CN213084333U - Aging test conveying mechanism and stack type automatic aging control system - Google Patents

Abstract

The utility model discloses an aging test conveying mechanism and a stack type automatic aging control system, which comprises a feeding and discharging mechanism, a tooling plate conveying device, a main controller and a plurality of identification sensors; tooling plate conveyor has pan feeding end and discharge end, and the discernment sensor sets up in pan feeding end or discharge end, and pan feeding discharge mechanism carries the tooling plate to tooling plate conveyor's pan feeding end, carries to pan feeding discharge mechanism through tooling plate conveyor's discharge end, discernment sensor and master controller electric connection. The utility model discloses realize many transfer chains ageing simultaneously to automatic input frock board and the output frock board of ageing time according to the transfer chain difference separately, realize not shutting down can be continuous carry out the aging testing of electronic product, reach unmanned operation's effect, the omnidirectional has improved aging testing's efficiency and accuracy.

Description

Aging test conveying mechanism and stack type automatic aging control system

Technical Field

The utility model relates to an aging testing technical field especially indicates an aging testing conveying mechanism and automatic aging control system of stack formula.

Background

A constant temperature aging room, also called a high temperature aging room and an aging room, is a device for simulating a high temperature and severe environment test for a high-performance electronic product, is an important experimental device for improving the stability and reliability of the product, is an important production flow for improving the product quality and competitiveness of various production enterprises, can detect and finish defective products or defective parts according to different requirements and configure a main body system, a main power system, a control system, a heating system, a temperature control system, a wind power constant temperature system, a time control system, a test load and the like, and provides an effective means for a client to quickly find out problems and solve the problems.

Under normal conditions, 3C electronic products need to be subjected to aging tests after being assembled, the outer frame of the conventional aging equipment is usually formed by combining double-sided color steel heat preservation warehouse plates, the sizes of the outer frame are customized according to customer requirements, and the outer frame is configured according to different requirements. Through aging test, can check out defective products or defective products, find out the problem rapidly and solve the problem for the customer and provide effectual means, fully improved customer production efficiency and product quality. Inside "the ageing operation mode of keeping in outside the platform truck line", artifical loading awaits measuring piece to the platform truck, pushes the heat preservation storehouse with the platform truck, and it is big to lead to production operation personnel intensity of labour, and the cost of labor is higher, and the product ageing timing is inaccurate, and the product quality of ageing does not guarantee, the low scheduling problem of production efficiency.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is not enough to above-mentioned prior art, provides an automatic aging testing of electronic product stack formula, when having solved electronic product aging testing, the problem that the cost of labor is high, operation personnel intensity of labour is big, the product aging timing is inaccurate.

The technical scheme of the utility model is realized like this:

an aging test conveying mechanism comprises a feeding and discharging mechanism, a tooling plate conveying device, a main controller and a plurality of identification sensors; the tooling plate conveying device is provided with a feeding end and a discharging end, the identification sensor is arranged at the feeding end or the discharging end, and the feeding and discharging mechanisms are respectively arranged at two sides of the tooling plate conveying device; the feeding and discharging mechanism conveys the tooling plate to the feeding end of the tooling plate conveying device, the discharging end of the tooling plate conveying device conveys the tooling plate to the feeding and discharging mechanism, and the identification sensor is electrically connected with the main controller.

Furthermore, the feeding and discharging mechanism comprises a feeding and discharging rack, a feeding trolley arranged on the feeding and discharging rack, a trolley conveying device for driving the feeding trolley to move up and down, and a first driving device for driving the trolley conveying device to move.

Furthermore, the feeding trolley comprises a main feeding unit and a second driving device, and the second driving device drives the main feeding unit to rotate;

the main feeding unit comprises a plurality of first synchronous wheels and a first belt, the first synchronous wheels are connected with the first synchronous wheels through the first belt, and the main feeding unit is connected with the main feeding unit through a first transmission shaft;

the trolley conveying device comprises a second synchronizing wheel, a second belt and a second driving device for driving the second synchronizing wheel to rotate; the second synchronizing wheel is connected with the second synchronizing wheel through a second belt, and the feeding trolley is fixed on the second belt and moves up and down along with the movement of the second belt.

Further, the feeding trolley also comprises an auxiliary feeding unit; the auxiliary feeding unit comprises a plurality of first driven wheels and a first mounting frame for fixing the first driven wheels; the main feeding unit and the auxiliary feeding unit are arranged on the same horizontal plane.

Further, the tooling plate conveying device comprises a conveying rack, a conveying line arranged on the conveying rack and a third driving mechanism for driving the conveying line;

the transfer chain includes main conveying unit, main conveying unit includes the connecting axle, installs connect epaxial gear and connection the multiple chain of gear, thereby the drive of third actuating mechanism the connecting axle rotates and drives the gear rotation.

A stack type automatic aging control system comprises the aging test conveying mechanism; the aging test conveying mechanisms are arranged in parallel, a transverse moving guide rail is arranged at one end of each aging test conveying mechanism, and the feeding and discharging rack is installed on the transverse moving guide rail.

Adopt above-mentioned technical scheme, the utility model provides a pair of automatic ageing control system of ageing tests conveying mechanism and stack formula's beneficial effect lies in: the tooling plate conveying device is provided with a feeding end and a discharging end, the identification sensor is arranged at the feeding end or the discharging end, and the feeding discharging mechanism conveys tooling plates to the feeding end of the tooling plate conveying device and is used for recording the time when the tooling plates enter the conveying mechanism or the time when the tooling plates go out of the conveying mechanism. When the identification sensor is arranged at the feeding end, the tooling plate enters the tooling plate conveying device, the identification sensor senses and records the time for the plate to enter the aging start, after the time reaches the set aging time, the tooling plate at the discharging end goes out of the plate, after the plate is discharged, the time for the next tooling plate to enter is read, and the time for the next tooling plate to enter is subtracted from the time for the next tooling plate to enter, namely, the time for the next tooling plate to enter is equal to the aging time. The aging time is recorded and controlled by the main controller. The aging test device has the advantages that the aging of a plurality of conveying lines can be realized simultaneously, the input tooling plate and the output tooling plate can be automatically carried out according to different aging time of the respective conveying lines, the aging test of electronic products can be continuously carried out without stopping, the unmanned operation effect is achieved, and the aging test efficiency and accuracy are improved in an all-round mode.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a perspective view of the present invention;

fig. 2 is a top view of the present invention;

fig. 3 is a perspective view of the middle feeding and discharging mechanism of the present invention.

In the figure, 100-feeding and discharging mechanism, 110-feeding trolley, 120-feeding rack, 130-first driving device, 131-second synchronous wheel, 132-second belt, 133-second driving device, 140-main feeding unit, 141-first synchronous wheel, 142-first belt, 143-first transmission shaft, 150-auxiliary feeding unit, 151-first mounting rack, 152-first driven wheel, 200-tooling plate conveying device, 210-conveying rack, 220-conveying line, 221-gear, 222-connecting shaft, 223-multiple chain, 230-third driving mechanism and 300-transverse moving guide rail.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

As shown in fig. 1-3, in an embodiment of the present invention, an aging test conveying mechanism includes a feeding and discharging mechanism 100, a tooling plate conveying device 200, a master controller, and a plurality of identification sensors; the tooling plate conveying device 200 is provided with a feeding end and a discharging end, and the identification sensor is arranged at the feeding end or the discharging end and is used for recording the time when the tooling plate enters the conveying mechanism or the time when the tooling plate goes out of the conveying mechanism. The identification sensor is electrically connected with a main controller (not shown) and used for recording the time when the position of the identification sensor is memorized and calculating the aging time.

The feeding and discharging mechanisms 100 are respectively arranged at two sides of the tooling plate conveying device 200; pan feeding discharge mechanism 100 carries the frock board to frock board conveyor 200's pan feeding end, carries to pan feeding discharge mechanism 100 through frock board conveyor 200's discharge end, is provided with ageing equipment on the frock board conveyor 200, and ageing of electronic product is accomplished on frock board conveyor 200.

Specifically, the feeding and discharging mechanism 100 includes a feeding and discharging frame, a feeding cart 110 mounted on the feeding and discharging frame, a cart conveying device for driving the feeding cart 110 to move up and down, and a first driving device 130 for driving the cart conveying device to move. The feeding trolley 110 comprises a main feeding unit 140 and a second driving device 133, wherein the second driving device 133 drives the main feeding unit to rotate, and is used for feeding the tooling plates to the feeding end of the tooling plate conveying device 200 or taking out the tooling plates on the tooling plate conveying device 200 from the discharging end.

Specifically, the main feeding unit 140 includes a plurality of first synchronizing wheels 141 and first belts 142, the first synchronizing wheels 141 are connected to the first synchronizing wheels 141 through the first belts 142, and the main feeding unit 140 is connected to the main feeding unit 140 through first transmission shafts 143.

Specifically, the trolley conveying device comprises a second synchronous wheel 131, a second belt 132 and a second driving device 133 for driving the second synchronous wheel 131 to rotate; the second synchronizing wheel 131 is connected with the second synchronizing wheel 131 through a second belt 132, and the feeding trolley 110 is fixed on the second belt 132 and moves up and down along with the movement of the second belt 132, so that the feeding trolley 110 can feed the tooling plate to a specified position.

Specifically, the feeding trolley 110 further comprises an auxiliary feeding unit; the auxiliary feeding unit 150 includes a plurality of first driven wheels 152 and a first mounting frame 151 for fixing the first driven wheels 152; the main feeding unit and the auxiliary feeding unit are arranged on the same horizontal plane, and the auxiliary main feeding unit 140 conveys the tooling plate.

Specifically, the tooling plate conveying device 200 includes a conveying frame 210, a conveying line 220 provided to the conveying frame 210, and a third driving mechanism 230 that drives the conveying line 220. Different numbers of conveying lines 220 can be longitudinally arranged on the conveying rack 210 according to actual use conditions, and the feeding trolley 110 conveys the tooling plates of the multi-layer conveying lines 220 through a trolley conveying device. The conveying line 220 comprises a main conveying unit, the main conveying unit comprises a connecting shaft 222, a gear 221 mounted on the connecting shaft 222 and a multiple chain 223 of the connecting gear 221, and a third driving mechanism 230 drives the connecting shaft 222 to rotate so as to drive the gear 221 to rotate. A stopper (not shown) is provided at the feeding end, and preferably, a pneumatic stopper is used for the stopper for economic and later maintenance, but not as a limitation of the present invention. The use of the multiplier chain 223 makes it possible to run the tooling plate with the load supported thereon quickly, stopping in the corresponding operating position by the stopper.

Referring to fig. 1 and fig. 2 again, a stack type automatic aging control system, the aging test conveying mechanism; many aging testing conveying mechanism arrange side by side, and aging testing conveying mechanism one end is provided with sideslip guide rail 300, and pan feeding ejection of compact frame mounting is on sideslip guide rail 300 to drive the pan feeding dolly 110 sideslip on the pan feeding ejection of compact frame, accomplish many aging testing conveying mechanism's frock board and carry.

The operation flow is as follows: the product frock of waiting to age of last step is on the frock board, and the frock board reachs feeding trolley 110 butt joint frock board, and feeding trolley 110 is through sideslip guide rail 300 and dolly conveyor adjustment position, will wait that ageing frock board is sent to the pan feeding end of the appointed transfer chain 220 of system allocation, and the frock board enters into and carries out the product ageing back on the transfer chain 220, and the dolly returns the product frock of waiting to age of assigned position and waiting for next last step on the frock board. After the aging time of the product on the tooling plate of the conveying line 220 is over, the product is discharged from the discharging end, the position of the feeding trolley 110 at the discharging end is adjusted through the transverse moving guide rail 300 and the trolley conveying device, the tooling plate on the conveying line 220 is butted to the feeding trolley 110, and the tooling plate is conveyed to the next step.

Understandably, the tooling plate conveying device 200 has a feeding end and a discharging end, the identification sensor is arranged at the feeding end or the discharging end, and the feeding discharging mechanism 100 conveys the tooling plate to the feeding end of the tooling plate conveying device 200 for recording the time when the tooling plate enters the conveying mechanism or the time when the tooling plate goes out of the conveying mechanism. When the identification sensor is arranged at the feeding end, the tooling plate enters the tooling plate conveying device 200, the identification sensor senses and records the time for the plate to enter the aging process, after the time reaches the set aging time, the tooling plate at the discharging end is discharged, after the discharging process is finished, the time for the next tooling plate to enter is read, and the time for the next tooling plate to enter is subtracted from the time for the next tooling plate to enter, namely, the time for the next tooling plate to enter is equal to the aging time. The aging time is recorded and controlled by the main controller. The aging of a plurality of conveying lines 220 can be realized simultaneously, the input tooling plate and the output tooling plate are automatically carried out according to different aging time of the respective conveying lines 220, the aging test of electronic products can be continuously carried out without stopping, the unmanned operation effect is achieved, and the aging test efficiency and accuracy are improved in an all-round mode.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an aging testing conveying mechanism which characterized in that: the automatic feeding and discharging device comprises a feeding and discharging mechanism, a tooling plate conveying device, a main controller and a plurality of identification sensors; the tooling plate conveying device is provided with a feeding end and a discharging end, the identification sensor is arranged at the feeding end or the discharging end, and the feeding and discharging mechanisms are respectively arranged at two sides of the tooling plate conveying device; the feeding and discharging mechanism conveys the tooling plate to the feeding end of the tooling plate conveying device, the discharging end of the tooling plate conveying device conveys the tooling plate to the feeding and discharging mechanism, and the identification sensor is electrically connected with the main controller.

2. The weathering test transport mechanism of claim 1, wherein: the feeding and discharging mechanism comprises a feeding and discharging rack, a feeding trolley arranged on the feeding and discharging rack, a trolley conveying device for driving the feeding trolley to move up and down, and a first driving device for driving the trolley conveying device to move.

3. The weathering test transport mechanism of claim 2, wherein: the feeding trolley comprises a main feeding unit and a second driving device, and the second driving device drives the main feeding unit to rotate;

the main feeding unit comprises a plurality of first synchronizing wheels and a first belt, the first synchronizing wheels are connected with the first synchronizing wheels through the first belt, and the main feeding unit is connected with the main feeding unit through a first transmission shaft;

the trolley conveying device comprises a second synchronizing wheel, a second belt and a second driving device for driving the second synchronizing wheel to rotate; the second synchronizing wheel is connected with the second synchronizing wheel through a second belt, and the feeding trolley is fixed on the second belt and moves up and down along with the movement of the second belt.

4. The weathering test transport mechanism of claim 3, wherein: the feeding trolley also comprises an auxiliary feeding unit; the auxiliary feeding unit comprises a plurality of first driven wheels and a first mounting frame for fixing the first driven wheels; the main feeding unit and the auxiliary feeding unit are arranged on the same horizontal plane.

5. The weathering test transport mechanism of claim 1, wherein: the tooling plate conveying device comprises a conveying rack, a conveying line arranged on the conveying rack and a third driving mechanism for driving the conveying line;

the transfer chain includes main conveying unit, main conveying unit includes the connecting axle, installs connect epaxial gear and connection the multiple chain of gear, thereby the drive of third actuating mechanism the connecting axle rotates and drives the gear rotation.

6. The weathering test transport mechanism of claim 2, wherein: the aging test conveying mechanisms are arranged in parallel, a transverse moving guide rail is arranged at one end of each aging test conveying mechanism, and the feeding and discharging rack is installed on the transverse moving guide rail.

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