CN216539630U - TRG1 sieve separator - Google Patents

Abstract

The utility model discloses a TRG1 screening machine, which comprises a frame and a main runner assembly arranged on the frame, wherein the TRG1 screening machine also comprises: the device comprises a product feeding assembly, a tracking assembly, a comprehensive testing assembly, a material pressing assembly and a discharging assembly; the product feeding assembly, the tracking assembly and the comprehensive testing assembly are longitudinally arranged on the side edge of the main runner assembly in a straight line shape; the material pressing component is fixedly arranged above the main runner component; the main runner assembly is located on the peripheral side of the main runner assembly. The utility model has the advantages of reasonable design, cost saving, high working efficiency, low production cost, good product quality, high yield and high equipment utilization rate, and reduces the labor cost and the labor intensity.

Description

TRG1 sieve separator

Technical Field

The utility model relates to the technical field of relay production and assembly, in particular to a TRG1 screening machine.

Background

The relay is one of the main devices of the power control protection equipment, the stable operation of the relay is directly related to the correct action rate of the protection device, and as the requirement of a power system on the starting voltage of the relay is increased, more and more plug-in devices need to use the graded relay.

At present, the relays are always subjected to manual testing and screening, and practice shows that the mode has risks of manual testing/screening errors and the like, so that the detection efficiency is directly low, the production is delayed, and the delivery delay of products using the relays is caused.

In view of the above, a highly automated TRG1 screening machine is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides the TRG1 screening machine, which solves the problem that the production process of the conventional relay cannot be completely automated, realizes the automatic production of the relay, reduces the requirement on manpower and improves the production efficiency.

(II) technical scheme

In order to achieve the purpose, the utility model is realized by the following technical scheme: a TRG1 screening machine comprising a frame and a primary runner assembly disposed on the frame, the TRG1 screening machine further comprising: the device comprises a product feeding assembly, a test tracking assembly, a comprehensive test assembly, a material pressing assembly and a discharging assembly; the product feeding assembly, the tracking assembly and the comprehensive testing assembly are longitudinally arranged on the side edge of the main runner assembly in a straight line shape; the material pressing component is fixedly arranged above the main runner component; the primary flow channel assembly is located on a peripheral side of the primary flow channel assembly.

The product feeding assembly comprises a product front end conveying track mechanism and a product grabbing mechanism arranged above the product front end conveying track mechanism, and is used for conveying a product on the product front end conveying track mechanism into a jig on the main runner assembly; the product front end conveying track mechanism comprises a synchronous belt conveying track; a first material blocking part is arranged at one end of the synchronous belt conveying track; a second material blocking part is arranged on one side of the first material blocking part in an array manner; a material pressing component is arranged on one side of the first material blocking component; the product grabbing mechanism comprises a product grabbing bracket; a YZ moving device is arranged on the product grabbing bracket; and the output end array of the YZ mobile device is provided with a product grabbing finger cylinder.

Wherein the tracking assembly comprises a tracking support; a first air cylinder is fixedly arranged on the measuring and tracking support and used for providing power; a test component is slidably arranged on the test tracking bracket; the first air cylinder can drive the test component to move; a stop block component is fixedly arranged on the tracking and measuring bracket; the test component comprises a moving block; clamping cylinders are symmetrically arranged on two sides of the moving block; the output ends of the adjacent clamping cylinders are connected through a finger connecting block; fingers are arranged on the finger connecting blocks in an array manner; plug gauge placing seats are arranged between the adjacent clamping cylinders in an array manner; plug gauges are inserted on the plug gauge placing seats.

The comprehensive testing component comprises a first testing component and a second testing component; the first testing component is positioned right in front of the test tracking component; the second testing component is positioned on one side of the test tracking component; the first test assembly and the second test assembly are similar.

Wherein the first test assembly comprises a test rack; a lifting cylinder is arranged on one side of the test support; the other side of the test support is movably provided with a test fixture fixing seat, and the lifting cylinder can drive the test fixture fixing seat to move; the test fixture fixing seat is provided with test fixtures in an array mode.

The pressing assembly comprises a pressing support, and a pressing cylinder is arranged at the top of the pressing support; a material pressing mounting seat is slidably arranged on the material pressing support, and a material pressing cylinder can drive the material pressing mounting seat to move; guide blocks are arranged on the material pressing mounting seat in an array manner; and the guide block is provided with an L-shaped pressing block.

The blanking assembly comprises a defective product blanking assembly and a non-defective product blanking assembly; the defective product blanking assembly and the good product blanking assembly are similar in structure; the defective product blanking assembly comprises a defective product blanking support; a defective product blanking YZ moving device is arranged on the defective product blanking bracket; and an output end array of the defective product discharging YZ moving device is provided with a defective product discharging and grabbing finger cylinder.

Wherein the main runner assembly comprises a clip-shaped conveying rail; a positioning fork is arranged on the square-shaped conveying rail; and a soot blowing part is arranged on the square-shaped conveying rail.

(III) advantageous effects

The utility model provides a TRG1 screening machine. The method has the following beneficial effects:

1) the automatic iron core conveying device is applied to relay detection and screening, and specifically realizes automatic iron core conveying through the cooperation of equipment such as a product feeding assembly, a detection and tracking assembly, a comprehensive testing assembly, a material pressing assembly, a discharging assembly, a PLC (programmable logic controller) and the like, so that manual material transferring is replaced, the production quality is guaranteed, the production working time is shortened, and the production efficiency is improved. The utility model has the advantages of reasonable design, cost saving, high working efficiency, low production cost, good product quality, high yield and high equipment utilization rate, and reduces the labor cost and the labor intensity.

2) The utility model can greatly improve the detection/screening efficiency, reduce a series of problems caused by repeated debugging and replacement of iron core parts, reduce the labor intensity and facilitate the operation;

3) the utility model utilizes the annular main flow slideway component to make the whole assembly line more compact, combines the auxiliary positioning device to repeatedly position the assembly line during each stop, and has the positioning precision reaching +/-0.01 mm.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic structural diagram of the whole product loading assembly of the present invention;

FIG. 3 is a schematic diagram of the overall structure of the trace measuring and tracking assembly according to the present invention;

FIG. 4 is a schematic structural diagram of a first testing assembly according to the present invention;

FIG. 5 is a schematic view of a pressing assembly according to the present invention;

FIG. 6 is a schematic structural view of a defective blanking assembly according to the present invention;

FIG. 7 is a schematic view of a primary runner assembly according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, an embodiment of the present invention provides a TRG1 screening machine, including a frame 1 and a main runner assembly 2 disposed on the frame 1, wherein the TRG1 screening machine further includes: the device comprises a product feeding component 3, a test tracking component 4, a comprehensive testing component 5, a material pressing component 6 and a blanking component 7; the product feeding assembly 3, the tracking assembly 4 and the comprehensive testing assembly 5 are longitudinally arranged on the side edge of the main runner assembly 2 in a straight line shape; the material pressing component 6 is fixedly arranged above the main runner component 2; the primary flow channel assembly 2 is located on a peripheral side of the primary flow channel assembly 2. The product feeding assembly 3 is used for grabbing relay cores to be detected and screened and then placing the relay cores in a jig on the main runner assembly 2 in a certain direction; the tool of the relay core that adorns transports under the effect of sprue subassembly 2 to survey and follow the back of tracking subassembly 4 and carry out the secondary location, presses material subassembly 6 and begins to press the back comprehensive testing subassembly 5 to the relay core and carry out comprehensive testing, and the structure that the test was accomplished back unloading subassembly 7 was selected separately the relay core according to detecting. The whole process realizes automatic iron core transportation through the cooperation of the product feeding assembly, the measuring and tracking assembly, the comprehensive testing assembly, the material pressing assembly, the discharging assembly, the PLC and other devices, so that manual material transferring is replaced, the production quality is guaranteed, and the production working time is reduced, and the production efficiency is improved.

On the basis of the above embodiment, the product feeding assembly 3 includes a product front end conveying rail mechanism 31 and a product grabbing mechanism 32 disposed above the product front end conveying rail mechanism 31, and is configured to transport a product on the product front end conveying rail mechanism 31 to a fixture on the main runner assembly 2; the product front end conveying track mechanism 31 comprises a synchronous belt conveying track 311; a first material blocking part 312 is arranged at one end of the synchronous belt conveying track 311; a second material blocking part 313 is arranged on one side of the first material blocking part 312 in an array manner; a pressing component 314 is arranged on one side of the first material blocking component 312; the product gripping mechanism 32 includes a product gripping bracket 321; a YZ moving device 322 is arranged on the product grabbing bracket 321; and a product grabbing finger cylinder 323 is arranged at the output end array of the YZ moving device 322.

On the basis of the above embodiment, the measurement and tracking assembly 4 comprises a measurement and tracking bracket 41; a first air cylinder 42 is fixedly arranged on the measuring and tracking bracket 41 and used for providing power; a testing component 43 is slidably arranged on the test tracking bracket 41; the first air cylinder 42 can drive the test component 43 to move; a stop block part 44 is fixedly arranged on the track measuring bracket 41; said test part 43 comprises a mobile mass 431; clamping cylinders 432 are symmetrically arranged on two sides of the moving block 431; the output ends of the adjacent clamping cylinders 432 are connected through a finger connecting block 433; fingers 434 are arranged on the finger connecting block 433 in an array manner; plug gauge placing seats 435 are arranged between the adjacent clamping cylinders 432 in an array manner; a plug gauge 436 is inserted into the plug gauge placing seat 435.

On the basis of the above embodiment, the integrated test assembly 5 comprises a first test assembly 51 and a second test assembly 52; the first testing component 51 is positioned right in front of the track testing component 4; the second testing component 52 is positioned at one side of the track testing component 4; the first test assembly 51 and the second test assembly 52 are similar.

On the basis of the above embodiment, the first testing component 51 comprises a testing support 511; a lifting cylinder 512 is arranged on one side of the test bracket 511; the other side of the test bracket 511 is movably provided with a test fixture fixing seat 513, and the lifting cylinder 512 can drive the test fixture fixing seat 513 to move; the test fixture fixing base 513 is provided with test fixtures 514 in an array manner.

On the basis of the above embodiment, the pressing assembly 6 includes a pressing support 61, and a pressing cylinder 62 is arranged at the top of the pressing support 61; a material pressing mounting seat 63 is slidably arranged on the material pressing bracket 61, and the material pressing cylinder 62 can drive the material pressing mounting seat 63 to move; guide blocks 64 are arranged on the material pressing mounting seat 63 in an array manner; an L-shaped press block 65 is mounted on the guide block 64.

On the basis of the above embodiment, the blanking assembly 7 includes a defective product blanking assembly 71 and a non-defective product blanking assembly 72; the defective product blanking assembly 71 and the good product blanking assembly 72 are similar in structure; the defective product discharging assembly 71 comprises a defective product discharging bracket 711; a defective product discharging YZ moving device 712 is arranged on the defective product discharging support 711; the output end array of the non-defective product discharging YZ moving device 712 is provided with a non-defective product discharging grabbing finger cylinder 713.

On the basis of the above embodiment, the main runner assembly 2 includes a zigzag conveying rail 21; a positioning fork 22 is arranged on the square-shaped conveying rail 21; and a soot blowing part 23 is arranged on the square-shaped conveying rail 21.

While there have been shown and described what are at present considered the fundamental principles and essential features of the utility model and its advantages, it will be apparent to those skilled in the art that the utility model is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A TRG1 sieve separator, includes frame (1) and sets up in mainstream way subassembly (2) on frame (1), its characterized in that: the TRG1 sieve separator also includes: the device comprises a product feeding assembly (3), a test tracking assembly (4), a comprehensive test assembly (5), a material pressing assembly (6) and a blanking assembly (7); the product feeding assembly (3), the testing and tracking assembly (4) and the comprehensive testing assembly (5) are longitudinally arranged on the side edge of the main runner assembly (2) in a straight line shape; the material pressing component (6) is fixedly arranged above the main runner component (2); the main runner assembly (2) is located on the peripheral side of the main runner assembly (2).

2. The TRG1 screening machine of claim 1, wherein: the product feeding assembly (3) comprises a product front end conveying track mechanism (31) and a product grabbing mechanism (32) arranged above the product front end conveying track mechanism (31) and used for conveying products on the product front end conveying track mechanism (31) to a jig on the main runner assembly (2); the product front end conveying track mechanism (31) comprises a synchronous belt conveying track (311); a first material blocking part (312) is arranged at one end of the synchronous belt conveying track (311); a second material blocking part (313) is arranged on one side of the first material blocking part (312) in an array manner; a pressing component (314) is arranged on one side of the first material blocking component (312); the product gripping mechanism (32) comprises a product gripping bracket (321); a YZ moving device (322) is arranged on the product grabbing bracket (321); and a product grabbing finger cylinder (323) is arranged at the output end array of the YZ moving device (322).

3. The TRG1 screening machine of claim 1, wherein: the measuring and tracking assembly (4) comprises a measuring and tracking bracket (41); a first air cylinder (42) is fixedly arranged on the measuring and tracking support (41) and used for providing power; a testing component (43) is slidably arranged on the testing and tracking bracket (41); the first air cylinder (42) can drive the test component (43) to move; a stop block component (44) is fixedly arranged on the track measuring bracket (41); the test part (43) comprises a moving block (431); clamping cylinders (432) are symmetrically arranged on two sides of the moving block (431); the output ends of the adjacent clamping cylinders (432) are connected through a finger connecting block (433); fingers (434) are arranged on the finger connecting block (433) in an array manner; plug gauge placing seats (435) are arranged between the adjacent clamping cylinders (432) in an array manner; the plug gauge placing seat (435) is inserted with a plug gauge (436).

4. The TRG1 screening machine of claim 1, wherein: the integrated test assembly (5) comprises a first test assembly (51) and a second test assembly (52); the first testing component (51) is positioned right in front of the track testing component (4); the second testing component (52) is positioned at one side of the test and tracking component (4); the first test assembly (51) and the second test assembly (52) are similar.

5. The TRG1 screening machine of claim 4, wherein: the first testing assembly (51) comprises a testing stand (511); a lifting cylinder (512) is arranged on one side of the test support (511); the other side of the test support (511) is movably provided with a test fixture fixing seat (513), and the lifting cylinder (512) can drive the test fixture fixing seat (513) to move; the test fixture fixing seat (513) is provided with test fixtures (514) in an array mode.

6. The TRG1 screening machine of claim 1, wherein: the pressing component (6) comprises a pressing support (61), and a pressing cylinder (62) is arranged at the top of the pressing support (61); a material pressing mounting seat (63) is slidably arranged on the material pressing support (61), and the material pressing cylinder (62) can drive the material pressing mounting seat (63) to move; guide blocks (64) are arranged on the material pressing mounting seat (63) in an array manner; an L-shaped pressing block (65) is arranged on the guide block (64).

7. The TRG1 screening machine of claim 1, wherein: the blanking assembly (7) comprises a defective product blanking assembly (71) and a defective product blanking assembly (72); the defective product blanking assembly (71) and the defective product blanking assembly (72) are similar in structure; the defective product blanking assembly (71) comprises a defective product blanking bracket (711); a defective product blanking YZ moving device (712) is arranged on the defective product blanking bracket (711); and a defective product discharging grabbing finger cylinder (713) is arranged at the output end array of the defective product discharging YZ moving device (712).

8. The TRG1 screening machine of claim 1, wherein: the main runner assembly (2) comprises a square-shaped conveying rail (21); a positioning fork (22) is arranged on the square-shaped conveying rail (21); and a soot blowing component (23) is arranged on the square-shaped conveying rail (21).

Images