reverse driving assembly and the chain transmission device; the auxiliary table (5), the square upright post (6), the nesting device, the 180-degree forward and backward driving assembly and the auxiliary transmission assembly belong to an aluminum pipe conveying device;

the chain transmission device comprises two rotating shafts which are arranged on the bottom plate (1) through bearing seats, and each rotating shaft is provided with a chain wheel (3); a chain (2) which is used for driving and connecting the two chain wheels (3) is arranged between each two corresponding chain wheels (3); a bearing frame (4) is arranged on the chain (2) in a transmission way;

the 180-degree forward and backward driving assembly comprises two eccentric shafts (24) which are arranged on the bottom surface of the auxiliary table (5) through bearings; each eccentric shaft (24) is provided with a branch gear (15) and an L-shaped swinging rod (17); the two sub-gears (15) are meshed with each other; a motor (9) is fixedly arranged on the bottom plate (1), the motor (9) is connected with an incomplete gear (16), and a convex block (16 a) matched with the swinging rod (17) is arranged at the eccentric position of the upper end surface of the incomplete gear (16); the upper end of any one eccentric shaft (24) of the two eccentric shafts (24) is connected with a rotating rod (18), the rotating rod (18) is provided with a matching groove (18 a), and the lower part of the square upright post (6) penetrates through the matching groove (18 a).

2. The loading conveyor for aluminum pipes as recited in claim 1, wherein: the aluminum

The pipe storage device comprises a storage platform (8) fixedly arranged on the bottom plate (1), the upper part of the storage platform (8) is U-shaped, a limiting guardrail (8 b) is arranged at the front part of the storage platform (8), a sliding groove (8 a) is arranged in the middle of the storage platform (8), and a push plate (23) is horizontally and slidably arranged on the sliding groove (8 a); a first spring (7) which connects the push plate (23) and the storage table (8) is arranged between the push plate and the right side wall of the storage table.

3. The loading conveyor for aluminum pipes as recited in claim 1, wherein: each bearing frame (4) is provided with a loading groove with a semicircular cross section.

4. The loading conveyor for aluminum pipes as recited in claim 1, wherein: the nesting device comprises an air cylinder (19) fixedly arranged on the rear side wall of the cylindrical inner groove (6 c), the air cylinder (19) is connected with a control block (20), and the front end of the control block (20) is V-shaped; the left side and the right side of the cylindrical inner groove (6 c) are communicated with through holes (6 d), an auxiliary rod (26) is horizontally and slidably mounted in each through hole (6 d), and a step (21) is arranged in the middle of each auxiliary rod (26); a second spring (22) connected with the step (21) and the inner side wall of the cylindrical inner groove (6 c) is arranged between the step (21) and the inner side wall of the cylindrical inner groove, and an inclined surface is arranged on one side, close to the axis of the front extension rod (6 a), of each auxiliary rod (26).

5. The loading conveyor for aluminum pipes as recited in claim 1, wherein: the two eccentric shafts (24) are distributed in a central symmetry mode by taking the center of the incomplete gear (16) as a reference.

6. The loading conveyor for aluminum pipes as recited in claim 1, wherein: the auxiliary transmission assembly comprises a transmission gear (13) meshed and matched with the incomplete gear (16), the transmission gear (13) is connected with a vertical shaft (27), a first bevel gear (14) is installed on the upper portion of the vertical shaft (27), a second bevel gear (12) is meshed with the first bevel gear (14), and the second bevel gear is connected with a longitudinal shaft (25); a belt transmission component connected with the longitudinal shaft (25) and the rotating shaft on the right side is arranged between the longitudinal shaft and the rotating shaft.

7. The loading conveyor for aluminum pipes as recited in claim 6, wherein: the belt transmission component consists of a belt (10) and two belt wheels (11); one (11) of the two pulleys (11) is mounted on the longitudinal shaft (25), and the other pulley (11) is mounted on the rotating shaft on the right side.

8. The loading conveyor for aluminum pipes as recited in claim 6, wherein: the longitudinal shaft (25) and the vertical shaft (27) are both installed on the bottom plate (1) through bearing seats.