CN116002396A - Line side storage reflux appliance - Google Patents

Abstract

The invention provides a line side storage reflux appliance, comprising: a first frame; the second frame body is fixedly connected with the first frame body; the first fluent strip and the second fluent strip are arranged in the first frame body and fixedly connected with the first frame body; the blocking mechanism is arranged in the first frame body and fixedly connected with the first frame body, and the blocking machine is positioned below the first flow facilitating strip; a tray rotatably connected with the second frame body; the pedal is rotatably connected with the second frame and is connected with the tray through a hydraulic rod, and the pedal rotates to drive the hydraulic rod to stretch out and draw back to drive the tray to rotate. According to the line side storage reflux appliance, by stepping on the pedal, the materials slide into the hand tray, so that near-hand operation is realized, and the lower-layer parts do not need to be frequently bent down to be taken; when a box of materials is used, the empty box slides downwards from the tray by stepping on the pedal, so that the whole device is simple and scientific, the use is convenient and fast, and the working efficiency is improved.

Description

Line side storage reflux appliance

Technical Field

The invention relates to the field of logistics appliances, in particular to a line side storage reflux appliance.

Background

At present, the on-line mode of automobile parts is that after the box cover is removed from the original package, the automobile parts are stacked on a pallet truck, the pallet truck is pulled by a tractor to be on line, and then the pallet truck is placed at a designated position of a line edge; production line workers need to take parts from the whole tray box parts one by one to the production line assembly. However, when production line workman upper portion part is taken out, frequently bend to take the lower floor part, the bending still can have the part quality risk of colliding with to take the lower floor part, has had a large amount of action extravagant, influences work efficiency and production quality.

Disclosure of Invention

The invention provides a line side storage reflux appliance, which aims to solve the problem that a user needs to frequently bend down to take down parts, and improve the working efficiency.

In order to solve the technical problems, the technical scheme of the invention is as follows:

an off-line storage reflow appliance, comprising:

a first frame;

the second frame body is fixedly connected with the first frame body;

the first fluency strip and the second fluency strip are arranged in the first frame body and fixedly connected with the first frame body;

the blocking mechanism is arranged in the first frame body and fixedly connected with the first frame body, and the blocking mechanism is positioned below the first flow-promoting strip;

a tray rotatably connected with the second frame body;

the pedal is arranged in the second frame body and is rotatably connected with the second frame body;

the pedal is connected with the tray through a hydraulic rod, and the pedal rotates to drive the hydraulic rod to stretch out and draw back to drive the tray to rotate.

Optionally, the first frame body and the second frame body are both rectangular structures, and the height of the first frame body is higher than that of the second frame body.

Optionally, the first frame body includes: the first transverse rod group, the second transverse rod group, the third transverse rod group, the first upright column group and the second upright column group;

the first cross bar group, the second cross bar group and the third cross bar group are arranged in parallel, and the end parts of the first cross bar group and the second cross bar group are fixedly connected to the first upright post group and the second upright post group.

Optionally, at least 2 brackets are disposed on the first cross bar group, and the brackets are located inside the first frame body.

Optionally, the first fluent strip is disposed on the first crossbar set, and the second fluent strip is disposed on the second crossbar set;

the first fluent strip and the second fluent strip are obliquely arranged at a preset angle, and the end parts of the first fluent strip and the second fluent strip are opposite in oblique direction; the first fluent strip and the second fluent strip are provided with rollers on the surfaces.

Optionally, the blocking mechanism includes: the first blocking rod, the second blocking rod and the middle shaft;

the first blocking rod is of an L-shaped structure, and the second blocking rod is of a cylinder structure;

the blocking mechanism is fixed on the support, the first blocking rod and the second blocking rod are respectively fixed at two ends of the central shaft, and the central shaft rotates to drive the first blocking rod and the second blocking rod to rotate.

Optionally, a tension spring is arranged between the middle shaft and the bracket, and the tension spring stretches to drive the middle shaft to rotate.

Optionally, the second frame body includes: the fourth cross bar group, the fifth cross bar group and the third upright column group;

one end of the fourth cross bar group and one end of the fifth cross bar group are fixedly connected to the second upright post group, and the other end of the fourth cross bar group is fixedly connected to the third upright post group.

Optionally, a first fixing rod is vertically arranged between the third upright post groups, the tray is rotatably connected with the first fixing rod, the rotation angle is an included angle between the first fluent strip and the second fluent strip, and the surface of the tray is provided with a roller.

Optionally, a second fixing rod is vertically arranged between the third cross rod groups, and the pedal is rotatably connected with the second fixing rod.

The scheme of the invention at least comprises the following beneficial effects:

the scheme of the invention comprises the following steps: a first frame; the second frame body is fixedly connected with the first frame body; the first fluency strip and the second fluency strip are arranged in the first frame body and fixedly connected with the first frame body; the blocking mechanism is arranged in the first frame body and fixedly connected with the first frame body, and the blocking mechanism is positioned below the first flow-promoting strip; a tray rotatably connected with the second frame body; the pedal is arranged in the second frame body and is rotatably connected with the second frame body; the pedal is connected with the tray through a hydraulic rod, and the pedal rotates to drive the hydraulic rod to stretch out and draw back to drive the tray to rotate. According to the line side storage reflux appliance, by stepping on the pedal, the materials slide into the hand tray, so that near-hand operation is realized, and the lower-layer parts do not need to be frequently bent down to be taken; when a box of materials is used, the empty box slides downwards from the tray by stepping on the pedal, so that the whole device is simple and scientific, the use is convenient and fast, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of a line side memory reflow appliance provided by an embodiment of the present invention;

FIG. 2 is a side view of a off-line storage reflow appliance provided by an embodiment of the present invention;

FIG. 3 is a top view of a off-line storage reflow appliance provided by an embodiment of the present invention;

fig. 4 is a schematic structural view of a first frame according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a second frame according to an embodiment of the present invention;

FIG. 6 is a schematic view of a blocking mechanism and a bracket according to an embodiment of the present invention;

FIG. 7 is a schematic view of a blocking mechanism provided by an embodiment of the present invention;

FIG. 8 is a schematic view of a first flow strip provided by an embodiment of the present invention;

FIG. 9 is a schematic view of a second flow strip provided by an embodiment of the present invention;

fig. 10 is a schematic structural view of a tray provided by an embodiment of the present invention;

fig. 11 is a schematic structural view of a pedal provided in an embodiment of the present invention.

Reference numerals illustrate:

11. a first frame; 111. a first set of crossbars; 112. a second set of rails; 113. a third set of rails; 114. a first column group; 115. a second column group; 116. a third column group; 12. a second frame; 121. a fourth set of rails; 122. a fifth set of rails; 21. a first fluent strip; 22. a second fluent strip; 3. a blocking mechanism; 31. a first blocking lever; 311. stirring the column; 312. a blocking column; 32. a second blocking lever; 33. a center shaft; 34. a tension spring; 4. a tray; 41. a pulling piece; 42. guard bars; 5. a pedal; 6. a hydraulic rod; 7. a bracket; 81. a first fixing rod; 82. and a second fixing rod.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

As shown in fig. 1 to 3, an embodiment of the present invention proposes an inline memory reflow appliance including:

a first frame 11;

a second frame 12 fixedly connected to the first frame 11;

a first fluent strip 21 and a second fluent strip 22 which are arranged inside the first frame 11 and fixedly connected with the first frame 11;

the blocking mechanism 3 is arranged inside the first frame 11 and fixedly connected with the first frame 11, and the blocking mechanism 3 is positioned below the first fluent strip 21;

a tray 4 rotatably connected to the second frame 12;

a pedal 5 provided inside the second frame 12 and rotatably connected to the second frame 12;

the pedal 5 is connected with the tray 4 through a hydraulic rod 6, and the pedal 5 rotates to drive the hydraulic rod 6 to stretch out and draw back to drive the tray 4 to rotate.

In the above embodiment of the present invention, by pressing the pedal 5, under the action of gravity, the row spacing of the hydraulic rod 6 is changed downwards to drive the tray 4 to rotate downwards, and the tension spring 34 pulls the second blocking rod 32 back to the original position, parallel to the first flow-promoting rod 21, so that the material is released and slides into the first blocking rod 31; the pedal is released, the hydraulic rod 6 rebounds to lift the tray 4, the first blocking rod 31 is propped up to be parallel to the tray 4, and materials slide into the tray 4 to reciprocate. The lower-layer part is not required to be frequently bent to be taken, the use is convenient, and the working efficiency is improved.

In an alternative embodiment of the present invention, the first frame 11 and the second frame 12 are both rectangular structures, and the height of the first frame 11 is higher than that of the second frame 12.

In this embodiment, as shown in fig. 2, the first frame 11 is provided with the first fluency strip 21, the second fluency strip 22, and the blocking mechanism 3; the second frame 12 is provided with the pedal 5 and the tray 4.

The height of the first frame body 11 is higher than that of the second frame body 12, materials can slide into the second frame body 12 from the first frame body 11 conveniently, the height of the second frame body 12 is suitable for the height of a worker, the worker always keeps high operation, and the worker does not need to bend down.

In an alternative embodiment of the present invention, the first housing 11 includes: a first beam set 111, a second beam set 112, a third beam set 113, a first column set 114, and a second column set 115;

the first cross bar group 111, the second cross bar group 112 and the third cross bar group 113 are arranged in parallel, and the end parts of the first cross bar group 111, the second cross bar group 112 and the third cross bar group 113 are fixedly connected to the first upright post group 114 and the second upright post group 115.

In this embodiment, as shown in fig. 4, the first frame 11 is a rectangular frame, and the first beam group 111, the second beam group 112, and the third beam group 113 are arranged in parallel to divide the first frame 11 into an upper-lower 2-layer space. The first fluency strip 21 and the blocking mechanism 3 are arranged in the upper space, and the second fluency strip 22 is arranged in the lower space.

In an alternative embodiment of the present invention, at least 2 brackets 7 are disposed on the first cross bar set 111, and the brackets 7 are located inside the first frame 11.

In this embodiment, as shown in fig. 4, a collar is disposed on the bracket 7, which is used to support the blocking mechanism 3 and realize rotation of the blocking mechanism 3.

In an alternative embodiment of the present invention, the first fluent strip 21 is disposed on the first crossbar set 111, and the second fluent strip 22 is disposed on the second crossbar set 112;

the first fluent strip 21 and the second fluent strip 22 are obliquely arranged at a preset angle, and the end parts of the first fluent strip 21 and the second fluent strip 22 are obliquely opposite in direction; the surfaces of the first fluent strip 21 and the second fluent strip 22 are provided with rollers.

In this embodiment, as shown in fig. 8 and 9, rollers are disposed on the surfaces of the first fluent strip 21 and the second fluent strip 22, so that the feed box can slide on the first fluent strip 21 and the second fluent strip 22 through the rollers.

As shown in fig. 2, the ends of the first flow strip 21 and the second flow strip 22 are inclined in opposite directions, the first flow strip 21 being used to convey material to the tray 4, the second flow strip 22 being used to convey an empty material box that is finished operating on the tray 4;

the preset inclination angles and the end inclination directions of the first fluent strip 21 and the second fluent strip 22 can be matched with the rotation angle of the tray 4, so that the tray 4 can be parallel to the first fluent strip 21 or the second fluent strip 22 after rotating, and the operations of loading and unloading are realized.

In an alternative embodiment of the present invention, the blocking mechanism 3 includes: a first blocking lever 31, a second blocking lever 32 and a central shaft 33;

the first blocking rod 31 has an L-shaped structure, and the second blocking rod 32 has a cylindrical structure;

the blocking mechanism 3 is fixed on the bracket 7, the first blocking rod 31 and the second blocking rod 32 are respectively fixed at two ends of the central shaft 33, and the central shaft 33 rotates to drive the first blocking rod 31 and the second blocking rod 32 to rotate.

In this embodiment, as shown in fig. 6, the blocking mechanism 3 is fixedly connected to the bracket 7 through the central shaft 33, and the tension spring 34 is disposed between the central shaft 33 and the bracket 7.

As shown in fig. 7, the first blocking lever 31 has an "L" structure, and includes a toggle post 311 and a blocking post 312; the second blocking rod 32 is of a cylindrical structure, and is opposite to the groove of the L-shaped structure of the first blocking rod 31.

The poking column 311 is opposite to the poking sheet 41, and is used for poking the blocking mechanism 3 by the tray 4, so that the blocking mechanism 3 rotates.

When the tray 4 is parallel to the first flow Li Tiao, the blocking mechanism 3 is in a first state, the second blocking lever 32 is in a vertical position, and a material box is blocked by the second blocking lever 32; when the tray 4 is parallel to the second flow strip 22, the blocking mechanism 3 is in the second state, and the material box is blocked by the blocking column 312; when the tray 4 is parallel to the first flow Li Tiao again, the blocking mechanism 3 returns to the first state, the ends of the toggle post 311 and the blocking post 312 of the first blocking lever 31 are parallel to the first flow bar 21, blocking is released, and the material box slides onto the tray 4.

In an alternative embodiment of the present invention, a tension spring 34 is disposed between the central shaft 33 and the bracket 7, and the tension spring 34 stretches to drive the central shaft 33 to rotate.

In this embodiment, as shown in fig. 6, the tension spring 34 is connected between the bracket 7 and the central shaft 33, and when the tray 4 is parallel to the first flow Li Tiao, the central shaft 33 is driven to rotate by a certain angle from the initial position, so that the tension spring 34 is in a stretched state; when the tray 4 is parallel to the second flow strip 22, the tension spring 34 resets to drive the center shaft 33 to rotate back to the initial position.

In an alternative embodiment of the present invention, the second housing 12 includes: a fourth beam set 121, a fifth beam set 122, and a third column set 116;

one end of the fourth cross bar set 121 and one end of the fifth cross bar set 122 are fixedly connected to the second upright set 115, and the other end is fixedly connected to the third upright set 116.

In this embodiment, as shown in fig. 5, the fourth bar group 121 and the fifth bar group 122 divide the second frame 12 into upper and lower 2-layer spaces. The tray 4 is arranged in the upper space, and the pedal 5 is arranged in the lower space.

In an alternative embodiment of the present invention, a first fixing rod 81 is vertically disposed between the third upright post sets 116, the tray 4 is rotatably connected to the first fixing rod 81, the rotation angle is an included angle between the first flow strip 21 and the second flow strip 22, and a roller is disposed on the surface of the tray 4.

In this embodiment, as shown in fig. 10, rollers are provided on the surface of the tray 4, so that the material box can slide on the tray 4;

the tray 4 is close to one end of the blocking mechanism 3, and is further provided with a poking piece 41 for poking the blocking mechanism 3 to enable the blocking mechanism 3 to rotate by a certain angle;

the edge of the tray 4 is also provided with a guard rail 42, which ensures that the material box does not fall out when sliding from the first fluent strip 21 onto the tray 4 or from the tray 4 onto the second fluent strip 22.

As shown in fig. 2, the rotatable angle of the tray 4 is the angle between the first frame 11 and the second frame 12, and the hydraulic rod 6 is driven by the pedal 5 to control the tray 4 to rotate. The tray 4 rotates to be parallel to the first frame 11, so that feeding operation can be realized; and rotating to be matched with the second frame body 12, so that the empty box can be dismounted.

In an alternative embodiment of the present invention, a second fixing rod 82 is vertically disposed between the third cross bar group 113, and the pedal 5 is rotatably connected to the second fixing rod 82.

In this embodiment, as shown in fig. 11, the second fixing rod 82 is provided with a collar, and the collar is connected with the pedal 5 to implement the rotation of the pedal 5.

As shown in fig. 5, the pedal 5 and the tray 4 are connected with the hydraulic rod 6, when the pedal 5 is stepped on, the hydraulic rod 6 is subjected to gravity, and the row spacing changes downwards to drive the tray 4 to rotate downwards; the pedal 5 is released, and the hydraulic rod 6 rebounds to jack up the tray 4.

The specific working procedure of the off-line storage reflux appliance according to the embodiment of the invention is as follows:

when the pedal 5 is stepped on, under the action of gravity, the line spacing of the hydraulic rod 6 is changed downwards to drive the tray 4 to rotate downwards, and the tension spring 34 pulls the second blocking rod 32 back to the original position, and the second blocking rod is parallel to the first fluent rod 21, so that materials are released and slide into the first blocking rod 31; the pedal is released, the hydraulic rod 6 rebounds to lift the tray 4, the first blocking rod 31 is propped up to be parallel to the tray 4, and materials slide into the tray 4 to reciprocate.

According to the line side storage reflux appliance, a worker steps on a pedal, a material box slides into a hand tray, and the line side storage reflux appliance is subjected to near-hand operation, so that frequent bending is not needed to take down parts; when a box of materials is used, the pedal is stepped down again, so that the empty box slides downwards from the tray, the whole mechanism is simple and scientific, the use is convenient, the problems that action waste and human body load exist during the assembly of the existing parts, an operator always keeps one action to improve the proficiency, the collision risk of the part quality is reduced, and the working efficiency and the production quality are affected are solved.

The off-line storage reflux appliance can shorten the working time from 125 hours to 74 hours per month in actual production and use.

While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present invention, and such modifications and adaptations are intended to be comprehended within the scope of the present invention.

Claims (10)

1. An off-line storage reflow appliance, comprising:

a first frame (11);

a second frame (12) fixedly connected to the first frame (11);

a first fluent strip (21) and a second fluent strip (22) which are arranged in the first frame body (11) and fixedly connected with the first frame body (11);

the blocking mechanism (3) is arranged inside the first frame body (11) and fixedly connected with the first frame body (11), and the blocking mechanism (3) is positioned below the first flow guide strip (21);

a tray (4) rotatably connected to the second frame (12);

a pedal (5) provided inside the second frame (12) and rotatably connected to the second frame (12);

the pedal (5) is connected with the tray (4) through a hydraulic rod (6), and the pedal (5) rotates to drive the hydraulic rod (6) to stretch out and draw back to drive the tray (4) to rotate.

2. The off-line storage reflow appliance according to claim 1, wherein the first frame (11) and the second frame (12) are both rectangular in structure, and the first frame (11) is higher than the second frame (12).

3. The off-line storage reflow appliance according to claim 1, wherein the first frame (11) includes: a first crossbar group (111), a second crossbar group (112), a third crossbar group (113), a first column group (114), and a second column group (115);

the first cross rod group (111), the second cross rod group (112) and the third cross rod group (113) are arranged in parallel, and the end parts of the first cross rod group (111), the second cross rod group (112) and the third cross rod group (113) are fixedly connected to the first upright column group (114) and the second upright column group (115).

4. A paraxial storage reflux apparatus according to claim 3 wherein the first set of crossbars (111) is provided with at least 2 brackets (7), the brackets (7) being located inside the first frame (11).

5. A line side storage reflow appliance according to claim 3, wherein the first flow bars (21) are arranged on the first set of crossbars (111) and the second flow bars (22) are arranged on the second set of crossbars (112);

the first flow strip (21) and the second flow strip (22) are obliquely arranged at a preset angle, and the end parts of the first flow strip (21) and the second flow strip (22) are obliquely opposite in direction; the surfaces of the first fluent strip (21) and the second fluent strip (22) are provided with rollers.

6. The off-line storage reflow appliance in accordance with claim 4, wherein the blocking mechanism (3) includes: a first blocking rod (31), a second blocking rod (32) and a center shaft (33);

the first blocking rod (31) is of an L-shaped structure, and the second blocking rod (32) is of a cylindrical structure;

the blocking mechanism (3) is fixed on the support (7), the first blocking rod (31) and the second blocking rod (32) are respectively fixed at two ends of the center shaft (33), and the center shaft (33) rotates to drive the first blocking rod (31) and the second blocking rod (32) to rotate.

7. The off-line storage reflux apparatus according to claim 6, wherein a tension spring (34) is provided between the central shaft (33) and the bracket (7), and the tension spring (34) stretches to drive the central shaft (33) to rotate.

8. A line side storage reflow appliance according to claim 3, wherein the second frame (12) includes: a fourth set of crossbars (121), a fifth set of crossbars (122) and a third set of uprights (116);

one end of the fourth cross bar group (121) and one end of the fifth cross bar group (122) are fixedly connected to the second upright post group (115), and the other end of the fourth cross bar group is fixedly connected to the third upright post group (116).

9. The off-line storage reflow appliance according to claim 8, wherein a first fixing rod (81) is vertically arranged between the third upright post groups (116), the tray (4) is rotatably connected with the first fixing rod (81), the rotation angle is an included angle between the first fluent strip (21) and the second fluent strip (22), and the surface of the tray (4) is provided with a roller.

10. A paraxial storage and return appliance according to claim 3, wherein a second fixing rod (82) is vertically provided between the third crossbar group (113), and the pedal (5) is rotatably connected to the second fixing rod (82).

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