CN211997530U - Circulating recovery conveying device - Google Patents

Abstract

The utility model discloses a recycling conveying device, which comprises a feeding conveying section, a discharging conveying section, a testing conveying section, a circulating conveying section of a machine body and a workpiece tray for placing workpieces, wherein the feeding conveying section, the discharging conveying section, the testing conveying section and the circulating conveying section are all used for conveying the workpiece tray; the feeding conveying section and the discharging conveying section are arranged on the machine body, and the testing conveying section and the circulating conveying section are arranged between the feeding conveying section and the discharging conveying section; the circulating conveying section is positioned above or below the testing conveying section; the feeding conveying section and the discharging conveying section can reciprocate in the height direction of the machine body; the feeding conveying section is used for being connected with the testing conveying section or the circulating conveying section; the blanking conveying section is used for being connected with the testing conveying section or the circulating conveying section. The utility model discloses a conveyor is retrieved in circulation, it can carry out the circulation to the work piece tray and carry.

Description

Circulating recovery conveying device

Technical Field

The utility model relates to an acoustics test technical field especially relates to a conveyor is retrieved in circulation.

Background

Currently, with the popularization of industrialization, products generally undergo processes such as feeding, processing, blanking and the like during industrial production. Taking an electronic device as an example, an audio device is usually equipped on the electronic device, and during production, the audio device needs to be subjected to an acoustic test field under a sound insulation condition. And in current production process, mainly rely on the manual work to place equipment and test in the room that gives sound insulation, conveying efficiency is low, leads to production efficiency low.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a circulating recovery conveying device which can circularly convey a workpiece tray.

The purpose of the utility model is realized by adopting the following technical scheme:

a recycling conveying device comprises a machine body feeding conveying section, a blanking conveying section, a testing conveying section, a circulating conveying section and a workpiece tray for placing workpieces, wherein the feeding conveying section, the blanking conveying section, the testing conveying section and the circulating conveying section are all used for conveying the workpiece tray; the feeding conveying section and the discharging conveying section are both arranged on the machine body, and the testing conveying section and the circulating conveying section are both positioned between the feeding conveying section and the discharging conveying section; the circulating conveying section is positioned above or below the testing conveying section; the feeding conveying section and the discharging conveying section can reciprocate in the height direction of the machine body; the feeding conveying section is used for being connected with the testing conveying section or the circulating conveying section; the blanking conveying section is used for being connected with the testing conveying section or the circulating conveying section.

Furthermore, the recycling conveying device also comprises a first driving assembly and a second driving assembly, wherein the first driving assembly is used for driving the feeding conveying section to move in the height direction of the machine body; the second driving assembly is used for driving the blanking conveying section to move in the height direction of the machine body.

Further, the first driving assembly comprises a first motor, a transmission shaft, a lifting rope and a reel, the first motor is mounted on the machine body, the transmission shaft is pivoted on the machine body, and the reel is pivoted on the machine body; one end of the lifting rope is fixed and wound on the transmission shaft, and the other end of the lifting rope is wound on the winding wheel and fixedly connected with the feeding conveying section.

Further, the first driving assembly comprises a guide assembly, and the guide assembly is used for guiding the feeding and conveying section to move along the height direction of the machine body.

Furthermore, the guide assembly comprises a guide sleeve and a guide rod, the guide sleeve is fixedly connected to the feeding conveying section, and the guide rod is fixedly connected to the machine body and extends along the height direction of the machine body; the guide sleeve is sleeved outside the guide rod in a sliding mode.

Further, the second driving assembly has the same structure as the first driving assembly.

Further, the material loading conveying section comprises a conveying frame, a second motor, a conveying belt, two belt pulleys and a driving wheel, the two belt pulleys are respectively pivoted at two ends of the conveying frame, the bottom end of the conveying belt is wound on the driving wheel, and the driving wheel is pivoted on the machine body and synchronously connected with the second motor.

Furthermore, the structures of the blanking conveying section, the testing conveying section and the circulating conveying section are the same as those of the feeding conveying section.

Compared with the prior art, the beneficial effects of the utility model reside in that: the workpieces can be conveyed to the test conveying section from the workpiece tray on the feeding conveying section, after the test, the workpieces are conveyed to the discharging conveying section through the test conveying section, discharging is carried out, the workpieces after discharging can reach the feeding conveying section again through the circulating conveying section, circulating conveying is carried out, and the utilization rate and conveying efficiency of the workpieces can be improved.

Drawings

Fig. 1 is a schematic structural view of the recycling conveying device of the present invention;

fig. 2 is a schematic structural diagram of the feeding and conveying section of the present invention.

In the figure: 30. a feeding conveying section; 31. a carriage; 32. a second motor; 33. a conveyor belt; 34. a driving wheel; 35. a belt pulley; 40. testing the conveying section; 50. a blanking conveying section; 60. A circulating conveying section; 70. a workpiece tray; 81. a first motor; 82. a drive shaft; 83. a lifting rope; 84. a reel.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

the recycling conveying device shown in fig. 1 and 2 includes a machine body, a feeding conveying section 30, a discharging conveying section 50, a testing conveying section 40, a recycling conveying section 60, and a workpiece tray 70, wherein the workpiece tray 70 can be used for placing workpieces to be conveyed. The feeding conveying section 30, the discharging conveying section 50, the testing conveying section 40 and the circulating conveying section 60 are all used for conveying the workpiece tray 70. Specifically, the feeding conveying section 30 and the discharging conveying section 50 are both arranged on the machine body, and the testing conveying section 40 and the circulating conveying section 60 are both arranged between the feeding conveying section 30 and the discharging conveying section 50. And the endless transport section 60 is located below or above the test transport section 40. The feeding and conveying section 30 and the discharging and conveying section 50 can reciprocate in the height direction of the machine body. The feeding conveying section 30 is used for connecting with the testing conveying section 40 or the circulating conveying section 60; the blanking transport section 50 is adapted to engage either the test transport section 40 or the endless transport section 60.

On the basis of the structure, use the utility model discloses a during circulation conveyor to the work piece is electronic equipment as an example, carries the test station on the organism with the work piece and tests as an example. In this embodiment, the circulating transport section 60 is located below the test transport section 40.

When the conveying operation is carried out, the initial position of the workpiece tray 70 is on the feeding conveying section 30 and is connected with the testing conveying section 40, the electronic equipment is placed on the workpiece tray 70, the feeding conveying section 30 can convey the workpiece tray 70 to the testing conveying section 40, after the workpiece tray 70 drives the workpiece to be conveyed to the testing conveying section 40, the feeding conveying section 30 can move downwards along the height direction of the machine body and stops when moving to the circulating conveying section 60 below the testing conveying section 40, and at the moment, the feeding conveying section 30 is connected with the circulating conveying section 60. When the electronic device on the workpiece tray 70 is transported into the testing station, the testing module can be electrically connected to the electronic device circuit on the workpiece tray 70, and then the test is completed. After the test, the test conveying section 40 can convey the workpiece tray 70 to the blanking conveying section 50, and take the workpiece away.

Afterwards, unloading conveying section 50 downstream to linking up with circulating conveying section 60, and work piece tray 70 can be carried to unloading conveying section 30 through circulating conveying section 60, and afterwards, the direction of height upward movement of organism all can be followed to loading conveying section 30 and unloading conveying section 50, all links up with test conveying section 40, accomplishes work piece tray 70's circulating conveying, the recycle of being convenient for.

Certainly, two or more workpiece trays 70 may be arranged, that is, when the workpiece tray 70 is tested in the test station, the feeding conveying section 30 may receive the next workpiece tray 70 and load the workpiece, and after the previous workpiece tray 70 is conveyed to the discharging conveying section 50 for discharging, the workpiece is conveyed to the test station and moves downward to receive the previous workpiece tray 70, so as to improve the workpiece testing efficiency.

Further, the recycling conveyor further includes a first driving assembly for driving the feeding conveyor segment 30 to move in the height direction of the machine body, and a second driving assembly for driving the discharging conveyor segment 50 to move in the height direction of the machine body. Thus, the feeding conveying section 30 and the discharging conveying section 50 can be driven by the first driving assembly and the second driving assembly respectively to move along the height direction of the machine body, so that the automatic control is facilitated.

More specifically, the first driving assembly includes a first motor 81, a transmission shaft 82, a lifting rope 83 and a reel 84, the first motor 81 is mounted on the machine body, the transmission shaft 82 is pivoted on the machine body, and the reel 84 is pivoted on the machine body. One end of the lifting rope 83 is fixed and wound on the transmission shaft 82, and the other end of the lifting rope 83 is wound and wound on the winding wheel 84 and fixedly connected with the feeding and conveying section 30.

On the basis of the structure, when the feeding conveying section 30 is lifted, the transmission shaft 82 can be driven to rotate by the first motor 81, the transmission shaft 82 can drive the lifting rope 83 to rotate around the transmission shaft 82 by rotating, when the transmission shaft 82 rotates forwards or backwards, the lifting rope 83 can be driven to be retracted, and the feeding conveying section 30 fixedly connected with the other end of the lifting rope 83 can be lifted. In this embodiment, the lift cord 83 is preferably a steel cord as is known in the art.

Further, the first driving assembly comprises a guiding assembly, and the guiding assembly is used for guiding the feeding conveying section 30 to move along the height direction of the machine body, so that the lifting rope 83 can guide the feeding conveying section 30 to stably move up and down in the winding and unwinding processes. Specifically, the guide assembly comprises a guide sleeve and a guide rod, the guide sleeve is fixedly connected to the feeding conveying section 30, and the guide rod is fixedly connected to the machine body and extends along the height direction of the machine body; the guide sleeve is sleeved outside the guide rod in a sliding manner. So, lifting rope 83 is when receiving and releasing, and the uide bushing of material loading conveying section 30 can with guide bar sliding fit, places lifting rope 83's the condition that leads to material loading conveying section 30 skew to appear among the receiving and releasing process, and the up-and-down motion process is stable.

In other cases, the first driving assembly and the second driving assembly may adopt the same driving structure, or may respectively adopt a screw rod transmission mechanism, an air cylinder, and other linear motion output mechanisms in the prior art to implement.

Further, the feeding and conveying section 30 includes a conveying frame 31, a second motor 32, a conveying belt 33, two belt pulleys 35 and a driving wheel 34, wherein the two belt pulleys 35 are respectively pivoted at two ends of the conveying frame 31, a bottom end of the conveying belt 33 is wound around the driving wheel 34, and the driving wheel 34 is pivoted on the machine body and synchronously coupled with the second motor 32. Therefore, the driving wheel 34 can be driven by the second motor 32 to rotate, the driving wheel 34 can be driven to rotate around the conveying belt 33, and the conveying belt 33 and the two belt pulleys 35 can be driven to convey, so that the structure is simple and stable.

In the present embodiment, the structures of the blanking conveying section 50, the testing conveying section 40, and the circulating conveying section 60 are the same as those of the loading conveying section 30.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.

Claims (8)

1. A recycling conveying device is characterized by comprising a machine body feeding conveying section, a blanking conveying section, a testing conveying section, a recycling conveying section and a workpiece tray for placing workpieces, wherein the feeding conveying section, the blanking conveying section, the testing conveying section and the recycling conveying section are all used for conveying the workpiece tray; the feeding conveying section and the discharging conveying section are both arranged on the machine body, and the testing conveying section and the circulating conveying section are both positioned between the feeding conveying section and the discharging conveying section; the circulating conveying section is positioned above or below the testing conveying section; the feeding conveying section and the discharging conveying section can reciprocate in the height direction of the machine body; the feeding conveying section is used for being connected with the testing conveying section or the circulating conveying section; the blanking conveying section is used for being connected with the testing conveying section or the circulating conveying section.

2. The recycling conveyor of claim 1, further comprising a first drive assembly and a second drive assembly, the first drive assembly being configured to move the loading conveyor section in a height direction of the machine body; the second driving assembly is used for driving the blanking conveying section to move in the height direction of the machine body.

3. The recycling conveyor according to claim 2, wherein the first drive assembly includes a first motor mounted to the machine body, a drive shaft pivotally connected to the machine body, a lift cord, and a reel pivotally connected to the machine body; one end of the lifting rope is fixed and wound on the transmission shaft, and the other end of the lifting rope is wound on the winding wheel and fixedly connected with the feeding conveying section.

4. The recycling conveyor of claim 3, wherein said first drive assembly includes a guide assembly for guiding said infeed conveyor section in a height direction of the machine body.

5. The recycling conveyor according to claim 4, wherein the guiding assembly comprises a guiding sleeve and a guiding rod, the guiding sleeve is fixedly connected to the feeding conveying section, and the guiding rod is fixedly connected to the machine body and extends along the height direction of the machine body; the guide sleeve is sleeved outside the guide rod in a sliding mode.

6. The recycling conveyor of any one of claims 2 to 5, wherein the second drive assembly is identical in construction to the first drive assembly.

7. The recycling conveyor according to any one of claims 1 to 5, wherein the feeding conveyor section comprises a conveyor frame, a second motor, a conveyor belt, two belt pulleys pivotally connected to two ends of the conveyor frame, respectively, a bottom end of the conveyor belt being wound around the drive wheel, and a drive wheel pivotally connected to the body and synchronously coupled to the second motor.

8. The recycling conveyor according to claim 7, wherein the blanking conveyor section, the test conveyor section and the recycling conveyor section are identical in structure to the loading conveyor section.

Images