CN221190245U - Spring leaf material loading conveying structure - Google Patents

Abstract

The utility model relates to the technical field of spring piece feeding, in particular to a spring piece feeding conveying structure. According to the utility model, the vibrating disk conveys the spring pieces to the feeding track one by one, the moving part drives the receiving grooves on the receiving platform to be aligned with the discharge ends of the feeding track, the spring pieces enter the receiving grooves through the feeding track, the moving part drives the receiving platform to move for many times to receive the spring pieces one by one for each receiving groove, automatic feeding of the spring pieces is realized, the production and the processing of products are facilitated, meanwhile, feeding of a plurality of spring pieces can be realized once, the spring pieces are positioned on the receiving grooves, the position accuracy is improved, adjacent spring pieces are not interfered with each other, the stability is good, the spring pieces are blocked on the receiving platform by the blocking component, and the position accuracy of the spring pieces on the receiving platform is ensured.

Description

Spring leaf material loading conveying structure

Technical Field

The utility model relates to the technical field of spring piece feeding, in particular to a spring piece feeding conveying structure.

Background

The annular spring piece is widely applied to various industrial fields, particularly automobile parts, and in certain special application scenes, strict dimensional requirements are set on the inner diameter and the outer diameter of the annular spring piece, for example, the annular spring piece arranged in a round hole cannot be arranged in the round hole when the outer diameter of the annular spring piece is larger than a limiting value, or even the size of a notch of the annular spring piece is required in order to ensure that the annular spring piece meets the design requirements.

The spring piece is fed with materials and is suitable for mechanical repeated operation, the spring pieces are fed one by one in the prior art, so that each time the spring pieces can be processed later, the efficiency is low, meanwhile, the spring pieces are fed one by one, empty materials are easy to occur, subsequent assembly errors are easy to cause, the qualification rate and consistency of products are reduced, and even the operation of the whole automatic assembly production line is influenced.

Disclosure of utility model

The utility model aims to solve the technical problem of providing a spring piece feeding and conveying structure which can realize feeding of a plurality of spring pieces at one time, has good stability and ensures the position accuracy of the spring pieces.

In order to solve the technical problems, the technical scheme adopted by the utility model for solving the technical problems is as follows:

Spring leaf material loading conveying structure includes:

The feeding mechanism comprises a feeding frame and a vibration disc, wherein the vibration disc is arranged on the feeding frame, a feeding track is arranged on the feeding frame, the feeding end of the feeding track is connected with the discharge port of the vibration disc, and the vibration disc is used for conveying spring pieces to the feeding track one by one;

The material receiving mechanism is arranged at the discharge end of the material loading track and comprises a material receiving frame, a material receiving platform is arranged on the material receiving frame, a plurality of material receiving grooves used for placing spring pieces are arranged on the material receiving platform, a material blocking component is arranged on the material receiving frame and used for blocking the spring pieces on the material receiving platform, the material receiving frame is connected with a moving part in a driving mode, and the moving part drives the material receiving grooves on the material receiving platform to be aligned with the discharge end of the material loading track and conduct material receiving one by one.

In one embodiment of the utility model, the feeding track comprises a feeding bracket, the feeding bracket is arranged on the feeding bracket, a direct vibration feeder is arranged on the feeding bracket, a feeding plate is arranged on the direct vibration feeder, a top plate is arranged on the feeding plate, a feeding channel is arranged between the top plate and the feeding plate, and the spring piece is conveyed to the receiving platform through the feeding channel.

In one embodiment of the utility model, the feeding plate is provided with a first guide groove, the top plate is provided with a second guide groove, the first guide groove and the second guide groove form a feeding channel, the section shape of the feeding channel is the same as that of the spring piece, the top plate is provided with a through groove, the through groove is in a strip-shaped structure, the through groove is provided with a detection frame, and the detection frame is provided with a detection sensor for detecting the position condition of the spring piece.

In one embodiment of the utility model, an opening is arranged on one side of the receiving groove, the opening is matched with the feeding channel, a jacking groove is arranged on the bottom surface of the receiving groove, and the jacking groove is communicated with the receiving groove.

In one embodiment of the utility model, the moving part comprises a moving frame, a guide rail is arranged on the moving frame, a sliding plate is arranged on the guide rail in a sliding way, the material receiving frame is connected with the sliding plate, a driver is arranged on the moving frame and is in driving connection with the material receiving frame, and the driver drives the material receiving frame to reciprocate along the guide rail.

In one embodiment of the present utility model, the driver is any one of a cylinder, an oil cylinder, or a linear motor.

In one embodiment of the utility model, the two ends of the guide rail are provided with buffer components, the buffer components comprise buffer plates, the buffer plates are provided with buffers and stop bolts, and the buffers and the stop bolts are arranged opposite to the material receiving frame.

In one embodiment of the utility model, the material blocking assembly comprises a material blocking plate, the material blocking plate is arranged above the material receiving platform, a screw rod penetrates through the material blocking plate and is connected with the material receiving platform, a base plate is arranged in the middle of the material blocking plate, the thickness of the base plate is larger than that of a spring piece, a blanking channel is formed between the material blocking plate and the material receiving platform, and the blanking channel is used for facilitating the spring piece on the material receiving groove to pass through blanking.

In one embodiment of the utility model, a test frame is arranged on the material receiving frame, a plurality of mounting brackets are arranged on the test frame, the mounting brackets are arranged in one-to-one correspondence with the material receiving grooves, and a test sensor for detecting the condition of a spring piece on the material receiving groove is arranged on the mounting brackets.

In one embodiment of the utility model, the striker plate is provided with a detection hole, the detection hole is arranged opposite to the receiving groove, the detection hole is used for leaking out a spring piece on the receiving groove, and the test sensor is arranged above the detection hole.

The utility model has the beneficial effects that:

According to the utility model, the vibrating disk conveys the spring pieces to the feeding track one by one, the moving part drives the receiving grooves on the receiving platform to be aligned with the discharge ends of the feeding track, the spring pieces enter the receiving grooves through the feeding track, the moving part drives the receiving platform to move for many times to receive the spring pieces one by one for each receiving groove, automatic feeding of the spring pieces is realized, the production and the processing of products are facilitated, meanwhile, feeding of a plurality of spring pieces can be realized once, the spring pieces are positioned on the receiving grooves, the position accuracy is improved, adjacent spring pieces are not interfered with each other, the stability is good, the spring pieces are blocked on the receiving platform by the blocking component, and the position accuracy of the spring pieces on the receiving platform is ensured.

Drawings

Fig. 1 is a schematic view of a spring plate feeding and conveying structure of the present utility model.

Fig. 2 is a schematic view of the loading rail of the present utility model.

Fig. 3 is a schematic view of a receiving mechanism according to the present utility model.

Fig. 4 is a schematic view of a moving part of the present utility model.

The reference numerals in the figures illustrate: 1. a feeding frame; 11. a vibration plate; 12. a feeding bracket; 13. a direct vibration feeder; 14. a feeding rail; 141. a loading plate; 142. a first guide groove; 143. a top plate; 144. a second guide groove; 145. a feeding channel; 15. a detection sensor; 151. a detection frame; 16. a through groove; 17. a feeding end; 18. a discharge end; 2. a receiving mechanism; 21. a material receiving platform; 22. a receiving rack; 23. a receiving groove; 24. an opening; 25. jacking and slotting; 26. a test rack; 27. testing the sensor; 271. a detection hole; 28. a striker plate; 281. a backing plate; 282. a blanking channel; 29. a screw; 3. a spring piece; 4. a moving rack; 41. a driver; 42. a guide rail; 43. a slide plate; 44. a buffer member; 45. a buffer plate; 46. a buffer; 47. a stop bolt.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the utility model and practice it.

Referring to fig. 1-4, a spring plate loading and conveying structure includes:

The feeding mechanism comprises a feeding frame 1 and a vibration disc 11, wherein the vibration disc 11 is arranged on the feeding frame 1, a feeding track 14 is arranged on the feeding frame 1, a feeding end 17 of the feeding track 14 is connected with a discharge hole of the vibration disc 11, and the vibration disc 11 is used for conveying spring pieces 3 to the feeding track 14 one by one;

The material receiving mechanism 2 is arranged at the discharge end 18 of the material loading track 14, the material receiving mechanism 2 comprises a material receiving frame 22, a material receiving platform 21 is arranged on the material receiving frame 22, a plurality of material receiving grooves 23 used for placing the spring pieces 3 are arranged on the material receiving platform 21, a material blocking component is arranged on the material receiving frame 22 and used for blocking the spring pieces 3 on the material receiving platform 21, the material receiving frame 22 is in driving connection with a moving component, and the moving component drives the material receiving grooves 23 on the material receiving platform 21 to be aligned with the discharge end 18 of the material loading track 14 and to carry out material receiving one by one.

According to the utility model, the vibrating disk 11 conveys the spring pieces 3 to the feeding track 14 one by one, the moving part drives the receiving grooves 23 on the receiving platform 21 to be aligned with the discharging ends 18 of the feeding track 14, the spring pieces 3 enter the receiving grooves 23 through the feeding track 14, the moving part drives the receiving platform 21 to move for many times to receive the spring pieces 3 one by one for each receiving groove 23, automatic feeding of the spring pieces 3 is realized, and the production and processing of products are facilitated.

In one embodiment of the present utility model, the feeding track 14 includes a feeding support 12, the feeding support 12 is disposed on the feeding frame 1, a direct vibration feeder 13 is disposed on the feeding support 12, a feeding plate 141 is disposed on the direct vibration feeder 13, a top plate 143 is disposed on the feeding plate 141, a feeding channel 145 is disposed between the top plate 143 and the feeding plate 141, and the spring piece 3 is conveyed onto the receiving platform 21 through the feeding channel 145.

Specifically, the feeding plate 141 is disposed on the direct vibration feeder 13, and the spring plate 3 is conveyed to the receiving platform 21 through the feeding channel 145, so that the conveying quality and efficiency of the spring plate 3 are effectively ensured, and the feeding stability and distance are improved.

In one embodiment of the present utility model, the feeding plate 141 is provided with a first guide groove 142, the top plate 143 is provided with a second guide groove 144, the first guide groove 142 and the second guide groove 144 form a feeding channel 145, the cross section of the feeding channel 145 is the same as the cross section of the spring plate 3, the top plate 143 is provided with a through groove 16, the through groove 16 is in a strip structure, the through groove 16 is provided with a detection frame 151, and the detection frame 151 is provided with a detection sensor 15 for detecting the position of the spring plate 3.

Specifically, the spring piece 3 removes from the material loading passageway 145 of material loading track 14, and the detection sensor 15 on the detection frame 151 detects the position condition on the material loading passageway 145 of spring piece 3, and the logical groove 16 on roof 143 can spill the spring piece 3 on the material loading track 14, can more audio-visual observation spring piece 3's material loading condition, guarantees the stability of material loading, and the setting of logical groove 16 can also carry out the quick maintenance to the spring piece 3 of card on the material loading passageway 145 simultaneously, guarantees the normal operating of equipment.

In one embodiment of the present utility model, an opening 24 is disposed on one side of the receiving groove 23, the opening 24 is matched with the feeding channel 145, a top material slot 25 is disposed on the bottom surface of the receiving groove 23, and the top material slot 25 is in communication with the receiving groove 23.

Specifically, the driver 41 drives the receiving rack 22 to move along the guide rail 42, so that the receiving groove 23 of the receiving platform 21 is aligned with the discharge end 18 of the feeding track 14, at this time, the opening 24 is communicated with the feeding channel 145, and the spring pieces 3 on the feeding track 14 enter the receiving groove 23 through the opening 24, so that the spring pieces 3 can be automatically fed one by one, and the feeding speed of the spring pieces 3 is increased, thereby meeting the production detection requirement.

In one embodiment of the present utility model, the moving component includes a moving frame 4, a guide rail 42 is provided on the moving frame 4, a sliding plate 43 is slidably provided on the guide rail 42, the material receiving frame 22 is connected with the sliding plate 43, a driver 41 is provided on the moving frame 4, the driver 41 is in driving connection with the material receiving frame 22, and the driver 41 drives the material receiving frame 22 to reciprocate along the guide rail 42.

Specifically, the driver 41 drives the material receiving rack 22 to move along the guide rail 42, so that the material receiving groove 23 of the material receiving platform 21 is aligned with the discharge end 18 of the material loading track 14, at this time, the opening 24 is communicated with the material loading channel 145, so that the material receiving operation of the material receiving platform 21 on the spring pieces 3 is facilitated, the material receiving groove 23 can receive the spring pieces 3 one by one, the subsequent processing is facilitated, and the damage of the spring pieces 3 is effectively avoided.

In one embodiment of the present utility model, the driver 41 is any one of a cylinder, an oil cylinder, or a linear motor.

In one embodiment of the present utility model, the two ends of the guide rail 42 are provided with buffer members 44, the buffer members 44 include buffer plates 45, the buffer plates 45 are provided with buffers 46 and stop bolts 47, and the buffers 46 and the stop bolts 47 are disposed opposite to the material receiving frame 22.

Specifically, buffer deceleration is carried out to the material frame 22 through the buffer 46, so that the spring piece 3 on the material receiving groove 23 is prevented from being separated due to the fact that the moving speed of the material frame 22 is too fast, the material taking stability of the material receiving platform 21 is guaranteed, meanwhile, the maximum stroke of the material frame 22 can be well limited by the stop bolt 47, the stable movement of a mechanism is guaranteed, and the material receiving device is compact in structure, convenient and durable, and low in production cost.

In one embodiment of the present utility model, the blocking assembly includes a blocking plate 28, the blocking plate 28 is disposed above the receiving platform 21, a screw 29 is disposed on the blocking plate 28 in a penetrating manner, the screw 29 is connected to the receiving platform 21 by penetrating through the blocking plate 28, a pad 281 is disposed in a middle portion of the blocking plate 28, a thickness of the pad 281 is greater than a thickness of the spring plate 3, a blanking channel 282 is formed between the blocking plate 28 and the receiving platform 21, and the blanking channel 282 is used for facilitating the spring plate 3 on the receiving chute 23 to pass through blanking.

Specifically, the screw 29 is rotated to adjust the position of the baffle 28, so that a receiving space for the spring piece 3 is formed between the baffle 28 and the receiving groove 23, the position accuracy of the spring piece 3 on the receiving groove 23 is ensured, meanwhile, the spring piece 3 is jacked up to be separated from the receiving groove 23 by the jacking slotting 25 on the bottom surface of the receiving groove 23 and other material taking equipment, and the blanking is carried out by the blanking channel 282 formed between the baffle 28 and the receiving platform 21, so that the blanking device can be well matched with the material taking equipment such as a manipulator, and the full-automatic feeding application requirement is well met.

In one embodiment of the present utility model, the material receiving rack 22 is provided with a plurality of mounting brackets, the mounting brackets are arranged in a one-to-one correspondence with the material receiving groove 23, and the mounting brackets are provided with test sensors 27 for detecting the condition of the spring leaf 3 on the material receiving groove 23.

Specifically, the installing support with connect silo 23 to correspond the setting, be provided with on the installing support and be used for detecting the test sensor 27 that connects the silo 23 on the condition of spring leaf 3, can the short-term test connect the silo 23 on have the spring leaf 3, improve the material loading precision, avoid connecing the problem that appears empty material on the silo 23, improved work efficiency.

In one embodiment of the present utility model, the striker plate 28 is provided with a detection hole 271, the detection hole 271 is disposed opposite to the receiving groove 23, the detection hole 271 is used for leaking out the spring piece 3 on the receiving groove 23, and the test sensor 27 is disposed above the detection hole 271.

Specifically, the detection hole 271 and the receiving groove 23 are oppositely arranged, so that the position of the detection hole 271 can leak out of the spring piece 3 on the receiving groove 23, the test sensor 27 can conveniently detect the spring piece 3 in place, the problem of empty materials on the receiving groove 23 is avoided, and the working efficiency is improved.

The use process

The spring piece 3 is placed in the vibration disc 11, an inner hole is formed in the middle of the spring piece, an annular boss is arranged around the hole, the vibration disc 11 is started to convey the spring piece 3 to the feeding track 14 one by one from a discharge hole of the vibration disc 11, the spring piece 3 moves from a feeding channel 145 of the feeding track 14, a detection sensor 15 on a detection frame 151 detects the position condition of the spring piece 3 on the feeding channel 145, a driver 41 drives a material receiving frame 22 to move along the guide rail 42, so that a material receiving groove 23 of the material receiving platform 21 is aligned with a discharge end 18 of the feeding track 14, at the moment, the opening 24 is communicated with the feeding channel 145, after the spring piece 3 on the feeding track 14 enters the material receiving groove 23, the driver 41 drives the material receiving frame 22 to move continuously along the guide rail 42, so that another material receiving groove 23 on the material receiving platform 21 is aligned with the discharge end 18 of the feeding track 14, at the moment, the opening 24 of the other material receiving groove 23 is communicated with the feeding channel 145, the other material receiving groove 3 on the feeding track 14 enters the material receiving groove 23, and the operation is repeated until the operation of receiving the spring piece 3 is finished once more.

The above-described embodiments are merely preferred embodiments for fully explaining the present utility model, and the scope of the present utility model is not limited thereto. Equivalent substitutions and modifications will occur to those skilled in the art based on the present utility model, and are intended to be within the scope of the present utility model. The protection scope of the utility model is subject to the claims.

Claims (10)

1. Spring leaf material loading conveying structure, its characterized in that includes:

The feeding mechanism comprises a feeding frame and a vibration disc, wherein the vibration disc is arranged on the feeding frame, a feeding track is arranged on the feeding frame, the feeding end of the feeding track is connected with the discharge port of the vibration disc, and the vibration disc is used for conveying spring pieces to the feeding track one by one;

The material receiving mechanism is arranged at the discharge end of the material loading track and comprises a material receiving frame, a material receiving platform is arranged on the material receiving frame, a plurality of material receiving grooves used for placing spring pieces are arranged on the material receiving platform, a material blocking component is arranged on the material receiving frame and used for blocking the spring pieces on the material receiving platform, the material receiving frame is connected with a moving part in a driving mode, and the moving part drives the material receiving grooves on the material receiving platform to be aligned with the discharge end of the material loading track and conduct material receiving one by one.

2. The spring leaf feeding and conveying structure according to claim 1, wherein the feeding track comprises a feeding support, the feeding support is arranged on the feeding support, a direct vibration feeder is arranged on the feeding support, a feeding plate is arranged on the direct vibration feeder, a top plate is arranged on the feeding plate, a feeding channel is arranged between the top plate and the feeding plate, and the spring leaf is conveyed to a receiving platform through the feeding channel.

3. The spring piece feeding and conveying structure according to claim 2, wherein the feeding plate is provided with a first guide groove, the top plate is provided with a second guide groove, the first guide groove and the second guide groove form a feeding channel, the section shape of the feeding channel is the same as that of the spring piece, the top plate is provided with a through groove, the through groove is in a strip-shaped structure, the through groove is provided with a detection frame, and the detection frame is provided with a detection sensor for detecting the position condition of the spring piece.

4. The spring leaf feeding and conveying structure according to claim 2, wherein an opening is formed in one side of the receiving groove, the opening is matched with the feeding channel, a material ejection groove is formed in the bottom surface of the receiving groove, and the material ejection groove is communicated with the receiving groove.

5. The spring leaf feeding and conveying structure according to claim 1, wherein the moving part comprises a moving frame, a guide rail is arranged on the moving frame, a sliding plate is arranged on the guide rail in a sliding mode, the material receiving frame is connected with the sliding plate, a driver is arranged on the moving frame and is in driving connection with the material receiving frame, and the driver drives the material receiving frame to reciprocate along the guide rail.

6. The spring plate feeding and conveying structure according to claim 5, wherein the driver is any one of a cylinder, an oil cylinder or a linear motor.

7. The spring piece feeding and conveying structure according to claim 5, wherein buffer parts are arranged at two ends of the guide rail, each buffer part comprises a buffer plate, a buffer and a stop bolt are arranged on each buffer plate, and the buffer and the stop bolts are arranged opposite to the material receiving frame.

8. The spring piece feeding and conveying structure of claim 1, wherein the material blocking assembly comprises a material blocking plate, the material blocking plate is arranged above the material receiving platform, a screw rod penetrates through the material blocking plate and is connected with the material receiving platform, a base plate is arranged in the middle of the material blocking plate, the thickness of the base plate is larger than that of the spring piece, a blanking channel is formed between the material blocking plate and the material receiving platform, and the blanking channel is used for facilitating the spring piece on the material receiving groove to pass through blanking.

9. The spring leaf feeding and conveying structure of claim 8, wherein a test frame is arranged on the receiving frame, a plurality of mounting brackets are arranged on the test frame and correspond to the receiving grooves one by one, and a test sensor for detecting the condition of the spring leaf on the receiving groove is arranged on the mounting brackets.

10. The spring leaf loading and conveying structure of claim 9, wherein the striker plate is provided with a detection hole, the detection hole is arranged opposite to the receiving groove, the detection hole is used for leaking out of the spring leaf on the receiving groove, and the test sensor is arranged above the detection hole.