CN210565565U - Assembly equipment for intelligent wearable device - Google Patents

Abstract

The utility model relates to a mechanical assembly technical field provides an rigging equipment for device is dressed to intelligence. The assembling equipment comprises a control assembly, a positioning and assembling assembly and a driving assembly, wherein the positioning and assembling assembly and the driving assembly are installed on the control assembly, the positioning and assembling assembly is used for positioning a first element and a second element to be assembled, the positioning and assembling assembly comprises a base used for positioning the first element and an upper cover rotatably connected to the base, the positioning and assembling assembly further comprises a moving part movably arranged on the upper cover, and the driving assembly can drive the moving part to move towards the base under the control of the control assembly.

Description

Assembly equipment for intelligent wearable device

Technical Field

The utility model relates to a mechanical assembly technical field especially relates to an rigging equipment for device is dressed to intelligence.

Background

Device is dressed to intelligence such as intelligence wrist-watch, bracelet is the mobile terminal who commonly uses among people's daily life, and it can not only be used for signal transmission, also plays the decorative effect to a certain extent, especially along with the development of science and technology, and this kind of intelligence is dressed the device and is deeply liked by consumer. The main part of device is dressed to common intelligence is formed by lower main part and the equipment such as display screen of bonding in main part down usually, and accurate nature when its equipment has influenced this intelligence and has dressed the final performance of device to a great extent.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a convenient assembling's rigging equipment that is used for intelligence to dress device.

The utility model provides an rigging equipment for intelligence wearing device, include the control assembly, install location and assembly subassembly and drive assembly on the control assembly, location and assembly subassembly are used for the location to treat first component and the second component of assembly, location and assembly subassembly are including being used for the location the base of first component is with rotationally connect upper cover on the base, location and assembly subassembly still include movably arranging moving member on the upper cover under the control of control assembly, drive assembly can drive the moving member orientation the base removes.

In some embodiments, at least one elastic member is disposed between the moving member and the upper cover, and both ends of the elastic member respectively abut against the moving member and the upper cover.

In some embodiments, the upper cover is provided with a first positioning hole on a side facing the moving member, the moving member is provided with a second positioning hole at a corresponding position, the elastic member is a spring, and two ends of the spring are respectively positioned in the first positioning hole and the second positioning hole under the action of elastic force.

In some embodiments, the assembling device further comprises a positioning member fixed on the upper cover, the moving member is arranged between the upper cover and the positioning member, at least one through hole is formed in the positioning member, and the driving assembly drives the moving member to move through the through hole.

In some embodiments, an opening is formed in the middle of the positioning member, a convex portion protrudes outwards from one side of the moving member facing the positioning member, and the convex portion penetrates through the positioning member from the opening.

In some embodiments, the driving assembly includes a bracket fixed to the control assembly, a cylinder mounted on the bracket, and a ram fixed to an end of the cylinder and driven by the cylinder to move up and down.

In some embodiments, the ram drives the moving member to move through the positioning member.

In some embodiments, the base is provided with a first positioning cavity and a first channel for positioning the first element, the first channel is perpendicular to the first positioning cavity, and the upper cover is provided with a corresponding second channel corresponding to the first channel, the first channel and the second channel enable a clamp to enter the positioning and assembling assembly to clamp the first element and the second element.

In some embodiments, the moving member comprises a suction head for positioning the second element in the upper cover, and a second positioning cavity for accommodating the suction head is arranged at a position of the upper cover corresponding to the first positioning cavity of the base.

In some embodiments, the mounting apparatus further comprises a shutter assembly disposed at the positioning and mounting assembly side, the shutter assembly comprising a shutter plate movable to the first positioning cavity of the base.

Compared with the prior art, the embodiment of the utility model provides an assembly equipment easy operation for device is dressed to intelligence and can guarantee the precision of assembly.

Drawings

Figure 1 shows that can utilize the utility model discloses an intelligence that rigging equipment assembled dresses device's casing and display screen.

Fig. 2 shows a schematic structural diagram of an embodiment of the assembling apparatus of the present invention.

Fig. 3 shows a schematic view of the positioning and mounting assembly of the mounting device of fig. 2.

Fig. 4 shows a schematic view of the positioning and mounting assembly of fig. 3 when open.

Fig. 5 shows an exploded view of the positioning and mounting assembly of fig. 3.

Fig. 6 shows a partially exploded view of the positioning and mounting assembly of fig. 3 mounting the housing and display of the smart-wearable device to be assembled.

3 figure 3 7 3 illustrates 3 a 3 cross 3- 3 sectional 3 view 3 of 3 the 3 positioning 3 and 3 mounting 3 assembly 3 of 3 figure 33 3 taken 3 along 3 section 3 line 3 a 3- 3 a 3. 3

Fig. 8 shows a schematic structural view of a part of the components of the mounting device shown in fig. 2.

Fig. 9 is a schematic structural diagram of the assembling device shown in fig. 2, which is used for installing the housing and the display screen of the intelligent wearable device to be assembled.

Fig. 10 shows a partial cross-sectional view of the mounting apparatus of fig. 2 mounting a housing and a display screen of a smart-wearable device to be assembled.

Fig. 11 shows the main body of the intelligent wearable device assembled by the assembling equipment of the utility model, wherein the shell and the display screen are shown in fig. 1.

Reference numerals: 100, assembling equipment; 10 a control assembly; 11, supporting a table; 20 a shutter assembly; 21 a fixing member; 22 a second cylinder; 23 a shielding plate; 231 a notch; 30 positioning and assembling the components; 31 a base; 311 a first positioning cavity; 312 a first channel; 32, covering the upper cover; 321 a second positioning cavity; 322 a boss; 323 a first positioning hole; 324 a third positioning cavity; 333 a fourth positioning cavity; 33 a positioning member; 331 through holes; 332 is opened; 334 a second channel; 335 a containing groove; 34 a moving member; 341 a suction head; 342 moving the plate; 343 a convex part; 344 second positioning hole; 36 an elastic member; 40 a drive assembly; 41 a bracket; 42 a first cylinder; 43 a pressure plate; 44 indenter; 50, a clamp; 200 a main body of the smart wearable device; 201 a housing; 202 a display screen; 60 barometer.

Detailed Description

In order to facilitate understanding of the utility model, the following description will be made with reference to the relevant drawings. One or more embodiments of the present invention are illustrated in the accompanying drawings to provide a more accurate and thorough understanding of the disclosed embodiments. It should be understood, however, that the present invention may be embodied in many different forms and is not limited to the embodiments described below.

The utility model discloses an rigging equipment is used for assembling the display screen of device with intelligence and casing together in order to constitute the main part that the device was dressed to intelligence, is suitable for the utilization the utility model discloses a casing 201 and display screen 202 that the device was dressed to rigging equipment's intelligence are shown in FIG. 1. Further, fig. 11 shows the main body 200 of the intelligent wearable device formed by assembling the casing 201 and the display screen 202 by the assembling device of the present invention, wherein the display screen 202 is adhered to the casing 201.

As shown in fig. 2, the assembling apparatus 100 for an intelligent wearable device of the present invention includes a control component 10, a positioning and assembling component 30 installed on a supporting platform 11 of the control component 10, a driving component 40, and a shielding component 20. The positioning and mounting assembly 30 is used to position the housing 201 and display screen 202 to be mounted. The shielding assembly 20 is used for partially shielding the housing 201 after the housing 201 to be assembled and the display screen 202 are positioned in the positioning and assembling assembly 30 under the control of the control assembly 10, so as to prevent the adhesive arranged on the housing 201 from contaminating the wires connected with the terminals, such as the flat cable, when the connection of the display screen 202 with the terminals of the housing 201 is performed. After the positioning and assembling assembly 30 is closed, the control assembly 10 controls the driving assembly 40 to drive the positioning and assembling assembly 30 to assemble the housing 201 and the display screen 202. The control assembly 10 preferably includes a display for displaying the assembly process, manipulation buttons, etc., for facilitating a user to view device status, enter commands, etc.

Referring to fig. 3 to 5 together, specifically, the positioning and assembling assembly 30 includes a base 31, an upper cover 32 pivotably connected to the base 31, a positioning member 33 fixed to the upper cover 32, and a moving member 34 movable up and down with respect to the positioning member 33. The base 31 is used to position the housing 201. In the present embodiment, the base 31 is fixed to the support base 11, and is preferably attached to the support base 11 by a fixing member such as a screw. The upper cover 32 is used to position a moving member 34 movable therein. The upper cover 32 is preferably rotatably connected to the base 31 by a pin or the like. The positioning member 33 is fixed to the side of the upper cover 32 away from the base 31. In other words, when the positioning and assembling unit 30 is closed, the base 31, the upper cover 32, and the positioning member 33 are sequentially stacked. The moving member 34 is disposed between the upper cover 32 and the positioning member 33, and moves up and down with respect to the upper cover 32 and the positioning member 33. A suction head 341 is provided at a side of the moving member 34 facing the base 31. The moving member 34 moves the display 202 positioned on the attraction head 341 to the housing 201 disposed in the base 31 under the driving of the driving assembly 40 to achieve the adhesion of the display 202 to the housing 201. The suction head 341 fixes the display 202 by negative pressure, thereby protecting the display 202 from the clamping member.

In this embodiment, the base 31 is provided with a first positioning cavity 311 and a first channel 312 for positioning the housing 201. The outer contour of the first positioning cavity 311 matches the housing 201. The first channel 312 is disposed perpendicular to the first positioning cavity 311 and parallel to the support stage 11. In this embodiment, the first channel 312 extends transversely through the base 31, i.e., from one sidewall of the base 31 through the opposite sidewall. Alternatively, the first channel 312 may be partially open on the base 31, i.e. the first channel 311 is open only at one side and closed at the other side. The upper cover 32 is provided with a second positioning cavity 321 at a position corresponding to the first positioning cavity 311 of the base 31. The second positioning chamber 321 is used for accommodating the suction head 341. At the end of the second positioning cavity 321 remote from the first positioning cavity 311, a third positioning cavity 324 is provided. The third positioning cavity 324 is disposed opposite to the second positioning cavity 321, and has a size larger than that of the second positioning cavity 321. The second positioning cavity 321 and the third positioning cavity 324 jointly penetrate through the upper cover 32. Referring to fig. 6 and 7 together, the positioning member 33 is provided with a fourth positioning chamber 333 at a position corresponding to the third positioning chamber 324. The moving member 34 further includes a moving plate 342, and the suction head 341 is mounted on the moving plate 342. The moving plate 342 is movably accommodated in the third positioning chamber 324 and the fourth positioning chamber 333.

Referring to fig. 6 and 7 together, the moving member 34 is disposed between the upper cover 32 and the positioning member 33 and is movable up and down with respect to the upper cover 32 and the positioning member 33. In this embodiment, the moving member 34 is at least partially accommodated in the upper cover 32. The moving member 34 is driven by the driving assembly 40 to move in the direction from the positioning member 33 to the upper cover 32. In order to drive the moving member 34 through the positioning member 33 fixed to the upper cover 32, the positioning member 33 is provided with at least one through hole 331. In the present embodiment, the number of the through holes 331 is four.

Referring to fig. 5 and 8 together, the driving assembly 40 includes a bracket 41 fixed to the support table 11, a first air cylinder 42 mounted on the bracket 41, a pressing plate 43 fixed to an end of the first air cylinder 42 to be movable up and down by the first air cylinder 42, and a pressing head 44 disposed on the pressing plate 43. The ram 44 is disposed toward the positioning and mounting assembly 30 and is movable up and down relative to the positioning and mounting assembly 30. The position of the pressing head 44 corresponds to the through hole 331 of the positioning member 33. The ram 44 is driven by the first cylinder 42 to drive the moving member 34 to move through the through hole 331. In this embodiment, the driving assembly 40 further includes a gas pressure gauge 60 for the user to set and check the pressure of the first gas cylinder 42.

In order to achieve the restoration of the moving member 34 in the direction from the upper cover 32 to the positioning member 33, at least one elastic member 36 is disposed between the moving member 34 and the upper cover 32, and both ends of the elastic member 36 abut against the moving plate 342 of the moving member 34 and the upper cover 32, respectively. In this embodiment, the resilient member 36 is a spring that is compressively positioned between the moving plate 342 and the upper cover 32. Preferably, the elastic members 36 are four in order to enable smooth movement of the moving member 34. The third positioning cavity 324 of the upper cover 32 is provided with a first positioning hole 323, and the fourth positioning cavity 333 of the moving member 34 is provided with a second positioning hole 344 at a corresponding position to position the elastic member 36 and reliably hold the elastic member 36 at a desired position.

In this embodiment, the middle of the positioning member 33 is further provided with a receiving groove 335. The receiving groove 335 extends in a transverse direction. The middle portion of the accommodating groove 335 forms an opening 332 that penetrates the positioning member 33 in the vertical direction. A protrusion 343 protrudes outward from the moving member 34 toward the positioning member 33. The protrusion 343 may pass through the opening 332. This configuration can further ensure reliable positioning of the moving member 34 having the convex portion 343 in the positioning member 33 because the configuration causes the movement of the moving member 34 in the horizontal direction along the positioning member 33 to be prevented. This construction is simple and easy to implement for the manufacturer. Preferably, the outer profile of the protrusion 343 is semi-cylindrical.

Referring to fig. 4, 6 and 7, the side of the upper cover 32 facing the base 31 is further provided with two bosses 322 extending from two ends near the outer periphery of the second positioning cavity 321 in the vertical direction, and the two bosses 322 are oppositely and spaced apart to form a second channel 334 therebetween. The inner contour of the two bosses 322 matches the outer shape of the display 202 to be assembled. The size of the bottom surface of the boss 322 is equal to or larger than the size of the second positioning cavity 321 on the bottom surface to allow the suction head 341 of the moving member 34 to partially move from the second positioning cavity 321 of the upper cover 32 to the boss 322 so as to press the display screen 202 on the housing 201 during assembly, thereby adhering the display screen 202 on the housing 201. The second passage 334 corresponds to the first passage 312 of the base 31, forming a passage for the clamp 50 to enter. When the display 202 is adhered to the housing 201, the clamp 50 enters the positioning and assembling assembly 30 through the first passage 312 and the second passage 334 to clamp the assembled display 202 and housing 201 together, so as to ensure that the display 202 and housing 201 are tightly connected when the adhesive is cured. In this embodiment, the clamp 50 is an L-shaped spring clamp.

Further, in order to avoid that the adhesive which has been disposed on the housing 201 affects the connection between the housing 201 and the terminals of the display screen 202, the shutter assembly 20 is disposed on the positioning and fitting assembly 30 side. As shown in fig. 9, the shutter assembly 20 includes a fixing member 21 fixed to the support table 11, a second cylinder 22 mounted on the fixing member 21, and a shutter 23 driven by the second cylinder 22. The shielding plate 23 is provided with a notch 231 at its end facing the positioning and fitting assembly 30. The shielding assembly 20 moves under the control of the control assembly 10, thereby shielding the housing 201. In this embodiment, two shielding assemblies 20 are respectively disposed on two sides of the positioning and assembling assembly 30. After the housing 201 and the display screen 202 are respectively positioned at the corresponding positions of the positioning and assembling component 30, the second cylinder 22 can drive the shielding plate 23 to move to the upper side of the housing 201 by operating the corresponding function keys on the control component 10, so as to shield the adhesive arranged on the housing 201. In this embodiment, after the two recesses 231 are engaged with each other, the enclosed region thereof exposes the inside of the housing 201 to facilitate the connection between the terminals. After the terminals are connected, the shutter 23 can be removed from the positioning and fitting assembly 30 by operating the control assembly 10 using the second cylinder 22.

A specific operation process of the assembling apparatus 100 for an intelligent wearable device of the present invention is described below with reference to fig. 5, 9 and 10. Firstly, the user opens the upper cover 32 of the positioning and assembling assembly 30, positions the housing 201 and the display 202 at corresponding positions, respectively, drives the second cylinder 22 of the shielding assembly 20 to move the shielding plate 23 to the housing 201, connects the terminals of the housing 201 and the display 202, then moves the shielding plate 23 away from the positioning and assembling assembly 30, closes the upper cover 32, operates the control assembly 10 to drive the first cylinder 42 of the driving assembly 40, so as to drive the ram 44 on the pressure plate 43 to move through the through hole 331 on the positioning member 33 and drive the moving member 34 to move towards the base 31, moves the display 202 fixed on the suction head 341 of the moving member 34 to the housing 201, causes the display 202 to adhere to the housing 201, and the clamp 50 enters the positioning and assembling assembly 30 through the first passage 312 and the second passage 334 to clamp the assembled housing 201 and display 202, the first cylinder 42 is withdrawn, the upper cover 32 is opened, and the clamp 50 clamps the housing 201 and the display screen 202 together, thereby ensuring close contact between the housing 201 and the display screen 202 during the adhesive curing process and improving the connection stability of the housing 201 and the display screen 202. The operation is simple and convenient.

The assembly equipment for the intelligent wearable device is simple to operate, and can ensure the assembly precision and prevent the damage of materials.

It should be noted that the present invention is not limited to the above embodiments, and other changes can be made by those skilled in the art according to the spirit of the present invention, and all the changes made according to the spirit of the present invention should be included in the scope of the present invention.

Claims (10)

1. An assembling device (100) for an intelligent wearable device, comprising a control component (10), a positioning and assembling component (30) and a driving component (40) which are installed on the control component (10), wherein the positioning and assembling component (30) is used for positioning a first element (201) and a second element (202) to be assembled, the positioning and assembling component (30) comprises a base (31) used for positioning the first element (201) and an upper cover (32) rotatably connected on the base (31), and is characterized in that the positioning and assembling component (30) further comprises a moving part (34) movably arranged on the upper cover (32), and the driving component (40) can drive the moving part (34) to move towards the base (31) under the control of the control component (10).

2. The fitting apparatus (100) for smart wearable devices according to claim 1, characterized in that at least one elastic member (36) is arranged between the moving member (34) and the upper cover (32), both ends of the elastic member (36) abutting against the moving member (34) and the upper cover (32), respectively.

3. The fitting apparatus (100) for a smart wearable device according to claim 2, characterized in that the upper cover (32) is provided with a first positioning hole (323) on a side facing the moving member (34), the moving member (34) is provided with a second positioning hole (344) at a corresponding position, the elastic member (36) is a spring, and both ends of the spring are positioned in the first positioning hole (323) and the second positioning hole (344), respectively, by an elastic force.

4. The assembling apparatus (100) for an intelligent wearable device according to claim 1, wherein the assembling apparatus (100) further comprises a positioning member (33) fixed on the upper cover (32), the moving member (34) is disposed between the upper cover (32) and the positioning member (33), the positioning member (33) is provided with at least one through hole (331), and the driving component (40) drives the moving member (34) to move through the through hole (331).

5. The assembling equipment (100) for the intelligent wearable device according to claim 4, wherein an opening (332) is opened in the middle of the positioning member (33), a convex part (343) is protruded outwards from one side of the moving member (34) facing the positioning member (33), and the convex part (343) penetrates through the positioning member (33) from the opening (332).

6. The mounting apparatus (100) for a smart wearable device according to claim 4, characterized in that the driving assembly (40) includes a bracket (41) fixed to the control assembly (10), a cylinder (42) mounted on the bracket (41), and a ram (44) fixed to an end of the cylinder (42) and driven by the cylinder (42) to move up and down.

7. The mounting apparatus (100) for a smart wearable device according to claim 6, characterized in that the ram (44) drives the moving member (34) to move through the positioning member (33).

8. The fitting apparatus (100) for a smart wearable device according to claim 1, characterized in that the base (31) is provided with a first positioning cavity (311) and a first channel (312) for positioning the first element (201), the first channel (312) being perpendicular to the first positioning cavity (311) in the horizontal direction, the upper cover (32) being provided with a corresponding second channel (334) in correspondence of the first channel (312), the first channel (312) and the second channel (334) enabling a clamp (50) to enter the positioning and fitting assembly (30) to clamp the first element (201) and the second element (202).

9. The fitting apparatus (100) for a smart wearing device according to claim 8, wherein the moving member (34) includes a suction head (341) for positioning the second element (202) in the upper cover (32), and a second positioning cavity (321) for accommodating the suction head (341) is provided at a position of the upper cover (32) corresponding to the first positioning cavity (311) of the base (31).

10. The mounting apparatus (100) for a smart wearable device according to claim 8, characterized in that the mounting apparatus (100) further comprises a shutter assembly (20) arranged at the positioning and mounting assembly (30) side, the shutter assembly (20) comprising a shutter plate (23) movable to the first positioning cavity (311) of the base (31).

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