CN219052117U - Automatic detection production line for miniature circuit breaker with plastic shell - Google Patents

Abstract

The utility model adopts an automatic detection production line of a plastic shell miniature circuit breaker, which comprises a production line rail, a detection unit, a material moving mechanism and a control center, wherein the control center is used for driving the production line rail, the detection unit and the material moving mechanism to automatically act, the production line rail comprises a production line material feeding area and a production line material discharging area, external products automatically fed through the production line material feeding area are moved to the detection unit area through the material moving mechanism, the detected external products are moved back to the production line rail through the material moving mechanism, and the production line material discharging area of the production line rail forms a material discharging mode, so that the full-automatic time delay detection of the plastic shell miniature circuit breaker through the production line is realized, the detection efficiency is high, the requirement of mass production can be met, the manual labor intensity in the detection process of the plastic shell miniature circuit breaker can be greatly reduced, and the trend of a robot on the market at present is also met.

Description

Automatic detection production line for miniature circuit breaker with plastic shell

Technical Field

The utility model relates to an automatic detection production line of a plastic shell miniature circuit breaker.

Background

The plastic shell breaker is a common distribution protection electric appliance, has the functions of supplying power to a load and protecting overload and short circuit, and is widely applied to an electric power distribution system. The miniature plastic-case circuit breaker is one of the plastic-case circuit breakers, also called plastic-case miniature circuit breakers, and has the characteristics of large breaking current, strong overload capacity and stable working performance of the common plastic-case circuit breaker, and the miniature plastic-case circuit breaker is small in size.

The existing most of the detection of the time delay function of the plastic shell miniature circuit breaker is manually carried out or semi-automatic equipment is manually assisted to detect, but in actual use, the mode of detecting the time delay function of the plastic shell miniature circuit breaker through the existing mode is found, so that the efficiency is low, the manual strength is high, and the condition of mass production is not facilitated.

Disclosure of Invention

In order to solve the problems, the utility model provides an automatic detection production line for the plastic shell miniature circuit breaker, which is used for realizing full-automatic time delay detection and is efficient in detection.

In order to achieve the above purpose, the utility model adopts the automatic detection production line of the miniature circuit breaker with the plastic shell, and the automatic detection production line comprises a production line rail, a detection unit, a material moving mechanism and a control center, wherein the control center is used for driving the production line rail, the detection unit and the material moving mechanism to automatically act, the production line rail comprises a production line feeding area and a production line discharging area, external products automatically fed through the production line feeding area are moved to the detection unit area through the material moving mechanism, and the external products after detection are moved back to the production line rail through the material moving mechanism and form discharging through the production line discharging area of the production line rail.

The beneficial effect of above-mentioned structure lies in: the automatic detection production line of the plastic shell miniature circuit breaker comprises a production line rail, a detection unit, a material moving mechanism and a control center of a master control, so that when the production line is driven by the control center, automatic feeding of the plastic shell miniature circuit breaker is realized through a production line feeding area of the production line rail, when the position of the material moving mechanism capable of moving materials is reached, the material moving mechanism works, the plastic shell miniature circuit breaker on the production line rail is carried, the position of the detection unit is reached, full-automatic time delay detection is carried out, after detection is completed, the material moving mechanism moves the materials back to the production line rail again, the detected plastic shell miniature circuit breaker is subjected to discharging action through the production line rail action synchronously, further, the full-automatic time delay detection of the plastic shell miniature circuit breaker is realized through the production line, the detection efficiency is high, the requirement of mass production can be met, the manual labor intensity in the detection process of the plastic shell miniature circuit breaker can be greatly reduced, and the trend of a current machine for changing people is met.

The utility model is further arranged that the detection unit comprises a plurality of detection bit groups, the detection bit groups comprise a plurality of detection bits, the detection bit groups are distributed on two sides of a production line feeding area in a production line track, the material moving mechanism is limited in an area above the production line track, the material moving mechanism comprises a transverse, longitudinal and vertical material moving mechanism, three-axis material moving in detection is formed through the transverse, longitudinal and vertical material moving mechanism, the vertical material moving mechanism comprises a material grabbing mechanism, and grabbing and feeding are formed in the three-axis moving process of the material moving mechanism through the material grabbing mechanism.

Through the limitation of the detection unit and the material moving mechanism, the detection unit comprises a plurality of detection bit groups, and a single detection bit group comprises a plurality of detection bits, so that when the production line is subjected to automatic detection, a plurality of plastic shell miniature circuit breakers can be simultaneously controlled, the automatic driving of the material moving mechanism is realized, the batch discharging of the detected single detection bit groups is realized, and meanwhile, the action mode of the material moving mechanism is set to be capable of carrying out the simultaneous action of the XYZ triaxial material moving, thereby greatly improving the efficiency of the production line on the plastic shell miniature circuit breakers.

The utility model further provides that the detection production line also comprises a product lifting mechanism, wherein the product lifting mechanism comprises lifting mechanisms, the lifting mechanisms are distributed on two sides of the production line track, and the lifting mechanisms do lifting and descending actions on two sides of the production line track and form lifting or self-reset back actions of external products.

Through the setting of above-mentioned lifting mechanism for can break away from the production line track before being moved the material for mould shell miniature circuit breaker, realize that the production line moves when expecting, do not influence the orbital normal operating of production line, also avoid appearing because when not establishing lifting mechanism, because the production line track is in running state always, appear moving the circumstances that the material mechanism can't carry out reliable material of grabbing.

The utility model is further arranged that the detection bit group also comprises a clamping mechanism for clamping an external product and a clamping displacement mechanism, wherein the detection bit group comprises a wire inlet and outlet electrode mechanism, an automatic switching-off mechanism and an automatic switching-on mechanism which are used for being inserted into the wire inlet and outlet ends of the external product, and the clamping displacement mechanism is used for driving the clamping mechanism to displace, so that the wire inlet and outlet ends of the external product limited on the clamping mechanism are aligned with the wire inlet and outlet electrode mechanism.

Through the arrangement, the electrode for detecting the time delay function of one working unit is only involved in the production line, namely, each detection position of the plastic shell miniature circuit breaker is sequentially wheel-detected for each line-in and line-out unit, namely, after one line-in and line-out unit is detected, the line-in and line-out electrode is moved through the clamping displacement mechanism to insert the next working unit for time delay detection, the plastic shell miniature circuit breaker with 1P-multiple P can be used for detecting the time delay function of the production line, and in addition, the automatic brake-off mechanism and the automatic brake-on mechanism are involved in the production line, so that the full-automatic operation during the detection of the production line is realized, and the condition of manual participation in brake-on and off is avoided.

The clamping mechanism comprises a clamping cylinder, a sliding block linked with the clamping cylinder and a plurality of clamping blocks limited on the sliding block, wherein the clamping cylinder drives the sliding block to move forwards and backwards to drive the clamping blocks limited on the sliding block to do linkage action, and the side clamping of an external product on the detection unit is formed.

Through the arrangement, the plastic shell miniature circuit breaker which is moved to the detection unit by the material moving mechanism is realized, reliable limiting and clamping can be performed, and the clamping opposite direction is specific to each detection position, so that the reliable and reasonable limiting and clamping of the production line is realized.

The utility model is further arranged that the wire inlet and outlet electrode mechanisms comprise electrodes, the detection bit group also comprises an electrode sliding rail, an electrode sliding block which is in sliding connection with the electrode sliding rail, an electrode linkage block which drives the electrodes in a plurality of detection bits to work synchronously, an electrode forward moving electric cylinder which drives the electrodes to move towards the wire inlet and outlet terminals of the external products, and an electrode upward moving air cylinder which drives the electrodes to contact with the connecting terminal screws in the external products, wherein the electrodes are linked with the electrode forward moving electric cylinder and the electrode upward moving air cylinder;

the automatic closing mechanism is distributed on one side of the wire inlet electrode mechanism and comprises a closing push plate through which the handle of an external product is driven to close,

the automatic brake separating mechanism is distributed on one side of the wire electrode mechanism, and comprises a screwdriver which is matched with an adjusting screw in an external product, and the adjusting screw in the external product is driven to contact with the double-metal through the screwdriver to form brake separating of the external product.

Through the arrangement, the automatic switching-on and switching-off mechanism, the wire inlet and outlet electrode mechanism and the automatic switching-on mechanism are realized, reliable driving can be performed, and the requirement on automatic detection can be met by the production line.

The utility model is further arranged that the transverse material moving mechanism comprises a transverse linear module and a material moving frame which is in sliding connection with the transverse linear module, the longitudinal material moving mechanism comprises a longitudinal linear module which is longitudinally arranged, the longitudinal linear module is connected with the transverse linear module, the vertical material moving mechanism is connected with the material moving frame, the transverse linear module performs longitudinal sliding motion through the longitudinal linear module, and the transverse linear module is formed to drive the vertical material moving mechanism to perform longitudinal continuous sliding motion through the material moving frame,

the vertical material moving mechanism also comprises a vertical material moving sliding rail, a material moving sliding block which is in sliding connection with the vertical material moving sliding rail, and a fixing frame which is connected with the material moving sliding block, and the material grabbing mechanism is connected onto the fixing frame.

Through the arrangement, the reliable operation of the XYZ three-axis direction movement of the material moving mechanism is realized, and the production line is reasonable in design.

The utility model is further arranged that the feeding area of the production line comprises a distributing mechanism and a scanning device for inputting external product information into a control center, the distributing mechanism comprises a clamping plate, feeding distributing clamping cylinders and a baffle plate which are distributed on two sides of a product feeding track, the feeding distributing clamping cylinders are connected with the clamping plate and are linked,

the feeding and distributing clamping cylinder drives the clamping plate to move towards the production line track to form the distribution clamping of the external product to be detected, and the stop plate reciprocates up and down at two sides of the feeding area of the production line to form the external product forward stop and stop releasing action.

Through the arrangement, before detection, the information of the plastic shell miniature circuit breaker can be firstly recorded into the control center, the control center can reliably track the detection conditions of the plastic shell miniature circuit breaker through the production line, meanwhile, through the arrangement of the material distributing mechanism, the plastic shell miniature circuit breaker to be moved can be realized, when the plastic shell miniature circuit breaker enters the position of the material moving mechanism, the plastic shell miniature circuit breaker can be blocked from advancing, and the reliable progress of the material moving action of the former plastic shell miniature circuit breaker is not influenced.

The automatic detection production line further comprises a discharging and distributing mechanism, the discharging and distributing mechanism comprises a defective product grabbing mechanism, and the defective product grabbing mechanism is displaced between the defective product and the defective product discharging area to form automatic recovery of defective products in external products.

Through the arrangement, the automatic plastic shell miniature circuit breaker can be reliably discharged after detection, and qualified and unqualified direct material distribution can be carried out in the product discharging stage, so that the situation that manual material distribution is needed in the later stage can be avoided, and the efficient carrying out of the detection process of the plastic shell miniature circuit breaker is further ensured.

Drawings

FIG. 1 is a schematic diagram of an automatic inspection line according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of an internal structure of an automatic inspection line according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of an internal structure of an automatic detection production line after a material moving mechanism is removed;

FIG. 4 is a schematic view of a material moving mechanism according to an embodiment of the present utility model;

FIG. 5 is a schematic diagram of a structure of a detected bit set according to an embodiment of the present utility model;

FIG. 6 is a schematic diagram showing the cooperation of the clamping mechanism, the clamping displacement mechanism and the automatic brake release mechanism according to the embodiment of the utility model;

fig. 7 is a schematic diagram of the cooperation of the clamping mechanism, the clamping displacement mechanism, the automatic brake-separating mechanism and the molded case miniature circuit breaker according to the embodiment of the utility model;

FIG. 8 is a schematic diagram of the cooperation of the wire electrode mechanism with the electrode slide rail, the electrode slide block, the electrode linkage block, the electrode forward moving cylinder and the electrode upward moving cylinder according to the embodiment of the utility model;

FIG. 9 is a schematic diagram of the cooperation of the wire electrode mechanism with the electrode slide rail, the electrode slide block, the electrode linkage block, the electrode forward moving cylinder and the electrode upward moving cylinder according to the embodiment of the utility model;

FIG. 10 is a schematic diagram of an automatic closing mechanism according to an embodiment of the present utility model;

FIG. 11 is an enlarged schematic view of FIG. 2;

fig. 12 is an enlarged schematic view of fig. 3.

Detailed Description

As shown in fig. 1-12, a specific embodiment of the present utility model is an automatic detection production line for a miniature circuit breaker with a plastic shell, which comprises a production line rail, a detection unit, a material moving mechanism and a control center, wherein the control center is used for driving the production line rail, the detection unit and the material moving mechanism to automatically act, the production line rail comprises a production line feeding area 1 and a production line discharging area 2, external products automatically fed through the production line feeding area 1 are moved to the detection unit area by the material moving mechanism, and the external products after detection are moved back to the production line rail by the material moving mechanism and form a discharge by the production line discharging area 2 of the production line rail.

According to the automatic detection production line for the plastic shell miniature circuit breaker a, the production line comprises the production line rail, the detection unit, the material moving mechanism and the control center of the master control, so that when the production line is driven by the control center, automatic feeding of the plastic shell miniature circuit breaker a can be realized through the production line feeding area 1 of the production line rail, when the position where the material moving mechanism can move is reached, the material moving mechanism works, the plastic shell miniature circuit breaker a carried on the production line rail reaches the position of the detection unit, full-automatic time-lapse detection is carried out, after detection is completed, the material moving mechanism moves back to the production line rail again, the material moving mechanism synchronously moves through the production line rail, the detected plastic shell miniature circuit breaker a carries out discharging action, further full-automatic time-lapse detection on the plastic shell miniature circuit breaker a through the production line is realized, the automatic detection efficiency is high, the requirement on mass production can be met, the manual trend working strength in the detection process of the plastic shell miniature circuit breaker a can be greatly reduced, and the manual working strength of a robot in the market is met.

As shown in fig. 1-12, the above-mentioned detecting unit includes a plurality of detecting bit groups 9, the detecting bit groups 9 include a plurality of detecting bits, and the detecting bit groups 9 are distributed on two sides of the feeding area 1 of the production line in the production line track, the material moving mechanism is limited on the upper area of the production line track, and the material moving mechanism includes a horizontal, longitudinal and vertical material moving mechanism 4, and forms three-axis material moving in detection through the horizontal, longitudinal and vertical material moving mechanism 4, and the vertical material moving mechanism 4 includes a grabbing mechanism 41, and forms grabbing feeding in the three-axis moving process of the material moving mechanism through the grabbing mechanism 41.

As shown in fig. 2-3 and 11, the above-mentioned inspection production line further includes a product lifting mechanism 6, where the product lifting mechanism 6 includes lifting mechanisms 61, the lifting mechanisms 61 are distributed on two sides of the production line track, and the lifting mechanisms 61 perform up-and-down lifting actions on two sides of the production line track, and form lifting or self-reset back-off actions of external products.

As shown in fig. 2-3 and 5-10, the above-mentioned detection bit group 9 further includes a clamping mechanism 94 for clamping an external product, and a clamping displacement mechanism 93, where the detection bits include an in-line and out-line electrode mechanism for inserting in-line and out-line ends of the external product, an automatic opening mechanism 91 and an automatic closing mechanism 92, and the clamping mechanism 94 is driven to displace by the clamping displacement mechanism 93, so that the in-line ends of the external product limited on the clamping mechanism 94 are aligned with the in-line and out-line electrode mechanism.

As shown in fig. 2-3 and 5-7, the clamping mechanism 94 includes a clamping cylinder 941, a sliding block 942 linked with the clamping cylinder 941, and a plurality of clamping blocks 943 limited on the sliding block 942, and drives the sliding block 942 to move back and forth through the clamping cylinder 941, so as to form a side clamping of the external product on the detecting unit.

As shown in fig. 2-3 and 5-7, the above-mentioned wire inlet and outlet electrode mechanisms all comprise an electrode b, the detection group 9 also comprises an electrode slide rail 910, an electrode slide block 96 slidably connected with the electrode slide rail 910, an electrode linkage block 99 for driving the electrode b in a plurality of detection positions to synchronously work, an electrode forward moving cylinder 98 for driving the electrode b to move towards the wire inlet and outlet terminal of the external product, an electrode upward moving cylinder 97 for driving the electrode to contact with a wiring terminal screw in the external product, and the electrode b is linked with the electrode forward moving cylinder 98 and the electrode upward moving cylinder 97;

the automatic closing mechanism 92 is distributed on one side of the incoming line electrode mechanism 930, and the automatic closing mechanism 92 comprises a closing push plate 921, through the closing push plate 921, a closing of a handle a1 of an external product is driven,

the automatic brake separating mechanism 91 is distributed on one side of the outlet electrode mechanism 920, and the automatic brake separating mechanism 91 comprises a screwdriver 911 matched with an adjusting screw in an external product, and the adjusting screw in the external product is driven to contact with the double-metal through the screwdriver 911 to form brake separating of the external product.

As shown in fig. 2-4, the transverse material moving mechanism comprises a transverse linear module 3 and a material moving frame 5 which is in sliding connection with the transverse linear module 3, the longitudinal material moving mechanism 7 comprises a longitudinal linear module 7 which is longitudinally arranged, the longitudinal linear module 7 is connected with the transverse linear module 3, the vertical material moving mechanism 4 is connected with the material moving frame 5, the transverse linear module 3 performs longitudinal sliding motion through the longitudinal linear module 7, and the transverse linear module 3 is formed by the material moving frame 5 to drive the vertical material moving mechanism 4 to perform longitudinal continuous sliding motion in the longitudinal linear module 7,

the vertical material moving mechanism 4 further comprises a vertical material moving sliding rail 43, a material moving sliding block 42 which is in sliding connection with the vertical material moving sliding rail 43, and a fixed frame 44 which is connected with the material moving sliding block 42, and the material grabbing mechanism 41 is connected to the fixed frame 44.

As shown in fig. 2-3 and 12, the feeding area 1 of the production line comprises a distributing mechanism 20 and a scanning device 10 for inputting external product information into a control center, wherein the distributing mechanism 20 comprises a clamping plate 203, and feeding distributing clamping cylinders 202 and baffle plates 201 distributed on two sides of a product feeding track, the feeding distributing clamping cylinders 202 are connected with the clamping plate 203 and move in parallel,

the feeding and separating clamping cylinder 202 drives the clamping plate 203 to move towards the production line track, so that the outside product to be detected is separated and clamped, and the baffle plate 201 reciprocates up and down at the two sides of the feeding area 1 of the production line, so that the outside product can move forward to stop and release from stop.

As shown in fig. 1-3, the above-mentioned production line discharging area 2 includes a qualified product discharging area 22 and a unqualified product discharging area 21, the production line feeding area 1 is distributed at one end of the production line track, the qualified product discharging area 22 of the production line discharging area 2 is distributed at the other end of the production line track, the unqualified product discharging area 21 is distributed at one side of the qualified product discharging area 22, the automatic detection production line further includes a discharging and distributing mechanism 20, the discharging and distributing mechanism 20 includes a unqualified product grabbing mechanism 30, and the unqualified product grabbing mechanism 30 is used for displacing between the qualified product and the unqualified product discharging area 21 to form automatic recovery of the unqualified product in the external product.

Claims (9)

1. A mould miniature circuit breaker automated inspection production line of shell, its characterized in that: the detection production line comprises a production line track, a detection unit, a material moving mechanism and a control center, wherein the control center is used for driving the production line track, the detection unit and the material moving mechanism to automatically act, the production line track comprises a production line feeding area and a production line discharging area, external products automatically fed in the production line feeding area are moved to the detection unit area through the material moving mechanism, the external products after detection are completely moved back to the production line track through the material moving mechanism, and the production line discharging area of the production line track is used for forming discharging.

2. The molded case miniature circuit breaker automatic detection line of claim 1, wherein: the detection unit comprises a plurality of detection bit groups, the detection bit groups comprise a plurality of detection bits, the detection bit groups are distributed on two sides of a production line feeding area in a production line track, the material moving mechanism is limited on an upper area of the production line track, the material moving mechanism comprises a transverse material moving mechanism, a longitudinal material moving mechanism and a vertical material moving mechanism, three-axis material moving in detection is formed through the transverse material moving mechanism, the longitudinal material moving mechanism comprises a material grabbing mechanism, and three-axis material moving in-process grabbing and feeding are formed through the material grabbing mechanism.

3. The automatic detection line for plastic case miniature circuit breakers according to claim 1 or 2, characterized in that: the detection production line also comprises a product lifting mechanism, wherein the product lifting mechanism comprises lifting mechanisms, the lifting mechanisms are distributed on two sides of the production line track, and the lifting mechanisms do lifting and falling actions on two sides of the production line track and form lifting or self-reset rollback actions of external products.

4. The automatic detection line for plastic case miniature circuit breakers of claim 2, wherein: the detection bit group also comprises a clamping mechanism for clamping an external product and a clamping displacement mechanism, wherein the detection bit group comprises a wire inlet electrode mechanism, a wire outlet electrode mechanism, an automatic switching mechanism and an automatic switching mechanism which are used for being inserted into the wire inlet and outlet ends of the external product, and the clamping displacement mechanism is used for driving the clamping mechanism to displace, so that the wire inlet and outlet ends of the external product, which are limited on the clamping mechanism, are aligned with the wire inlet electrode mechanism and the wire outlet electrode mechanism.

5. The automatic detection line for plastic case miniature circuit breakers of claim 4, wherein: the clamping mechanism comprises a clamping cylinder, a sliding block linked with the clamping cylinder and a plurality of clamping blocks limited on the sliding block, wherein the clamping cylinder drives the sliding block to move back and forth to form a side clamping mechanism for driving the clamping blocks limited on the sliding block to do linkage action and forming an external product on the detection unit.

6. The automatic detection line for plastic case miniature circuit breakers according to claim 4 or 5, wherein: the electrode mechanism comprises electrodes, the detection group comprises an electrode slide rail, an electrode slide block which is in sliding connection with the electrode slide rail, an electrode linkage block which drives the electrodes in a plurality of detection positions to synchronously work, an electrode forward moving cylinder which drives the electrodes to move towards the external product wire inlet and outlet terminals, and an electrode upward moving cylinder which drives the electrodes to contact with the wiring terminal screws in the external product, wherein the electrodes are linked with the electrode forward moving cylinder and the electrode upward moving cylinder;

the automatic closing mechanism is distributed on one side of the wire inlet electrode mechanism and comprises a closing push plate through which the handle of an external product is driven to close,

the automatic brake separating mechanism is distributed on one side of the wire electrode mechanism, and comprises a screwdriver which is matched with an adjusting screw in an external product, and the adjusting screw in the external product is driven to contact with the double-metal through the screwdriver to form brake separating of the external product.

7. The automatic detection line for plastic case miniature circuit breakers according to claim 2, 4 or 5, wherein: the transverse material moving mechanism comprises a transverse linear module and a material moving frame which is in sliding connection with the transverse linear module, the longitudinal material moving mechanism comprises a longitudinal linear module which is longitudinally arranged, the longitudinal linear module is connected with the transverse linear module, the vertical material moving mechanism is connected with the material moving frame, the transverse linear module performs longitudinal sliding motion through the longitudinal linear module, and the transverse linear module jointly drives the vertical material moving mechanism to perform longitudinal joint sliding motion on the longitudinal linear module,

the vertical material moving mechanism further comprises a vertical material moving sliding rail, a material moving sliding block which is in sliding connection with the vertical material moving sliding rail, and a fixing frame which is connected with the material moving sliding block, and the material grabbing mechanism is connected to the fixing frame.

8. The automatic detection line for plastic case miniature circuit breakers according to claim 2, 4 or 5, wherein: the feeding area of the production line comprises a material distributing mechanism and a scanning device for inputting external product information into a control center, the material distributing mechanism comprises a clamping plate, and a feeding material distributing clamping cylinder and a baffle plate which are distributed on two sides of a product feeding track, the feeding material distributing clamping cylinder is connected with the clamping plate and linked,

the feeding and distributing clamping cylinder drives the clamping plate to move towards the production line track to form the distribution clamping of the external product to be detected, and the stop plate reciprocates up and down at two sides of the feeding area of the production line to form the external product forward stop and stop releasing action.

9. The automatic detection line for plastic case miniature circuit breakers according to claim 2, 4 or 5, wherein: the production line discharging area comprises an qualified product discharging area and an unqualified product discharging area, the production line feeding area is distributed at one end of the production line track, the qualified product discharging area of the production line discharging area is distributed at the other end of the production line track, the unqualified product discharging area is distributed at one side of the qualified product discharging area, the automatic detection production line further comprises a discharging and distributing mechanism, the discharging and distributing mechanism comprises an unqualified product grabbing mechanism, and the unqualified product grabbing mechanism is arranged between the qualified product and the unqualified product discharging area through displacement, so that automatic recovery of unqualified products in external products is formed.

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