CN217857443U - Quick testing arrangement of batch products - Google Patents

Abstract

The utility model relates to a batch product rapid testing device, which comprises an operating platform, wherein a testing area is arranged on the operating platform, a conveying material channel penetrating the testing area is arranged on the operating platform, a testing driving mechanism corresponding to the testing area is arranged above the operating platform, and a detection mechanism is arranged on the testing driving mechanism in a driving way; the test driving mechanism comprises an opening and closing cylinder, opening and closing clamps distributed on two sides of the conveying material channel are arranged on the opening and closing cylinder in a driving mode, and a plurality of detection probes in the detection mechanism are oppositely arranged on the opening and closing clamps; the outer side of the conveying material channel is provided with a material poking mechanism corresponding to the conveying material channel, and the material poking mechanism comprises a material feeding poking part and a material discharging poking part which correspond to the conveying track of the conveying material channel. The utility model provides a batch product rapid testing device, which can carry out batch detection on products and promote the action coordination among the operations of feeding in place, batch detection and material returning; the whole structure is simple, the operation is convenient, and the device is economic and environment-friendly.

Description

Quick testing arrangement of batch products

Technical Field

The utility model relates to a machining detects technical field, concretely relates to quick testing arrangement of batch product.

Background

In the prior art, for example, CN202210157599.4, patent name: a universal automatic test device for radio frequency probe. The utility model provides a general automatic testing arrangement of radio frequency probe, belongs to microwave TR subassembly automatic testing technical field, including fixed baseplate, directly drive module, transport mechanism, test fixture, elevating system and probe accredited testing organization. The direct-drive module is arranged above the fixed substrate and used for driving the conveying mechanism arranged on the direct-drive module to perform linear motion; the conveying mechanism can drive the test fixture to carry out linear transportation, and the microwave TR component to be tested and the PCB test board for conversion are arranged in the test fixture; the fixed base plate is also provided with a lifting mechanism which is used for driving the probe testing mechanism to carry out vertical lifting movement; the probe testing mechanism is provided with a plurality of groups of radio frequency probes and signal probes.

The defects in the prior art are as follows: the material loading operation is convenient inadequately, and if the material conveying structure needs to realize automatic control, the control cost is high. Particularly, the feeding and discharging are inconvenient to be matched with an operation structure for electrical detection, for example, when the electrical performance of the battery is detected, the two sides of the battery need to be electrically contacted simultaneously, and the mechanical test structure in the prior art has poor coordination and adaptability among material returning structures for feeding in place and batch electrical performance detection; the mechanical mechanism is complicated, and the detection cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes the defects of the prior art, provides a batch product rapid testing device, can carry out batch detection on products, and promotes the action coordination among the operations of feeding in place, batch detection and material returning; the whole structure is simple, the operation is convenient, and the device is economic and environment-friendly.

In order to achieve the purpose, the utility model adopts the technical proposal that: a batch product rapid testing device comprises an operation platform, wherein a testing area and a conveying channel penetrating through the testing area are arranged on the operation platform, a testing driving mechanism corresponding to the testing area is arranged above the operation platform, and a detection mechanism is arranged on the testing driving mechanism in a driving manner; a material shifting mechanism corresponding to the conveying channel is arranged on the outer side of the conveying channel and comprises a feeding material shifting part and a discharging material shifting part corresponding to the conveying track of the conveying channel; the test driving mechanism comprises an opening and closing cylinder, opening and closing clamps of the parts on two sides of the conveying material channel are arranged on the opening and closing cylinder in a driving mode, and a plurality of detection probes in the detection mechanism are arranged on the opening and closing clamps relatively.

In a preferred embodiment of the present invention, a lifting stop block is movably embedded at a position of the conveying channel located in the testing area, and the lifting stop block can vertically lift relative to the conveying channel.

In a preferred embodiment of the present invention, an inclined conveying surface is disposed in the conveying channel; or/and a plurality of parallel pivoted conveying rollers are arranged at the inlet in the conveying channel.

The utility model discloses a preferred embodiment still is provided with the frame that is located the test section top on the operation panel, is provided with test actuating mechanism in the frame, and test actuating mechanism still is including setting up the longitudinal displacement cylinder in the frame, and the drive is connected with the cylinder that opens and shuts on the longitudinal displacement cylinder, and the cylinder drive that opens and shuts presss from both sides and can convey the inside and outside opening and shutting of material way relatively.

The utility model discloses a preferred embodiment, open and shut and be provided with the probe mounting panel of symmetry on pressing from both sides, transversely wear to be equipped with a plurality of detecting probe on the probe mounting panel, detecting probe's the adjacent conveying material way of detection contact jaw.

In a preferred embodiment of the present invention, the feeding and discharging units are disposed on both sides of the conveying path.

The utility model discloses a preferred embodiment, material portion is dialled in the material loading and material portion is dialled to the unloading all including setting up the material slide rail of dialling that says in the conveying material, and the one end of dialling the material slide rail is provided with reciprocating cylinder, and the conveying material is said and is gone up the sliding setting and be provided with the material seat of dialling of being connected with the reciprocating cylinder drive, and the last pivotally connected with shifting block of material seat of dialling.

The utility model discloses a preferred embodiment, the one end of shifting block is passed through the pivotal axis and is dialled material seat pivoted joint, dials and still is provided with the stopper that is located shifting block one side on the material seat, and the shifting block still resets through elasticity and is connected with dialling the material seat.

The utility model discloses a preferred embodiment, one side that shifting block and material loading side correspond is the direction side, and one side that shifting block and unloading side correspond is for dialling the material side, and the setting position of stopper corresponds with the direction side.

In a preferred embodiment of the present invention, the operation table or/and the frame are provided with material detection sensors corresponding to the front side and the rear side of the lifting stopper in the conveying passage.

The utility model provides a defect that exists among the background art, the beneficial effect of the utility model:

the utility model provides a batch product rapid testing device, which can carry out batch detection on products and improve the action coordination among the operations of feeding in place, batch detection and material returning; the whole structure is simple, the operation is convenient, and the device is economic and environment-friendly.

1. The material feeding part and the material discharging part are matched with the material conveying channel, so that convenient feeding, waiting detection and discharging can be realized. Especially for the process that needs to detect the wait, operation structure is simple, convenient. The feeding is also convenient, the tool pushing for loading the product is only needed to slide into the inlet of the conveying material channel, and the tool pushing force pushes the shifting block which is in pivot connection to open, so that the subsequent feeding can be realized.

2. The feeding and the blanking are divided into two independent processes through the feeding and the blanking shifting parts, so that the occupation of the two processes on a driving part is reduced. The blanking action can be firmed in the primary feeding process.

3. The shifting block of pivot can carry out the pivot to the product when the material loading and dodge, dodges the back and pulls back the shifting block through the extension spring and resets, when needing to stir the product displacement, can lean on with the shifting block through the limit structure of stopper again and support to promote the product conveying.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a first schematic axial view of the preferred embodiment of the present invention;

fig. 2 is a schematic axial view structure diagram (with a jig in which a product to be detected is loaded) of the preferred embodiment of the present invention;

fig. 3 is a schematic top view of the preferred embodiment of the present invention;

FIG. 4 is an enlarged schematic view of portion A of FIG. 1;

FIG. 5 is a structural schematic diagram of the dial block in FIG. 4 swinging outwards (when the jig is pushed into the material conveying channel, the dial block is pivoted by a force to open the channel);

the device comprises an operation table 1, a machine frame 11, a material conveying channel 2, a conveying rotating roller 21, a material detecting sensor 22, a lifting stop block 23, a guide strip 24, a detecting mechanism 3, a detecting probe 31, a testing driving mechanism 4, a longitudinal displacement cylinder 41, an opening and closing cylinder 42, an opening and closing clamp 421, a probe mounting plate 43, a material shifting mechanism 5, a material loading and shifting part 51, a material unloading and shifting part 52, a material shifting sliding rail 53, a reciprocating cylinder 54, a material shifting seat 55, a limiting block 551, a pivoting shaft 552, a shifting block 553, an elastic resetting piece 554, a 6-testing display instrument and a jig 7.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings, which are simplified schematic drawings and illustrate, by way of illustration only, the basic structure of the invention, and which therefore show only the constituents relevant to the invention.

As shown in fig. 1 to 5, a rapid testing device for batch products comprises an operating platform 1, wherein a testing area is arranged on the operating platform 1, and a conveying material channel 2 penetrating through the testing area is arranged on the operating platform 1. A test driving mechanism 4 corresponding to the test area is arranged above the operating platform 1, and a detection mechanism 3 is arranged on the test driving mechanism 4 in a driving manner.

The operation panel 1 is provided with a frame 11 located above the test area, the frame 11 is provided with a test driving mechanism 4, the test driving mechanism 4 further comprises a longitudinal displacement cylinder 41 arranged on the frame 11, the longitudinal displacement cylinder 41 is connected with an opening and closing cylinder 42 in a driving mode, the opening and closing cylinder 42 is provided with opening and closing clamps 421 arranged on the two sides of the conveying material channel 2 in a driving mode, and the opening and closing cylinder 42 drives the opening and closing clamps 421 to open and close inside and outside the conveying material channel 2 relatively. The opening and closing clamp 421 includes two oppositely disposed clamping blocks, and each clamping block is provided with a probe mounting plate 43. The probe mounting plates 43 are symmetrically distributed on two sides above the conveying channel 2, and a plurality of detection probes 31 transversely penetrate through the probe mounting plates 43. The sensing contact end of the sensing probe 31 is adjacent to the delivery chute 2; the other end of the detection probe 31 is connected with an electrical detection mechanism in the prior art through a cable, the electrical detection mechanism is electrically connected with a test display instrument 6 in the prior art, and the detection performance or/and parameters and the like are displayed through the test display instrument 6. And the arrangement structure of the probes can be set according to the arrangement quantity and the structure of the products to be detected. Usually, a plurality of products are placed in the loaded fixture 7, the fixture 7 adopts a containing base and an upper cover which can be opened and closed relative to the base, through grooves for detection are reserved on two sides of the fixture 7, and the detection probes 31 are convenient to contact with end conductors of the products contained in the fixture 7.

Guide strips 24 are arranged on two sides of the conveying channel 2, and a horn mouth structure for guiding is arranged at the inlet position of each guide strip 24. A lifting stop block 23 is movably embedded at the position of the test area on the conveying channel 2. The lifting stop 23 can be lifted and lowered longitudinally relative to the conveying material channel 2. The lifting stop block 23 comprises a stop cylinder arranged below the conveying material channel 2, the stop cylinder drives the lifting stop block 23 to move vertically, and the lifting stop block 23 is movably embedded in a through groove which is arranged in the testing area on the conveying material channel 2. When the device is lifted, the device is higher than the conveying surface of the conveying channel 2, and when the device is lowered, the device is embedded into the conveying surface of the conveying channel 2 and is flush with the conveying surface or slightly lower than the conveying surface, and the conveying of the jig is not influenced. The shape of the stopper in the lifting stopper 23 may be a cylinder, and may also be a cube or a cuboid structure, which may be set according to actual requirements, and is not described and listed in detail herein. Material detection sensors 22 corresponding to the front and rear sides of a lift stopper 23 in the conveying lane 2 are fitted on the conveying surface in the conveying lane 2. The material detection sensor 22 may be an infrared sensor for detecting the presence or absence of a material.

The periphery of the guide strips 24 at two sides of the conveying channel 2 is provided with a material poking mechanism 5 corresponding to the conveying channel 2, and the material poking mechanism 5 comprises a feeding material poking part 51 and a discharging material poking part 52 which are respectively arranged at two sides of the conveying channel 2 and correspond to the conveying track. The feeding shifting part 51 and the discharging shifting part 52 are arranged in a relative staggered mode and cannot touch and influence each other. The feeding and discharging material shifting part 51 and 52 are respectively arranged at two sides of the conveying channel 2. The feeding and shifting part 51 and the discharging and shifting part 52 both comprise a shifting slide rail 53 arranged outside the conveying material channel 2, one end of the shifting slide rail 53 is provided with a reciprocating cylinder 54, the conveying material channel 2 is provided with a shifting seat 55 in driving connection with the reciprocating cylinder 54 in a sliding manner, and the shifting seat 55 is connected with a shifting block 553 in a pivoting manner. One end of the shifting block 553 is pivotally connected with the shifting block 55 through a pivot shaft 552, the shifting block 55 is further provided with a limit block 551 located at one side of the shifting block 553, and the shifting block 553 is further connected with the shifting block 55 through an elastic reset piece 554. The elastic restoring member 554 is a tension spring, but not limited thereto, and other elastic restoring structures in the prior art can be selected in other embodiments. One side of the shifting block 553 corresponding to the feeding side is a guiding side, one side of the shifting block 553 corresponding to the discharging side is a shifting side, and the arrangement position of the limiting block 551 corresponds to the guiding side. Specifically, tool 7's structure is only a signal, does not restrict tool 7's structure here, can be cylindrical, cuboid, square plum blossom shape cylinder structure etc. as long as can get the dress product, accomodate the product wherein, both ends reserve the detection that the product detected and lead to the groove can.

Example two

On the basis of the first embodiment, as shown in fig. 1 to 5, a plurality of parallel pivoted conveying rollers 21 are arranged at the inlet of the conveying channel 2. Through the movable rolling structure of the rotary roller, the friction force of conveying is reduced, and the time and labor saving of operation during feeding is improved.

EXAMPLE III

On the basis of the first or second embodiment, an inclined conveying surface is arranged in the conveying channel 2. And the inclination direction is inclined downwards along the conveying track, and the principle is to utilize the self weight of the product or the jig 7 for loading the product to improve the conveying efficiency. The conveying surface adopts a sheet metal fluency strip.

The working principle is as follows:

as shown in fig. 1 to 5, in the first embodiment or the second embodiment, when the product is used, the product is put into the jig 7, the jig 7 loaded with the product is pushed into the material conveying channel 2, the pushing force of the jig 7 pushes against the shifting block 553 in the material feeding and shifting portion 51 located at the front end, the shifting block 553 is forced to swing and open in the pushing direction around the pivot shaft 552, the jig 7 enters the entrance position of the material conveying channel 2 after passing through the shifting block 553 of the material feeding and shifting portion 51, and the pushing force applied to the shifting block 553 disappears at this time, the shifting block 553 is pulled back by the pulling force of the elastic resetting member 554, so that the shifting block 553 rotates and resets around the pivot shaft 552, the shifting block resets to the position where the limiting block 551 is located, and the limiting block 551 abuts against one side of the shifting block 553.

When the material sensor on the side of the material conveying channel 2 detects that the jig 7 is in place, the reciprocating cylinder 54 in the material feeding and shifting part 51 drives the material shifting seat 55 to move and push along the material shifting slide rail 53, and the shifting block 553 on the material shifting seat 55 is driven to push forwards. At this time, the material passes through the material-shifting portion 52, and the shifting block 553 in the material-shifting portion 52 is forced to swing to open the passage of the material-conveying passage 2. After the pushing force disappears, the elastic reset piece 554 drives the shifting block 553 to swing and reset.

In the pushing process, the material detection sensor 22 at the front part of the lifting stop block 23 in the material conveying channel 2 detects the entering of the jig 7, drives the lifting stop block 23 to lift, limits the entering pause position (i.e. detection region) of the jig 7, and the reciprocating cylinder 54 of the material loading and shifting part 51 drives the shifting block 553 to reset.

Tool 7 tests actuating mechanism 4 drive vertical displacement cylinder 41 displacement to detection position after to the detection zone, and the cylinder 42 that opens and shuts drives and opens and shuts and press from both sides 421 to middle displacement, drives probe mounting panel 43 inwards for the electrically conductive end contact at the product both ends on test probe 31 and the tool 7 tests the product, tests after accomplishing. The detection mechanism 3 is driven by the test driving mechanism 4 to reset.

A reciprocating cylinder 54 in the blanking shifting part 52 drives a shifting seat 55 to move and push along a shifting slide rail 53, and drives a shifting block 553 on the shifting seat 55 to push forwards; the jig 7 is pushed to the subsequent process along the conveying channel 2. The blanking and kickoff part 52 is reset. And circulating the detection procedures in sequence.

In the third embodiment, when the feeding device is used, feeding and discharging can be realized by matching the dead weight of the conveying material channel 2 with the lifting stop block 23. That is, when the material sensor on the side of the material conveying channel 2 senses the jig 7, the stopping cylinder drives the lifting stop block 23 to lift up, the jig 7 is stopped by moving downwards, the in-place sensor in front of the lifting stop block 23 senses the jig 7 at the moment, a test signal is sent out, the probe mounting plate 43 moves downwards, and then the probe mounting plate is clamped to start testing. When the test result is OK, the probe mounting plate 43 is loosened and then lifted up, if the discharge inductor does not send a signal at the moment, the cylinder is prevented from descending, the jig 7 flows out, the test process is finished, and the next test can be carried out; when the test result is NG, the probe mounting plate 43 is loosened, then lifted, the blocking cylinder keeps the lifting state, the jig 7 is taken out at the moment, and then the equipment is reset for the next test.

In light of the foregoing, it is to be understood that various changes and modifications may be made by those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. A batch product rapid testing device comprises an operation table, wherein a testing area and a conveying channel penetrating through the testing area are arranged on the operation table, a testing driving mechanism corresponding to the testing area is arranged above the operation table, and a detection mechanism is arranged on the testing driving mechanism in a driving mode; the method is characterized in that: the test driving mechanism comprises an opening and closing cylinder, opening and closing clamps distributed on two sides of the conveying material channel are arranged on the opening and closing cylinder in a driving mode, and a plurality of detection probes in the detection mechanism are arranged on the opening and closing clamps oppositely; the material pushing mechanism is arranged on the outer side of the conveying material channel and corresponds to the conveying material channel, and comprises a feeding material pushing portion and a discharging material pushing portion which correspond to the conveying track of the conveying material channel.

2. The batch product rapid test apparatus of claim 1, wherein: and a lifting stop block is movably embedded in the position, located in the test area, of the conveying material channel and can vertically lift relative to the conveying material channel.

3. The batch product rapid test apparatus of claim 1, wherein: an inclined conveying surface is arranged in the conveying channel; or/and a plurality of parallel pivoted conveying rollers are arranged at the inlet in the conveying channel.

4. The batch product rapid test apparatus of claim 1, wherein: the test device is characterized in that a rack positioned above the test area is further arranged on the operating table, the test driving mechanism is arranged on the rack and further comprises a longitudinal displacement cylinder arranged on the rack, the opening and closing cylinder is connected to the longitudinal displacement cylinder in a driving mode, and the opening and closing cylinder drives the opening and closing clamp to open and close relative to the inside and the outside of the conveying material channel.

5. The device for rapid testing of batch products according to claim 4, wherein: the opening and closing clamp is provided with symmetrical probe mounting plates, a plurality of detection probes transversely penetrate through the probe mounting plates, and detection contact ends of the detection probes are adjacent to the material conveying channel.

6. The device for rapid testing of batch products according to claim 5, wherein: the feeding and discharging material shifting part and the discharging material shifting part are respectively arranged on two sides of the conveying channel.

7. The device for the rapid test of batch products according to claim 1 or 6, characterized in that: the material portion is dialled in the material loading and the material portion is dialled in the unloading all including setting up the material slide rail of dialling in the conveying material way outside, the one end of dialling the material slide rail is provided with reciprocating cylinder, the conveying material say go up the slip be provided with reciprocating cylinder drive connection dial the material seat, dial the material seat on the pivotally connected with shifting block.

8. The batch product rapid test apparatus of claim 7, wherein: one end of the shifting block is connected with the shifting seat in a pivoting mode through a pivoting shaft, a limiting block located on one side of the shifting block is further arranged on the shifting seat, and the shifting block is connected with the shifting seat through an elastic resetting piece.

9. The batch product rapid test apparatus of claim 8, wherein: one side of the shifting block corresponding to the feeding side is a guiding side, one side of the shifting block corresponding to the discharging side is a shifting side, and the setting position of the limiting block corresponds to the guiding side.

10. The batch product rapid test apparatus of claim 2, wherein: and material detection sensors corresponding to the front side and the rear side of the lifting stop block in the material conveying channel are arranged on the operating table or/and the rack.

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