CN210585661U - Dispensing carrying platform mechanism and dispensing station - Google Patents

Abstract

The utility model relates to a display screen production technical field discloses a microscope carrier mechanism is glued to point and a station is glued to point. The dispensing carrying table mechanism is used for dispensing the display screen, and comprises a dispensing position, a discharging position, two carrying tables and an adsorption component, wherein the dispensing position and the discharging position are arranged at intervals along a first direction, the two carrying tables are arranged at intervals along a vertical direction, the two carrying tables can move between the dispensing position and the discharging position, each carrying table is provided with an adsorption passage, an adsorption hole of each adsorption passage is located on the upper surface of the corresponding carrying table, the adsorption component is communicated with the adsorption passages, and the adsorption component is configured to enable the adsorption holes to generate adsorption force so as to adsorb the display screen on the carrying tables. The dispensing carrying platform mechanism is safe in display screen fixing mode, small in station occupied area and high in production efficiency. The dispensing station can safely fix the display screen through the dispensing carrying platform mechanism, and the station has small occupied area and high production efficiency.

Description

Dispensing carrying platform mechanism and dispensing station

Technical Field

The utility model relates to a display screen production technical field especially relates to a microscope carrier mechanism is glued to point and a station is glued to point.

Background

Display screens are widely applied to display devices such as televisions, computers, mobile phones and the like, and the display screens become an indispensable part of the life of people. The dispensing process is an important process in the production process of the display screen, and is generally carried out in a dispensing station, wherein the dispensing station comprises a dispensing carrying platform mechanism and a dispensing mechanism, and the dispensing carrying platform mechanism comprises a dispensing position and a discharging position. After the display screen enters the dispensing station, the dispensing mechanism dispenses the display screen placed on the carrying platform, after dispensing is finished, the carrying platform transports the dispensed display screen from the dispensing position to the unloading position for unloading, and then the carrying platform moves to the dispensing position to receive the subsequent display screen entering the dispensing station.

In the prior art, a single carrying platform is arranged in the dispensing station, so that the dispensing mechanism is idle when the carrying platform works at the discharging position, and the discharging position is idle when the carrying platform works at the dispensing position, thereby causing time waste and ensuring that the working efficiency of the dispensing station is low. Therefore, the dispensing station with the two carrying platforms arranged side by side appears in the market, when one carrying platform works at the dispensing position, the other carrying platform can transport the display screen with the dispensing completed to the discharging position, and the dispensing and the transporting are carried out simultaneously, so that the working efficiency of the dispensing station is improved. But the microscope carriers that set up side by side need occupy two rows of motion spaces, can the area greatly increased of whole workstation on the one hand, and point gum machine constructs also need to be at two point between the microscope carrier reciprocating motion of gluing, has increased the stroke of point gum.

In addition, in order to fix the display screen on the carrier better, a clamping jaw is usually arranged on the carrier, and the clamping jaw and the carrier clamp and fix the display screen together.

Accordingly, a dispensing station is desired to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a point is glued microscope carrier mechanism, this point is glued microscope carrier mechanism and is fixed safe convenient, the station area is little to the display screen, and production efficiency is high.

A second object of the utility model is to provide a station is glued to point, this point is glued the station and is glued microscope carrier mechanism through the aforesaid point and can fix the display screen safely and stand area little, production efficiency is high.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a point is glued microscope carrier mechanism for carry out the point to the display screen and glue microscope carrier mechanism and include the point that sets up along the first direction interval and glue the position and unload the material level, and:

the two carrying platforms are arranged at intervals in the vertical direction, both the two carrying platforms can move between a dispensing position and a discharging position, each carrying platform is provided with an adsorption passage, and an adsorption hole of each adsorption passage is positioned on the upper surface of the carrying platform;

and the adsorption component is communicated with the adsorption passage and is configured to enable the adsorption holes to generate adsorption force so as to adsorb the display screen on the carrying platform.

Optionally, the adsorption passage is further provided with an inlet end, the inlet end is communicated with the adsorption assembly, and the inlet end is arranged on the side surface and/or the lower surface of the carrying platform.

Optionally, the display screen includes a screen and a flexible circuit board, and the stage includes:

the first bearing part is configured to bear a screen, and a first adsorption passage is formed in the first bearing part; and

the second bearing part is configured to bear the flexible circuit board, and a second adsorption passage is formed in the second bearing part.

Alternatively, the second adsorption hole of the second adsorption passage may be plural, and the plural second adsorption holes may be selectively opened.

Optionally, the second bearing part comprises:

the sliding rod is arranged along the second direction; and

the sliding block can move along the sliding rod, the relative position of the sliding block and the sliding rod in the second direction is adjustable, a second adsorption passage is formed in the sliding block, and a second adsorption hole of the second adsorption passage is formed in the upper surface of the sliding block.

Optionally, the second bearing part further comprises a positioning assembly, the positioning assembly comprising:

the first positioning holes are arranged on the sliding rod at intervals along the second direction;

the second positioning hole is formed in the sliding block and can be selectively opposite to the first positioning hole; and

and the fixing piece sequentially passes through the second positioning hole and the first positioning hole opposite to the second positioning hole so as to fix the sliding block on the sliding rod.

Optionally, the dispensing stage mechanism further includes:

the first detection assembly is arranged at the dispensing position and is configured to detect whether the carrying platform is positioned at the dispensing position; and/or

A second detection component disposed at the discharge location, the second detection component configured to detect whether the carrier is at the discharge location.

Optionally, the dispensing stage mechanism further includes a stage driving assembly, and an output end of the stage driving assembly is connected to the stage.

Optionally, a guide assembly is disposed between the carrier and the dispensing carrier mechanism frame, and the guide assembly is configured to move the carrier in a first direction.

A dispensing station comprises the dispensing carrying platform mechanism and a dispensing mechanism, wherein the dispensing mechanism is arranged at a dispensing position and can dispense a display screen.

The advantages and the beneficial effects are that:

the utility model discloses microscope carrier mechanism is glued to point includes that two are followed vertical direction interval arrangement microscope carrier and adsorption component, and two microscope carriers homoenergetic are in the point and are glued the position and remove between the position of unloading, and the microscope carrier is inside to have seted up the absorption route, and the absorption hole that adsorbs the route is located the upper surface of microscope carrier, and adsorption component is linked together with the absorption route, can make the absorption hole produce the adsorption affinity to adsorb the display screen on the microscope carrier. Set up two microscope carriers and can realize that a microscope carrier is when the point is glued the position point and is glued, another microscope carrier is unloaded at the position of unloading, and two microscope carriers simultaneous workings improve production efficiency. The two platforms are arranged at intervals in the vertical direction, so that only one motion channel is needed, the occupied area of the dispensing platform mechanism is reduced, the dispensing mechanism only needs to move up and down to dispense glue on the two layers of platforms, reciprocating motion and the space between the two platforms arranged side by side are not needed, the dispensing stroke in the horizontal direction of the dispensing mechanism is shortened, and the production efficiency is improved. Moreover, the absorption hole setting of absorption route is at the microscope carrier upper surface to through the drive of absorption subassembly, the absorption hole produces the adsorption affinity and can conveniently, swiftly fix the display screen on the microscope carrier, and the display screen position rocks when avoiding some glue operations, influences the accuracy of point location, and adsorbs fixed mode safety, can not cause the display screen to produce to collide with the fish tail.

The utility model discloses a station is glued to point, including above-mentioned point microscope carrier mechanism and point gum machine structure, should glue and can realize fixing the convenient safety of display screen through above-mentioned point gum microscope carrier mechanism, and the station area is glued to the point is little, and production efficiency is high.

Drawings

Fig. 1 is a schematic structural view of a display screen dispensing station according to an embodiment of the present invention;

FIG. 2 is an enlarged view at A in FIG. 1;

fig. 3 is an enlarged view at B in fig. 1.

In the figure:

1-a display screen; 2-carrying platform; 3-an adsorption component; 4-a first adsorption passage; 5-a second adsorption pathway; 6-a first detection assembly; 7-a second detection assembly; 8-stage drive assembly; 9-a guide assembly;

11-a display screen; 12-a flexible circuit board; 21-a first carrier part; 22-a second carrier part; 41-first adsorption holes; 42-a first inlet end; 52-a second inlet end; 91-a guide rail; 92-a slider;

221-a slide bar; 222-a slider; 511-second long adsorption hole; 512-second adsorption round hole;

2211-first positioning hole; 2221-second positioning hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. are used in an orientation or positional relationship based on that shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

The dispensing process is an important process in the production process of the display screen, and is usually carried out in a dispensing station. The embodiment provides a dispensing station, which can be used in the technical field of display screen production and can also be used for producing other parts needing dispensing operation. The glue dispensing station provided by the embodiment comprises a glue dispensing carrier mechanism and a glue dispensing mechanism. The dispensing carrying platform mechanism comprises a carrying platform 2, and a dispensing position and a discharging position which are arranged at intervals along a first direction (such as a Y direction shown in figure 1), wherein the carrying platform 2 is used for bearing a display screen and driving the display screen to move between the dispensing position and the discharging position, the dispensing position is provided with a dispensing mechanism, and the dispensing mechanism can perform dispensing operation on the display screen 1 on the carrying platform 2 at the dispensing position. After the display screen 1 is glued, the carrying platform 2 transports the display screen 1 to the unloading position from the glue dispensing position for unloading, and the carrying platform 2 after unloading moves back to the glue dispensing position to receive the subsequent display screen entering the glue dispensing station for glue dispensing and unloading.

In the prior art, a single carrying platform 2 is arranged in the dispensing station, so that one of the dispensing position and the discharging position is in a waiting state when the other dispensing position and the discharging position work, time is wasted, and the production efficiency is low. And be provided with the point of glue station of two microscope carriers 2 side by side, it though can realize point glue position and the simultaneous working of the position of unloading, but microscope carrier 2 sets up side by side, need occupy two transport corridor, greatly increased point glue station's area, and point gum machine constructs need reciprocating motion between two microscope carriers, has increased the stroke of gluing.

For solving the above problem, this embodiment provides a point gum microscope carrier mechanism, a display screen 1 is glued for, as shown in fig. 1, point gum microscope carrier mechanism includes point gum position and the material discharge position that sets up along the X direction interval, point gum microscope carrier mechanism still includes two microscope carriers 2 and adsorption component 3, two microscope carriers 2 are along vertical direction interval arrangement, two microscope carriers 2 homoenergetic move between point gum position and the material discharge position, every microscope carrier 2 has all seted up the absorption passageway, the absorption passageway includes the absorption hole, the absorption hole is located the upper surface of microscope carrier 2, adsorption component 3 is linked together with the absorption passageway, adsorption component 3 can make the absorption hole produce the adsorption affinity, in order to adsorb display screen 1 on microscope carrier 2.

The arrangement of the two carrying platforms 2 can realize that one carrying platform 2 can carry out glue dispensing at the glue dispensing position, the other carrying platform 2 can carry out unloading at the unloading position, the two carrying platforms 2 work simultaneously, and the production efficiency is improved. In addition, two microscope carriers 2 are arranged at intervals in the vertical direction, so that a channel for transporting the glue between the discharging positions can be shared, the floor area of the glue dispensing microscope carrier mechanism is reduced, the glue dispensing mechanism only needs to move up and down to dispense glue for two layers of microscope carriers 2, the glue dispensing mechanism does not need to move back and forth between the two microscope carriers 2 arranged side by side, the glue dispensing stroke in the horizontal direction of the glue dispensing mechanism is shortened, and the production efficiency is improved. Moreover, 3 drive settings of adsorption component are in the absorption hole of microscope carrier 2 upper surface, and the absorption hole produces the adsorption affinity, can make things convenient for, swiftly fix the display screen on microscope carrier 2, and display screen 1 takes place the position and rocks when avoiding some glue operations, influences the accuracy of point location, and the mode of adsorbing fixed display screen through the absorption hole is very safe, can not cause the display screen to produce to collide with the fish tail. Specifically, in this embodiment, the suction passage is a channel dug inside the stage 2, the suction hole is an outlet end of the suction passage, and the suction hole is provided at a position on the upper surface of the stage 2 where the display screen 1 is placed. The adsorption assembly 3 may be a vacuum generator which is in communication with the adsorption passage through an air tube.

In order to realize the connection between the adsorption passage and the adsorption component 3, the adsorption passage is further provided with an inlet end which is communicated with the adsorption component 3, the inlet end is arranged on the side surface or the lower surface of the carrying platform 2, or both the side surface and the lower surface can be arranged. The adsorption component 3 is vacuumized, and the adsorption passage is communicated with the adsorption component 3 through the inlet end and adsorbs the display screen 1 through the adsorption hole. Be connected with the trachea between entry end and the adsorption component 3, the entry end sets up can avoid the trachea to interfere the placing that is located the display screen of microscope carrier 2 upper surface at the upper surface of microscope carrier 2 or side.

Specifically, in the present embodiment, the inlet end of the suction passage of the upper stage 2 is provided on the side surface of the stage 2. By arranging the inlet end of the suction passage on the side of the stage 2, the air tube between the inlet end of the suction passage of the upper stage 2 and the suction module 3 does not extend below the upper stage 2. When lower floor's microscope carrier 2 and upper strata microscope carrier 2 move to vertical direction coincidence to opposite direction, the setting of the entry end of upper strata microscope carrier 2 can avoid lower floor's microscope carrier 2 to hang or rub the trachea that upper strata microscope carrier 2 is connected in the side of microscope carrier 2, guarantees that microscope carrier 2 transportation is smooth and easy.

Further, the inlet end of the suction passage of the lower stage 2 is provided on the lower surface of the stage 2, and the suction passage may be provided in the form of a through hole, the opening of which on the upper surface of the stage 2 is a suction hole, and the opening of which on the lower surface of the stage 2 is an inlet end. The processing technology of the through hole is simple, and the processing cost of the adsorption passage is greatly reduced. Of course, in other embodiments, the inlet end may be disposed on the upper surface of the carrier 2 according to actual requirements, as long as the inlet end does not interfere with the placement of the product.

In order to reduce the number of times of movement of the carrier 2 without affecting the dispensing efficiency, as shown in fig. 1, each carrier 2 is provided with 2 placing positions side by side, and each placing position can be provided with one display screen 1. One carrying platform 2 bears the two display screens 1, the carrying platform 2 can realize the dispensing and discharging of the two display screens 1 once in a reciprocating motion manner, and the production cost is reduced on the basis of not reducing the production efficiency.

To realize the automation of the movement of the stage, as shown in fig. 1, the dispensing stage mechanism further includes a stage driving assembly 8, and an output end of the stage driving assembly 8 is connected to the stage 2 and can drive the stage 2 to move along the Y direction. The arrangement of the stage drive assembly 8 enables automation of the movement of the stage 2. The carrier driving assemblies 8 are two groups, and each group of carrier driving assemblies 8 correspondingly drives one carrier 2. Specifically, in this embodiment, the stage driving assembly 8 may be a linear motor, an output end of the linear motor is connected to the stage 2, and the linear motor can drive the stage 2 to move along the Y direction. In other embodiments, the stage driving assembly 8 may also be a motor cooperating with a screw nut, the nut is connected to the stage 2, and the motor drives the screw nut to rotate, so that the nut drives the stage 2 to move between the dispensing position and the unloading position.

In order to make the movement process of the carrier 2 more stable and smooth, as shown in fig. 1, a guide assembly 9 is arranged between the carrier 2 and the dispensing carrier mechanism frame body, and the guide assembly 9 is arranged along the Y direction. The guide assembly 9 can enable the movement of the carrier 2 between the dispensing positions to be more stable and smooth, and can ensure the accurate movement direction of the carrier 2. Specifically, in this embodiment, the guide assembly 9 is a guide rail 91 and a slider 92, the guide rail 91 is disposed on the dispensing stage mechanism frame body, the slider 92 is connected to the stage 2, and the slider 92 can drive the stage 2 to slide along the guide rail 91, so as to ensure that the stage 2 moves smoothly. In other embodiments, the guiding assembly 9 may also be a guiding protrusion and a guiding groove, one of the carrier 2 and the dispensing carrier mechanism frame body is provided with the guiding protrusion, and the other is provided with the guiding groove, and the guiding protrusion is in sliding fit with the guiding groove.

Further, in order to determine whether the dispensing mechanism and the structure for realizing the discharging start operating, it is necessary to check whether the carrier 2 is located at the discharging position or not, as shown in fig. 1, the dispensing carrier mechanism further includes a first detection assembly 6 and a second detection assembly 7, the first detection assembly 6 is disposed at the dispensing position and can detect whether the carrier 2 is located at the dispensing position, and the second detection assembly 7 is disposed at the discharging position and can detect whether the carrier 2 is located at the discharging position. Through set up detection component at the position of gluing and the position of unloading, can detect whether there is microscope carrier 2 corresponding to the position, whether the structure of being convenient for confirm the mechanism of gluing and realizing unloading begins the operation.

Specifically, in this embodiment, the first detecting assembly 6 may be two position sensors, the signal emitting sources of the two position sensors are disposed at the dispensing positions, the signal receiving sources are disposed on the two stages 2, and each first detecting assembly 6 detects one stage 2 correspondingly. The second detecting components 7 can be two position sensors, signal emitting sources of the two position sensors are arranged at the discharging position, signal receiving parts are respectively arranged on the two carrying platforms 2, and each second detecting component 7 can correspondingly detect whether one carrying platform 2 reaches the discharging position.

Generally, the display screen 1 includes a screen 11 and a flexible circuit board 12, the screen 11 and the flexible circuit board 12 are made of different materials, so that the adsorption force required for fixing is different, and in order to prevent the display screen 1 from damaging the display screen in the adsorption process, the screen 11 and the flexible circuit board 12 need to be adsorbed respectively, as shown in fig. 2, the carrier 2 includes a first bearing portion 21 and a second bearing portion 22, the first bearing portion 21 is used for bearing the screen 11, the first bearing portion 21 is provided with a first adsorption passage 4, the first adsorption passage 4 can adsorb and fix the screen 11, the second bearing portion 22 is used for bearing the flexible circuit board 12, the second bearing portion 22 is provided with a second adsorption passage 5, and the second adsorption passage 5 is used for adsorbing and fixing the flexible circuit board 12. Can adsorb screen 11 and flexible circuit board 12 respectively through setting up first absorption route 4 and second absorption route 5, avoid the too big damage display screen 1 of adsorption affinity or the unable fixed condition of realizing adsorbing of adsorption affinity undersize.

Specifically, in the present embodiment, as shown in fig. 2, the first adsorption passage 4 includes a first adsorption hole 41 and a first inlet end 42, the first adsorption hole 41 is disposed on the upper surface of the first bearing part 21, and the first inlet end 42 is disposed on the side surface of the first bearing part 21. The second adsorption passage 5 includes a second adsorption hole and a second inlet end 52, the second adsorption hole is disposed on the upper surface of the second bearing portion 22, the second inlet end is disposed on the side surface of the second bearing portion 22, the second adsorption hole may be a second adsorption long hole 511, or may be a second adsorption circular hole 512, and the second adsorption hole is selected as the second adsorption long hole 511 in this embodiment.

In actual production, the connection positions of the flexible circuit board 12 and the screen 11 of different display screens 1 may be different, so that the position of the second suction hole needs to be adjusted to be compatible with different display screens 1 when the suction position of the screen 11 is fixed.

To solve the above problem, the first solution provided by this embodiment is: as shown in fig. 2, the second suction passage 5 has a plurality of second suction holes, and the plurality of second suction holes can be selectively opened. The plurality of second adsorption holes are not used and are in a blocking state, when the display screen 1 needs to be adsorbed, the second adsorption holes corresponding to the positions of the flexible circuit board 12 are opened, and the flexible circuit board 12 can be adsorbed by the second adsorption holes. Therefore, by opening different second suction holes, the stage 2 can be adapted to carry different display screens 1. Specifically, the second long adsorption holes 511 are selected as the second adsorption holes in this embodiment, the second long adsorption holes 511 may be one row or multiple rows uniformly distributed on the upper surface of the second carrying portion along the second direction (the X direction shown in fig. 1), and when the plurality of second adsorption holes are not used, they may be blocked by an adhesive tape, or may be blocked by a blocking plug with a proper size.

The second solution provided by this embodiment is: as shown in fig. 3, the second bearing portion 22 includes a slider 222 and a sliding rod 221 arranged along the X direction, the slider 222 can move along the sliding rod 221, the relative position of the slider 222 and the sliding rod 221 along the X direction can be adjusted, the slider 222 is provided with a second suction passage 5, and a second suction hole of the second suction passage 5 is arranged on the upper surface of the slider 222. By adjusting the relative position of the slider 222 with respect to the sliding rod 221, the position of the second suction hole can be adjusted, so that the position of the second suction hole is aligned with the position of the flexible circuit board 12 and is sucked, and the carrier 2 can adapt to different display screens 1. Specifically, in this embodiment, the second suction hole is a second suction circular hole 512, the second inlet end 52 is disposed on the lower surface of the slider 222, and the second inlet end 52 is communicated with the suction assembly 3. In other embodiments, the second suction hole may be selected from the second suction long holes 511.

Specifically, in order to adjust and fix the position of the slider 222 relative to the sliding rod 221, as shown in fig. 3, the second bearing portion 22 further includes a positioning assembly, the positioning assembly includes a plurality of first positioning holes 2211, a plurality of second positioning holes 2221, and a fixing member, the plurality of first positioning holes 2211 are spaced apart from each other on the sliding rod 221 along the length direction of the sliding rod 221, the second positioning holes 2221 are disposed on the slider 222, the second positioning holes 2221 can selectively face the first positioning holes 2211, and the fixing member sequentially passes through the second positioning holes 2221 and the first positioning holes 2211 facing thereto, so that the slider 222 is fixed on the sliding rod 221. According to the position of the slider 222 adjusted by the position of the flexible circuit board 12, the second positioning hole 2221 is aligned with the first positioning hole 2211 at the corresponding position, and then the position of the slider 222 is fixed by sequentially passing through the second positioning hole 2221 and the first positioning hole 2211 by the fixing member.

The working process of the dispensing station of the embodiment is as follows:

step 1: after entering a dispensing station, a display screen 1 is placed on a first carrying platform 2 of a dispensing position;

step 2: opening a second long absorption hole 511 on the second bearing part 22 corresponding to the position of the flexible circuit board 12 of the display screen 1, and absorbing the display screen 1 on the first carrying platform 2 by the absorption component 3;

step 2': the slider 222 slides to a position, corresponding to the flexible circuit board 12 of the display screen 1, of the second adsorption circular hole 512 on the slider 222, the slider 222 is fixed by a fixing part, and the adsorption component 3 adsorbs the display screen on the first carrying platform 2;

and step 3: the dispensing mechanism dispenses the display screen 1 on the first carrying platform 2;

and 4, step 4: after the glue is dispensed, the first carrier 2 moves to the unloading position and unloads;

and 5: after the first carrier 2 finishes unloading, the first carrier moves from the unloading position to the dispensing position;

step 6: after the first carrier 2 leaves the dispensing station, the subsequent display screen 1 enters the dispensing station and is placed on the second carrier 2 of the dispensing station, and the steps 1 to 5 are continued.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (10)

1. The utility model provides a point is glued microscope carrier mechanism for carry out the point to display screen (1), point is glued microscope carrier mechanism and is included the point that sets up along first direction interval and a discharge position, its characterized in that, point is glued microscope carrier mechanism and still includes:

the two carrying platforms (2) are arranged at intervals in the vertical direction, the two carrying platforms (2) can move between the dispensing position and the unloading position, each carrying platform (2) is provided with an adsorption passage, each adsorption passage comprises an adsorption hole, and the adsorption holes are located on the upper surface of the carrying platform (2);

an adsorption component (3) communicated with the adsorption passage, wherein the adsorption component is configured to enable the adsorption hole to generate adsorption force so as to adsorb the display screen (1) on the carrying platform (2).

2. The dispensing carrier mechanism of claim 1, wherein the suction passage is further provided with an inlet end, the inlet end is communicated with the suction assembly, and the inlet end is arranged on the side surface and/or the lower surface of the carrier (2).

3. Station as claimed in any of claims 1-2, characterized in that said display screen (1) comprises a screen (11) and a flexible circuit board (12), said station (2) comprising:

a first bearing part (21) configured to bear the screen (11), the first bearing part (21) being provided with a first adsorption passage (4); and

a second bearing part (22) configured to bear the flexible circuit board (12), wherein the second bearing part (22) is provided with a second adsorption passage (5).

4. The carrier mechanism for dispensing adhesive according to claim 3, wherein the second suction holes of the second suction passage (5) are plural and can be selectively opened.

5. The carrier dispensing mechanism of claim 3, wherein the second carrier (22) comprises:

a slide bar (221) disposed along a second direction; and

the sliding block (222) can move along the sliding rod (221), the relative position of the sliding block (222) and the sliding rod (221) in the second direction can be adjusted, the sliding block (222) is provided with the second adsorption passage (5), and a second adsorption hole of the second adsorption passage (5) is formed in the upper surface of the sliding block (222).

6. The carrier dispensing mechanism of claim 5, wherein the second carrier portion (22) further comprises a positioning assembly, the positioning assembly comprising:

a plurality of first positioning holes (2211) arranged on the sliding rod (221) at intervals along the second direction;

a second positioning hole (2221) formed in the slider (222), wherein the second positioning hole (2221) can be selectively aligned with the first positioning hole (2211); and

the fixing piece sequentially penetrates through the second positioning hole (2221) and the first positioning hole (2211) opposite to the second positioning hole (2221) so as to enable the sliding block (222) to be fixed on the sliding rod (221).

7. The carrier mechanism for dispensing of any of claims 1-2, wherein the carrier mechanism for dispensing further comprises:

a first detection assembly (6) arranged at the dispensing position, the first detection assembly (6) being configured to detect whether the carrier (2) is at the dispensing position; and/or

A second detection component (7) arranged at the discharge location, the second detection component (7) being configured to detect whether the carrier (2) is at the discharge location.

8. The dispensing stage mechanism of any of claims 1-2, further comprising a stage drive assembly (8), an output of the stage drive assembly (8) being coupled to the stage (2).

9. Dispensing stage mechanism according to claim 8, characterized in that a guide member (9) is arranged between the stage (2) and the dispensing stage mechanism frame, the guide member (9) being configured to move the stage (2) in a first direction.

10. A dispensing station comprising a dispensing stage mechanism as claimed in any one of claims 1 to 9.

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