CN217442744U - Nylon retainer needle bearing torque detection machine - Google Patents

Abstract

The utility model discloses a torque detector for a nylon retainer needle bearing, which comprises a device main body, a torque detection device and a torque detection device, wherein the device main body comprises a platform part and a conveying part; the detection assembly comprises a torque component and a fixed component; and an auxiliary assembly including a force application member and a sorting member. The utility model discloses a set up platform part and delivery unit for the nylon holder can be after the conveying part sequences, can carry out the regularization with unordered nylon holder, conveniently detects the procedure. And simultaneously, the utility model discloses an at the interior clearance gauge subassembly and the ring gauge subassembly that sets up of determine module, can carry out the measurement of torque to the inside antifriction bearing of nylon holder, distinguish the nylon holder quality condition. On the other hand, the force application component is arranged to apply radial force to the fixing component, so that the torque is increased, the measuring precision is improved, and the sorting component is arranged to automatically screen the nylon retainer, so that the device is more automatic, and the efficiency of the device is improved.

Description

Nylon retainer needle bearing torque detector

Technical Field

The utility model relates to a medical equipment technical field, especially a prevent crease and can fixed negative pressure drainage ware of multi-angle.

Background

The material of the nylon retainer needle roller bearing is mainly formed by injection molding of foreign imported special materials, and the common material components comprise: the glass fiber reinforced nylon with the anti-aging agent has the characteristics of good strength and elasticity, chemical corrosion resistance, aging resistance and good dimensional stability. The novel LED lamp has the characteristics of light weight, low noise and the like, and is widely used in the market at present.

Meanwhile, the nylon retainer needle roller bearing cannot meet the current market demand only by manual detection due to the extremely large output. At present, most of bearing roller pin assembly and subsequent detection work in China are disjointed with the assembly process, and the quality detection can not be carried out in real time after the assembly, so that the production efficiency is greatly reduced. But also increases personnel costs given the low efficiency of production.

Therefore, a special developed retainer defect detection device is particularly needed, which can be used for detecting various defects of the nylon retainer needle roller bearing, such as material shortage, breakage, flash and the like.

SUMMERY OF THE UTILITY MODEL

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section and in the abstract of the specification and the title of the application to avoid obscuring the purpose of this section, the abstract of the specification and the title of the application, and such simplifications or omissions are not intended to limit the scope of the invention.

In view of the above-mentioned and/or the problem that exists among the current nylon cage bearing torque detection equipment, provided the utility model discloses.

Therefore, one of the objects of the present invention is to provide a torque detector for a needle roller bearing with a nylon retainer, which can detect various defects such as material shortage, breakage, and flash by detecting the torque of the nylon retainer.

In order to solve the technical problem, the utility model provides a following technical scheme: a torque detector for a nylon retainer needle roller bearing comprises a device main body, a torque detection device and a torque detection device, wherein the device main body comprises a platform part and a conveying part, and the platform part is arranged on one side of the conveying part; the detection assembly is connected with the device main body and comprises a torque component and a fixed component; and the auxiliary assembly comprises a force application part and a sorting part and is arranged in the device main body.

As a nylon retainer bearing torque detector's an preferred scheme, wherein: the platform part comprises a storage cabinet, a workbench and a control panel, the workbench is arranged on the upper side of the storage cabinet, a connecting frame is arranged on the lower side of the control panel, and the upper side of the workbench is arranged on the connecting frame.

As a nylon retainer bearing torque detector's an preferred scheme, wherein: the conveying part comprises a vibration disc, a conveying belt and a clamping piece, the vibration disc is arranged on one side of the storage cabinet, one end of the conveying belt is arranged at the discharge end of the vibration disc, and one end of the conveying belt is provided with a conveying belt motor.

As a nylon retainer bearing torque detector's an preferred scheme, wherein: the clamping component comprises a clamping plate, a moving frame and a supporting seat, the clamping plate and the moving frame are arranged on the upper side of the supporting seat, and the clamping plate is arranged at one end of the conveyor belt; and a moving cylinder is arranged on one side of the moving frame, and a propelling cylinder is arranged on the lower side of the supporting seat.

As a nylon retainer bearing torque detector's an preferred scheme, wherein: the torque component comprises a plug gauge, a rigid coupling arranged on the upper side of the plug gauge, a torque sensor arranged on the upper side of the rigid coupling and a servo motor arranged on the upper side of the rigid coupling.

As a nylon retainer bearing torque detector's an preferred scheme, wherein: the middle section of the inlet piece is a fixed elbow, the structure shape is 1/4 circular arc, and when the inlet piece is not acted by any external force, the outlet of the elbow is parallel to the lower end surface.

As a nylon retainer bearing torque detector's an preferred scheme, wherein: a support piece and a support column are arranged on one side of the torque component, the support piece comprises a first support, a second support, a third support and a fourth support, and the support column penetrates through the second support, the third support and the fourth support; the servo motor is arranged on the upper side of the second support, the rigid coupling and the torque sensor are arranged between the second support and the third support, and the plug gauge is arranged on the lower side of the third support.

As a nylon retainer bearing torque detector's an preferred scheme, wherein: the plug gauge lifting air cylinder is arranged on the upper side of the first support, a plug gauge telescopic rod is arranged on the lower side of the plug gauge lifting air cylinder, and the plug gauge telescopic rod is connected with the second support.

As a nylon retainer bearing torque detector's an preferred scheme, wherein: the fixed part comprises a ring gauge, a ring gauge plate and a ring gauge lifting cylinder, the ring gauge is arranged inside the ring gauge plate, the ring gauge lifting cylinder is arranged on the upper side of the first support, a ring gauge telescopic rod is arranged on the lower side of the first support, and the ring gauge telescopic rod is connected with the fourth support.

As a nylon holder bearing torque detector's an preferred scheme, wherein: the force application component comprises a clamping block, a force application servo cylinder and a tension seat, the tension seat is fixedly connected with the clamping block, and the force application servo cylinder is arranged on the lower side of the fourth support and is mutually connected with the tension seat.

The utility model has the advantages that: the utility model discloses a department sets up platform part and delivery unit in the device main part for nylon holder bearing can be ordered by the delivery unit, can carry out the regularization with unordered nylon holder bearing like this, conveniently detects the procedure. And simultaneously, the utility model discloses a set up torque part and fixed part in the determine module, can carry out the measurement of torque to the inside bearing of nylon holder bearing, distinguish the nylon holder quality condition. On the other hand, the force application component is arranged to apply radial force to the fixing component, so that torque is increased, and measuring precision is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor. Wherein:

fig. 1 is the overall structure schematic diagram of the embodiment provided by the torque detector for the needle roller bearing of the nylon retainer.

Fig. 2 is the embodiment provided by the torque detector for nylon cage needle roller bearing according to the present invention.

Fig. 3 is the structural schematic diagram of the conveying component according to the embodiment of the torque detector for the needle roller bearing of the nylon cage of the present invention.

Fig. 4 is the embodiment of the utility model discloses nylon cage bearing torque detection machine provides the detection subassembly schematic structure.

Fig. 5 is a schematic view of the torque part structure according to the embodiment of the torque detector for the needle roller bearing of the nylon cage of the present invention.

Fig. 6 is a schematic view of the force application member according to the embodiment of the torque detector for the needle roller bearing of the nylon cage of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying the present invention are described in detail below with reference to the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, the references herein to "one embodiment" or "an embodiment" refer to a particular feature, structure, or characteristic that may be included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 and 2, for a first embodiment of the present invention, an overall structure schematic diagram of a nylon cage needle roller bearing torque detector is provided, as shown in fig. 1, the overall structure of the present invention includes a device main body 100, including a platform part 101 and a conveying part 102, the platform part 101 is disposed on one side of the conveying part 102; a detection assembly 200 connected to the apparatus body 100 and including a torque member 201 and a fixing member 202; and an auxiliary assembly 300 including a force application member 301 and a sorting member 302, both disposed inside the apparatus main body 201.

Specifically, the main structure of the present invention includes a device main body 100, a detection assembly 200, and an auxiliary assembly 300. The apparatus body 100 includes a stage member 101 and a conveying member 102, and the stage member 101 is disposed on one side of the conveying member 102. The platform part 101 is provided with a display screen and a control button, controls the start and stop of the whole operation, and can also monitor the material distribution process of the nylon retainer in real time. The transport assembly 102 performs a preliminary sorting of unordered nylon holders and delivers them to the primary location of operation.

Further, the detecting unit 200, connected to the apparatus body 100, includes a torque member 201 and a fixing member 202. The torque part 201 can measure the torque of the needle roller bearing in the nylon retainer, the fixing part 202 descends to keep the nylon retainer fixed, the torque part 201 rotates, the torque of the needle roller bearing in the nylon retainer is measured, and data is recorded. Subsequently, the torque member 201 rises, the fixing member 202 also rises, and the nylon cage is sent away to wait for the next nylon cage to be measured.

Further, the auxiliary assembly 300 includes a force application member 301 and a sorting member 302, and both are disposed inside the apparatus main body 201. After the nylon retainer is kept and fixed by the fixing part 202, the force application part 301 pulls the fixing part 202 to apply radial force to the fixing part 202, so that the torque can be increased, and the torque part 201 can conveniently measure the needle roller bearing in the nylon retainer. The sorting component 301 can screen the nylon holders according to the information of the detection assembly 200, and the sorting component 301 places different nylon holders in different containers.

The operation process comprises the following steps: firstly, a nylon retainer is placed on the upper side of the platform part 101, and the control button is pressed to start the automatic material distribution process. The transport assembly 102 performs a preliminary sorting of unordered nylon holders and delivers them to the location where the inspection assembly 200 operates.

Next, the cylinder disposed on the upper side of the torque member 201 can control the torque member 201 to descend, and the torque member 201 is plugged into the nylon retainer. The fixing member 202 is lowered to fix the needle roller bearing of the nylon cage. The urging member 301 pulls the fixing member 202 to apply a radial force to the fixing member 202, which can increase the torque. The torque member 201 is rotated, and the torque of the needle roller bearing inside the nylon cage is measured and the data is recorded. The torque member 201 rises and the fixed member 202 also rises, and the nylon cage is conveyed away by the conveyor and waits for the next nylon cage to be measured

Finally, the screening component 301 can screen the nylon cage needle roller bearings according to the information of the detection assembly 200, and the screening component 301 places different nylon cage needle roller bearings in different receiving pieces.

Example 2

The second embodiment of the present invention refers to fig. 1 to 6, and the embodiment is different from the first embodiment: the utility model discloses the major structure includes device main part 100, detection component 200 and auxiliary assembly 300. Wherein, platform part 101 includes storage cabinet 103, workstation 104 and control panel 105, and workstation 104 sets up in storage cabinet 103 upside, and control panel 105 downside is provided with link 106, and link 106 is provided with workstation 104 upside. The conveying unit 102 includes a vibration plate 107, a conveyor belt 108, and a holder 109, the vibration plate 107 is disposed at a side of the storage 103, one end of the conveyor belt 108 is disposed at a discharge end of the vibration plate 107, and one end of the conveyor belt 108 is disposed with a conveyor belt motor 108 a. The clamping piece 109 comprises a clamping plate 110, a moving frame 111 and a supporting seat 112, wherein the clamping plate 110 and the moving frame 111 are arranged on the upper side of the supporting seat 112, and a clamping plate 205 is arranged at one end of the conveyor belt 204; a moving cylinder 206a is arranged at one side of the moving frame 206, and a propulsion cylinder 207a is arranged at the lower side of the supporting seat 207.

Specifically, in the present embodiment, the platform part 101 includes a storage cabinet 103, a workbench 104, and a control board 105, the workbench 104 is disposed on the upper side of the storage cabinet 103, the lower side of the control board 105 is provided with a connecting frame 106, and the connecting frame 106 is provided on the upper side of the workbench 104. The storage cabinet 103 plays a role in supporting and fixing the whole device, and a cabinet door of a switch is arranged at the lower part of the storage cabinet and can be used for accommodating the screened nylon retainer needle roller bearing. The control panel 105 is provided with a plurality of control buttons that can control the dispensing and sifting of the entire nylon cage needle bearings. And connection control is performed through the connection frame 106.

Further, the conveying unit 102 includes a vibration plate 107, a conveyor belt 108, and a holding member 109, the vibration plate 107 is disposed at a side of the storage cabinet 103, one end of the conveyor belt 108 is disposed at a discharge end of the vibration plate 107, and one end of the conveyor belt 108 is disposed with a conveyor belt motor 108 a. The vibration disc 107 firstly performs a primary screening on the nylon retainer needle roller bearings, and regularly sorts the scattered nylon retainer needle bearings, and the sorted nylon retainers can reach the conveyor belt 108. The conveyor belt motor 108a operates to drive the conveyor belt 108 to operate, and the nylon cage needle roller bearing is conveyed into the clamping plate 110.

Further, the clamping member 109 comprises a clamping plate 110, a moving frame 111 and a supporting base 112, the clamping plate 110 and the moving frame 111 are arranged on the upper side of the supporting base 112, a clamping plate 205 is arranged at one end of the conveyor belt 204, a moving cylinder 111a is arranged on one side of the moving frame 111, and a pushing cylinder 112a is arranged on the lower side of the supporting base 112. The clamping plate 110 mainly functions to take the nylon cage needle roller bearing off from the conveyor belt 107, the clamping plate 110 and the moving frame 111 are both arranged on the supporting base 112, and the supporting base 112 moves to drive the clamping plate 110 to move. When the chuck plate 110 conveys the nylon cage needle roller bearing to the workbench 104, the movable frame 111 clamps the nylon cage needle roller bearing, and at the moment, the nylon cage needle roller bearing clamped by the movable frame 111 can be assembled or detected. The driving cylinder 112a drives the supporting base 112 to move in a direction perpendicular to the worktable 104. The moving cylinder 111a drives the supporting base 112 and the worktable 104 to move horizontally.

The rest of the structure is the same as in example 1.

The operation process is as follows: firstly, the vibration disc 203 performs a primary screening on the nylon cage needle roller bearings, and regularly sorts the scattered nylon cage needle roller bearings, and the sorted nylon cage needle roller bearings can reach the conveyor belt 108. The conveyor belt motor 108a operates to drive the conveyor belt 108 to operate, and the nylon cage needle roller bearing is conveyed into the clamping plate 110. The clamping plate 110 takes the nylon cage needle roller bearing off from the conveyor belt 108, the clamping plate 110 and the moving frame 111 are both arranged on the supporting seat 112, and the supporting seat 112 moves to drive the clamping plate 110 to move. The driving cylinder 112a drives the supporting base 112 to move in a direction perpendicular to the worktable 104. The moving cylinder 111a drives the supporting base 112 and the worktable 104 to move horizontally. When the clamping plate 110 is controlled by the air cylinder to convey the nylon retainer needle roller bearing to the workbench 104, the movable frame 111 clamps the nylon retainer needle roller bearing, and the nylon retainer needle roller bearing clamped by the movable frame 111 can be detected.

Example 3

Referring to fig. 1 to 6, there are shown schematic diagrams of a third embodiment of the present invention, which is different from the first embodiment: the torque unit 201 includes a plug 203, a rigid coupling 204 provided on the upper side of the plug 203, a torque sensor 205 provided on the upper side of the rigid coupling 204, and a servomotor 206 provided on the upper side of the rigid coupling 204. A support member 207 and a support column 208 are arranged on one side of the torque component 201, the support member 207 comprises a first support 207a, a second support 207b, a third support 207c and a fourth support 207d, and the support column 208 penetrates through the second support 207b, the third support 207c and the fourth support 207 d; wherein the servo motor 206 is arranged on the upper side of the second support 207b, the rigid coupling 204 and the torque sensor 205 are arranged between the second support 207b and the third support 207c, and the plug gauge 203 is arranged on the lower side of the third support 207 c.

The first support 207a is provided with a plug gauge lifting cylinder 209 at the upper side, a plug gauge telescopic rod 209a is arranged at the lower side of the plug gauge lifting cylinder 209, and the plug gauge telescopic rod 209a is connected with the second support 207 b. The fixing part 202 comprises a ring gauge 210, a ring gauge plate 211 and a ring gauge lifting cylinder 212, the ring gauge 210 is arranged inside the ring gauge plate 211, the ring gauge lifting cylinder 212 is arranged on the upper side of the first support 207a, a ring gauge telescopic rod 212a is arranged on the lower side of the first support 207a, and the ring gauge telescopic rod 212a is connected with the fourth support 207 d.

Specifically, the main structure of the present invention includes a device main body 100, a detection assembly 200, and an auxiliary assembly 300. The torque unit 201 includes a plug 203, a rigid coupling 204 provided on the upper side of the plug 203, a torque sensor 205 provided on the upper side of the rigid coupling 204, and a servomotor 206 provided on the upper side of the rigid coupling 204. The servo motor 206 can drive the rigid coupling 204 to operate, the torque sensor 205 can accurately measure the torque of the needle roller bearing in the nylon retainer, and the quality of the needle roller bearing in the nylon retainer can be detected through the judgment of the torque. The rotation torque signal is fed back to the control board 105. The servo motor 206 is disposed on the upper side of the second support 207b, the rigid coupling 204 and the torque sensor 205 are disposed between the second support 207b and the third support 207c, and the plug gauge 203 is disposed on the lower side of the third support 207 c.

Further, a support member 207 and a support column 208 are disposed on one side of the torque member 201, the support member 207 includes a first support 207a, a second support 207b, a third support 207c and a fourth support 207d, and the support column 208 passes through the second support 207b, the third support 207c and the fourth support 207 d. The fourth holder 207b is disposed on the upper side of the table 104, the third holder 207c is disposed on the upper side of the fourth holder 207d, the second holder 207b is disposed on the upper side of the third holder 207c, and the first holder 207a is disposed on the upper side of the second holder 207 b. The second support 207b and the third support 207c are fixed by four cylinders, and a plug gauge lifting cylinder 209 and a ring gauge lifting cylinder 212 are both provided on the upper side of the first support 105 to facilitate maintenance operations.

Further, a plug gauge lifting cylinder 209 is arranged on the upper side of the first support 207a, a plug gauge telescopic rod 209a is arranged on the lower side of the plug gauge lifting cylinder 209, and the plug gauge telescopic rod 209a is connected with the second support 207 b. The fixing part 202 comprises a ring gauge 210, a ring gauge plate 211 and a ring gauge lifting cylinder 212, the ring gauge 210 is arranged inside the ring gauge plate 211, the ring gauge lifting cylinder 212 is arranged on the upper side of the first support 207a, a ring gauge telescopic rod 212a is arranged on the lower side of the first support 207a, and the ring gauge telescopic rod 212a is connected with the fourth support 207 d.

The rest of the structure is the same as in example 1.

The operation process is as follows: when the carriage 111 feeds the nylon cage needle roller bearing to the lower side of the detection device, the plug gauge 203 is lowered under the control of the plug gauge raising/lowering cylinder 209, and the plug gauge 203 is inserted into the nylon cage needle roller bearing. The ring gauge 210 descends under the control of the ring gauge lifting cylinder 212, and the nylon retainer needle roller bearing is fixed inside the ring gauge 210. Subsequently, the servo motor 206 is operated, the lower rigid coupling 204 and the plug gauge 203 are also operated, and the torque sensor 205 provided on the upper side of the rigid coupling 204 can detect the torque of the needle roller bearing inside the nylon cage. The torque sensor 205 feeds back a rotation torque signal to the control board 105.

When the measurement is finished, the plug gauge 203 is raised in the control of the plug gauge raising and lowering cylinder 209, and subsequently, the ring gauge 210 is raised in the control of the ring gauge raising and lowering cylinder 212, the nylon cage which has been measured is conveyed out of the working area under the conveyance of the movable frame 111, and then the chucking plate 110 conveys the detected nylon cage needle bearings to the working area of the sorting section 302.

Example 4

Referring to fig. 1 to 6, a schematic diagram of a torque detector for a nylon cage needle roller bearing according to a fourth embodiment is shown. This embodiment differs from the first embodiment in that: the force application component 301 comprises a clamping block 303, a force application servo cylinder 304 and a pull seat 305, wherein the pull seat 305 is fixedly connected with the clamping block 303, and the force application servo cylinder 304 is arranged at the lower side of the fourth support 207d and is mutually connected with the pull seat 305.

The sorting component 302 comprises a telescopic cylinder 306, a pulling plate 307 and a storage piece 308, wherein the telescopic cylinder 306 is arranged on one side of the workbench 104, the telescopic cylinder 306 is fixedly connected with the pulling plate 307, and the storage piece 308 comprises a first pipeline 308a arranged on the lower side of the pulling plate 307 and a second pipeline 308b arranged at the tail end of the workbench 104.

In this embodiment, the force application component 301 comprises a clamping block 303, a force application servo cylinder 304 and a pull seat 305, the pull seat 305 is fixedly connected with the clamping block 303, and the force application servo cylinder 304 is disposed at the lower side of the fourth support 207d and is connected with the pull seat 305. The force application servo cylinder 304 operates to drive the tension seat 305 to apply tension, the tension seat 305 pulls the clamping block 303, and the clamping block 303 pulls the ring gauge plate 211. The force application servo motor 304 can apply radial force to the ring gauge 210, the torque of the needle roller bearing in the nylon retainer is increased, a radial torque is increased, the torque is amplified, and the detection precision is improved.

Further, the sorting part 302 comprises a telescopic cylinder 306, a pulling plate 307 and a receiving part 308, wherein the telescopic cylinder 306 is arranged on one side of the workbench 104, the telescopic cylinder 306 is fixedly connected with the pulling plate 307, and the receiving part 308 comprises a first pipeline 308a arranged on the lower side of the pulling plate 307 and a second pipeline 308b arranged at the tail end of the workbench 104. After the detection of the nylon-retainer needle roller bearing is completed, the nylon-retainer needle roller bearing will continue to move on the workbench 104 under the transportation of the snap-gauge 110, and reach the position of the pull plate 307, so as to perform a sorting operation. The sorting operation is controlled by a command from the control board 105, the torque data of the detecting assembly 200 is transmitted to the control board 105, the control board 105 processes the data, and then the telescopic cylinder 306 and the pulling plate 307 are controlled to sort.

The operation process is as follows: the force application servo cylinder 304 operates to drive the tension seat 305 to apply tension, the tension seat 305 pulls the clamping block 303, and the clamping block 303 pulls the ring gauge 209. The ring gauge plate 209 moves relative to the attachment frame 302. The force application servo motor 401 can apply radial force to the ring gauge 201, the torque of a needle bearing in the nylon retainer is increased, one radial force is increased, the torque is amplified, and the detection precision is improved.

Meanwhile, after the detection of the nylon cage needle roller bearing is completed, the vehicle continues to travel on the workbench 104 to reach the position of the pulling plate 307. When the control board 105 issues a command to screen the screen, the telescopic cylinder 306 pulls the pulling plate 307, and the nylon cage needle roller bearing falls into the lower side channel pulled by the pulling plate 307. When the screened nylon retainer falls, the nylon retainer reaches the storage cabinet 103 through the first pipeline 308a, and the nylon retainer needle bearing with normal torque normally runs to the tail end of the workbench 104 and reaches the storage cabinet for collection through the second pipeline 308 b.

It is important to note that the construction and arrangement of the present application as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperatures, pressures, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter recited in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of this invention. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present inventions. Therefore, the present invention is not limited to a particular embodiment, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Moreover, in an effort to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those unrelated to the presently contemplated best mode of carrying out the invention, or those unrelated to enabling the invention).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure, without undue experimentation.

It should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a nylon retainer bearing moment of torsion detects machine which characterized in that: comprises the steps of (a) preparing a substrate,

a device main body (100) including a platform member (101) and a conveying member (102), the platform member (101) being provided on one side of the conveying member (102);

a detection assembly (200) connected with the device main body (100) and comprising a torque component (201) and a fixed component (202); and the number of the first and second groups,

an auxiliary assembly (300) including a force application member (301) and a sorting member (302), both disposed inside the apparatus main body (100).

2. The nylon cage needle bearing torque detector as set forth in claim 1, wherein: platform part (101) include storing cabinet (103), workstation (104) and control panel (105), workstation (104) set up in storing cabinet (103) upside, control panel (105) downside is provided with link (106), link (106) are provided with workstation (104) upside.

3. The nylon cage needle roller bearing torque detector of claim 2, characterized in that: conveying part (102) include vibration dish (107), conveyer belt (108) and holder (109), vibration dish (107) set up in locker (103) one side, conveyer belt (108) one end sets up the discharge end at vibration dish (107), conveyer belt (108) one end is provided with conveyer belt motor (108 a).

4. The nylon cage needle bearing torque detection machine as set forth in claim 3, characterized in that: the clamping piece (109) comprises a clamping plate (110), a moving frame (111) and a supporting seat (112), the clamping plate (110) and the moving frame (111) are arranged on the upper side of the supporting seat (112), the clamping plate (110) is arranged at one end of the conveyor belt (108), a moving cylinder (111a) is arranged on one side of the moving frame (111), and a propelling cylinder (112a) is arranged on the lower side of the supporting seat (112).

5. The nylon cage needle bearing torque detection machine as claimed in claim 4, characterized in that: the torque component (201) comprises a plug gauge (203), a rigid coupling (204) arranged on the upper side of the plug gauge (203), a torque sensor (205) arranged on the upper side of the rigid coupling (204) and a servo motor (206) arranged on the upper side of the rigid coupling (204).

6. The nylon cage needle roller bearing torque detector of claim 5, characterized in that: a support seat member (207) and a support column (208) are arranged on one side of the torque component (201), the support seat member (207) comprises a first support seat (207a), a second support seat (207b), a third support seat (207c) and a fourth support seat (207d), and the support column (208) penetrates through the second support seat (207b), the third support seat (207c) and the fourth support seat (207 d);

wherein the servo motor (206) is arranged on the upper side of the second support (207b), the rigid coupling (204) and the torque sensor (205) are arranged between the second support (207b) and the third support (207c), and the plug gauge (203) is arranged on the lower side of the third support (207 c).

7. The nylon cage needle roller bearing torque detector of claim 6, characterized in that: the upper side of the first support (207a) is provided with a plug gauge lifting cylinder (209), the lower side of the plug gauge lifting cylinder (209) is provided with a plug gauge telescopic rod (209a), and the plug gauge telescopic rod (209a) is connected with the second support (207b) mutually.

8. The nylon cage needle roller bearing torque detector of claim 7, characterized in that: the fixed part (202) comprises a ring gauge (210), a ring gauge plate (211) and a ring gauge lifting cylinder (212), the ring gauge (210) is arranged inside the ring gauge plate (211), the ring gauge lifting cylinder (212) is arranged on the upper side of a first support (207a), a ring gauge telescopic rod (212a) is arranged on the lower side of the first support (207a), and the ring gauge telescopic rod (212a) is connected with a fourth support (207 d).

9. The nylon cage needle roller bearing torque detector of claim 8, wherein: the force application component (301) comprises a clamping block (303), a force application servo cylinder (304) and a tension seat (305), the tension seat (305) is fixedly connected with the clamping block (303), and the force application servo cylinder (304) is arranged on the lower side of the fourth support (207d) and is connected with the tension seat (305).

10. The nylon cage needle roller bearing torque detector as set forth in claim 4 or 9, wherein: the sorting component (302) comprises a telescopic cylinder (306), a pulling plate (307) and a storage piece (308), the telescopic cylinder (306) is arranged on one side of the workbench (104), the telescopic cylinder (306) is fixedly connected with the pulling plate (307), and the storage piece (308) comprises a first pipeline (308a) arranged on the lower side of the pulling plate (307) and a second pipeline (308b) arranged at the tail end of the workbench (104).

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