CN214333570U - Double-station sucker runout amount detection mechanism for automobile compressor - Google Patents

Abstract

The utility model provides a double-station sucker runout detecting mechanism for an automobile compressor, which structurally comprises a fixed seat component, a positioning seat component, a displacement sensor component, a jig table lifting component, a jig table rotating component, a pressure head component and a pressing component; the displacement sensor assembly is arranged on one side of the upper surface of the positioning seat assembly below the pressure head assembly; the jig table lifting assembly is arranged on the lower surface of the fixing base assembly, and the jig table rotating assembly is arranged at the top of the jig table lifting assembly. The utility model has high automation degree, can be used in cooperation with a production line, has strong compatibility and wide application range, and effectively improves the measurement precision; the production efficiency is effectively improved by adopting a man-machine separation concept and a double-station design concept; the quick clamping can be realized, the requirements of various products are met, and the compatibility is strong.

Description

Double-station sucker runout amount detection mechanism for automobile compressor

Technical Field

The utility model relates to a duplex position sucking disc runout amount detection mechanism that car compressor was used belongs to automatic check out test set technical field.

Background

With the rapid development of the automobile industry, the demand of the automobile air-conditioning compressor clutch is increased year by year, wherein the sucker is used as one of the core parts of the clutch, the quality of the sucker determines the product performance of the whole clutch, and the parameter of the jumping amount of the sucker is one of the most key indexes of the sucker, so that the measurement of the jumping amount of the sucker is particularly important for the quality control of the finished sucker product. The current product detection process is very lack of detection control means for the jumping amount of the sucker product, the detection means is single, the standard deflection instrument can only be adopted for detection, the detection process is very complex, the efficiency is low, the detection precision cannot be guaranteed due to the influence of human factors, and no convenient and reliable special detection equipment can meet the market demand. Therefore, the development of a professional detection mechanism which is simple in operation, high in precision, high in efficiency and stable in detection is urgent.

The current sucking disc runout amount detects the process and mainly passes through the nut through the manual with the sucking disc product of operating personnel and fixes on detecting the axle, will detect the axle again and install to the deflection appearance on, then operating personnel manual adjustment percentage table frame, adjust the detection position of waiting to examine the product with the percentage table pointer, then the folk prescription is to rotatory sucking disc slowly, through the swing of percentage table pointer, the testing result is obtained, whole testing process operation is very complicated, artificial influence factor is big, it is poor to detect the precision, the detection efficiency is low, the repeated intensity of labour of operating personnel is big.

Disclosure of Invention

The utility model aims to solve the detection precision that above-mentioned current sucking disc runout amount detection method and equipment exist poor, complex operation, the lower scheduling problem of inefficiency provides a duplex position sucking disc runout amount detection mechanism that car compressor used, has easy operation safety, detects the high and stability of precision, efficient, characteristics such as compatibility strong.

The technical solution of the utility model is as follows: a double-station sucker runout detection mechanism for an automobile compressor structurally comprises a fixed base assembly, a positioning base assembly, a displacement sensor assembly, a jig table lifting assembly, a jig table rotating assembly, a pressure head assembly and a pressing assembly; the edge of the fixed seat component and the edge of the positioning seat component are connected and fixed with each other, the pressing component is arranged on the upper surface of the positioning seat component, the pressure head component is arranged below the middle part of the pressing component, and the displacement sensor component is arranged on one side of the upper surface of the positioning seat component below the pressure head component; the jig table lifting assembly is arranged on the lower surface of the fixing base assembly, and the jig table rotating assembly is arranged at the top of the jig table lifting assembly.

Furthermore, the fixed seat assembly is positioned at the front end of the integral mechanism and comprises a base plate, a positioning connecting plate, a first guiding copper sleeve, a first step positioning pin and a first replacing handle; the middle part of the base plate is provided with a square through hole, and the left side and the right side of the base plate are respectively and symmetrically provided with 1 first dismounting and replacing handle; the upper surface of bed plate is located to 2 positioning connection board symmetries, and the surface of every positioning connection board is equipped with 1 first direction copper sheathing, and every first direction copper sheathing combines together rather than the first step locating pin that sets up on the bottom plate of below, utilizes the tolerance fit between first direction copper sheathing and first step locating pin, makes the accurate fixing of positioning connection board on the bed plate.

Furthermore, the positioning seat assembly is positioned at the rear end of the integral mechanism and comprises a bottom plate, a first connecting plate, a positioning plate, a second step positioning pin, a second guiding copper sleeve, an installation connecting plate, an installation bottom plate, a positioning strip, a former installation plate, a supporting rib plate, a punch former and a second replacement handle; wherein, the left side and the right side of the bottom plate are symmetrically provided with 1 pair of second dismounting and replacing handles, the middle part of the bottom plate is provided with a groove, and the two sides of the groove are symmetrically provided with 1 pair of second step positioning pins; the positioning plate is arranged on the upper surface of the bottom plate through 1 pair of second guiding copper sleeves arranged on the surface of the positioning plate, and the positioning plate is accurately fixed on the first connecting plate by utilizing the tolerance fit between the second step positioning pin and the second guiding copper sleeves; one end of the mounting connecting plate is fixed on the positioning plate through a positioning pin and a screw, and the supporting rib plates are arranged on two sides of the mounting connecting plate; the mounting plate is fixed on the mounting connecting plate through the positioning pin and the screw, the positioning strip is fixed on the mounting plate, the former mounting plate is accurately fixed on the mounting plate through being matched with the positioning strip, and the punch former is fixed at the front end of the former mounting plate.

The displacement sensor assembly comprises a first cylinder fixing plate, a pneumatic sliding table cylinder, a first cylinder connecting plate, a sensor fixing block, a displacement sensor, an adjusting block, an adjusting screw seat and a first adjusting screw; wherein the first cylinder fixing plate is vertically fixed at one side of the groove on the bottom plate; the pneumatic sliding table cylinder is arranged on the right side surface of the first cylinder fixing plate, the first cylinder connecting plate is arranged on the right side surface of the pneumatic sliding table cylinder, the sensor fixing block is arranged on the right side surface of the first cylinder connecting plate, and the displacement sensor is arranged at the end part of the sensor fixing block; the adjusting screw seat is arranged in front of the pneumatic sliding table cylinder, a first adjusting screw is arranged in the adjusting screw seat, and the tail end of the first adjusting screw is connected with a first cylinder fixing plate through an adjusting block.

Further, the jig table lifting assembly is positioned right below the fixed base assembly and structurally comprises a double-shaft cylinder, a second cylinder fixing plate, a large supporting column, a second connecting plate, a connecting column, a floating joint, a second cylinder connecting plate, a small supporting column, a first flanged linear bearing and a swing platform fixing plate; the 4 connecting columns are fixed on the lower surface of the base plate and are simultaneously fixed with four corners of the second connecting plate, and the upper surface of the second connecting plate is provided with a swing platform fixing plate; the second cylinder connecting plate is fixed on the lower surface of the second connecting plate through 4 small supporting columns, and a first flanged linear bearing is arranged at the joint of each small supporting column and the second connecting plate; the center of the lower surface of the second cylinder connecting plate is connected with the center of the upper surface of the second cylinder fixing plate through a floating joint, 1 large support column is respectively arranged at four corners of the upper surface of the second cylinder fixing plate, and the top end of each large support column is connected with the lower surface of the second connecting plate; the double-shaft cylinder is arranged in the center of the lower surface of the second cylinder fixing plate.

Furthermore, the jig table rotating assembly comprises a swinging platform, a jig bottom plate and a product jig; wherein the bottom of swing platform is fixed at the upper surface of swing platform fixed plate, and swing platform's center is equipped with revolving cylinder, and the tool bottom plate is fixed on revolving cylinder, and 2 group's product tools use revolving cylinder to install in the both sides of tool bottom plate as central symmetry.

Furthermore, the pressure head assembly comprises a fixed seat, a bearing seat, a deep groove ball bearing, a large bearing adjusting ring, a small bearing adjusting ring, a thrust needle roller bearing, a connecting seat, a precise U-shaped nut, a pressure head seat, a pressure head, a spring, a second adjusting screw and a contact head; wherein the fixed seat is arranged below the pressing component; the bearing block is arranged at the bottom of the fixed seat, 2 deep groove ball bearings and 1 thrust needle roller bearing are arranged in the bearing block, a small bearing adjusting ring is arranged between the 2 deep groove ball bearings, and a large bearing adjusting ring is arranged between the deep groove ball bearing at the bottom and the thrust needle roller bearing; the connecting seat penetrates through the 2 deep groove ball bearings and the 1 thrust needle roller bearing to be mounted at the bottom of the bearing seat, the press head seat is fixed on the lower surface of the connecting seat through screws, and a second adjusting screw is arranged inside the press head seat; the pressure head is arranged in an opening at the bottom of the pressure head seat, a spring is arranged in the pressure head, and a contact head made of a non-metal material is arranged at the front end of the pressure head.

Furthermore, the pressing assembly comprises a guide shaft support, a guide post, a pressing plate, a linear bearing with a flange, a top plate, a cylinder connector, a floating seat, a hoop and a cushion pad; the top plate is arranged on the upper surface of the lower pressing plate, the air cylinder is arranged in the center of the top plate, and an air cylinder connector at the bottom of the air cylinder is arranged on the upper surface of the lower pressing plate through a floating seat; the left side and the right side of the lower pressing plate are respectively provided with 1 guide post, the bottom of each guide post is provided with a guide shaft support, the top of each guide post is arranged on the lower surface of the top plate through a flanged linear bearing, the lower pressing plate and the guide posts are assembled in a sliding mode through the flanged linear bearings, smooth operation of a pressing mechanism is guaranteed, and up-and-down movement of the mechanism is achieved through an air cylinder fixed on the top plate; the middle part of each guide post is equipped with 1 group's staple bolt and cushion.

Compared with the prior art, the utility model has the advantages of:

1) the whole measuring process of the mechanism is free of personnel participation, automatic detection and judgment are realized, the automation degree is high, the mechanism can be matched with a production line for use, the compatibility is strong, and the application range is wide;

2) the whole mechanism adopts a high-precision contact type sensor, realizes automatic detection and judgment, eliminates interference of human factors and improves measurement precision;

3) the man-machine separation concept is adopted, the manual operation process is separated from the equipment detection, and the personnel safety is effectively ensured;

4) by adopting a double-station design concept, feeding, discharging and testing can be synchronously performed, and the production efficiency is effectively improved;

5) the high-precision punch forming machine is adopted, so that the rapid clamping can be realized, the requirements of various products are met, and the compatibility is strong.

Drawings

Fig. 1 is the utility model discloses a sucking disc runout amount automated inspection structure sketch map.

Fig. 2 is a schematic structural view of the holder assembly.

FIG. 3 is a schematic view of the anchor assembly.

Fig. 4 is a schematic structural view of a displacement sensor assembly.

Fig. 5 is a schematic structural view of the jig table lifting assembly.

Fig. 6 is a schematic structural view of a jig table rotating assembly.

Figure 7 is a schematic diagram of the ram assembly construction.

Fig. 8 is a schematic view of the hold-down assembly.

Wherein 1 is a fixed seat component, 2 is a positioning seat component, 3 is a displacement sensor component, 4 is a jig table lifting component, 5 is a jig table rotating component, 6 is a pressure head component, and 7 is a downward-pressing transplanting component; 1-1 is a base plate, 1-2 is a positioning connecting plate, 1-3 is a guiding copper sleeve, 1-4 is a step positioning pin, and 1-5 is a detachable handle; 2-1 is a bottom plate, 2-2 is a connecting plate, 2-3 is a positioning plate, 2-4 is a step positioning pin, 2-5 is a guiding copper sleeve, 2-6 is an installation connecting plate, 2-7 is an installation bottom plate, 2-8 is a positioning strip, 2-9 is a former installation plate, 2-10 is a supporting rib plate, 2-11 is an electric collet chuck type former, and 2-12 is a detachable and replaceable handle; 3-1 is a cylinder fixing plate, 3-2 is a pneumatic sliding table cylinder, 3-3 is a cylinder connecting plate, 3-4 is a sensor fixing block, 3-5 is a displacement sensor, 3-6 is an adjusting block, 3-7 is an adjusting screw seat, and 3-8 is an adjusting screw; 4-1 is a double-shaft cylinder, 4-2 is a cylinder fixing plate, 4-3 is a large supporting column, 4-4 is a connecting plate, 4-5 is a connecting column, 4-6 is a floating joint, 4-7 is a cylinder connecting plate, 4-8 is a small supporting column, 4-9 is a linear bearing with a flange, and 4-10 is a swing platform fixing plate; 5-1 is a swing platform, 5-2 is a jig bottom plate, and 5-3 is a product jig; 6-1 is a fixed seat, 6-2 is a bearing seat, 6-3 is a deep groove ball bearing, 6-4 is a large bearing adjusting ring, 6-5 is a small bearing adjusting ring, 6-6 is a thrust needle bearing, 6-7 is a connecting seat, 6-8 is a precision U-shaped nut, 6-9 is a press head seat, 6-10 is a press head, 6-11 is a spring, 6-12 is an adjusting screw, and 6-13 is a contact head; 7-1 is a guide shaft support, 7-2 is a guide column, 7-3 is a lower pressing plate, 7-4 is a linear bearing with a flange, 7-5 is a top plate, 7-6 is a cylinder, 9-7 is a cylinder connector, 7-8 is a floating seat, 7-9 is an anchor ear, and 7-10 is a cushion pad.

Detailed Description

The technical scheme of the utility model is further explained in the following with the attached drawings. Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise" and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which is only for convenience of description and simplification of the description, but does not indicate or imply that the device or element referred to must have a specific orientation to be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly, e.g., as meaning a fixed connection, a removable connection, or an integral part; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1, the double-station sucking disc bounce amount detection mechanism for the automobile compressor structurally comprises a fixed seat assembly 1, a positioning seat assembly 2, a displacement sensor assembly 3, a jig table lifting assembly 4, a jig table rotating assembly 5, a pressure head assembly 6 and a pressing assembly 7; the edges of the fixed seat assembly 1 and the positioning seat assembly 2 are connected and fixed with each other, the pressing assembly 7 is arranged on the upper surface of the positioning seat assembly 2, the pressure head assembly 6 is arranged below the middle part of the pressing assembly 7, and the displacement sensor assembly 3 is arranged on one side of the upper surface of the positioning seat assembly 2 below the pressure head assembly 6; the jig table lifting component 4 is arranged on the lower surface of the fixing base component 1, and the jig table rotating component 5 is arranged on the top of the jig table lifting component 4.

As shown in fig. 2, the fixing seat assembly 1 is located at the front end of the whole mechanism and comprises a base plate 1-1, a positioning connecting plate 1-2, a guiding copper sleeve 1-3, a step positioning pin 1-4 and an dismounting handle 1-5; the middle part of the base plate 1-1 is provided with a square through hole, the left side and the right side of the base plate 1-1 are respectively and symmetrically provided with 1 dismounting and replacing handle 1-5, and when the mechanism is maintained, the working efficiency is improved, and the convenience and the rapidness are realized; 2 positioning connecting plates 1-2 are symmetrically arranged on the upper surface of the base plate 1-1, 1 guide sleeve 1-3 is arranged on the surface of each positioning connecting plate 1-2, each guide sleeve 1-3 is combined with a step positioning pin 1-4 arranged on the base plate 1-1 below the guide sleeve 1-3, the positioning connecting plates 1-2 are accurately fixed on the base plate 1-1 by utilizing the tolerance fit between the guide sleeves 1-3 and the step positioning pins 1-4, and when a connecting column 5-5 of a jig table lifting component 5 is fixed below the positioning connecting plates 1-2, the position accuracy of the jig table lifting mechanism 5 can be ensured. The guide copper sleeves 1-3 are preferably of Yihe brand, and are preferably OFG 61-D12-L20. The step positioning pins 1-4 are preferably of Yihe brand, and are preferably YFF 21-D8-P12.

As shown in fig. 3, the positioning seat assembly 2 is located at the rear end of the whole mechanism and comprises a bottom plate 2-1, a connecting plate 2-2, a positioning plate 2-3, a step positioning pin 2-4, a guide copper sleeve 2-5, an installation connecting plate 2-6, an installation bottom plate 2-7, a positioning strip 2-8, a former installation plate 2-9, a support rib plate 2-10, a punch former 2-11 and a replacement handle 2-12; wherein, the left side and the right side of the bottom plate 2-1 are symmetrically provided with 1 pair of dismounting and replacing handles 2-12, the middle part of the bottom plate 2-1 is provided with a groove, and the two sides of the groove are symmetrically provided with 1 pair of step positioning pins 2-4; the positioning plate 2-3 is arranged on the upper surface of the bottom plate 2-1 through 1 pair of guide copper sleeves 2-5 arranged on the surface of the positioning plate, and the positioning plate 2-3 is accurately fixed on the connecting plate 2-2 by utilizing the tolerance fit between the step positioning pin 2-4 and the guide copper sleeves 2-5; one end of the mounting connecting plate 2-6 is fixed on the positioning plate 2-3 through a positioning pin and a screw, and the supporting rib plates 2-10 are arranged on two sides of the mounting connecting plate 2-6; the mounting base plate 2-7 is fixed on the mounting connecting plate 2-6 through a positioning pin and a screw, the positioning strip 2-8 is fixed on the mounting base plate 2-7, the former mounting plate 2-9 is precisely fixed on the mounting base plate 2-7 through matching with the positioning strip 2-8, and the punch former 2-11 is fixed at the front end of the former mounting plate 2-9. When the jig table lifting assembly 5 runs to a lower position, the work position jig 7-3 puts a product onto the punch former 2-11, the punch former 2-11 can accurately clamp the product and can automatically align to the center during clamping, the clamping precision can be guaranteed within 0.01mm, the lowest precision of the conventional detection mode can only reach 0.03mm at present, and the clamping precision is improved by the novel mode, so that the accuracy of a product detection result is guaranteed; present conventional test mode can only test single product, the utility model discloses an utilize chuck centre gripping product during punch former 2-11, but the multiple product of centre gripping, the compatibility of mechanism is strong, and the former is from taking the rotatory test product of motor and speed is adjustable, need not to increase rotary mechanism. The guide copper sleeves 1-3 are preferably of Yihe brand, and are preferably OFG 61-D12-L20. The step positioning pins 1-4 are preferably of Yihe brand, and are preferably YFF 21-D8-P12. The punch former is preferably made by Taiwan refined exhibition brand, and the preferred model is 51260-16-220.

As shown in fig. 4, the displacement sensor assembly 3 comprises a cylinder fixing plate 3-1, a pneumatic sliding table cylinder 3-2, a cylinder connecting plate 3-3, a sensor fixing block 3-4, a displacement sensor 3-5, an adjusting block 3-6, an adjusting screw seat 3-7 and an adjusting screw 3-8; wherein, the cylinder fixing plate 3-1 is vertically fixed at one side of the groove on the bottom plate 2-1 and is mainly used for measuring the jumping quantity of a product at a working position; a pneumatic sliding table cylinder 3-2 is arranged on the right side surface of a cylinder fixing plate 3-1, a cylinder connecting plate 3-3 is arranged on the right side surface of the pneumatic sliding table cylinder 3-2, a sensor fixing block 3-4 is arranged on the right side surface of the cylinder connecting plate 3-3, and a displacement sensor 3-5 is arranged at the end part of the sensor fixing block 3-4; the adjusting screw seat 3-7 is arranged in front of the pneumatic sliding table cylinder 3-2, an adjusting screw 3-8 is arranged in the adjusting screw seat, and the tail end of the adjusting screw 3-8 is connected with the cylinder fixing plate 3-1 through an adjusting block 3-6. The height of the displacement sensor 3-5 is adjusted by utilizing the stroke adjustable characteristic of the pneumatic sliding table cylinder 3-2, meanwhile, the front position and the rear position of the cylinder fixing plate 3-1 are adjusted by utilizing the adjusting screws 3-8, the distance between the displacement sensor 3-5 and a detection center is adjusted, the function of adapting to products of different specifications is achieved, and the displacement sensor 3-5 is a sensor for directly measuring the jumping quantity of the products. The pneumatic sliding table cylinder 3-2 is preferably made of Japanese SMC, and is preferably made of MXS 6-20A-M9B. The displacement sensor 3-5 is preferably manufactured by the U.S. Keynes brand, preferably GT 2-S1.

As shown in fig. 5, the jig table lifting assembly 4 is located right below the fixed seat assembly 1, and structurally comprises a double-shaft cylinder 4-1, a cylinder fixing plate 4-2, a large support column 4-3, a connecting plate 4-4, a connecting column 4-5, a floating joint 4-6, a cylinder connecting plate 4-7, a small support column 4-8, a flanged linear bearing 4-9 and a swing platform fixing plate 4-10; wherein 4 connecting columns 4-5 are fixed on the lower surface of the base plate 1-1 and are simultaneously fixed with four corners of the connecting plate 4-4, and the upper surface of the connecting plate 4-4 is provided with a swing platform fixing plate 4-10; the cylinder connecting plate 4-7 is fixed on the lower surface of the connecting plate 4-4 through 4 small support columns 4-8, and a linear bearing 4-9 with a flange is arranged at the joint of each small support column 4-8 and the connecting plate 4-4; the center of the lower surface of the cylinder connecting plate 4-7 is connected with the center of the upper surface of the cylinder fixing plate 4-2 through a floating joint 4-6, 1 large support column 4-3 is respectively arranged at four corners of the upper surface of the cylinder fixing plate 4-2, and the top end of the large support column 4-3 is connected with the lower surface of the connecting plate 4-4; the double-shaft cylinder 4-1 is installed at the center of the lower surface of the cylinder fixing plate 4-2. A double-shaft cylinder 4-1 is used as power of a lifting assembly, a swing platform fixing plate 4-10 is driven to lift along with the lifting of the double-shaft cylinder 4-1, and then the lifting of a jig table rotating assembly 5 is controlled. The double-shaft air cylinders are connected by adopting floating joints 4-6, and the lifting assemblies all adopt standard optical axes and Misimi linear bearings with flanges, so that the smooth lifting operation of the mechanism is ensured without blockage. By jacking the jig table lifting component 4, the jig table rotating component 5 can be guaranteed to rotate smoothly, the working position and the material loading position are switched, after the position switching is completed, the lifting mechanism runs to the lower position, and at the moment, products on the working position can fall onto the electric collet chuck type forming devices 2-11. The double-shaft cylinder 4-1 is preferably made by Taiwan Add, and is preferably made in the model of SUJ40X 80-10S. The floating joints 4-6 are preferably Taiwan Add Guest brand, and the preferred model is F-M12X 125F. The flanged linear bearing 4-9 is preferably manufactured by Nihonmis, preferably C-LHFS 20.

As shown in fig. 6, the jig table rotating assembly 5 includes a swing platform 5-1, a jig base plate 5-2, and a product jig 5-3; the bottom of the swing platform 5-1 is fixed on the upper surface of the swing platform fixing plate 4-10, the center of the swing platform 5-1 is provided with a rotary cylinder, the jig bottom plate 5-2 is fixed on the rotary cylinder, and the 2 groups of product jigs 5-3 are symmetrically arranged on two sides of the jig bottom plate 5-2 by taking the rotary cylinder as the center. The two product jigs 5-3 are respectively fixed at two ends of the jig bottom plate 5-2 to form a feeding position and a working position, and 180-degree rotary switching is carried out through the swing platform, so that the separation of the feeding position and the testing position is realized, the safety of manual feeding and discharging is ensured, the uncertainty of the detection process is reduced, the detection precision is increased, the feeding and discharging and the product detection can be synchronously carried out, and the process from feeding to detection is shortened to 6S; compared with the existing manual detection, the production efficiency is doubled. The swing platform 5-1 is preferably a japanese SMC brand, preferably model number MSQB 70A.

As shown in fig. 7, the pressure head assembly 6 comprises a fixed seat 6-1, a bearing seat 6-2, a deep groove ball bearing 6-3, a large bearing adjusting ring 6-4, a small bearing adjusting ring 6-5, a thrust needle bearing 6-6, a connecting seat 6-7, a precision U-shaped screw cap 6-8, a pressure head seat 6-9, a pressure head 6-10, a spring 6-11, an adjusting screw 6-12 and a contact head 6-13; the fixed seat 6-1 is arranged below the pressing component 7 and is mainly used for fixing a product to be tested at a working position; the bearing seat 6-2 is arranged at the bottom of the fixed seat 6-1, 2 deep groove ball bearings 6-3 and 1 thrust needle roller bearing 6-6 are arranged in the bearing seat 6-2, a small bearing adjusting ring 6-5 is arranged between the 2 deep groove ball bearings 6-3, and a large bearing adjusting ring 6-4 is arranged between the deep groove ball bearing 6-3 and the thrust needle roller bearing 6-6 at the bottom, so that the assembly can bear radial load and axial load; the connecting seat 6-7 penetrates through 2 deep groove ball bearings 6-3 and 1 thrust needle roller bearing 6-6 to be mounted at the bottom of the bearing seat 6-2, the press head seat 6-9 is fixed on the lower surface of the connecting seat 6-7 through screws, and an adjusting screw 6-12 is arranged inside the press head seat 6-9; the pressure head 6-10 is arranged in an opening at the bottom of the pressure head seat 6-9, the pressure head 6-10 is internally provided with a spring 6-11 for playing a role of buffering, and the front end of the pressure head 6-10 is provided with a contact head 6-13 made of non-metal materials. When the electric collet type former 2-11 drives the product at the test position to rotate to start testing, the pressing mechanism can not damage the test product when fixing the product, and the test product is protected. The deep groove ball bearing 6-3 is preferably a Nipponmi brand, and the preferred model is B6900 ZZ. The large bearing adjusting ring 6-4 is preferably made of Nippomism, and the preferred model is CLBSM 17-22-2.0. The small bearing adjusting ring 6-5 is preferably made of Nippomism, and the preferred model is CLBUM 10-14-4.0. The thrust needle roller bearing 6-6 is preferably made of Japan IKO brand, and the preferred model is AZ 10249. The precision U-shaped screw cap 6-8 is preferably manufactured by Nintensim, and is preferably FUNT 10. The springs 6-11 are preferably of Hayda brand, preferably YUR-D13-L35.

As shown in fig. 8, the pressing assembly 7 comprises a guide shaft support 7-1, a guide post 7-2, a pressing plate 7-3, a flanged linear bearing 7-4, a top plate 7-5, a cylinder 7-6, a cylinder connector 7-7, a floating support 7-8, a hoop 7-9 and a cushion pad 7-10; wherein the top plate 7-5 is arranged on the upper surface of the lower pressing plate 7-3, the air cylinder 7-6 is arranged in the center of the top plate 7-5, and the air cylinder connector 7-7 at the bottom of the air cylinder is arranged on the upper surface of the lower pressing plate 7-3 through the floating seat 7-8; the left side and the right side of the lower pressing plate 7-3 are respectively provided with 1 guide post 7-2, the bottom of each guide post 7-2 is provided with a guide shaft support 7-1, the top of each guide post 7-2 is arranged on the lower surface of the top plate 7-5 through a linear bearing 7-4 with a flange, the lower pressing plate 7-3 and the guide post 7-2 form sliding assembly through the linear bearing 7-4 with the flange, smooth operation of a pressing mechanism is guaranteed, and the mechanism moves up and down through an air cylinder 7-6 fixed on the top plate 7-5; the middle part of each guide post 7-2 is provided with 1 group of hoops 7-9 and buffer pads 7-10 for controlling the descending position of the lower pressing plate 7-3, so that the function of adjusting the pressing stroke is achieved, and the functions of protecting a test product and being compatible with various products are achieved. The flanged linear bearing 7-4 is preferably manufactured by Nihonmis, and the preferred model is C-LHFS 40. The air cylinder 7-6 is preferably made by Taiwan Add, and the preferred model is SU32X 150S. The hoop 7-9 is preferably made of Nipponmi, and the preferred model is SCD 40.

The double-station automatic detection mechanism for the jumping quantity of the sucker has reasonable structure; the whole detection process does not need personnel participation, is easy to be butted with a production line, and realizes on-line detection; the operation is simple and safe, and the repeated labor intensity of the operation is reduced; the whole detection process is automatically finished, and the influence of human factors is eliminated; a punch former is used for clamping a product, the clamping precision is controlled within 0.01mm, and the compatibility is strong; a high-precision displacement sensor is adopted, the detection precision of the sensor can reach 1 mu m, and the detection precision and the product quality are effectively ensured; the test mechanism adopts double-station work, realizes feeding and discharging and product detection position separation by utilizing the characteristic that the swing platform rotates by 180 degrees, and can greatly improve the production efficiency and ensure the safety of manual operation. To sum up, the utility model discloses there is rational in infrastructure, easy operation safety, and the measuring accuracy is high and stable, advantages such as production efficiency height.

The above mentioned is only the embodiment of the present invention, and the protection scope of the present invention is not limited thereto, and all the equivalent structures or equivalent flow changes made by using the contents of the present specification and the attached drawings, or directly or indirectly applied to other related technical fields, are included in the patent protection scope of the present invention.

Claims (8)

1. A double-station sucker runout detection mechanism for an automobile compressor is characterized by comprising a fixed seat assembly (1), a positioning seat assembly (2), a displacement sensor assembly (3), a jig table lifting assembly (4), a jig table rotating assembly (5), a pressure head assembly (6) and a pressing assembly (7); the edge of the fixing seat assembly (1) and the edge of the positioning seat assembly (2) are connected and fixed with each other, the pressing assembly (7) is installed on the upper surface of the positioning seat assembly (2), the pressure head assembly (6) is installed below the middle of the pressing assembly (7), and the displacement sensor assembly (3) is installed on one side of the upper surface of the positioning seat assembly (2) below the pressure head assembly (6); the jig table lifting component (4) is arranged on the lower surface of the fixing base component (1), and the jig table rotating component (5) is arranged on the top of the jig table lifting component (4).

2. The double-station sucker runout detecting mechanism for the automobile compressor is characterized in that the fixing base assembly (1) is positioned at the front end of the integral mechanism and comprises a base plate (1-1), a positioning connecting plate (1-2), a first guiding copper sleeve (1-3), a first step positioning pin (1-4) and a first replacing handle (1-5); wherein the middle part of the base plate (1-1) is provided with a square through hole, and the left side and the right side of the base plate (1-1) are respectively and symmetrically provided with 1 first replacing handle (1-5); the base plate comprises a base plate (1-1), and is characterized in that 2 positioning connecting plates (1-2) are symmetrically arranged on the upper surface of the base plate (1-1), the surface of each positioning connecting plate (1-2) is provided with 1 first guide copper sleeve (1-3), each first guide copper sleeve (1-3) is combined with a first step positioning pin (1-4) arranged on the base plate (1-1) below the first guide copper sleeve (1-3), and the positioning connecting plates (1-2) are accurately fixed on the base plate (1-1) by utilizing tolerance fit between the first guide copper sleeves (1-3) and the first step positioning pins (1-4).

3. The double-station sucker runout detecting mechanism for the automobile compressor is characterized in that the locating seat assembly (2) is positioned at the rear end of the integral mechanism and comprises a bottom plate (2-1), a first connecting plate (2-2), a locating plate (2-3), a second step locating pin (2-4), a second guiding copper sleeve (2-5), a mounting connecting plate (2-6), a mounting bottom plate (2-7), a locating strip (2-8), a former mounting plate (2-9), a supporting rib plate (2-10), a punch former (2-11) and a second replacing handle (2-12); wherein, the left side and the right side of the bottom plate (2-1) are symmetrically provided with 1 pair of second replacement handles (2-12), the middle part of the bottom plate (2-1) is provided with a groove, and the two sides of the groove are symmetrically provided with 1 pair of second step positioning pins (2-4); the positioning plate (2-3) is arranged on the upper surface of the bottom plate (2-1) through 1 pair of second guiding copper sleeves (2-5) arranged on the surface of the positioning plate, and the positioning plate (2-3) is accurately fixed on the first connecting plate (2-2) by utilizing the tolerance fit between the second step positioning pin (2-4) and the second guiding copper sleeves (2-5); one end of the mounting connecting plate (2-6) is fixed on the positioning plate (2-3) through a positioning pin and a screw, and the supporting rib plates (2-10) are arranged on two sides of the mounting connecting plate (2-6); the mounting bottom plate (2-7) is fixed on the mounting connecting plate (2-6) through a positioning pin and a screw, the positioning strip (2-8) is fixed on the mounting bottom plate (2-7), the former mounting plate (2-9) is precisely fixed on the mounting bottom plate (2-7) through being matched with the positioning strip (2-8), and the punch former (2-11) is fixed at the front end of the former mounting plate (2-9).

4. The double-station sucker runout detecting mechanism for the automobile compressor as claimed in claim 1 or 3, wherein the displacement sensor assembly (3) comprises a first cylinder fixing plate (3-1), a pneumatic sliding table cylinder (3-2), a first cylinder connecting plate (3-3), a sensor fixing block (3-4), a displacement sensor (3-5), an adjusting block (3-6), an adjusting screw seat (3-7) and a first adjusting screw (3-8); wherein the first cylinder fixing plate (3-1) is vertically fixed on one side of the groove on the bottom plate (2-1); the pneumatic sliding table cylinder (3-2) is arranged on the right side surface of the first cylinder fixing plate (3-1), the first cylinder connecting plate (3-3) is arranged on the right side surface of the pneumatic sliding table cylinder (3-2), the sensor fixing block (3-4) is arranged on the right side surface of the first cylinder connecting plate (3-3), and the displacement sensor (3-5) is arranged at the end part of the sensor fixing block (3-4); the adjusting screw seat (3-7) is arranged in front of the pneumatic sliding table cylinder (3-2), a first adjusting screw (3-8) is arranged in the adjusting screw seat, and the tail end of the first adjusting screw (3-8) is connected with a first cylinder fixing plate (3-1) through an adjusting block (3-6).

5. The double-station sucker runout detecting mechanism for the automobile compressor is characterized in that the jig table lifting assembly (4) is positioned right below the fixed base assembly (1), and the structure of the jig table lifting assembly comprises a double-shaft cylinder (4-1), a second cylinder fixing plate (4-2), a large supporting column (4-3), a second connecting plate (4-4), a connecting column (4-5), a floating joint (4-6), a second cylinder connecting plate (4-7), a small supporting column (4-8), a first flanged linear bearing (4-9) and a swing platform fixing plate (4-10); wherein 4 connecting columns (4-5) are fixed on the lower surface of the base plate (1-1) and are simultaneously fixed with four corners of the second connecting plate (4-4), and the upper surface of the second connecting plate (4-4) is provided with a swing platform fixing plate (4-10); the second cylinder connecting plate (4-7) is fixed on the lower surface of the second connecting plate (4-4) through 4 small supporting columns (4-8), and a first flanged linear bearing (4-9) is arranged at the joint of each small supporting column (4-8) and the second connecting plate (4-4); the center of the lower surface of the second cylinder connecting plate (4-7) is connected with the center of the upper surface of the second cylinder fixing plate (4-2) through a floating joint (4-6), 1 large support column (4-3) is respectively arranged at four corners of the upper surface of the second cylinder fixing plate (4-2), and the top end of each large support column (4-3) is connected with the lower surface of the second connecting plate (4-4); the double-shaft cylinder (4-1) is arranged in the center of the lower surface of the second cylinder fixing plate (4-2).

6. The double-station sucker runout detecting mechanism for the automobile compressor as claimed in claim 1 or 5, wherein the jig table rotating assembly (5) comprises a swing platform (5-1), a jig base plate (5-2), and a product jig (5-3); the bottom of the swing platform (5-1) is fixed on the upper surface of the swing platform fixing plate (4-10), a rotary cylinder is arranged at the center of the swing platform (5-1), the jig base plate (5-2) is fixed on the rotary cylinder, and the 2 groups of product jigs (5-3) are symmetrically arranged on two sides of the jig base plate (5-2) by taking the rotary cylinder as a center.

7. The double-station sucker runout detecting mechanism for the automobile compressor is characterized in that the pressure head assembly (6) comprises a fixed seat (6-1), a bearing seat (6-2), a deep groove ball bearing (6-3), a large bearing adjusting ring (6-4), a small bearing adjusting ring (6-5), a thrust needle bearing (6-6), a connecting seat (6-7), a precise U-shaped nut (6-8), a pressure head seat (6-9), a pressure head (6-10), a spring (6-11), a second adjusting screw (6-12) and a contact head (6-13); wherein the fixed seat (6-1) is arranged below the pressing component (7); the bearing seat (6-2) is arranged at the bottom of the fixed seat (6-1), 2 deep groove ball bearings (6-3) and 1 thrust needle roller bearing (6-6) are arranged in the bearing seat (6-2), a small bearing adjusting ring (6-5) is arranged between the 2 deep groove ball bearings (6-3), and a large bearing adjusting ring (6-4) is arranged between the deep groove ball bearing (6-3) and the thrust needle roller bearing (6-6) at the bottom; the connecting seat (6-7) penetrates through 2 deep groove ball bearings (6-3) and 1 thrust needle roller bearing (6-6) and is installed at the bottom of the bearing seat (6-2), the press head seat (6-9) is fixed on the lower surface of the connecting seat (6-7) through a screw, and a second adjusting screw (6-12) is arranged inside the press head seat (6-9); the pressure head (6-10) is arranged in an opening at the bottom of the pressure head seat (6-9), a spring (6-11) is arranged in the pressure head (6-10), and a contact head (6-13) made of a non-metal material is arranged at the front end of the pressure head (6-10).

8. The double-station sucker runout detecting mechanism for the automobile compressor is characterized in that the pressing component (7) comprises a guide shaft support (7-1), a guide post (7-2), a pressing plate (7-3), a second flanged linear bearing (7-4), a top plate (7-5), a cylinder (7-6), a cylinder connector (7-7), a floating seat (7-8), an anchor ear (7-9) and a cushion pad (7-10); wherein the top plate (7-5) is arranged on the upper surface of the lower pressure plate (7-3), the cylinder (7-6) is arranged in the center of the top plate (7-5), and the cylinder connector (7-7) at the bottom of the cylinder connector is arranged on the upper surface of the lower pressure plate (7-3) through the floating seat (7-8); the left side and the right side of the lower pressing plate (7-3) are respectively provided with 1 guide post (7-2), the bottom of each guide post (7-2) is provided with a guide shaft support (7-1), the top of each guide post (7-2) is arranged on the lower surface of the top plate (7-5) through a second flanged linear bearing (7-4), the lower pressing plate (7-3) and the guide posts (7-2) form sliding assembly through the second flanged linear bearing (7-4), smooth operation of a pressing mechanism is guaranteed, and up-and-down movement of the mechanism is realized through an air cylinder (7-6) fixed on the top plate (7-5); the middle part of each guide post (7-2) is provided with 1 group of hoops (7-9) and buffer cushions (7-10).

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