CN211027125U

CN211027125U - Full-automatic inner diameter sorting machine for springs

Info

Publication number: CN211027125U
Application number: CN201921803330.9U
Authority: CN
Inventors: 陆传宝
Original assignee: Zhuji Maisite Automation Technology Co ltd
Current assignee: Zhuji Maisite Automation Technology Co ltd
Priority date: 2019-10-25
Filing date: 2019-10-25
Publication date: 2020-07-17
Anticipated expiration: 2029-10-25

Abstract

The embodiment of the utility model provides a full-automatic internal diameter sorter of spring belongs to sorter technical field, the full-automatic internal diameter sorter of spring includes: a sorter body, the sorter body comprising: a housing; a moving member located above the housing, moving in a first direction with respect to the housing; and a mandrel disposed on the moving member; the detection assembly comprises: a detector corresponding to the mandrel; the grabbing component is positioned behind the detection component according to a first direction, is arranged on the shell and can move in multiple degrees of freedom; the detector is provided with a plurality of detectors which are used for detecting different parts of the core rod respectively; and the detection result is fed back to the grabbing component, and the spring on the core rod is grabbed to different positions through the grabbing component. The technical effects of automatically detecting whether the inner diameter of the spring is qualified and sorting the detected spring are achieved.

Description

Full-automatic inner diameter sorting machine for springs

Technical Field

The utility model relates to a sorter technical field especially relates to a full-automatic internal diameter sorter of spring.

Background

At present, the inner diameter of a spring depends on manual sampling inspection, but in some occasions with strict requirements on the quality of the spring, such as an automobile clutch, the spring used by each spring must be qualified, and under the high requirement, a spring manufacturer manually performs quality inspection one by one on the spring to be delivered.

However, the efficiency of quality inspection one by one is limited, so that the quality inspection process step is the process step with the largest manual demand on the whole spring production line, and the detection of the inner diameter of the spring is one of the most complicated detection items in several items of quality inspection springs; a vernier caliper or an inside micrometer is required to measure the spring.

Therefore, the technical problems of the prior art are as follows: the inner diameter of the spring is detected manually, so that the manual requirement of a quality inspection link is high.

Disclosure of Invention

The embodiment of the application provides a full-automatic inner diameter sorting machine for springs, and solves the technical problem that manual detection of the inner diameter of the spring is complicated in the prior art, so that the labor requirement in a quality inspection link is large; the technical effects of automatically detecting whether the inner diameter of the spring is qualified and sorting the detected spring are achieved.

The embodiment of the application provides a full-automatic internal diameter sorter of spring, the full-automatic internal diameter sorter of spring includes: a sorter body, the sorter body comprising: a housing; a moving member located above the housing, the moving member moving in a first direction with respect to the housing; the core rod is arranged on the moving piece and can be sleeved with a spring; a detection assembly disposed on the housing, the detection assembly comprising: a detector corresponding to the mandrel; the grabbing component is positioned behind the detection component according to a first direction, is arranged on the shell and can move in multiple degrees of freedom; the detector is provided with a plurality of detectors which are used for detecting different parts of the core rod respectively; and the detection result is fed back to the grabbing component, and the spring on the core rod is grabbed to different positions through the grabbing component.

Preferably, the spring full-automatic inner diameter sorting machine further comprises: the material placing component corresponds to the core rod, can contain the spring and place the spring on the core rod; wherein, according to the first direction, put the material subassembly and be located the place ahead of detection component.

Preferably, the material placing assembly comprises: the material placing seat is arranged on the shell; the limiting body is arranged on the material placing seat and corresponds to the core rod; the limiting body can contain a spring; and the material placing action piece can act and acts on the limiting body, and the position relation between the spring accommodated by the limiting body and the limiting body is changed through the material placing action piece.

Preferably, the spring full-automatic inner diameter sorting machine further comprises: the position correcting component is positioned between the material placing component and the detecting component according to a first direction, and comprises: the calibration seat is arranged on the shell; the position correcting action piece is arranged on the position correcting seat; the position correcting action head is arranged on the position correcting action piece; the positioning action piece acts on the positioning action head, and the spring on the core rod is positioned through the positioning action head.

Preferably, the positioning action head is provided above the mandrel and acts on the spring of the mandrel by moving from top to bottom.

Preferably, the action surface of the calibration action head on the spring on the core rod is a plane.

Preferably, the grasping assembly includes: a driving unit provided on the housing and having a plurality of degrees of freedom in a plurality of directions; the two grabbing claws are arranged on the driving part in a group, and the two grabbing claws are arranged oppositely; the grabbing claws are positioned on two sides of the core rod, the driving part acts on the grabbing claws, and the spring on the core rod is clamped through the grabbing claws.

Preferably, the action surface of the grasping claw is coated or semi-coated.

Preferably, a plurality of ball holes are formed in the acting surface of the grabbing claw relative to the spring, balls are arranged in the ball holes, the balls are exposed out of the acting surface of the grabbing claw relative to the spring, and the balls can roll freely relative to the grabbing claw.

Preferably, the spring full-automatic inner diameter sorting machine further comprises: the discharge pipeline is provided with a feeding port, and the feeding port is positioned in the motion range of the grabbing component; wherein, ejection of compact pipeline is subdivided into many, and the cooperation is grabbed the subassembly and is categorised with the spring of different testing results.

Preferably, the mandrel is divided into the following components in sequence from bottom to top: the bottom support part is fixedly connected with the moving part; the diameter value of the upper part of the first core part is larger than the maximum value of the qualified inner diameter value range of the spring to be detected; the diameter value of the second core body part is within the qualified inner diameter value range of the spring to be detected; and the diameter value of the lower part of the third core part is smaller than the minimum value of the qualified inner diameter value range of the spring to be detected.

Preferably, the mandrel is a unitary body.

Preferably, the centers of the respective portions of the mandrel are located on the same center line.

Preferably, the length of the third core part is greater than or equal to one half of the length of the spring to be detected

Preferably, the second core part is cylindrical, and the length of the second core part is greater than or equal to the length of the spring to be detected.

Preferably, the third core portion has a diameter that increases from top to bottom.

Preferably, the detector is one or a combination of a proximity switch, a photoelectric sensor or a CCD camera.

Preferably, the detector is a proximity switch, and the working diameter of the proximity switch is larger than the thread pitch of the spring to be detected.

One or more technical solutions in the embodiments of the present application have at least one or more of the following technical effects:

1. in the embodiment of the application, the spring is arranged on the core rod, the core rod is divided into a plurality of parts, the size of the core rod is gradually increased from top to bottom, and the position of the spring relative to the core rod can feed back whether the inner diameter of the spring is qualified or not; the core rod moves along with the moving piece, the position of the spring on the core rod is sequentially detected by the detector, and the detector converts the detected data into a grabbing mode of the grabbing assembly according to the position of the spring relative to the core rod, so that the grabbing assembly can grab the springs with different inner diameters to different places according to the detection result, and the separation of the inner diameters of the springs is completed; the technical problem that manual detection of the inner diameter of the spring is complicated in the prior art, so that the requirement on manpower in a quality inspection link is high is solved; the technical effects of automatically detecting whether the inner diameter of the spring is qualified and sorting the detected spring are achieved.

2. In the embodiment of the application, the material placing component is arranged, the feeding machine is matched, the state of the spring is adjusted to a proper position by the feeding machine, the spring is placed in the material placing component through the material conveying pipe, the material placing action piece acts, and the spring is controlled to fall and is sleeved on the core rod; completing the action of placing the spring on the core rod.

3. In the embodiment of the application, through setting up the alignment subassembly, utilize the alignment action piece to drive the motion of alignment action head, make the alignment action head pat the spring on the plug, the spring of being convenient for can be in an upright state for the plug, make the spring for the position of plug, and spring internal diameter and plug external diameter be corresponding to, it is accurate to guarantee the testing result of detector, when avoiding the detector to detect, the spring is not just for the position of plug, be in crooked state, appear treating qualified spring as the little spring of internal diameter, or the big spring of internal diameter is handled as qualified spring.

4. In the embodiment of the application, three detectors are arranged, and respectively correspond to the first core part, the second core part and the third core part on the core rod; and judging whether the springs are all positioned on the second core part or not according to the results of the three detectors, and judging whether the springs are qualified or not.

5. In this application embodiment, through setting up the optimization of snatching the claw, set up the ball on the working face of snatching the claw, utilize the part evagination to come the card in the ball of working face and establish the clearance department of spring for it is stable when snatching the spring to snatch the claw, avoids the spring to follow and snatchs the claw landing.

6. In the embodiment of the application, the discharge pipeline is arranged on the device and is subdivided into a first pipeline, a second pipeline and a third pipeline which are respectively used for placing a spring with larger inner diameter, a spring with qualified inner diameter and a spring with smaller inner diameter; and finishing the sorting work after the detection of the inner diameter of the spring.

Drawings

Fig. 1 is a schematic structural diagram of connection between a spring full-automatic inner diameter sorting machine and a feeding machine in the embodiment of the present application;

FIG. 2 is a schematic diagram of a top view of an automatic inner diameter spring sorting machine according to an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of a rear side view of a fully automatic inner diameter spring sorting machine according to an embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of a material placement assembly in an embodiment of the present application;

FIG. 5 is a schematic diagram of an exploded structure of a loading assembly in an embodiment of the present application;

FIG. 6 is a schematic structural diagram of an auxiliary seating assembly according to an embodiment of the present disclosure;

FIG. 7 is a schematic structural diagram of a detection assembly on a moving element according to an embodiment of the present application;

FIG. 8 is a schematic structural view of a mandrel in an embodiment of the present application;

FIG. 9 is a schematic side view of an embodiment of the present application showing a side view of the inspection assembly and the mandrel;

FIG. 10 is a schematic diagram of a front side view of an automatic inner diameter spring sorting machine according to an embodiment of the present disclosure;

FIG. 11 is a schematic view of a half-section structure of a fully automatic spring inner diameter sorting machine according to an embodiment of the present application;

FIG. 12 is a schematic structural diagram of a grasping element according to an embodiment of the present application;

FIG. 13 is an exploded view of a grasping element according to an embodiment of the present application;

fig. 14 is a schematic structural view between the third driving portion and the grasping claw in the embodiment of the present application.

Reference numerals:

1. a feeding machine; 11. a delivery pipe;

2. a sorter body; 21. a housing; 22. a moving member; 221. a core rod; 2211. a base portion; 2212. a first core section; 2213. a second core section; 2214. a third core portion;

3. a material placing component; 31. a limiting body; 311. a limiting pipe; 32. a first material placing action piece; 321. a first material placing action head; 33. a first material placing seat; 34. a second material placing action piece; 341. a second material placing action head; 35. a second material placing seat; 36. a third material placing action piece; 37. a third material placing seat;

4. a position correcting component; 41. a position correcting seat; 42. correcting the action piece; 43. aligning the action head;

5. a detection component; 51. a detection seat; 511. detecting a bit; 52. a detector;

6. a grasping assembly; 61. a grabbing seat; 62. a first driving section; 621. a first connecting plate; 63. a second driving section; 631 a second connecting plate; 64. a third driving section; 641. a third connecting plate; 65. a grabbing claw; 651. a ball bearing;

7. a discharge pipeline; 71. a first conduit; 72. a second conduit; 73. a third pipeline;

8. a spring.

Detailed Description

The embodiment of the application provides a full-automatic inner diameter sorting machine for springs 8, wherein the springs 8 are arranged on a mandrel 221, the mandrel 221 is divided into a plurality of parts, the sizes of the parts are gradually increased from top to bottom, and the positions of the springs 8 relative to the mandrel 221 can feed back whether the inner diameters of the springs 8 are qualified or not; the core rod 221 moves along with the moving part 22, the position of the spring 8 on the core rod 221 is sequentially detected by the detector 52, and according to the position of the spring 8 relative to the core rod 221, the detector 52 converts the detected data into a grabbing mode of the grabbing assembly 6, so that the grabbing assembly 6 can grab the springs 8 with different inner diameters to different places according to the detection result, and the sorting of the inner diameters of the springs 8 is completed; the technical problem that manual detection of the inner diameter of the spring 8 is complicated in the prior art, so that the requirement on manpower in a quality inspection link is high is solved; the technical effects that whether the inner diameter of the spring 8 is qualified or not is automatically detected, and the detected spring 8 is sorted are achieved.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Example one

The utility model provides a full-automatic internal diameter sorter of spring 8, the full-automatic internal diameter sorter of spring 8 includes: the sorting machine comprises a sorting machine main body 2, a material placing component 3, a position correcting component 4, a detection component 5, a grabbing component 6 and a discharging pipeline 7. Wherein, the moving part 22 on the separator body 2 moves according to a first direction, other parts are arranged according to the first direction, and a mandrel 221 on the moving part 22 sequentially passes through the material placing component 3, the position correcting component 4, the detecting component 5 and the grabbing component 6; the spring 8 is placed on the core rod 221 through the material placing assembly 3; the position of the spring 8 on the mandrel 221 is calibrated through the position calibration assembly 4, so that the position of the spring 8 is more upright, and the inner wall of the spring 8 is more attached to the mandrel 221; the position of the spring 8 on the mandrel 221 is detected through the detection assembly 5, finally the grabbing assembly 6 selects different grabbing modes according to the detection result of the detection assembly 5, and after the grabbing modes are selected, the spring 8 on the mandrel 221 is grabbed to different positions of the discharge pipeline 7, so that the full-automatic inner diameter sorting of the spring 8 is realized.

Specifically, the moving member 22 is preferably a rotating disc, each of the components is arranged at equal intervals on the rotating disc, and the rotating disc is provided with a plurality of sets of mandrels 221, and the rotating disc rotates at equal intervals, so that each of the components operates synchronously, and the working efficiency is improved.

A sorter body 2, the sorter body 2 including a housing 21, a mover 22, and a mandrel 221.

A housing 21; the housing 21 is a frame structure, and preferably, a table is laid on the upper end surface of the housing 21 to facilitate the spring 8 to fall into the housing 21.

The moving part 22 is used for driving the mandrel 221 to pass through other components and exists as a moving part of the spring 8 to be detected among the components of the whole sorting machine, and the moving part 22 is positioned above the shell 21 and moves along a first direction relative to the shell 21; specifically, the moving member 22 is slightly higher than the upper end surface of the housing 21, so as to facilitate movement; the moving element 22 may be a conveyor belt or a turntable, and a motor for driving the moving element 22 may be disposed inside the housing 21 or directly outside.

The core rod 221 is arranged on the moving part 22 and is in an upright state, and the core rod 221 can be sleeved with a spring 8; the core rod 221 is sequentially divided into: a shoe portion 2211, a first core portion 2212, a second core portion 2213, and a third core portion 2214; the centers of the parts of the mandrel 221 are located on the same central line, and the parts are split combined or integrated.

A bottom base portion 2211, wherein the bottom base portion 2211 is fixedly connected with the moving piece 22; specifically, the bottom base portion 2211 is inserted into the moving element 22, and a screw may be added between the bottom base portion 2211 and the moving element 22 to further enhance the connection strength between the bottom base portion 2211 and the moving element 22, so that the position of the core rod 221 is more stable; note that, the movement 22 may be directly connected to the first core portion 2212 without providing the bottom-receiving portion 2211.

A first core portion 2212, wherein the diameter value of the upper portion of the first core portion 2212 is larger than the maximum value of the qualified inner diameter value range of the spring 8 to be detected; preferably, the first core portion 2212 has a circular truncated cone shape, and an upper diameter of the first core portion 2212 is smaller than a lower diameter of the first core portion 2212.

A second core body portion 2213, wherein the diameter value of the second core body portion 2213 is within the qualified inner diameter value range of the spring 8 to be detected; the second core portion 2213 is cylindrical, and the length of the second core portion 2213 is greater than or equal to the length of the spring 8 to be detected.

A third core portion 2214, wherein the diameter value of the lower portion of the third core portion 2214 is smaller than the minimum value of the qualified inner diameter value range of the spring 8 to be detected. The length of the third core body portion 2214 is greater than or equal to one half of the length of the spring 8 to be detected, and the diameter of the third core body portion 2214 is continuously increased from top to bottom; preferably a conical shape. The spring 8 can be fixed on the core rod 221, and the phenomenon that the spring 8 is thrown out in the moving process of the moving part 22 because the inner diameter of the spring 8 is too small and only a small part of the spring is positioned on the core rod 221 is avoided.

The material placing assembly 3 corresponds to the mandrel 221, can contain the spring 8 and places the spring 8 on the mandrel 221; wherein, according to the first direction, the material placing component 3 is positioned in front of the detection component 5. The material placing component 3 comprises: a material placing seat, a limiting body 31 and a material placing action piece. Through the optimization of the limiting body 31 and the material placing action piece, in order to enable the material placing assembly 3 to be capable of placing springs 8 with different sizes, the placing action of the springs 8 is more stable;

and the material placing seat is arranged on the shell 21 and is positioned on one side of the moving part 22.

The limiting body 31 is arranged on the material placing seat, and the limiting body 31 corresponds to the core rod 221; the stopper 31 may house the spring 8. Preferably, a limiting tube 311 is arranged in the limiting body 31, the spring 8 is arranged in the limiting tube 311, and by replacing the limiting tubes 311 with different inner diameters, the inner diameter of the accommodating cavity of the limiting body 31 relative to the spring 8 can be conveniently controlled, so that the spring 8 is in an upright state in the limiting body 31, and the spring 8 is in an upright state after falling on the core rod 221.

And the material placing action piece can act and acts on the limiting body 31, and the position relation between the spring 8 accommodated in the limiting body 31 and the limiting body 31 is changed through the material placing action piece. Preferably, the material placing action piece is a cylinder.

Specifically, the material placing seat is subdivided into a first material placing seat 33, a second material placing seat 35 and a third material placing seat 37; the material placement events are subdivided into a first material placement event 32, and a third material placement event 36. The third material placing seat 37 is connected with the shell 21, and the third material placing action piece 36 is arranged on the third material placing seat 37; the second material placing seat 35 is arranged on the third material placing action piece 36, and the second material placing seat 35 can move up and down through the third material placing action piece 36, so that the springs 8 with different lengths can be conveniently placed on the core rod 221.

The first material placing action piece 32 and the second material placing action piece 34 act on the upper end and the lower end of the limiting body 31 respectively, and the distance between the first material placing action piece 32 and the second material placing action piece 34 on the limiting body 31 can accommodate the next spring 8; the first material placing action piece 32 depends on the first material placing action head 321 to prevent the new spring 8 from entering the limiting body 31; the second material placing action piece 34 makes the springs 8 positioned in the spacing of the limiting bodies 31 be retained or released by means of the second material placing action head 341, and ensures that only one spring 8 falls down when material is placed each time.

In order to fix the first material placing operation member 32 located above, a third material placing seat 37 is subdivided on the second material placing seat 35 for supporting the limiting member and the first material placing operation member 32.

The calibration assembly 4 is positioned between the material placing assembly 3 and the detection assembly 5 according to a first direction, and is used for improving the position of the spring 8 relative to the mandrel 221 so that the spring 8 and the mandrel 221 are sleeved in parallel; the position correcting component 4 comprises: a calibration base 41, a calibration action member 42 and a calibration action head 43. Wherein the position correcting action piece 42 acts on the position correcting action head 43, and the spring 8 on the mandril 221 is positioned through the position correcting action head 43.

A calibration seat 41, wherein the calibration seat 41 is arranged on the shell 21.

The position correcting action piece 42 is arranged on the position correcting seat 41, and the position correcting action piece 42 can adopt an air cylinder, a hydraulic cylinder or a motor.

And a position correction acting head 43, wherein the position correction acting head 43 is arranged on the position correction acting piece 42.

Specifically, the components are calibrated in a number of ways; for example, the action surface of the calibration action head to the spring 8 on the core rod 221 is a plane; the position correcting action head 43 is arranged above the mandrel 221, the position correcting action piece 42 adopts an air cylinder, and the spring 8 which is used on the mandrel 221 is directly moved from top to bottom by the position correcting action piece 42. It is also possible to use a motor for the positioning actuator 42, which acts laterally in an arc on the spring 8 of the mandrel 221.

A detection assembly 5 for detecting the position of the spring 8 on the mandrel 221; the detection assembly 5 is disposed on the housing 21, and the detection assembly 5 includes: a detector base 51 and a detector 52.

The detection seat 51 is provided with a detection position 511 for fixing the detector 52, and the detection position 511 is preferably arranged in a long groove shape for facilitating the vertical adjustment of the detector 52 in order to facilitate the detection of springs 8 with different specifications.

At least three detectors 52 provided corresponding to the first core portion 2212, the second core portion 2213, and the third core portion 2214 on the mandrel 221; from the results of the three detectors 52, it is determined whether or not all the springs 8 are positioned on the second core 2213, and it is determined whether or not the springs 8 are acceptable.

In particular, the detector 52 is preferably a proximity switch, and the working diameter of said proximity switch is greater than the pitch of the spring 8 to be detected, for example a proximity switch with a working diameter of twelve millimetres detects a spring 8 with a pitch of eight millimetres; the detector 52 can accurately determine the position of the spring 8 on the mandrel 221 without being affected by the clearance of the spring 8.

Specifically, the detector 52 may be an optoelectronic switch, and a light band is selected as the detection medium, and the width of the light band is greater than the pitch of the spring to be detected, so that the detection result is more accurate.

Specifically, the detector 52 may be a CCD camera, and the spring-fitted core rod is photographed, and after photographing, the computer analyzes the relationship between the position and the size of the spring and the core rod.

The grabbing component 6 is positioned behind the detection component 5 according to a first direction, and the grabbing component 6 is arranged on the shell 21 and can move in multiple degrees of freedom; the grasping assembly 6 includes: a drive section and a gripping claw 65. Wherein the gripping claws 65 are located on both sides of the core rod 221, and the drive section acts on the gripping claws 65 and causes the spring 8 on the core rod 221 to be gripped by the gripping claws 65.

A drive unit provided on the housing 21 and having a plurality of degrees of freedom in a plurality of directions; specifically, the driving section includes: a first drive unit 62, a second drive unit 63, and a third drive unit 64; the three driving parts are combined to realize the motion with a plurality of degrees of freedom; wherein the first driving portion 62 is fixed on the housing 21 by providing the catching seat 61.

The grabbing claws 65 are arranged on the outermost third driving part 64 of the driving parts in a group of two grabbing claws 65, and the two grabbing claws 65 are arranged oppositely; the active surface of the gripping claw 65 is coated or half-coated.

Specifically, a plurality of balls 651 are provided in the operating surface of the gripper claw 65 with respect to the spring 8, balls 651 are provided in the balls 651, the balls 651 are exposed to the operating surface of the spring 8 with respect to the gripper claw 65, and the balls 651 can freely roll with respect to the gripper claw 65. Preferably, the balls 651 are disposed in a ball housing that is received and secured in the gripper jaw 65 to facilitate manufacture, maintenance, and repair of the gripper jaw 65. In order to improve the stability of the grabbing claw when contacting the spring and avoid the spring from shaking or jumping under stress, an elastic part is preferably arranged between the ball and the ball hole, and the elastic part is an elastic sheet or a spring; the ball can extend and retract relative to the grabbing claw, so that the grabbing claw 65 can be stably attached to the spring; it is also possible to use ball screws directly, the thread being provided on the gripping claw 65.

The discharging pipeline 7 is provided with a feeding port, the feeding port is positioned in the movement range of the grabbing component 6, the position of the feeding port is preferably close to that of the core rod 221, and the number of action parts of the driving part is small; the discharge pipeline 7 is subdivided into three lines, namely a first pipeline 71, a second pipeline 72 and a third pipeline 73; the springs 8 of different detection results are classified by matching with the grabbing component 6.

The working principle is as follows:

the moving part 22 on the separator main body 2 moves in a first direction, and a core rod 221 on the moving part 22 sequentially passes through the material placing component 3, the position correcting component 4, the detecting component 5 and the grabbing component 6; the spring 8 is placed on the core rod 221 through the material placing assembly 3; the position of the spring 8 on the mandrel 221 is calibrated through the position calibration assembly 4, so that the position of the spring 8 is more upright, and the inner wall of the spring 8 is more attached to the mandrel 221; the position of the spring 8 on the mandrel 221 is detected through the detection assembly 5, finally the grabbing assembly 6 selects different grabbing modes according to the detection result of the detection assembly 5, and after the grabbing modes are selected, the spring 8 on the mandrel 221 is grabbed to different positions of the discharge pipeline 7, so that the full-automatic inner diameter sorting of the spring 8 is realized.

The technical effects are as follows:

While the preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the appended claims be interpreted as including the preferred embodiment and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. The utility model provides a full-automatic internal diameter sorter of spring which characterized in that, full-automatic internal diameter sorter of spring includes:

a sorter body, the sorter body comprising:

a housing;

a moving member located above the housing, the moving member moving in a first direction with respect to the housing; and

the core rod is arranged on the moving piece and can be sleeved with a spring to be detected;

a detection assembly disposed on the housing, the detection assembly comprising:

a detector corresponding to the mandrel;

the grabbing component is positioned behind the detection component according to a first direction, is arranged on the shell and can move in multiple degrees of freedom;

the detector is provided with a plurality of detectors which are used for detecting different parts of the core rod respectively; and the detection result is fed back to the grabbing component, and the spring on the core rod is grabbed to different positions through the grabbing component.

2. The spring full automatic inner diameter classifier of claim 1, further comprising:

the material placing component corresponds to the core rod, can contain the spring and place the spring on the core rod; wherein, according to the first direction, put the material subassembly and be located the place ahead of detection component.

3. The spring full-automatic inner diameter sorting machine according to claim 1, wherein the grabbing assembly comprises:

a driving unit provided on the housing and having a plurality of degrees of freedom in a plurality of directions;

the two grabbing claws are arranged on the driving part in a group, and the two grabbing claws are arranged oppositely;

the grabbing claws are positioned on two sides of the core rod, the driving part acts on the grabbing claws, and the spring on the core rod is clamped through the grabbing claws.

4. The spring full-automatic inner diameter sorting machine according to claim 3, wherein a plurality of ball holes are arranged on the action surface of the grabbing claw relative to the spring, balls are arranged in the ball holes, the balls are exposed relative to the action surface of the grabbing claw on the spring, and the balls can roll freely relative to the grabbing claw.

5. The spring full automatic inner diameter classifier of claim 1, further comprising:

the discharge pipeline is provided with a feeding port, and the feeding port is positioned in the motion range of the grabbing component;

wherein, ejection of compact pipeline is subdivided into many, and the cooperation is grabbed the subassembly and is categorised with the spring of different testing results.

6. The spring full-automatic inner diameter sorting machine according to claim 1, wherein the core rod is divided into:

the bottom support part is fixedly connected with the moving part;

the diameter value of the upper part of the first core part is larger than the maximum value of the qualified inner diameter value range of the spring to be detected;

the diameter value of the second core body part is within the qualified inner diameter value range of the spring to be detected; and

and the diameter value of the lower part of the third core part is smaller than the minimum value of the qualified inner diameter value range of the spring to be detected.

7. The spring full automatic inner diameter sorter of claim 6 wherein the centers of the sections of the mandrel are on the same centerline.

8. The spring full-automatic inner diameter sorting machine according to claim 6, wherein the length of the third core part is greater than or equal to one half of the length of the spring to be detected.

9. The spring full-automatic inner diameter sorting machine according to claim 6, wherein the second core part is cylindrical, and the length of the second core part is greater than or equal to the length of the spring to be detected.

10. The spring full-automatic inner diameter sorting machine according to claim 1, wherein the detector is one or a combination of a proximity switch, a photoelectric sensor or a CCD camera.