CN116534552B

CN116534552B - Automatic discharging and conveying device for storage connector

Info

Publication number: CN116534552B
Application number: CN202310814168.5A
Authority: CN
Inventors: 邓飞宇
Original assignee: Sichuan Heentai Semiconductor Co ltd
Current assignee: Sichuan Heentai Semiconductor Co ltd
Priority date: 2023-07-05
Filing date: 2023-07-05
Publication date: 2023-09-12
Anticipated expiration: 2043-07-05
Also published as: CN116534552A

Abstract

The application provides an automatic discharging and conveying device for a storage joint, which belongs to the technical field of storage preparation and storage structure conveying, and comprises the following components: the included angle between the front wall and the horizontal plane of the backboard is an obtuse angle, and one side of the top close to the front wall is provided with a transmission belt with the width smaller than or equal to the thickness of the storage joint; a lifting table is vertically arranged on the front wall and is movably arranged along the upper end and the lower end of the front wall; the top of backplate is equipped with the side shield, and one side of side shield is the holding surface, is equipped with the sand grip on the holding surface, and the height of sand grip is less than the width of breach, and the bar hole has been seted up to the waist of side shield, and its length is greater than the length of memory joint, and the height is greater than the width of memory joint, and the distance between bar hole bottom surface and the transmission band top surface is less than the third of memory joint width dimension. The device can be used for arranging and transmitting the memory connectors, can effectively prevent the connectors from being damaged, and has small vibration and noise.

Description

Automatic discharging and conveying device for storage connector

Technical Field

The application belongs to the technical field of memory preparation, relates to a memory structure arrangement conveying equipment technology, and particularly relates to an automatic discharging and conveying device for a memory connector.

Background

With the development of computer technology, the data capacity of computers is increasing, and the data transmission by means of floppy discs cannot meet the requirements. Most of us use a flash disk for data storage and transfer. The USB flash disk mainly comprises a PCB board, a USB interface and a shell. In the assembly production process of the USB flash disk, the PCB and the USB interface are assembled manually at present, and the reason is that the structure of the USB connector is special, the front and back positions and the front and back sides of the USB connector cannot be reversed during assembly, and equipment for arranging and discharging the USB connector is lacking at present, so that the USB connector cannot be automatically fed. The existing spiral vibration feeding disc can be used for arranging and conveying partial materials, but the materials are required to continuously move in the spiral disc during working, so that friction is continuously generated between parts, part damage is easy to occur, and the materials are required to move along a conveying track by utilizing vibration during working, so that working noise is large.

Disclosure of Invention

In order to solve the defects in the prior art, the application provides the automatic discharging and conveying device for the storage connector, which can automatically arrange and convey the storage connector, can effectively prevent the connector from being damaged, and has small vibration and noise.

In order to achieve the object of the application, the following scheme is adopted:

the automatic discharging and conveying device for the storage connector is of a cuboid structure, the rear end of the storage connector is provided with an inward-sinking stepped structure, clamping claws are arranged on two sides of the rear end of the storage connector, and gaps are formed between the side walls and the bottom surfaces of the stepped structure and the clamping claws.

The automatic discharging and conveying device of the storage joint comprises: the included angle between the front wall and the horizontal plane of the back plate is an obtuse angle, one side of the top of the back plate, which is close to the front wall, is provided with a horizontally arranged transmission belt, and the width of the transmission belt is smaller than or equal to the thickness of the storage joint;

a lifting table is stuck on the front wall, the top surface of the lifting table is vertical to the front wall, and the lifting table is movably arranged along the upper end and the lower end of the front wall and is used for pushing the storage joint upwards to the top surface of the conveying belt;

the top of backplate corresponds the transmission band and is equipped with the side shield towards one side of backplate back, and the side shield is the holding surface towards one side of positive face wall, is equipped with the sand grip along the direction of delivery of transmission band on the holding surface, and the height of sand grip is less than the width of breach, and when the preceding terminal surface of memory joint supports in the transmission band top surface, and the breach is when the holding surface towards the height of breach, the bar hole has been seted up to the waist of side shield, and its length is greater than the length of memory joint, and the height is greater than the width of memory joint, and the distance between bar hole bottom surface and the transmission band top surface is less than the third of memory joint width dimension.

The application has the beneficial effects that: the storage joints can be arranged and transmitted, so that the storage joints have uniform output postures, the mutual friction probability between the storage joints in the arrangement process is low, the joint damage can be effectively prevented, and the vibration conveying mode is not required, so that the vibration and noise of the device are small.

Drawings

The drawings described herein are for illustration of selected embodiments only and not all possible implementations, and are not intended to limit the scope of the application.

Fig. 1 shows a schematic overall structure of an embodiment of the present application.

Fig. 2 shows a schematic overall structure of a preferred embodiment of the present application.

Fig. 3 shows an end view of a preferred embodiment of the application.

Figure 4 shows a cross-sectional view of a preferred embodiment of the application at a bar aperture.

Fig. 5 shows a schematic view of a use state of a preferred embodiment of the present application.

Fig. 6 shows another use state schematic of the preferred embodiment of the present application.

Fig. 7 shows a schematic diagram of the structure of a memory connector arranged according to the present application.

The marks in the figure: the back plate-1, the front wall-11, the side baffle-12, the supporting surface-121, the strip-shaped holes-122, the raised strips-13, the recovery groove-14, the guide groove-15, the conveying belt-2, the lifting platform-3, the inner plate-31, the outer plate-32, the middle plate-4, the spacing piece-41, the notch-92 and the claw-91.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the following detailed description of the embodiments of the present application will be given with reference to the accompanying drawings, but the described embodiments of the present application are some, but not all embodiments of the present application.

The embodiment provides an automatic discharging and conveying device for a storage joint, the storage joint for discharging and conveying is of a cuboid structure, as shown in fig. 7, the rear end of the storage joint is provided with an inward-sinking step structure, two sides of the rear end of the storage joint are provided with clamping claws 91, and gaps 92 are formed between the side walls and the bottom surfaces of the step structure and the clamping claws 91.

As shown in fig. 1, the automatic discharging and conveying device for a memory joint of the present example embodiment includes: the included angle between the front wall 11 and the horizontal plane of the back plate 1 is an obtuse angle, one side, close to the front wall 11, of the top of the back plate 1 is provided with a horizontally arranged transmission belt 2, the width of the transmission belt is smaller than or equal to the thickness of a storage joint, the top surface of the transmission belt can only support the storage joint contacted with the transmission belt 2 through the side surface or the end surface, the storage joint contacted with the top surface of the transmission belt 2 through the back surface or the front surface can automatically fall along the front wall 11, the top surface of the transmission belt 2 is mutually perpendicular to the front wall 11, therefore, the top surface of the transmission belt 2 is obliquely arranged, and the top surface of the transmission belt 2 faces to the upper side of the back surface of the back plate 1.

The lifting table 3 is attached to the front wall 11, the top surface of the lifting table 3 is perpendicular to the front wall 11, namely, the top surface of the lifting table 3 is parallel to the top surface of the conveying belt 2, and the lifting table 3 and the opposite surface of the front wall 11 are attached to each other with the same inclination angle and inclination direction, so that excessive gaps are avoided, objects are prevented from being blocked in, the lifting table 3 is arranged along the upper end and the lower end of the front wall 11 and used for pushing the storage connector upwards to the top surface of the conveying belt 2, and when the lifting table 3 is lifted to the top surface of the lifting table to be flush with the top surface of the conveying belt 2, the top surfaces of the lifting table 3 face the top surface of the back plate 1, and therefore, when the top surface of the lifting table 3 is flush with the top surface of the conveying belt 2, the storage connector on the top surface of the lifting table 3 automatically slides to the top surface of the conveying belt 2 and is conveyed on the conveying belt 2. As a specific implementation option, the lifting platform 3 adopts an air cylinder or a linear motor to control lifting movement.

The top of the back plate 1 is provided with a side baffle 12 corresponding to one side of the conveying belt 2 facing the back of the back plate 1, one side of the side baffle 12 facing the front wall 11 is a supporting surface 121, the supporting surface 121 is provided with a raised strip 13 along the conveying direction of the conveying belt 2, the height of the raised strip 13 is smaller than the width of the notch 92, when the front end surface of the memory connector is supported on the top surface of the conveying belt 2 and the notch 92 faces the supporting surface 121, the height of the notch 92 is consistent with the height of the raised strip 13, the memory connector in the posture can continue conveying along the conveying belt 2 smoothly, when the other posture memory connectors pass through the raised strip 13, due to the lack of the avoidance structure of the notch 92, the memory connector can be ejected to the outer side of the supporting surface 121 by the raised strip 13 and fall to the top surface of the lifting table 3 along the front wall 11, when the lifting table 3 rises again, the memory connector can be pushed to the top surface of the conveying belt 2 again, and the front end of the memory connector sliding along the front wall 11 is normally in contact with the front surface or the front wall 11, in the descending process, the front end direction of the memory connector is possibly changed, so that the falling memory connector can effectively represent the correct posture and the noise when the falling memory connector rises again, and the vibration noise can be reduced. The waist of the side baffle 12 is provided with a strip-shaped hole 122, the length of the strip-shaped hole is larger than the length of the storage joint, the height of the strip-shaped hole is larger than the width of the storage joint, and the distance between the bottom surface of the strip-shaped hole 122 and the top surface of the conveyor belt 2 is smaller than one third of the width of the storage joint, so that the storage joint transversely conveyed on the conveyor belt 2 can be automatically reversed to the strip-shaped hole 122 when passing through the strip-shaped hole 122 and discharged from the strip-shaped hole 122, the storage joint transversely conveyed is discharged by the structure, and the storage joint discharged from the structure can be thrown into the lifting platform 3 again after being uniformly collected for automatic discharging.

Preferably, as shown in fig. 1 and 4, the back of the back plate 1 is provided with a recovery groove 14 below the corresponding bar hole 122, the extending direction of the recovery groove is inclined towards the lower side of the front wall 11, the rear section of the recovery groove 14 is located below the bar hole 122, the front end of the recovery groove 14 penetrates through the back plate 1, the penetrating position is located within the length range of the lifting platform 3, when the lifting platform 3 ascends to the highest point, the side wall of the lifting platform 3 seals the front end of the recovery groove 14, the storage connector discharged from the bar hole 122 can be directly fallen back onto the lifting platform 3 through the recovery groove 14 by the structural design, the manual collection procedure is reduced, and when the lifting platform 3 pushes the storage connector upwards, the front end of the recovery groove 14 can be temporarily sealed to prevent the storage connector from falling.

Preferably, the front ends of the protruding strips 13 and the strip-shaped holes 122 are staggered with each other along the conveying direction of the conveying belt 2, so that the storage connectors blocked by the protruding strips 13 and the storage connectors discharged from the strip-shaped holes 122 fall onto the lifting table 3 from different positions, so that the storage connectors are uniformly distributed along the conveying direction of the conveying belt 2, and the reduction of the discharging efficiency due to a plurality of stacks is avoided.

Preferably, as shown in fig. 1, the lifting platform 3 is inclined from one end to the other end below the bar-shaped hole 122 so that the storage joint dropped from the recovery tank 14 is located behind the bar-shaped hole 122 when being pushed onto the conveyor belt 2 again along the conveying direction of the conveyor belt 2, so that it is screened again by the bar-shaped hole 122.

As a preferred embodiment of the present application, as shown in fig. 2 to 6, the lifting platform 3 is in a U-shaped structure, which includes an inner plate 31 and an outer plate 32 parallel to and spaced from the inner plate 31, a middle plate 4 is disposed between the inner plate 31 and the outer plate 32, the position of the middle plate 4 is kept relatively fixed to the position of the back plate 1, the middle plate 4 is parallel to the front wall 11, the top surfaces of the inner plate 31, the outer plate 32 and the middle plate 4 are all parallel to the top surface of the conveyor belt 2, the thicknesses of the inner plate 31 and the middle plate 4 are both greater than the thickness of the accumulator joint, two side surfaces of the middle plate 4 are attached to the corresponding surfaces of the inner plate 31 and the outer plate 32 to avoid excessive gaps to cause the object to be clamped in, the top surface of the middle plate 4 is lower than the top surface of the conveyor belt 2, the top surface of the inner plate 31 is higher than the outer plate 32, when the top surface of the inner plate 31 is flush with the top surface of the conveyor belt 2, the top surface of the outer plate 32 is not lower than the top surface of the middle plate 4, when the top surface of the inner plate 31 is parallel to the top surface of the middle plate 4, side plates 32 are arranged outside the top surfaces of the middle plate 32 to prevent the accumulator joint from dropping down, the accumulator joint from being pushed down to the top surface of the inner plate 31 to the upper surface of the accumulator joint, and the accumulator joint is pushed down to the top surface of the accumulator joint to the top of the accumulator joint to the top structure, and the top of the accumulator joint is arranged to be flush with the top to the top surface of the top of the accumulator joint, and the accumulator joint is automatically; when the inner plate 31 pushes the accumulator joint toward the conveyor belt 2, the accumulator joint falling from the conveyor belt 2 will fall into the top surface of the intermediate plate 4, and the falling posture thereof can be divided into two types: one is a storage joint which is in contact with the outer wall of the inner plate 31 through the back surface or the front surface, and is stably supported on the top surface of the middle plate 4 through the end surface or the side surface so as to directly slide into the top surface of the inner plate 31 after the inner plate 31 descends; and secondly, the storage joints supported on the top surface of the middle plate 4 through the back surface or the front surface, such joints will slide down to the top surface of the outer plate 32 along the side walls of the middle plate 4 when the lifting platform 3 descends, and because the middle plate 4 is arranged obliquely, the posture of the storage joints in the sliding process will change, and the storage joints will be attached to the middle plate 4 through the front surface or the back surface, so that the probability of making the storage joints take on the correct posture is increased.

It is further preferable that, as shown in fig. 3 and 6, when the top surface of the inner plate 31 is flush with the top surface of the conveyor belt 2, the top surface of the intermediate plate 4 is lower than the top surface of the outer plate 32, so that the inner plate 31 and the outer plate 32 form a groove on the top surface of the intermediate plate 4, and the edge of the top surface of the outer plate 32 facing to one side of the intermediate plate 4 is provided with a slope, by this structural design, one end of the memory joint lying on the top surface of the outer plate 32 falls into the groove on the top of the intermediate plate 4 for the first time, so that the memory joint stands up, or the memory joint is pushed into an upright state by the outer plate 32 during the process of moving up the lifting table 3, so that the memory joint is pushed into the conveyor belt 2 through the inner plate 31 in an upright posture, where the upright is relatively lying memory joint, not absolutely vertical, and by the slope structure provided at the edge of the top surface of the outer plate 32, the lying memory joint can also slide smoothly into the groove.

It is further preferable that, as shown in fig. 2, 5 and 6, the front wall 11 is provided with a guide groove 15 below the position where the recovery groove 14 penetrates the back plate 1, the guide groove 15 is provided obliquely downward, the tip of the guide groove 15 is combined with the end of the outer plate 32, when the top surface of the inner plate 31 is flush with the top surface of the intermediate plate 4, the top surface guide groove 15 of the outer plate 32 is aligned, at this time, the memory joint discharged through the recovery groove 14 will enter the top surface of the outer plate 32 through the guide groove 15 so as to achieve automatic recovery of the memory joint, and during the upward movement of the elevating table 3, the side wall of the outer plate 32 is abutted at the outlet of the guide groove 15 so as to prevent the memory joint in the guide groove 15 from falling.

Preferably, as shown in fig. 2, the top surfaces of the inner plate 31 and the intermediate plate 4 are each provided with a plurality of spacers 41 at intervals along the length direction, and the distance between the spacers 41 is greater than the width of the storage connector so as to separate the storage connector, and the storage connector enters the conveyor belt 2 at a certain interval, so that the storage connector in a qualified posture is prevented from being discharged due to interference caused by screening of the raised strips 13 and the strip-shaped holes 122.

The foregoing description of the preferred embodiments of the application is merely exemplary and is not intended to be exhaustive or limiting of the application. It will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the application.

Claims

1. Automatic discharging and conveying device for storage joints is of a cuboid structure, the rear end of the storage joint is provided with an inward-sinking stepped structure, clamping claws (91) are arranged on two sides of the rear end of the storage joint, and gaps (92) are formed between the side walls and the bottom surfaces of the stepped structure and the clamping claws (91), and the automatic discharging and conveying device is characterized in that:

the device comprises: the included angle between the front wall (11) of the backboard (1) and the horizontal plane is an obtuse angle, one side, close to the front wall (11), of the top of the backboard (1) is provided with a horizontally arranged transmission belt (2), and the width of the transmission belt is smaller than or equal to the thickness of the storage connector;

a lifting table (3) is stuck on the front wall (11), the top surface of the lifting table is perpendicular to the front wall (11), and the lifting table (3) is arranged along the upper end and the lower end of the front wall (11) in a moving way and is used for pushing the storage joint upwards to the top surface of the conveying belt (2);

a side baffle (12) is arranged at one side, facing the back of the back plate (1), of the back plate (1) corresponding to the conveying belt (2), a supporting surface (121) is arranged at one side, facing the front surface wall (11), of the side baffle (12), a raised strip (13) is arranged on the supporting surface (121) along the conveying direction of the conveying belt (2), the height of the raised strip (13) is smaller than the width of the notch (92), when the front end surface of the storage joint is supported on the top surface of the conveying belt (2) and the notch (92) faces the supporting surface (121), the height of the notch (92) is consistent with the height of the raised strip (13), a strip-shaped hole (122) is formed in the waist of the side baffle (12), the length of the side baffle is larger than the length of the storage joint, the height of the side baffle is larger than the width of the storage joint, and the distance between the bottom surface of the strip-shaped hole (122) and the top surface of the conveying belt (2) is smaller than one third of the width of the storage joint.

The lifting table (3) is of a U-shaped structure and comprises an inner plate (31) and an outer plate (32) which is parallel to the inner plate and is arranged at intervals, a middle plate (4) is arranged between the inner plate (31) and the outer plate (32), the position of the middle plate (4) and the position of the back plate (1) are kept relatively fixed, the middle plate (4) is parallel to the front wall (11), the top surfaces of the inner plate (31), the outer plate (32) and the middle plate (4) are all parallel to the top surface of the conveying belt (2), the thicknesses of the inner plate (31) and the middle plate (4) are both larger than the thickness of a storage joint, the top surface of the middle plate (4) is lower than the top surface of the conveying belt (2), the top surface of the inner plate (31) is higher than the outer plate (32), and when the top surface of the inner plate (31) is parallel to the top surface of the conveying belt (2), the top surface of the outer plate (32) is not lower than the top surface of the middle plate (4). When the top surface of the inner plate (31) is flush with the top surface of the middle plate (4), the top surface of the outer plate (32) is lower than the top surface of the middle plate (4); when the top surface of the inner plate (31) is flush with the top surface of the conveyor belt (2), the top surface of the intermediate plate (4) is lower than the top surface of the outer plate (32).

2. The automatic discharging and conveying device for the storage joint according to claim 1, wherein a recovery groove (14) is arranged below a strip-shaped hole (122) corresponding to the back surface of the back plate (1), the extending direction of the recovery groove is inclined towards the lower side of the front surface wall (11), the rear section of the recovery groove (14) is positioned below the strip-shaped hole (122), the front end of the recovery groove (14) penetrates through the back plate (1), the penetrating position is positioned in the length range of the lifting table (3), and when the lifting table (3) ascends to the highest point, the side wall of the lifting table (3) seals the front end of the recovery groove (14).

3. An automatic discharge and transport device for a storage joint according to claim 1, characterized in that the front ends of the ribs (13) are offset from the strip-shaped holes (122) in the transport direction of the conveyor belt (2).

4. An automatic storage joint discharging and conveying device according to claim 1, characterized in that the lifting table (3) is inclined from one end to the other end below the strip-shaped hole (122).

5. An automatic discharge and transport device for a storage joint according to claim 1, characterized in that the edge of the top surface of the outer plate (32) facing the side of the intermediate plate (4) is provided with a bevel.

6. An automatic storage joint discharging and conveying device according to claim 2, characterized in that the front wall (11) is provided with a guide groove (15) below the position of the front wall (11) corresponding to the back plate (1) penetrated by the recovery groove (14), the guide groove (15) is arranged obliquely downward, the end of the guide groove (15) is combined with the end of the outer plate (32), when the top surface of the inner plate (31) is flush with the top surface of the middle plate (4), the top surface of the outer plate (32) is aligned with the guide groove (15), the storage joint discharged through the recovery groove (14) is made to enter the top surface of the outer plate (32) through the guide groove (15), and in the process of moving up the lifting table (3), the side wall of the outer plate (32) is abutted against the outlet of the guide groove (15).

7. The automatic discharging and conveying device for the storage joint according to claim 1, wherein a plurality of spacing pieces (41) are arranged on the top surfaces of the inner plate (31) and the middle plate (4) at intervals along the length direction, and the distance between the spacing pieces (41) is larger than the width of the storage joint.