CN112374027A - Automobile parts packing differential chain production line - Google Patents

Abstract

The invention discloses a production line of a packaging differential chain for automobile parts, which structurally comprises a support, a packaging table and a conveying belt, wherein the packaging table is horizontally arranged at two sides of the top of the support, the conveying belt is positioned at the central position of the top of the support, the conveying belt is provided with a bearing, a supporting strip and a pushing mechanism, as the conveying belt generates vibration force in the operation process, the parts roll back and forth under the action of power, the supporting strip is pushed to form an uneven surface by the pushing mechanism, the friction between the conveying belt and the parts is favorably increased, the parts roll back and forth under the action of power on the conveying belt to cause the parts to collide with each other, the appearance shape is easily changed, the normal use of the parts is favorably realized, as an expansion ring receives airflow backflow inside the pushing force of the supporting strip, the deformation is easily generated, the airflow in an inner groove is blocked by an air inlet, the size of the air flow of the inner groove is kept, and the expansion ring is kept in the original shape.

Description

Automobile parts packing differential chain production line

Technical Field

The invention belongs to the field of differential chain production lines, and particularly relates to an automobile part packaging differential chain production line.

Background

After the production and processing of automobile parts are finished, the parts are packaged and transported, in order to increase the packaging speed, the parts are conveyed by a conveying belt of a differential chain production line, the conveying belt is movably matched with a chain, the parts are conveyed and transported by the conveying belt, and workers take out the parts for packaging; when the differential chain production line is adopted to convey and package automobile parts in the prior art, when the parts of an automobile are spherical, the contact area between the parts and the conveying belt is small, the parts roll back and forth under the action of power on the conveying belt due to the fact that the conveying belt generates vibration force in the operation process, the parts collide with each other, the appearance shape is easy to change, and normal use of the parts is affected.

Disclosure of Invention

In order to solve the problems that when the automobile parts are conveyed and packaged by adopting the differential chain production line in the prior art, when the automobile parts are spherical, the contact area between the parts and the conveying belt is small, the parts roll back and forth under the action of power on the conveying belt due to the fact that the conveying belt generates vibration force in the operation process, the parts collide with each other, the appearance shape is easy to change, and the normal use of the parts is influenced, the invention provides the automobile parts packaging differential chain production line.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an automobile parts packing differential chain production line, its structure includes support, packing platform, conveyer belt, packing platform horizontal installation is in support top both sides, the conveyer belt is located support top central point and puts.

The conveyer belt is equipped with bearing, support bar, pushing mechanism, the bearing is located inside the conveyer belt both ends, the support bar is located the conveyer belt outside, pushing mechanism overlaps at the support bar inner wall.

As a further improvement of the invention, the pushing mechanism is provided with a bottom plate, two pushing strips, a connecting shaft and two pushing plates, wherein the bottom plate is positioned in the middle of the bottom surface of the pushing mechanism, the pushing strips are positioned in the middle upper part of the bottom plate, the pushing plates are connected and installed at the top ends of the bottom plate through the connecting shaft, and the two pushing strips are symmetrically distributed.

As a further improvement of the invention, the push plate is provided with a frame, elastic strips, push blocks, air cavities and push rods, the push blocks are arranged at two ends of the inner side of the frame through the elastic strips, the air cavities are positioned in the frame, the push rods penetrate through the upper surface and the lower surface of the top end of the frame and are communicated with the air cavities, and the push blocks are symmetrically distributed.

As a further improvement of the invention, the push rod is provided with a rod body, an air inlet plate, an inner groove and a telescopic ring, the rod body is positioned outside the push rod, the air inlet plate is arranged at the bottom end of the inner wall of the rod body, the inner groove is positioned inside the push rod, the telescopic ring is arranged on the side surface of the rod body and is communicated with the inner groove, and the telescopic ring is made of rubber and is in an arc triangular shape.

As a further improvement of the invention, the air inlet plate is provided with a lath, an opening and three blocking blocks, the opening penetrates through the upper surface and the lower surface of the lath, and the blocking blocks are arranged in the opening.

As a further improvement of the invention, the blocking block is provided with side rods, drainage holes, a clamping block and springs, wherein the side rods are positioned at two sides of the blocking block, the drainage holes penetrate through the middle part of the blocking block, the side surface of the clamping block is connected with the side rods through the springs, and the clamping block is respectively in movable fit with the three springs.

As a further improvement of the invention, the fixture block is provided with a block body, a groove and a stressed block, the groove is sunken in the left side surface of the block body, the stressed block is obliquely embedded at the top end of the block body, and the left side surface of the block body is an uneven surface.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. because the conveyer belt produces the vibrations power at the in-process of moving, the parts receive dynamic action and make a round trip to roll at the conveyer belt, promote the support bar through pushing mechanism and be unevenness's surface, be favorable to increasing the friction of conveyer belt and parts, be favorable to reducing the parts and receive dynamic action and make a round trip to roll at the conveyer belt, lead to parts collision each other, and the appearance shape easily changes, is favorable to the normal use of parts.

2. Because the telescopic ring receives the inside air current refluence of the thrust of support bar, easily takes place deformation, blocks through the air inlet plate to the air current in the inside groove, reduces the air current and flows backwards to the inside groove outside, is favorable to keeping the air current size of inside groove, is favorable to the telescopic ring to keep original shape.

Drawings

FIG. 1 is a schematic structural diagram of an automotive part packaging differential chain production line.

Fig. 2 is a schematic structural view of a cross-sectional side view of a conveyor belt according to the present invention.

Fig. 3 is a side sectional structural schematic view of a pushing mechanism according to the present invention.

FIG. 4 is a side sectional structural schematic view of a push plate according to the present invention.

Fig. 5 is a schematic side sectional view of a push rod according to the present invention.

Fig. 6 is a schematic side sectional view of an intake plate according to the present invention.

FIG. 7 is a schematic side sectional view of a barrier according to the present invention.

Fig. 8 is a schematic side sectional view of a card according to the present invention.

In the figure: the device comprises a bracket-1, a packaging table-2, a conveying belt-3, a bearing-31, a supporting strip-32, a pushing mechanism-33, a bottom plate-a 1, a pushing strip-a 2, a connecting shaft-a 3, a pushing plate-a 4, a frame-s 1, an elastic strip-s 2, a pushing block-s 3, an air cavity-s 4, a pushing rod-s 5, a rod body-d 1, an air inlet plate-d 2, an inner groove-d 3, an expansion ring-d 4, a lath-e 1, an opening-e 2, a blocking block-e 3, a side rod-r 1, a drainage hole-r 2, a block-r 3, a spring-r 4, a block-t 1, a groove-t 2 and a stress block-t 3.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides an automobile part packaging differential chain production line which structurally comprises a support 1, a packaging table 2 and a conveying belt 3, wherein the packaging table 2 is horizontally arranged on two sides of the top of the support 1, and the conveying belt 3 is located in the center of the top of the support 1.

The conveyer belt 3 is equipped with bearing 31, support bar 32, pushing mechanism 33, bearing 31 is located inside 3 both ends of conveyer belt, support bar 32 is located the conveyer belt 3 outside, pushing mechanism 33 overlaps at support bar 32 inner wall.

The pushing mechanism 33 is provided with a bottom plate a1, two pushing strips a2, a connecting shaft a3 and a pushing plate a4, the bottom plate a1 is located in the middle of the bottom surface of the pushing mechanism 33, the pushing strips a2 are located in the middle upper portion of the bottom plate a1, the pushing plates a4 are connected and mounted at the top end of the bottom plate a1 through the connecting shafts a3, and the two pushing strips a2 are symmetrically distributed, so that the pushing plates a4 are stressed uniformly, and the pushing plates a4 are driven to reset quickly.

The push plate a4 is provided with a frame s1, elastic strips s2, a push block s3, an air cavity s4 and a push rod s5, the push block s3 is mounted at two ends of the inner side of the frame s1 through the elastic strips s2, the air cavity s4 is located inside the frame s1, the push rod s5 penetrates through the upper surface and the lower surface of the top end of the frame s1 and is communicated with the air cavity s4, the push block s3 is provided with two blocks which are symmetrically distributed, and therefore the push block s3 can push and extrude air flow inside the air cavity s4, and the flow speed of the air flow is increased.

The push rod s5 is provided with a rod body d1, an air inlet plate d2, an inner groove d3 and a telescopic ring d4, the rod body d1 is located outside the push rod s5, the air inlet plate d2 is installed at the bottom end of the inner wall of the rod body d1, the inner groove d3 is located inside the push rod s5, the telescopic ring d4 is installed on the side face of the rod body d1 and communicated with the inner groove d3, the telescopic ring d4 is made of rubber materials and is in an arc triangular shape, elasticity is achieved, expansion of the telescopic ring d4 is facilitated, the surface of the support bar 32 is uneven, friction force between the support bar 32 and bulk parts is increased, and sliding of bulk parts is reduced.

The specific use mode and function of the embodiment are as follows:

in the invention, automobile parts are placed on the top of a conveying belt 3 of a production line, the conveying belt 3 drives the parts to be conveyed forwards and taken out to a packaging table 2 for packaging treatment, when the parts are placed on the top of a supporting strip 32 of the conveying belt 3, the supporting strip 32 is sunk downwards under the gravity of the parts, so that the parts are static on the top of the supporting strip 32, a push plate a4 of a pushing mechanism 33 is pushed by the thrust of the supporting strip 32 to push a2 to deform with a bottom plate a1 as a fulcrum, so that a push plate 737a 3 moves downwards, when the push plate a4 swings downwards under the thrust of the parts, a push block s3 inside a frame s1 moves and pulls and expands an elastic strip s2, the push block s3 moves to discharge air flow inside an air cavity s4 to a push rod s5, the air flow enters an inner groove d3 through an air inlet plate d2 of a rod body d1, the air flow in the inner groove d2 passes through an expansion ring d4, the expansion ring d4 expands, and the expansion ring d 596, promote support bar 32 through pushing mechanism 33 and be unevenness's surface, be favorable to increasing the friction of conveyer belt 3 with the parts, be favorable to reducing the parts and receive the power to act on the conveyer belt 3 and make a round trip to roll, lead to the parts to collide each other, and the appearance shape easily changes, is favorable to the normal use of parts.

Example 2:

as shown in fig. 6 to 8:

the air inlet plate d2 is provided with a slat e1, an opening e2 and a blocking block e3, the opening e2 penetrates through the upper surface and the lower surface of the slat e1, the blocking block e3 is installed in the opening e2, and three openings e2 are arranged, so that the air flow passing through the opening e2 is facilitated, and the speed of expansion deformation of the telescopic ring d4 is increased.

The blocking block e3 is provided with side bars r1, drainage holes r2, a clamping block r3 and a spring r4, the side bars r1 are located on two sides of the blocking block e3, the drainage holes r2 penetrate through the middle of the blocking block e3, the side face of the clamping block r3 is connected with the side bars r1 through the spring r4, and the clamping block r3 is respectively in movable fit with the three springs r4, so that the clamping block r3 is stressed uniformly, and the resetting speed of the clamping block r3 can be increased.

Wherein, fixture block r3 is equipped with block t1, recess t2, atress piece t3, recess t2 is sunken in block t1 left surface, atress piece t3 slope is inlayed and is fixed at block t1 top, block t1 left surface is unevenness's surface, is favorable to increasing the atress area of block t1 left surface for block t1 receives the thrust of air current and removes.

The specific use mode and function of the embodiment are as follows:

in the invention, when air flows into the inner groove d3 from the air inlet plate d2 and flows into the opening e2 of the air inlet plate d2, the blocking block e3 takes the side rod r1 as a fulcrum and pushes the spring r4 to contract through the clamping block r3, the spring r4 drives the clamping blocks r3 to separate from each other, the air flows enter the inner groove d3 through the drainage hole r2, when the thrust of the air flow is smaller than that of the spring r4, the spring r4 pushes the block t1 to return, so that the clamping blocks r3 are jointed, the air flow backflow in the inner groove d3 is reduced, the air flow in the inner groove d3 is blocked by the air inlet plate d2, the air flow backflow to the outside the inner groove d3 is reduced, the air flow size of the inner groove d3 is favorably maintained, and the telescopic ring d4 is favorably maintained.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (7)

1. The utility model provides an automobile parts packing differential chain production line, its structure includes support (1), packing platform (2), conveyer belt (3), packing platform (2) horizontal installation is in support (1) top both sides, conveyer belt (3) are located support (1) top central point and put its characterized in that:

conveyer belt (3) are equipped with bearing (31), support bar (32), pushing mechanism (33), inside bearing (31) is located conveyer belt (3) both ends, support bar (32) are located the conveyer belt (3) outside, pushing mechanism (33) cover is in support bar (32) inner wall.

2. The automotive parts packaging differential chain production line of claim 1, wherein: the pushing mechanism (33) is provided with a bottom plate (a1), a pushing bar (a2), a connecting shaft (a3) and a pushing plate (a4), the bottom plate (a1) is located in the middle of the bottom surface of the pushing mechanism (33), the pushing bar (a2) is located on the middle upper portion of the bottom plate (a1), and the pushing plate (a4) is connected and mounted at the top end of the bottom plate (a1) through the connecting shaft (a 3).

3. The automotive parts packaging differential chain production line of claim 2, wherein: the push plate (a4) is provided with a frame (s1), elastic strips (s2), a push block (s3), an air cavity (s4) and a push rod (s5), the push block (s3) is installed at two ends of the inner side of the frame (s1) through the elastic strips (s2), the air cavity (s4) is located inside the frame (s1), and the push rod (s5) penetrates through the upper surface and the lower surface of the top end of the frame (s1) and is communicated with the air cavity (s 4).

4. The automotive parts packaging differential chain production line of claim 3, wherein: the push rod (s5) is provided with a rod body (d1), an air inlet plate (d2), an inner groove (d3) and a telescopic ring (d4), the rod body (d1) is located outside the push rod (s5), the air inlet plate (d2) is installed at the bottom end of the inner wall of the rod body (d1), the inner groove (d3) is located inside the push rod (s5), and the telescopic ring (d4) is installed on the side face of the rod body (d1) and communicated with the inner groove (d 3).

5. The automotive parts packaging differential chain production line of claim 4, wherein: the air inlet plate (d2) is provided with a batten (e1), an opening (e2) and a blocking block (e3), the opening (e2) penetrates through the upper surface and the lower surface of the batten (e1), and the blocking block (e3) is installed inside the opening (e 2).

6. The automotive parts packaging differential chain production line of claim 5, wherein: the blocking block (e3) is provided with a side rod (r1), a drainage hole (r2), a clamping block (r3) and a spring (r4), the side rod (r1) is positioned at two sides of the blocking block (e3), the drainage hole (r2) penetrates through the middle of the blocking block (e3), and the side surface of the clamping block (r3) is connected with the side rod (r1) through the spring (r 4).

7. The automotive parts packaging differential chain production line of claim 6, wherein: the clamping block (r3) is provided with a block body (t1), a groove (t2) and a stress block (t3), the groove (t2) is recessed in the left side face of the block body (t1), and the stress block (t3) is obliquely embedded and fixed at the top end of the block body (t 1).

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