CN210247399U - Tubular packaging material loading attachment based on dysmorphism plug-in components machine - Google Patents

Abstract

The utility model discloses a tubular packaging material loading attachment based on dysmorphism plug-in components machine belongs to the automation equipment processing field, sets up the main connecting plate of material pipe groove, along be provided with a set of mutual symmetry, can pile up the pipe buttress fixed stop plate mechanism of material pipe on the main connecting plate that the both ends of material pipe groove correspond perpendicularly, along the pipe buttress fixed stop plate mechanism install the trusteeship mechanism that is parallel to each other respectively; a group of material pipe supporting and releasing mechanisms are arranged below the pipe supporting mechanism and along one side of the material pipe groove; the pipe pile fixing baffle mechanism is connected with a horizontal vibration feeder through a material conveying pipeline along one end of the pipe pile fixing baffle mechanism, and a material pushing mechanism used for pushing the materials in the material pipe to advance is connected along the other end of the pipe pile fixing baffle mechanism; and an empty pipe collecting box movably connected with the main connecting plate is arranged along the bottom of the material pipe groove. The device is simple in structure, convenient to maintain, exquisite in design, high in accuracy and capable of greatly improving working efficiency.

Description

Tubular packaging material loading attachment based on dysmorphism plug-in components machine

Technical Field

The utility model relates to an automation equipment processing field especially relates to a tubular packaging material loading attachment based on dysmorphism plug-in components machine.

Background

In the industrial production process of the current power supply products, electronic components are manually inserted into a circuit board. With the advance of factory automation, a full-automatic online feeding machine needs to be designed for tubular packaged electronic components. Although the mature full-automatic on-line feeding machine can replace manual automatic feeding, the full-automatic on-line feeding machine is rarely applied because of complex structure, high cost and no economical efficiency. Therefore, an improvement on a technical scheme with simple structure, convenient maintenance, low cost and long service life is urgently needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art's problem, a tubular packaging material loading attachment based on dysmorphism plug-in components machine is provided, promote the intraductal material of material to advance through pushing equipment, and in getting into horizontal vibrations feeder along material pipeline, the material pipe piles up through a pipe buttress fixed stop mechanism, and install the trusteeship mechanism that is used for holding material pipe both ends on this pipe buttress fixed stop mechanism, there is the material pipe that can support the bottom material pipe to support and releases the mechanism at the side-mounting of material pipe groove, and this material pipe of accessible drive supports and releases the mechanism, and trusteeship mechanism realizes supporting and releasing of the material pipe of pipe buttress fixed stop mechanism. The mechanism can be used in combination of multiple groups, is simple in structure and convenient to maintain, is exquisite in design and high in accuracy, and can greatly improve the working efficiency.

The above purpose is realized by the following technical scheme:

a tubular packaging material loading attachment based on dysmorphism plug-in components machine includes: the pipe pile stacking device comprises a main connecting plate, a group of pipe pile fixing baffle mechanisms and a plurality of supporting pipe mechanisms, wherein the main connecting plate is provided with a pipe groove, a group of pipe pile fixing baffle mechanisms which are symmetrical to each other and can stack pipes are vertically arranged on the main connecting plate corresponding to two ends of the pipe groove, and the supporting pipe mechanisms are parallel to each other and are respectively arranged along the pipe pile fixing baffle mechanisms; a group of material pipe supporting and releasing mechanisms are arranged below the pipe supporting mechanism and along one side of the material pipe groove; the pipe pile fixing baffle mechanism is connected with a horizontal vibration feeder through a material conveying pipeline along one end of the pipe pile fixing baffle mechanism, and a material pushing mechanism used for pushing the materials in the material pipe to advance is connected along the other end of the pipe pile fixing baffle mechanism; and an empty pipe collecting box movably connected with the main connecting plate is arranged along the bottom of the material pipe groove.

Furthermore, the pipe stack fixing baffle mechanism comprises a semi-closed cavity matched with the end part of the material pipe, and a baffle which is parallel to the first side baffle and the second side baffle and is vertical to the first side baffle and the second side baffle, wherein a material channel for materials in the material pipe to pass through is formed along the baffle; the material channel comprises a first material channel and a second material channel which are parallel to each other, the first material channel is connected with the horizontal vibration feeder through the material conveying pipeline, and the second material channel is used for being connected with the material pushing mechanism.

Furthermore, the material pushing mechanism comprises a material pushing motor, the material pushing motor is connected with a synchronous pulley wound with a material pushing synchronous belt through a bevel gear set, the synchronous pulley is fixed through a synchronous pulley fixing plate, a synchronous belt baffle plate connected with the synchronous belt baffle plate fixing plate is arranged right above the synchronous pulley, and the synchronous belt baffle plate fixing plate is connected with the synchronous pulley fixing plate; the synchronous belt wheel fixing plate is further provided with a press belt roller, the press belt roller and the synchronous belt wheel are located on the same side of the synchronous belt wheel fixing plate and are kept at the same level, and the material pushing synchronous belt enters the material pipe through the position above the synchronous belt wheel and the position below the press belt roller.

Furthermore, the tail end of the pushing synchronous belt is connected with a synchronous belt counterweight.

Furthermore, the bevel gear set comprises a first bevel gear connected with the pushing motor and a second bevel gear connected with the outer side of the synchronous pulley, a pushing shading sheet is further connected between the second bevel gear and the synchronous pulley, and the pushing shading sheet is matched with a pushing photoelectric switch arranged on the synchronous belt baffle.

Further, the material pipe support and release mechanism include with the fixed block that the main junction board is fixed, the top of fixed block is connected with the backup pad, follows the tip of backup pad is connected with even axle perpendicularly, the both ends of even axle are installed respectively and are located the first synchronizing wheel of backup pad top and the second synchronizing wheel that is located the backup pad below, the top of even axle be connected with the material pipe backup pad that the main junction board is parallel, two sets of the second synchronizing wheel passes through belt interconnect, the second is organized the first synchronizing wheel passes through the belt and is connected with the third synchronizing wheel, the third synchronizing wheel passes through motor drive.

Further, the trusteeship mechanism includes the trusteeship cylinder fixed with first side shield or second side shield, trusteeship cylinder passes through the connecting block and is connected with the layer board, the layer board with the material passageway matches.

Advantageous effects

Utilize the technical scheme of the utility model a tubular packaging material loading attachment based on dysmorphism plug-in components machine of making, promote the material in the material pipe through pushing equipment and advance, and in getting into horizontal vibrations feeder along material pipeline, the material pipe piles up through a tub buttress fixed stop mechanism, and install the trusteeship mechanism that is used for holding material pipe both ends on this tub buttress fixed stop mechanism, there are the material pipe that can support bottom material pipe to support and release the mechanism at the side-mounting in material pipe box, and this material pipe of accessible drive supports and releases the mechanism, and trusteeship mechanism realizes supporting and releasing of managing the material pipe of buttress fixed stop mechanism. The mechanism can be used in combination of multiple groups, is simple in structure and convenient to maintain, is exquisite in design and high in accuracy, and can greatly improve the working efficiency. The following points are also included:

1. the full-automatic feeding of the tubular packaged electronic components is realized.

2. The production of the full-automatic plug-in components of the tubular packaged electronic components can be realized by matching with the actions of the horizontal vibration feeder and the online full-automatic special-shaped plug-in components machine.

3. The empty pipe collecting box is integrated at the bottom of the trough, so that the empty pipe can be reused.

4. The material pipe for placing the materials and the process for recovering the empty material pipe can be realized without stopping, and the automatic plug-in production line is very suitable for being used.

Drawings

Fig. 1 is a side view of a tubular packaging material feeding device based on a special-shaped component inserter of the present invention;

fig. 2 is a schematic structural view of a tubular packaging material feeding device based on a special-shaped component inserter of the present invention;

fig. 3 is a schematic diagram of the pushing operation of the tubular packaging material feeding device based on the special-shaped component inserter of the present invention;

fig. 4 is a schematic structural view of a pushing mechanism of the tubular packaging material feeding device based on the special-shaped component inserter of the present invention;

fig. 5 is the utility model relates to a tubular packaging material loading attachment pushes away material synchronous belt drive schematic structure based on dysmorphism plug-in components machine.

Detailed Description

It should be noted that the description and sequence of descriptions of specific structures in this section are merely illustrative of specific embodiments and should not be construed as limiting the scope of the invention in any way. Furthermore, the embodiments in this section and the features in the embodiments may be combined with each other without conflict.

The embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

All pneumatic elements in the mechanism, such as a pipe supporting cylinder 6-1, are connected with an external air pump through air pipes, and all electric elements, such as motors 5-7, are controlled through an external control system, so that the purpose of intelligent operation is achieved.

As shown in fig. 1, a tubular packaging material loading device based on a special-shaped plug-in machine comprises: the device comprises a main connecting plate 1 provided with a material pipe groove 2, a group of symmetrical pipe stack fixing baffle mechanisms 3 capable of stacking material pipes 8 are vertically arranged on the main connecting plate 1 corresponding to two ends of the material pipe groove 2, and pipe supporting mechanisms 6 which are parallel to each other are respectively arranged along the pipe stack fixing baffle mechanisms 3; a group of material pipe supporting and releasing mechanisms 5 are arranged below the pipe supporting mechanism 6 along one side of the material pipe groove 2; the pipe pile fixing baffle mechanism 3 is connected with a horizontal vibration feeder 10 through a material conveying pipeline 9 along one end, and a pushing mechanism 4 for pushing the materials in the material pipe 8 to advance is connected along the other end of the pipe pile fixing baffle mechanism 3; and an empty pipe collecting box 7 movably connected with the main connecting plate 1 is arranged along the bottom of the material pipe groove 2. In this mechanism, the optimization scheme of empty pipe collecting box 7 is: one end is designed as a hook, and the other end is designed as a hasp, so that the function of collecting the empty pipe can be realized, and the empty pipe collecting box 7 can be conveniently taken and placed by a worker.

Specifically, as shown in fig. 2, the tube stack fixing baffle mechanism 3 is a semi-closed cavity which is formed by a first side baffle 3-1 and a second side baffle 3-2 which are parallel to each other and a baffle 3-3 which is perpendicular to the first side baffle 3-1 and the second side baffle 3-2 and can be matched with the end of the material tube 8, and a material channel (not marked in the figure) for passing materials in the material tube 8 is formed along the baffle 3-3; the material channels comprise a first material channel (not marked in the figure) and a second material channel (not marked in the figure) which are parallel to each other, the first material channel is connected with the horizontal vibration feeder 10 through the material conveying pipeline 9, and the second material channel is used for being connected with the material pushing mechanism 4.

As shown in fig. 3-5, in this embodiment, the material pushing mechanism 4 includes a material pushing motor 4-1, the material pushing motor 4-1 is connected to a synchronous pulley 4-3 wound with a material pushing synchronous belt 4-8 through a bevel gear set 4-2, the synchronous pulley 4-3 is fixed by a synchronous pulley fixing plate 4-4, a synchronous belt baffle 4-6 connected to the synchronous belt baffle fixing plate 4-5 is disposed right above the synchronous pulley 4-3, and the synchronous belt baffle fixing plate 4-5 is connected to the synchronous pulley fixing plate 4-4; the synchronous pulley fixing plate 4-4 is further provided with a belt pressing roller 4-7, the belt pressing roller 4-7 and the synchronous pulley 4-3 are located on the same side of the synchronous pulley fixing plate 4-4 and are kept at the same level, the material pushing synchronous belt 4-8 enters the material pipe 8 along the upper portion of the synchronous pulley 4-3 through the lower portion of the belt pressing roller 4-7, and is driven by the material pushing motor 4-1 to push the material pushing synchronous belt 4-8 to advance along the cavity of the material pipe 8, so that the purpose of pushing the material to move ahead to the horizontal vibration feeder 10 is achieved.

As the optimization of the material pushing mechanism 4, a synchronous belt counterweight is connected along the tail end of the material pushing synchronous belt 4-8, so that the material pushing synchronous belt 4-8 can be pushed and withdrawn more accurately.

In the pushing mechanism 4, the bevel gear set 4-2 comprises a first bevel gear 4-21 connected with the pushing motor 4-1 and a second bevel gear 4-22 connected with the outer side of the synchronous pulley 4-3, a pushing lightproof sheet 4-10 is connected between the second bevel gear 4-22 and the synchronous pulley 4-3, the pushing lightproof sheet 4-10 is matched with a pushing photoelectric switch 4-11 arranged on the synchronous belt baffle 4-6, the synchronous pulley 4-3, the pushing lightproof sheet 4-10 and the second bevel gear 4-22 are all connected with the synchronous belt fixing plate 4-1 through a synchronous belt short shaft (not marked in the figure), the belt pressing roller 4-7 is connected with the synchronous belt fixing plate 4-1 through a belt pressing roller short shaft (not marked in the figure), the push belt idler wheel 4-7 and the synchronous belt wheel 4-3 are located on the same side of the synchronous belt fixing plate 4-1, the synchronous belt fixing plate 4-1 is fixed with the push belt idler wheel connecting block 4-12, a gap (or a path cavity) through which the push synchronous belt 4-8 can pass is formed between the top of the push belt idler wheel connecting block 4-12 and the bottom of the push belt idler wheel 4-7, and the design is more beneficial to stable pushing or withdrawing of the push synchronous belt 4-8.

As shown in fig. 1 and 2, the material pipe supporting and releasing mechanism 5 comprises a fixed block 5-1 fixed to the main connecting plate 1, a supporting plate 5-2 is connected to the top of the fixed block 5-1, a connecting shaft 5-3 is vertically connected to the end of the supporting plate 5-2, a first synchronizing wheel 5-4 located above the supporting plate 5-2 and a second synchronizing wheel 5-5 located below the supporting plate 5-2 are respectively installed at two ends of the connecting shaft 5-3, a material pipe supporting plate 5-6 parallel to the main connecting plate 1 is connected to the top of the connecting shaft 5-3, two groups of the second synchronizing wheels 5-5 are connected to each other through a belt, and the first synchronizing wheel 5-4 of the second group is connected to a third synchronizing wheel 5-8 through a belt, the third synchronous 5-8 wheel is driven by a motor 5-7.

The pipe supporting mechanism 6 comprises a pipe supporting cylinder 6-1 fixed with the first side baffle 3-1 or the second side baffle 3-2, the pipe supporting cylinder 6-1 is connected with the supporting plate 6-3 through a connecting block 6-2, the supporting plate 6-3 and the material channel can be abutted against the end cavity of the material pipe 8 on the inner side along the material channel, and the purpose of fixing the material pipe 8 is achieved.

In order to further realize intelligent operation and monitor the working state in real time, photoelectric switches are arranged at material channels corresponding to the horizontal vibration feeder and the material pipe 8 in the mechanism and are connected with an external control system.

The working principle is as follows: the support plate 5-2 is rotated to a position just supporting the entire stack during normal operation. The front pipe stack fixing baffle mechanism 3 and the rear pipe stack fixing baffle mechanism 3 and the supporting plate 5-2 form a space for fixing the pipe stacks, and the pipe stacks can be directly placed in the space during feeding. Because the machine always discharges from the lowest pipe in the pipe stack, the machine can realize the feeding without stopping. When the photoelectric switches at the material channels corresponding to the horizontal vibration feeder 10 and the material pipes 8 detect that no material exists, the external control system drives the material pushing mechanism 4 to act, and the material in the pipe at the lowest layer of the pipe stack is pushed out. When the pushing mechanism 4 is operated, the synchronous belt wheel 4-3 is driven to rotate by the pushing motor 4-1, the synchronous belt wheel 4-3 drives the disconnected pushing synchronous belt 4-8 to move, the disconnected pushing synchronous belt 4-8 can penetrate into the first tube under the tube stack, and materials are pushed out of the first tube and enter the horizontal vibration feeder 10 through the material conveying pipeline 9. In the mechanism, the material conveying pipeline 9 can be made into a horizontal feeding structure without a material posture rotating function or a twisted feeding structure with a material posture 90-degree rotating function, so that the same material pushing structure can be realized, and two discharging requirements of horizontal and vertical are met. When all the materials in the material pipe 8 at the bottommost layer are discharged, the external control system drives the pipe supporting cylinders 6-1 to act, the supporting plates 6-3 at the two ends are respectively driven to enter the second material pipe at the bottommost layer of the material pipe stack, and at the moment, the supporting plates 6-3 at the two ends support the whole pipe stack. Then the two supporting plates 5-2 at the two ends below the material pipe 8 are driven by the motors 5-7 to move synchronously and leave the bottom position of the pipe stack, so that the empty pipe at the bottom of the pipe stack enters the empty pipe collecting box 7 at the bottom through the material pipe groove 2 under the action of self gravity. After a period of time delay, the electric control system drives the motor 5-7 to act to drive the supporting plate 5-2 to synchronously rotate to the position of the supporting pipe stack, then drives the pipe supporting cylinder 6-1 to act to drive the supporting plates 6-3 at two ends to leave the material pipe cavity which is supported before, and at the moment, the whole pipe stack falls onto the two supporting plates 5-2. Because the position of the pipe stack is limited by the pipe fixing baffle mechanism 3 and the pipe supporting and releasing mechanism 5 up, down, front, back, left and right, the work of releasing an empty pipe and feeding a new pipe is completed by the pipe stack.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any conceivable changes or substitutions by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. The utility model provides a tubular packaging material loading attachment based on dysmorphism plug-in components machine which characterized in that includes: the pipe pile stacking device comprises a main connecting plate, a group of pipe pile fixing baffle mechanisms and a plurality of supporting pipe mechanisms, wherein the main connecting plate is provided with a pipe groove, a group of pipe pile fixing baffle mechanisms which are symmetrical to each other and can stack pipes are vertically arranged on the main connecting plate corresponding to two ends of the pipe groove, and the supporting pipe mechanisms are parallel to each other and are respectively arranged along the pipe pile fixing baffle mechanisms; a group of material pipe supporting and releasing mechanisms are arranged below the pipe supporting mechanism and along one side of the material pipe groove; the pipe pile fixing baffle mechanism is connected with a horizontal vibration feeder through a material conveying pipeline along one end of the pipe pile fixing baffle mechanism, and a material pushing mechanism used for pushing the materials in the material pipe to advance is connected along the other end of the pipe pile fixing baffle mechanism; and an empty pipe collecting box movably connected with the main connecting plate is arranged along the bottom of the material pipe groove.

2. The tubular packaging material feeding device based on the special-shaped component inserter according to claim 1, wherein the tube stack fixing baffle mechanism is a semi-closed cavity which is matched with the end part of the material tube and is formed by a first side baffle, a second side baffle which are parallel to each other and a baffle which is perpendicular to the first side baffle and the second side baffle, and a material channel for materials in the material tube to pass through is formed along the baffles; the material channel comprises a first material channel and a second material channel which are parallel to each other, the first material channel is connected with the horizontal vibration feeder through the material conveying pipeline, and the second material channel is used for being connected with the material pushing mechanism.

3. The tubular packaging material feeding device based on the special-shaped component inserter according to claim 1, wherein the material pushing mechanism comprises a material pushing motor, the material pushing motor is connected with a synchronous pulley wound with a material pushing synchronous belt through a bevel gear set, the synchronous pulley is fixed through a synchronous pulley fixing plate, a synchronous belt baffle connected with the synchronous belt baffle fixing plate is arranged right above the synchronous pulley, and the synchronous belt baffle fixing plate is connected with the synchronous pulley fixing plate; the synchronous belt wheel fixing plate is further provided with a press belt roller, the press belt roller and the synchronous belt wheel are located on the same side of the synchronous belt wheel fixing plate and are kept at the same level, and the material pushing synchronous belt enters the material pipe through the position above the synchronous belt wheel and the position below the press belt roller.

4. The special-shaped component inserter-based tubular packaging material feeding device as claimed in claim 3, wherein a synchronous belt counterweight is connected to the end of the pushing synchronous belt.

5. The tubular packaging material feeding device based on the special-shaped component inserter of claim 3, wherein the bevel gear set comprises a first bevel gear connected with the pushing motor and a second bevel gear connected with the outer side of the synchronous pulley, a pushing light shielding sheet is further connected between the second bevel gear and the synchronous pulley, and the pushing light shielding sheet is matched with a pushing photoelectric switch mounted on the synchronous pulley baffle.

6. The tubular packaging material feeding device based on the special-shaped component inserter according to claim 1, wherein the material tube supporting and releasing mechanism comprises a fixed block fixed to the main connecting plate, a supporting plate is connected to the top of the fixed block, a connecting shaft is vertically connected to the end portion of the supporting plate, a first synchronizing wheel and a second synchronizing wheel are respectively mounted at two ends of the connecting shaft, the first synchronizing wheel and the second synchronizing wheel are located above the supporting plate, the second synchronizing wheel is located below the supporting plate, the material tube supporting plate is parallel to the main connecting plate and is connected to the top of the connecting shaft, the two groups of second synchronizing wheels are connected to each other through a belt, the first synchronizing wheel of the second group is connected to a third synchronizing wheel through a belt, and the third synchronizing wheel is driven through a motor.

7. The special-shaped component inserter-based tubular packaging material loading device as claimed in claim 2, wherein the tube supporting mechanism comprises a tube supporting cylinder fixed to the first side baffle or the second side baffle, the tube supporting cylinder is connected to a supporting plate through a connecting block, and the supporting plate is matched with the material channel.

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