CN217787162U - Intelligent test terminal with limit structure - Google Patents

Abstract

The utility model discloses an intelligent test terminal with limit structure relates to intelligent test terminal technical field, including conveying board and intermittent type pay-off subassembly, conveying board left side top is provided with the slope section, and conveying board right side bottom is provided with straight section, straight section left side end and the terminal integral type fixed connection in slope section right side, and straight section top end sets up flutedly for the examination material positioning stagnation that awaits measuring intermittent type pay-off subassembly rotates and installs in the recess bottom, intermittent type pay-off subassembly includes frame, medium plate, fulcrum and lever, frame middle part fixed mounting has the medium plate, and the medium plate middle part rotates and installs the fulcrum, the outside cover of fulcrum is equipped with the lever, and the lever passes through the fulcrum and rotate and install in the medium plate middle part. The utility model provides an intelligent test terminal with limit structure, when can realizing the material intermittent type material loading that awaits measuring automatically, implement stable spacing centre gripping to the material that awaits measuring, prevent to influence the measuring accuracy because of the centre gripping is not hard up.

Description

Intelligent test terminal with limit structure

Technical Field

The utility model relates to an intelligent test terminal technical field specifically is an intelligent test terminal with limit structure.

Background

In the production and manufacturing process of intelligent terminals such as notebooks, netbooks, tablets and the like, the testing of the functions of the whole terminal is an indispensable and extremely important process, so that an intelligent testing terminal is needed to test the performance of the product.

Current intelligent test terminal, common problem has: the limiting mode of the intelligent test terminal in the prior art has the problems of complex operation and poor positioning performance, and cannot meet the requirements of quick clamping and uninterrupted feeding required by detection.

Disclosure of Invention

An object of the utility model is to provide an intelligent test terminal with limit structure to solve the problem of proposing in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: including conveying board and intermittent type pay-off subassembly, conveying board left side top is provided with the slope section, and conveying board right side bottom is provided with straight section, straight section left side end and the terminal integral type fixed connection in slope section right side, and straight section top end is seted up flutedly for the material that awaits measuring location is stagnant intermittent type pay-off subassembly rotates and installs in the recess bottom, intermittent type pay-off subassembly includes frame, medium plate, fulcrum and lever, frame middle part fixed mounting has the medium plate, and the medium plate middle part rotates and installs the fulcrum, the outside cover of fulcrum is equipped with the lever, and the lever passes through the fulcrum and rotates and install in the medium plate middle part.

Furthermore, the intermittent feeding assembly further comprises a lifting rod and a pressing rod, the lifting rod is sleeved at the output end of the left side of the lever, and the pressing rod is sleeved at the input end of the right side of the lever.

Furthermore, the intermittent feeding assembly further comprises a supporting plate and a sleeve spring, the supporting plate is fixedly mounted at the tail end of the top of the pressing rod, the supporting plate is longitudinally slidably mounted in the groove, the bottom of the supporting plate is elastically connected with the sleeve spring, and the diameter of the sleeve spring is larger than the size of an opening in the top of the right side of the frame.

Further, the spacing subassembly that is used for the spacing centre gripping of the material that awaits measuring is installed on the recess right side, spacing subassembly includes end plate, fixed block and stopper, end plate top right side fixed mounting has the fixed block, and end plate top slidable mounting has the stopper.

Furthermore, the limiting assembly further comprises a pulling handle and a mounting groove, the pulling handle is fixedly connected with the right-side input end of the limiting block, and the mounting groove is formed in the bottom end face of the limiting block.

Furthermore, the limiting assembly further comprises a reset spring, the reset spring is arranged on the left side inside the mounting groove, and the tail end of the right side of the reset spring is elastically connected with the fixing block.

Further, the limiting assembly further comprises a notch, an eccentric crank and a rocker, the notch is formed in the bottom of the right side of the limiting block, the eccentric crank is arranged at the bottom of the notch, the eccentric crank is rotatably installed on the end plate right side end face, and the eccentric crank is fixedly connected with the rocker.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides an intelligent test terminal with limit structure, when can realizing the material intermittent type material loading that awaits measuring automatically, implement stable spacing centre gripping to the material that awaits measuring, prevent to influence the measuring accuracy because of the centre gripping is not hard up.

1. The utility model discloses a setting of spacing subassembly, when waiting for current material to bear the pressure in the layer board, eccentric crank breaks away from the breach, and the spacing piece is located the end plate top and slides under the elasticity restoring force of reset spring, through stopper left side terminal surface and the extrusion of layer board interior material terminal surface, realizes the spacing centre gripping to the material that awaits measuring, prevents to influence the measuring accuracy because of the centre gripping is not hard up, and easy operation has optimized the flow of tester operation spacing subassembly, effectively promotes the measuring accuracy;

2. the utility model discloses a setting of intermittent type pay-off subassembly, when the current material is not tested and is finished, the material to be tested who arranges behind the current material receives the blocking of lifting rod to temporarily stagnate in the slope section, when waiting that the current material test finishes and is taken out from the layer board, the lifting rod is located the slope section middle part and contracts after releasing, can realize the unloading in proper order of follow-up work piece, automatic intermittent type unloading greatly promotes test terminal's detection efficiency;

3. the utility model discloses a setting of conveying board, conveying board comprise slope section and straight section two sections, and the examination work piece that awaits measuring that puts in the slope section under the action of gravity can realize automatic unloading, piles up in the slope section under the stopping of lifting the pole examination work piece that awaits measuring, waits to lift the pole and returns the examination work piece that awaits measuring after the release of contracting and can realize intermittent type unloading in proper order.

Drawings

FIG. 1 is a schematic view of the overall side view structure of the present invention;

FIG. 2 is a schematic view of the overall front view structure of the present invention;

fig. 3 is a schematic view of the three-dimensional structure of the eccentric crank of the present invention.

In the figure: 1. a transfer plate; 2. an inclined section; 3. a straight section; 4. a groove; 5. an intermittent feed assembly; 501. a frame; 502. a middle plate; 503. a fulcrum; 504. a lever; 505. lifting the rod; 506. a pressure lever; 507. a support plate; 508. sleeving a spring; 6. a limiting component; 601. an end plate; 602. a fixed block; 603. a limiting block; 604. pulling a handle; 605. mounting grooves; 606. a reset spring; 607. a notch; 608. an eccentric crank; 609. a rocker.

Detailed Description

As shown in fig. 1, the intermittent feeding device comprises a conveying plate 1 and an intermittent feeding assembly 5, wherein an inclined section 2 is arranged at the top of the left side of the conveying plate 1, a straight section 3 is arranged at the bottom of the right side of the conveying plate 1, the left end of the straight section 3 is fixedly connected with the right end of the inclined section 2 in an integrated manner, a groove 4 is formed in the end of the top of the straight section 3, the intermittent feeding assembly 5 for stagnation positioning of a material to be tested is rotatably mounted at the bottom of the groove 4, the intermittent feeding assembly 5 comprises a frame 501, a middle plate 502, a fulcrum 503 and a lever 504, the middle plate 502 is fixedly mounted in the middle of the frame 501, the fulcrum 503 is rotatably mounted in the middle of the middle plate 502, the lever 504 is rotatably mounted in the middle of the middle plate 502 through the fulcrum 503, the intermittent feeding assembly 5 further comprises a lifting rod 505 and a pressing rod 506, a lifting rod 505 is mounted at the output end of the left side of the lever 504, and a pressing rod 506 is mounted at the input end of the right side of the lever 504, the intermittent feeding assembly 5 further comprises a support plate 507 and a sleeve spring 508, the support plate 507 is fixedly installed at the tail end of the top of the pressure lever 506, the support plate 507 is longitudinally installed inside the groove 4 in a sliding mode, the sleeve spring 508 is elastically connected to the bottom of the support plate 507, the diameter of the sleeve spring 508 is larger than the size of an opening at the top of the right side of the frame 501, a material to be tested, which falls into the groove 4 at the tail end of the straight section 3 from the inclined section 2, is pressed in the support plate 507 which is arranged in the groove 4 in a sliding mode, the support plate 507 slides downwards in the groove 4 by overcoming the elastic force of the sleeve spring 508 at the bottom under the self-weight of the material, through the transmission of the pressure lever 506 at the bottom of the support plate 507 to the lever 504, the left side of the lever 504 rotates clockwise around a pivot at the middle of the middle plate 502, the protrusion of the lifting rod 505, which is located at the middle of the inclined section 2, is achieved, so that the material to be tested and temporarily stagnated in the inclined section 2 by the lifting rod 505 after the current material is tested and taken out from the support plate 507, after the lifting rod 505 is positioned in the middle of the inclined section 2 and retracts and releases, the subsequent workpieces can be sequentially discharged;

as shown in fig. 2-3, a limiting component 6 for limiting and clamping a material to be tested is installed on the right side of the groove 4, the limiting component 6 includes an end plate 601, a fixed block 602 and a limiting block 603, the fixed block 602 is fixedly installed on the right side of the top of the end plate 601, the limiting block 603 is slidably installed on the top of the end plate 601, the limiting component 6 further includes a pull handle 604 and a mounting groove 605, a right input end of the limiting block 603 is fixedly connected with the pull handle 604, the mounting groove 605 is formed in a bottom end face of the limiting block 603, the limiting component 6 further includes a return spring 606, the return spring 606 is arranged on the left side inside the mounting groove 605, a right end of the return spring 606 is elastically connected with the fixed block 602, the limiting component 6 further includes a notch 607, an eccentric crank 608 and a rocker 609, a right bottom of the limiting block 603 is formed in the bottom of the right side, a notch 607 is formed in the bottom of the limiting block 603, the return spring 606 is in a compressed energy storage state, when the material is loaded in the supporting plate 507, a tester opens the eccentric crank 608, the clamp the elastic clamping force of the limiting block 603 is released from the elastic end face of the limiting block 603, and the elastic block 603, the elastic return spring 603 is pressed against the limiting block 603.

The working principle is as follows: when the intelligent test terminal with the limiting structure is used, when the intelligent test terminal is used, a material to be tested, which falls into the groove 4 at the tail end of the straight section 3 from the inclined section 2, is pressed in the supporting plate 507 arranged in the groove 4 in a sliding manner, the supporting plate 507 slides downwards in the groove 4 by overcoming the elasticity of the bottom sleeve spring 508 under the pressure of the self weight of the material, the left side of the lever 504 rotates clockwise around the middle fulcrum 503 of the middle plate 502 through the transmission of the bottom pressing rod 506 of the supporting plate 507 to the lever 504, the protrusion of the lifting rod 505 at the middle part of the inclined section 2 is realized, the material to be tested, which is arranged behind the current material, is temporarily stopped at the inclined section 2 under the blockage of the lifting rod 505, and when the current material is tested and taken out from the supporting plate 507, after the lifting rod 505 is positioned in the middle of the inclined section 2 and retracts and releases, sequential blanking of subsequent workpieces can be achieved, the eccentric crank 608 is clamped in the notch 607 formed in the bottom of the right side of the limiting block 603 in an idle state, the reset spring 606 in the mounting groove 605 is in a compression energy storage state at the moment, when the current material is loaded in the supporting plate 507, a tester rotates to open the eccentric crank 608 to enable the eccentric crank to be separated from the notch 607, the limiting block 603 is positioned at the top of the end plate 601 to slide under the elastic reset force of the reset spring 606, the end face of the left side of the limiting block 603 is extruded with the end face of the material in the supporting plate 507, limiting clamping of the material to be tested is achieved, and the influence on testing accuracy due to clamping looseness is prevented.

Claims (7)

1. The utility model provides an intelligent test terminal with limit structure, its characterized in that, including conveying board (1) and intermittent type pay-off subassembly (5), conveying board (1) left side top is provided with slope section (2), and conveying board (1) right side bottom is provided with straight section (3), straight section (3) left side end and the terminal integral type fixed connection in slope section (2) right side, and straight section (3) top end is seted up flutedly (4), is used for the awaiting measuring material positioning stagnation intermittent type pay-off subassembly (5) rotate and install in recess (4) bottom, intermittent type pay-off subassembly (5) include frame (501), medium plate (502), fulcrum (503) and lever (504), frame (501) middle part fixed mounting has medium plate (502), and medium plate (502) middle part rotates and installs fulcrum (503), fulcrum (503) outside cover is equipped with lever (504), and lever (504) rotate through fulcrum (503) and install in medium plate (502) middle part.

2. The intelligent test terminal with a limiting structure according to claim 1, wherein the intermittent feeding assembly (5) further comprises a lifting rod (505) and a pressing rod (506), the lifting rod (505) is sleeved at the left output end of the lever (504), and the pressing rod (506) is sleeved at the right input end of the lever (504).

3. The intelligent test terminal with a limiting structure according to claim 2, wherein the intermittent feeding assembly (5) further comprises a supporting plate (507) and a sleeve spring (508), the supporting plate (507) is fixedly installed at the top end of the pressing rod (506), the supporting plate (507) is longitudinally slidably installed inside the groove (4), the sleeve spring (508) is elastically connected to the bottom of the supporting plate (507), and the diameter of the sleeve spring (508) is larger than the size of an opening at the top of the right side of the frame (501).

4. The intelligent test terminal with a limiting structure according to claim 1, wherein a limiting component (6) for limiting and clamping a material to be tested is installed on the right side of the groove (4), the limiting component (6) comprises an end plate (601), a fixing block (602) and a limiting block (603), the fixing block (602) is fixedly installed on the right side of the top of the end plate (601), and the limiting block (603) is installed on the top of the end plate (601) in a sliding manner.

5. The intelligent test terminal with the limiting structure according to claim 4, wherein the limiting assembly (6) further comprises a pull handle (604) and a mounting groove (605), the right input end of the limiting block (603) is fixedly connected with the pull handle (604), and the mounting groove (605) is formed in the bottom end face of the limiting block (603).

6. The intelligent test terminal with a limiting structure according to claim 5, wherein the limiting assembly (6) further comprises a return spring (606), the return spring (606) is arranged on the left side inside the mounting groove (605), and the right end of the return spring (606) is elastically connected with the fixing block (602).

7. The intelligent test terminal with the limiting structure according to claim 4, wherein the limiting assembly (6) further comprises a notch (607), an eccentric crank (608) and a rocker (609), the notch (607) is formed in the bottom of the right side of the limiting block (603), the eccentric crank (608) is arranged at the bottom of the notch (607), the eccentric crank (608) is rotatably mounted on the end face of the right side of the end plate (601), and the rocker (609) is fixedly connected to the disk face of the eccentric crank (608).

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