CN113399602B

CN113399602B - Material conveying mechanism of spring stamping device

Info

Publication number: CN113399602B
Application number: CN202110772826.XA
Authority: CN
Inventors: 陈俊良
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-08
Filing date: 2021-07-08
Publication date: 2023-04-07
Anticipated expiration: 2041-07-08
Also published as: CN113399602A

Abstract

The invention discloses a material conveying mechanism of a spring stamping device, which comprises: bottom plate, stock chest, guide rail set spare, defeated material guide wheel subassembly and motor element. The storage tank, the guide rail assembly and the material conveying guide wheel assembly are arranged on one side surface of the bottom plate, the motor assembly is correspondingly arranged on the other side surface of the bottom plate, and an output shaft of the motor assembly is fixedly connected with the material conveying guide wheel assembly. The guide rail assembly comprises a first guide rail, a second guide rail and a shunt guide rail, the first guide rail is arranged on one side of the bottom plate, the second guide rail is arranged on the other side of the bottom plate relative to the first guide rail, a material conveying flow channel is formed between the first guide rail and the second guide rail, and the shunt guide rail is arranged inside the material conveying flow channel. According to the material conveying mechanism of the spring stamping device, the spring to be processed is conveyed to the interior of the first guide rail and the second guide rail in a shunting manner through the shunting guide rail, the first guide rail and the second guide rail, so that the material conveying efficiency of the material conveying mechanism is effectively improved.

Description

Material conveying mechanism of spring stamping device

Technical Field

The invention relates to the technical field of spring processing, in particular to a material conveying mechanism of a spring stamping device.

Background

A spring is a mechanical part that works by elasticity. The part made of elastic material deforms under the action of external force and restores to the original shape after the external force is removed. Also used as a "spring". Typically made of spring steel. The springs are complicated and various in types, and can be divided into extension springs, compression springs, torsion springs and bending springs according to stress properties, disc springs, annular springs, plate springs, spiral springs, truncated cone volute springs, torsion bar springs and the like according to shapes, and can be divided into cold coil springs and hot coil springs according to the manufacturing process. The common cylindrical spring has simple manufacture, can be made into various types according to the loading condition, has simple structure and is widely applied. In the processing procedure of the spring, the spring is often required to be stamped and shaped or the elastic performance of the spring is improved, and at the moment, the spring stamping device is required to be used for stamping the spring.

However, the design of the existing spring stamping device is simple, when the feeding of the spring to be processed is carried out, the spring to be processed needs to be manually put into a stamping track, so that huge labor cost is generated, and meanwhile, the efficiency is low.

Disclosure of Invention

Therefore, it is necessary to provide a material conveying mechanism of a spring stamping device to solve the technical problem that the existing spring stamping device lacks a special material conveying mechanism.

A material conveying mechanism of a spring stamping device comprises a bottom plate, a material storage tank, a guide rail assembly, a material conveying guide wheel assembly, a motor assembly, a cover plate and a mounting frame; the material storage tank, the guide rail assembly and the material conveying guide wheel assembly are arranged on the surface of one side of the bottom plate, the cover plate covers one side, away from the bottom plate, of the guide rail assembly and the material conveying guide wheel assembly, the motor assembly and the mounting frame are correspondingly arranged on the surface of the other side of the bottom plate, and an output shaft of the motor assembly is fixedly connected with the material conveying guide wheel assembly;

the guide rail assembly comprises a first guide rail, a second guide rail and a shunt guide rail; the first guide rail and the second guide rail are parallel to each other and are laid on the bottom plate, a material conveying flow channel is formed among the first guide rail, the second guide rail and the material storage groove, and the diversion guide rail is arranged inside the material conveying flow channel;

the conveying guide wheel assembly comprises a first guide wheel shaft, a second guide wheel shaft, a first guide wheel and a second guide wheel; one end of the first guide wheel shaft and one end of the second guide wheel shaft respectively penetrate through the first guide wheel and the bottom plate and the second guide wheel and the bottom plate in sequence and are respectively connected with the motor assembly; the first guide wheel and the second guide wheel are respectively sleeved at the other ends of the first guide wheel shaft and the second guide wheel shaft.

In one embodiment, the storage trough is disposed on a top edge of one side surface of the bottom plate and is connected to the first guide rail and the second guide rail respectively.

In one embodiment, a discharge port is formed on a side wall of the storage tank near one end of the bottom plate, and a material conveying channel is formed among the discharge port, the first guide rail and the second guide rail.

In one embodiment, the material conveying channel has a first installation space and a second installation space, the first installation space is disposed at a connection position between the diversion guide rail and an inner side wall of the first guide rail, and the second installation space is disposed at a connection position between the diversion guide rail and an inner side wall of the second guide rail.

In one embodiment, the bottom plate is provided with a first mounting groove and a second mounting groove, the first mounting groove is disposed at the bottom side of the first mounting space, and the second mounting groove is disposed at the bottom side of the second mounting space.

In one embodiment, the feeding guide wheel assembly further includes a first guide wheel gasket and a second guide wheel gasket, the first guide wheel gasket is installed in the first installation groove in a matching manner, and the second guide wheel gasket is installed in the second installation groove in a matching manner.

In one embodiment, the first guide wheel is disposed in the first installation space and abuts against a surface of the first guide wheel gasket.

In one embodiment, the second guide wheel is disposed in the second mounting space and abuts against a surface of the second guide wheel spacer.

In one embodiment, the motor assembly includes a first motor and a second motor, and the first motor and the second motor are both disposed on the other side surface of the bottom plate relative to the feeding guide wheel assembly; an output shaft of the first motor is fixedly connected with the first guide wheel shaft, and an output shaft of the second motor is fixedly connected with the second guide wheel shaft.

The material conveying mechanism of the spring stamping device conveys the spring to be processed to the first guide rail and the second guide rail in a shunting way through the shunting guide rail, the first guide rail and the second guide rail, so that the material conveying efficiency of the material conveying mechanism is effectively improved. The conveying flow channel formed by the bottom plate, the first guide rail, the second guide rail and the cover plate can enable the springs to be machined, which are matched in size, to be sequentially and efficiently conveyed into the spring stamping device for pressing and machining.

Drawings

FIG. 1 is a schematic view showing a feeding mechanism of a spring pressing apparatus according to an embodiment;

FIG. 2 is a schematic view of the feeding mechanism of the spring pressing apparatus shown in FIG. 1 from another perspective;

FIG. 3 is a partial schematic view showing a feeding mechanism of the spring punch apparatus according to the embodiment;

fig. 4 is a partial structural view of a feed mechanism of the spring punch apparatus according to an embodiment.

Description of the preferred embodiment

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

Referring to fig. 1 and 2, the present invention discloses a feeding mechanism of a spring stamping device, which includes a bottom plate 1, a material storage tank 2, a guide rail assembly 3, a feeding guide wheel assembly 4, a motor assembly 5, a cover plate 6 and a mounting frame 7. Wherein, storage silo 2, guide rail set 3 and defeated material guide wheel subassembly 4 set up in a side surface of bottom plate 1, and in practical application, operating personnel will wait that the spring of processing drops into storage silo 2 and keeps in, and storage silo 2, guide rail set 3, defeated material guide wheel subassembly 4 and bottom plate 1 form defeated material runner 11 to the spring of waiting to process of keeping in storage silo 2 is transmitted to spring stamping device. The cover plate 6 covers the guide rail component 3 and one side, far away from the bottom plate 1, of the material conveying guide wheel component 4, so that the material conveying flow channel 11 forms a relatively closed space, the material conveying flow channel 11 can place a spring to be processed to be separated from the material conveying flow channel 11 in the material conveying process, the cover plate 6 also has a limiting effect, the cover plate 6 and the guide rail component 3 are matched with the size of the spring to be processed, the posture of the spring to be processed in the material conveying process is limited, and the pressing treatment is convenient to carry out after the spring enters the spring pressing device. Motor element 5 and installing frame 7 correspond and set up in the opposite side surface of bottom plate 1, and motor element 5's output shaft and defeated material guide pulley subassembly 4 fixed connection, and during actual operation, motor element 5 drive is defeated material guide pulley subassembly 4 and is carried out defeated material work, and defeated material mechanism wholly can be fixed in predetermined mounting site through installing frame 7.

Referring to fig. 1 and 3, the storage chute 2 is disposed at the top edge of one side surface of the base plate 1, and in practical application, the base plate 1 is lifted by a preset angle relative to a horizontal plane, so that the top of the base plate 1 is raised, at this time, the storage chute 2 located at the top of the base plate 1 and the bottom of the base plate 1 form a certain height difference, and a spring to be processed in the storage chute 2 can slide from the top of the base plate 1 to the bottom of the base plate 1 under the action of gravity, so that the transmission of the spring to be processed is realized. The opening of stock chest 2 sets up in the one end of keeping away from bottom plate 1, and the diapire of stock chest 2 sets up in the link of stock chest 2 and bottom plate 1 to make treating among the stock chest 2 and process the spring and can concentrate on the lateral wall that is close to bottom plate 1 bottom one end. The lateral wall that stock chest 2 is close to 1 bottom one end of bottom plate has seted up discharge gate 21, discharge gate 21 sets up in this lateral wall and bottom plate 1 junction to, discharge gate 21 intercommunication stock chest 2 is inside and stock chest 2 is outside, and in practical application, when treating that the processing spring passes through discharge gate 21 and transmits defeated material runner 11 to 1 surface of bottom plate in stock chest 2, can laminate in 1 surface of bottom plate, thereby make the spring of treating processing can transmit in the track.

Referring to fig. 3, the guide rail assembly 3 includes a first guide rail 31, a second guide rail 32 and a diversion guide rail 33, in practical applications, the diversion guide rail 33 diverts the spring to be processed entering the material conveying channel 11 to the first guide rail 31 and the second guide rail 32, and the first guide rail 31 and the second guide rail 32 transfer the spring to be processed to the spring stamping device. The first guide rail 31 and the second guide rail 32 are parallel to each other and laid on the bottom plate 1, and a material conveying channel 11 is formed among the first guide rail 31, the second guide rail 32 and the material storage tank 2. The discharge port 21 is disposed between the outer side wall of the first guide rail 31 and the outer side wall of the second guide rail 32, and the bottom end of the outer side wall of the first guide rail 31 and the bottom end of the outer side wall of the second guide rail 32 extend to the bottom edge of the bottom plate 1 respectively, so that the springs to be processed in the storage tank 2 can enter the material conveying flow channel 11 from the discharge port 21. Shunt guide rail 33 sets up inside defeated material runner 11, the top of first guide rail 31 inside wall is connected to shunt guide rail 33's one end, the top of second guide rail 32 inside wall is connected to shunt guide rail 33's the other end, the bottom of first guide rail 31 inside wall and the bottom of second guide rail 32 inside wall extend to bottom plate 1's bottom edge respectively, in practical application, shunt guide rail 33 can will get into the spring reposition of redundant personnel of treating of defeated material runner 11 and transmit to first guide rail 31 and second guide rail 32, thereby improve defeated material efficiency of defeated material mechanism.

Referring to fig. 4, the feeding guide wheel assembly 4 includes a first guide wheel 41, a second guide wheel 42, a first guide wheel spacer 43, a second guide wheel spacer 44, a first guide wheel shaft 45, and a second guide wheel shaft 46. The bottom plate 1 is provided with a first mounting groove 12 and a second mounting groove 13, the first mounting groove 12 is arranged at the joint of the inner side wall of the shunt guide rail 33 and the first guide rail 31, the second mounting groove 13 is arranged at the joint of the inner side wall of the shunt guide rail 33 and the second guide rail 32, a first mounting space 331 is arranged at the joint of the inner side wall of the shunt guide rail 33 and the first guide rail 31, and a second mounting space 332 is arranged at the joint of the inner side wall of the shunt guide rail 33 and the second guide rail 32. First guide wheel shim 43 fits within first mounting groove 12 and second guide wheel shim 44 fits within second mounting groove 13. The first guide wheel 41 is disposed in the first mounting space 331 and abuts against the surface of the first guide wheel spacer 43; the second guide wheel 42 is disposed in the second mounting space 332 and abuts against a surface of the second guide wheel spacer 44, and in a practical application, the first guide wheel 41 rotates in the first mounting space 331, and the second guide wheel 42 rotates in the second mounting space 332, so that the spring to be processed is conveyed into the corresponding guide rail by a frictional force of the side surface. The first guide wheel shaft 45 sequentially penetrates through the geometric center of the first guide wheel 41, the geometric center of the first guide wheel gasket 43 and the bottom plate 1 and is connected with the motor assembly 5; the second guide wheel shaft 46 sequentially penetrates the geometric center of the second guide wheel 42, the geometric center of the second guide wheel spacer 44 and the base plate 1 and is connected to the motor assembly 5, the first guide wheel 41 is fixedly connected to the first guide wheel shaft 45, and the second guide wheel 42 is fixedly connected to the second guide wheel shaft 46. In the practical application process, the motor assembly 5 respectively drives the first guide wheel 41 and the second guide wheel 42 to rotate through the first guide wheel shaft 45 and the second guide wheel shaft 46, and at this time, the first guide wheel gasket 43 and the second guide wheel gasket 44 can respectively ensure the smoothness of the rotation of the first guide wheel 41 and the second guide wheel 42, so as to ensure the transportation efficiency of the first guide wheel 41 and the second guide wheel 42 on the spring to be processed.

Referring to fig. 4, an edge of the shunt guide rail 33 near the outer side wall of the first guide rail 31 and an inner side wall of the first guide rail 31 are tangent to the first guide wheel 41; the edge of the side of the diversion guide rail 33 close to the outer side wall of the second guide rail 32 and the inner side wall of the second guide rail 32 are respectively tangent to the second guide wheel 42, so as to reduce the gap between the guide rail assembly 3 and the material conveying guide wheel assembly 4, and further avoid the situation that the spring to be processed is clamped into the gap between the guide rail assembly 3 and the material conveying guide wheel assembly 4 to obstruct the material conveying process in the material conveying process.

Referring to fig. 2 and 4, the motor assembly 5 includes a first motor 51 and a second motor 52, and the first motor 51 and the second motor 52 are disposed on the other side surface of the bottom plate 1 relative to the material conveying guide wheel assembly 4. In practical application, the first motor 51 drives the first guide wheel 41 to rotate through the first guide wheel shaft 45, and the second motor 52 drives the second guide wheel 42 to rotate through the second guide wheel shaft 46.

Referring to fig. 1 and 3, the cover plate 6 covers the other side surface of the guide rail assembly 3 and the material conveying guide wheel assembly 4 relative to the base plate 1, one side surface of the cover plate 6 is connected to the outer side of one side wall of the material storage tank 2, the other side surface of the cover plate 6 relative to the material storage tank 2 extends to the bottom edge of the base plate 1, the guide rail assembly 3 and the cover plate 6 form a closed material conveying runner 11, and the material storage tank 2 is communicated with the material conveying runner 11 through a material outlet 21. The cover plate 6 is provided with a through hole 61 corresponding to the position of the non-material conveying channel 11, the inside of the non-material conveying channel 11 is communicated with the outside of the material conveying mechanism through the through hole 61, and when the material conveying mechanism operates, the through hole 61 can ensure that the air pressure inside the material conveying mechanism is balanced with the air pressure outside the material conveying mechanism, so that the phenomenon that the spring to be processed blocks the discharge port 21 to cause the air pressure inside the material conveying mechanism to rise is avoided, and the smooth material conveying inside the material conveying structure is ensured.

Referring to fig. 2, the mounting frame 7 is fixedly connected to the edge of the other side surface of the bottom plate 1 corresponding to the cover plate 6, a plurality of mounting holes 71 are formed in the side surface of the mounting frame 7 away from the bottom plate 1, and the feeding mechanism is mounted on a preset mounting station through the mounting holes 71.

In summary, the present invention discloses a material conveying mechanism of a spring stamping device, which conveys a spring to be processed to the inside of a first guide rail and a second guide rail by shunting the spring to the shunting guide rail, the first guide rail and the second guide rail, so as to effectively improve the material conveying efficiency of the material conveying mechanism of the present invention. The conveying flow channel formed by the bottom plate, the first guide rail, the second guide rail and the cover plate can enable the springs to be machined, which are matched in size, to be sequentially and efficiently conveyed into the spring stamping device for pressing and machining.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims

1. The utility model provides a spring stamping device's defeated material mechanism which characterized in that includes: the device comprises a bottom plate, a material storage tank, a guide rail assembly, a material conveying guide wheel assembly, a motor assembly, a cover plate and a mounting frame; the material storage tank, the guide rail assembly and the material conveying guide wheel assembly are arranged on one side surface of the bottom plate, the cover plate covers one side, away from the bottom plate, of the guide rail assembly and the material conveying guide wheel assembly, the motor assembly and the mounting frame are correspondingly arranged on the other side surface of the bottom plate, and an output shaft of the motor assembly is fixedly connected with the material conveying guide wheel assembly;

the bottom plate is lifted by a preset angle relative to a horizontal plane, so that the top of the bottom plate is lifted, a certain height difference is formed between the storage tank positioned at the top of the bottom plate and the bottom of the bottom plate, and a spring to be processed in the storage tank can slide from the top of the bottom plate to the bottom of the bottom plate under the action of gravity;

the guide rail assembly comprises a first guide rail, a second guide rail and a shunting guide rail; the first guide rail and the second guide rail are parallel to each other and are laid on the bottom plate, a material conveying flow channel is formed among the first guide rail, the second guide rail and the material storage groove, and the diversion guide rail is arranged inside the material conveying flow channel;

the material conveying guide wheel assembly comprises a first guide wheel shaft, a second guide wheel shaft, a first guide wheel and a second guide wheel; one end of the first guide wheel shaft and one end of the second guide wheel shaft respectively sequentially penetrate through the first guide wheel, the bottom plate, the second guide wheel and the bottom plate and are respectively connected with the motor assembly; the first guide wheel and the second guide wheel are respectively sleeved at the other ends of the first guide wheel shaft and the second guide wheel shaft;

a first installation space and a second installation space are arranged in the material conveying flow channel, the first installation space is arranged at the joint of the shunt guide rail and the inner side wall of the first guide rail, and the second installation space is arranged at the joint of the shunt guide rail and the inner side wall of the second guide rail;

the bottom plate is provided with a first mounting groove and a second mounting groove, the first mounting groove is arranged at the bottom side of the first mounting space, and the second mounting groove is arranged at the bottom side of the second mounting space;

the material conveying guide wheel assembly further comprises a first guide wheel gasket and a second guide wheel gasket, the first guide wheel gasket is installed in the first installation groove in a matched mode, and the second guide wheel gasket is installed in the second installation groove in a matched mode;

the first guide wheel is arranged in the first installation space and is abutted against the surface of the first guide wheel gasket;

the second guide wheel is arranged in the second installation space and is abutted against the surface of the second guide wheel gasket;

the edge of one side of the shunt guide rail, which is close to the outer side wall of the first guide rail, and the inner side wall of the first guide rail are respectively tangent to the first guide wheel; the reposition of redundant personnel guide rail is close to a side edge of second guide rail lateral wall and second guide rail inside wall respectively with the second guide pulley is tangent, thereby reduces guide rail set spare with the clearance between the defeated material guide wheel subassembly, and then avoids treating the spring card of processing at defeated material in-process guide rail set spare with in the clearance between the defeated material guide wheel subassembly.

2. The feeding mechanism of a spring punch apparatus as claimed in claim 1, wherein the storage trough is disposed on a top edge of a side surface of the bottom plate and is connected to the first guide rail and the second guide rail, respectively.

3. The feeding mechanism of a spring punch apparatus as claimed in claim 1, wherein a discharge opening is formed in a side wall of the storage tank near an end of the bottom plate, and the discharge opening, the first guide rail and the second guide rail form the feeding channel therebetween.

4. The feeding mechanism of a spring pressing device as claimed in claim 1, wherein the motor assembly includes a first motor and a second motor, and the first motor and the second motor are disposed on the other side surface of the bottom plate relative to the feeding guide wheel assembly; an output shaft of the first motor is fixedly connected with the first guide wheel shaft, and an output shaft of the second motor is fixedly connected with the second guide wheel shaft.