CN209867907U - Cell-phone wireless earphone box equipment that charges - Google Patents

Abstract

The utility model relates to a wireless earphone of cell-phone box equipment of charging, bottom plate in including the frame and being fixed in the frame, be equipped with the feeding streamline and ejection of compact streamline, carrier transport module, counterpoint motor group and the detection module that are used for transmitting the carrier on the bottom plate, carrier transport module is used for carrying the carrier on the feeding streamline to ejection of compact streamline, the product subassembly is equipped with in the carrier, and wherein the product subassembly includes product one and product two, counterpoint motor group is used for carrying out position adjustment to product two in the carrier and assembles product one and product two correctly, the detection module is used for shooing the location to the product subassembly in the carrier. The utility model discloses an equipment precision reaches within 0.01mm, and production efficiency reaches UPH330, and ejection of compact yield 100% has the advantage that the packaging efficiency is high, the precision is high and the yield is high.

Description

Cell-phone wireless earphone box equipment that charges

Technical Field

The utility model relates to an equipment, concretely relates to cell-phone wireless headset box equipment of charging.

Background

With the progress of electronic technology, electronic products have become important tools in people's lives. In order to improve the convenience of electronic products, wireless charging devices are becoming an important power transmission mode. However, the wireless earphone charging box still has a manual assembly process at present, so that the labor cost is high, the production efficiency is low, and the product quality cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model provides a cell-phone wireless headset box equipment of charging, this equipment can be in the same place the upper cover and the lower cover equipment of box of charging, has realized the full automatization of this process, has greatly improved the production efficiency of product.

The utility model discloses a solve the technical scheme that its technical problem adopted and be:

the utility model provides a cell-phone wireless headset box equipment that charges, includes the frame and is fixed in the bottom plate in the frame, be equipped with the feeding streamline and the ejection of compact streamline, carrier transport module, counterpoint motor group and the detection module that are used for transmitting the carrier on the bottom plate, carrier transport module is used for carrying the carrier on the feeding streamline to ejection of compact streamline, the product subassembly is equipped with in the carrier, and wherein the product subassembly includes product one and product two, counterpoint motor group is used for carrying out position adjustment to product two in the carrier and assembles product one correctly with product two, the detection module is used for shooing the location to the product subassembly in the carrier.

Preferably, the feeding streamline is arranged along the length direction of the bottom plate, the length direction of the bottom plate is defined as an X-axis direction, the width direction of the bottom plate is defined as a Y-axis direction, and the discharging streamline is arranged in parallel with the feeding streamline.

Preferably, the feeding streamline includes a first frame, a first transmission belt arranged on the first frame and a first driving unit for driving the first transmission belt to operate, the discharging streamline includes a second frame, a second transmission belt arranged on the second frame and a second driving unit for driving the second transmission belt to operate, and a plurality of clamping units for fixing the carriers are arranged on two sides of the second frame.

Preferably, the second frame both sides are equipped with the clamping unit of two pairs of symmetries, clamping unit including fixed frame, be fixed in on the fixed frame driving motor and with driving motor in the clamping piece of piston rod fixed connection, driving motor drive clamping piece stretches out and fixes the carrier.

Preferably, the carrier includes the support frame, is fixed in the chassis on the support frame and is located the punch holder of chassis top, be equipped with on the chassis and carry out gliding Y axle board from beginning to end along the chassis, be equipped with on the Y axle board and carry out the X axle board of horizontal slip along the Y axle board, be equipped with on the X axle board and carry out the lower plate that can rotate for the X axle board, all be equipped with the female joint of outside salient on X axle board, Y axle board and the lower plate, the lower plate is used for pressing from both sides tight product one, and product two is arranged in on the product one and is fixed through the punch holder.

Preferably, the chassis and the Y-axis plate, and the Y-axis plate and the X-axis plate are slidably connected with each other through a sliding rail and a sliding groove, and the X-axis plate is provided with a rotating shaft which is just inserted into the slot of the lower clamping plate.

Preferably, the counterpoint motor group includes three counterpoint motor module, is X axle counterpoint motor module, Y axle counterpoint motor module and rotation axis counterpoint motor module respectively, ejection of compact streamline one side is located to Y axle counterpoint motor module and rotation axis counterpoint motor module, the below of ejection of compact streamline is located to X axle counterpoint motor module, counterpoint motor module is including being fixed in the first support on the bottom plate, being fixed in counterpoint motor on the first support and with the male joint of counterpoint motor's piston rod connection, during operation, this male joint just pegs graft on female joint.

Preferably, the carrier carrying module comprises a fixing frame fixed on the bottom plate, a Y-axis linear module fixed on the fixing frame, a Z-axis linear module slidably connected to the Y-axis linear module, and a clamping jaw slidably connected to the Z-axis linear module.

Preferably, the detection module comprises a second support fixed on the bottom plate, an X-axis linear module fixed on the second support and a detection head slidably connected to the X-axis linear module, and the detection head comprises a CCD module and a laser module.

The utility model has the advantages that: the utility model mainly comprises a feeding streamline, a carrier carrying module, a discharging streamline, a detection module and an alignment motor group, wherein the discharging streamline and the feeding streamline are arranged along the length direction of a bottom plate and run through the length of the whole bottom plate, a fixing frame in the carrier carrying module is arranged along the width direction of the bottom plate, a Y-axis linear module is positioned right above the feeding streamline and the discharging streamline, the detection module is arranged along the length direction of the bottom plate and is positioned at one side of the discharging streamline, a Y-axis alignment motor module and a rotating shaft alignment motor module are positioned below the laser module, and the X-axis alignment motor module is positioned on the bottom plate between two transmission belts of the discharging streamline, the utility model discloses an autonomous research and development product, which adopts a CCD camera and a 2D scanning combination to simultaneously detect the product from the side and controls the operation of the alignment motor group, thereby realizing the position control of the product in three directions of X axis, Y axis and rotation, thereby accomplish the automatic equipment of upper cover and lower cover in the wireless earphone box that charges, the utility model discloses an equipment precision reaches within 0.01mm, and production efficiency reaches UPH330, and ejection of compact yield 100% has the advantage that the packaging efficiency is high, the precision is high and the yield is high.

Drawings

Fig. 1 is a schematic structural view of the present invention;

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

FIG. 3 is a schematic view of the structure of the feeding flow line of the present invention;

FIG. 4 is a schematic structural view of the carrier of the present invention;

fig. 5 is a side view of the carrier of the present invention;

fig. 6 is a schematic structural view of a carrier according to another embodiment of the present invention;

fig. 7 is a schematic structural view of a carrier handling module according to the present invention;

FIG. 8 is a schematic structural view of a middle discharge flow line of the present invention;

fig. 9 is a schematic structural view of the alignment motor assembly of the present invention;

fig. 10 is a schematic structural diagram of a detection module according to the present invention;

fig. 11 is an overall structural schematic diagram of the present invention;

in the figure: 10-a frame, 11-a bottom plate, 20-a feeding flow line, 21-a first frame, 22-a first transmission belt, 30-a carrier, 31-a support frame, 32-a chassis, 33-an upper clamping plate, 34-a Y-axis plate, 35-an X-axis plate, 36-a lower clamping plate, 37-a female joint, 40-a carrier handling module, 41-a fixed frame, 42-a Y-axis linear module, 43-a Z-axis linear module, 44-a clamping jaw, 50-a discharging flow line, 51-a second frame, 52-a second transmission belt, 53-a clamping unit, 60-an alignment motor set, 61-a first support, 62-a motor, 63-a male joint, 64-an X-axis alignment motor module, 65-a Y-axis alignment motor module, 66-a rotating shaft alignment motor module, 70-detection module, 71-second support, 72-X axis linear module, 73-detection head, 80-product assembly.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to 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 work belong to the protection scope of the present invention.

Example (b): as shown in fig. 1 to 11, an assembling apparatus for a wireless earphone charging box of a mobile phone comprises a frame 10 and a bottom plate 11 fixed in the frame, wherein a feeding flow line 20 and a discharging flow line 50 for conveying a carrier 30, a carrier carrying module 40, an alignment motor 60 and a detection module 70 are arranged on the bottom plate 11, the carrier carrying module 40 is used for carrying the carrier on the feeding flow line to the discharging flow line, a product assembly 80 is installed in the carrier 30, the product assembly comprises a first product and a second product, the alignment motor 60 is used for adjusting the position of the second product in the carrier so as to correctly assemble the first product and the second product, and the detection module 70 is used for photographing and positioning the product assembly in the carrier. The utility model mainly comprises a feeding streamline 20, a carrier carrying module 40, a discharging streamline 50, a detection module 70 and an alignment motor 60, wherein the discharging streamline and the feeding streamline are arranged along the length direction of a bottom plate 11 and run through the length of the whole bottom plate, a fixing frame 41 in the carrier carrying module 40 is arranged along the width direction of the bottom plate, and a Y-axis linear module is positioned right above the feeding streamline and the discharging streamline, so that a clamping jaw can move between the feeding streamline and the discharging streamline through the driving of the Y-axis linear module to complete the carrying work of a carrier, the detection module 70 is arranged along the length direction of the bottom plate and positioned at one side of the discharging streamline 50, which is convenient for detecting and positioning products on the discharging streamline, a Y-axis alignment motor module 65 and a rotating axis alignment motor module 66 are positioned below the detection module, and an X-axis alignment motor module 64 is positioned on the bottom plate between two transmission belts of the discharging, can follow the ejection of compact streamline in the X axle counterpoint motor module opposite direction during the carrier unloading and flow, the utility model discloses an independently research and development product has adopted CCD camera and the radium-shine scanning combination edgewise product of detecting simultaneously to control counterpoint motor group operation realizes carrying out X axle, Y axle and around the position control of the rotatory three direction of Z axle to the product, thereby accomplishes the automatic equipment of upper cover and lower cover in the wireless earphone box that charges, the utility model discloses an equipment precision reaches within 0.01mm, and production efficiency reaches UPH330, and ejection of compact yield 100%, has the advantage that packaging efficiency is high, the precision is high and the yield is high.

As shown in fig. 3 and 8, the feeding flow line 20 is arranged along the length direction of the base plate 11, the length direction of the base plate is defined as the X-axis direction, the width direction of the base plate is defined as the Y-axis direction, and the discharging flow line 50 is arranged in parallel with the feeding flow line 20. I.e. the product is transported in the direction of the X-axis on the feed or discharge flow line. The feeding flow line 20 comprises a first frame 21, a first transmission belt 22 arranged on the first frame and a first driving unit for driving the first transmission belt to operate, the discharging flow line 50 comprises a second frame 51, a second transmission belt 52 arranged on the second frame and a second driving unit for driving the second transmission belt to operate, and a plurality of clamping units 53 for fixing the carrier 30 are arranged on two sides of the second frame 51. The first driving unit and the second driving unit comprise motors and driven shafts, driving shafts in the motors are connected with the driven shafts through belts, the driven shafts are sleeved with conveying belts, and the motors rotate to drive the conveying belts to convey. Two pairs of symmetrical clamping units are arranged on two sides of the second frame 51, each clamping unit 53 comprises a fixed frame, a driving motor fixed on the fixed frame and clamping blocks fixedly connected with piston rods in the driving motor, and the driving motor drives the clamping blocks to extend out to fix the carrier 30. When the carrier is transmitted to the clamping unit through the discharging streamline 50, the discharging streamline stops running, the clamping blocks in the clamping unit extend out to fix the carrier, and the four clamping blocks respectively clamp two sides of the carrier.

As shown in fig. 4-6, the carrier 30 includes a supporting frame 31, a chassis 32 fixed on the supporting frame, and an upper clamp plate 33 located above the chassis, a Y-axis plate 34 capable of sliding back and forth along the chassis is disposed on the chassis 32, an X-axis plate 35 capable of sliding left and right along the Y-axis plate is disposed on the Y-axis plate 34, a lower clamp plate 36 capable of rotating relative to the X-axis plate is disposed on the X-axis plate 35, female joints 37 protruding outward are disposed on the X-axis plate, the Y-axis plate, and the lower clamp plate, the lower clamp plate 36 is used for clamping a first product, and a second product is disposed on the first product and fixed by the upper clamp plate 33. The chassis 32 and the Y-axis plate 34, and the Y-axis plate 34 and the X-axis plate 35 are slidably connected to each other through a sliding rail and a sliding groove, and the X-axis plate is provided with a rotating shaft which is just inserted into the slot of the lower clamp plate 36. When an external force pushes the Y-axis plate 34, the Y-axis plate drives the X-axis plate, the upper clamping plate and the second product to move back and forth together, when the external force pushes the X-axis plate, the X-axis plate drives the upper clamping plate and the second product to move left and right together, the rotating shaft limits horizontal movement of the lower clamping plate relative to the X-axis plate in the X-axis direction and the Y-axis direction, when the external force pushes the lower clamping plate, the lower clamping plate can rotate around the rotating shaft to drive the second product to rotate, and in the whole adjusting process, the first product is fixed, so that the second product can rotate around the X-axis, the Y-axis and the Z-axis relative to the first product, the relative position of the second product and the first product is correctly adjusted, and the second product and the first product are correctly assembled together. In this embodiment, the product is a charging box, which includes an upper cover (TE), a hinge (hinge) and a lower cover (BE), and is assembled twice, the hinge is assembled on the BE for the first time, at this time, the upper clamping plate clamps the hinge, and the structure of the upper clamping plate adopts two clamping blocks to clamp the hinge, as shown in fig. 6; assembling the TE on the hinge for the second time, wherein the TE is clamped by the upper clamping plate, and the TE is fixed by a clamping groove arranged at the lower side of the upper clamping plate, as shown in FIG. 4; the lower plate is used for clamping BE, and in the practical application process, the structure of the upper plate and the lower plate can BE adjusted according to the difference of products so as to enlarge the application range of the utility model.

As shown in fig. 7, the carrier transport module 40 includes a fixing frame 41 fixed on the base plate 11, a Y-axis linear module 42 fixed on the fixing frame, a Z-axis linear module 43 slidably connected to the Y-axis linear module, and a clamping jaw 44 slidably connected to the Z-axis linear module. (Y axle straight line module can drive Z axle straight line module and carry out the seesaw, Z axle straight line module can drive the clamping jaw and carry out the up-and-down motion, when the clamping jaw moves to the carrier on, can press from both sides the carrier tightly, the clamping jaw can adopt the splint of two parallels, through the distance between the cylinder adjustment splint and press from both sides the carrier tightly, also can be equipped with the direct chucking carrier of draw-in groove on the clamping jaw, can also adopt the method among other multiple prior art certainly, as long as can press from both sides the carrier tightly can.)

As shown in fig. 9, the alignment motor unit 60 includes three alignment motor modules, which are an X-axis alignment motor module 64, a Y-axis alignment motor module 65, and a rotation axis alignment motor module 66, the Y-axis alignment motor module 65 and the rotation axis alignment motor module 66 are disposed on one side of the discharge flow line, the X-axis alignment motor module 64 is disposed below the discharge flow line, the alignment motor module includes a first bracket 61 fixed on the bottom plate 11, an alignment motor 62 fixed on the first bracket, and a male connector 63 connected to a piston rod of the alignment motor, and during operation, the male connector is just inserted into the female connector 37. X axle counterpoint motor module 64 is located on the bottom plate between the transmission band of ejection of compact streamline, still is equipped with sharp module motor on this X axle counterpoint motor module 64, and this sharp module motor can drive the counterpoint motor on it and carry out the up-and-down motion, when needs use, will counterpoint the motor and upwards adjust and make it connect the X axle board, and the time spent not makes the counterpoint motor move down, can not influence the use of ejection of compact streamline.

As shown in fig. 10, the detecting module 70 includes a second bracket 71 fixed on the base plate 11, an X-axis linear module 72 fixed on the second bracket, and a detecting head 73 slidably connected to the X-axis linear module, and the detecting head 73 includes a CCD module and a laser module. The CCD module and the laser module are used for positioning and detecting the product in an omnibearing way, the result is transmitted to the control system, and the control system is used for controlling the motion method of the alignment motor set 60, so that the product is accurately assembled.

The utility model discloses an operation process: the method comprises the following steps:

the method comprises the following steps: installing a product assembly 80 in the carrier 30, wherein the product assembly comprises a fixed box, a product II installed in the fixed box and a product I arranged on the product II, the fixed box is fixed through a lower clamping plate 36, and the product I is fixed through an upper clamping plate 33;

step two: placing carriers 30 on a feed flow line 20, the feed flow line conveying the carriers to a position directly below a carrier handling module 40, and the feed flow line stopping operation;

step three: the carrier carrying module 40 adjusts the positions of the clamping jaws through the Y-axis linear module and the Z-axis linear module so that the clamping jaws just clamp the carrier 30, and then carries the carrier to the discharging streamline 50 on the other side through the Y-axis linear module;

step four: the clamping unit 53 on the discharging flow line 50 clamps the chassis 32 of the carrier to fix the position of the carrier, the detection module 70 detects the positions of the first product and the second product through the detection head 73 and feeds the result back to the control system, and the control system controls the operation of the alignment motor unit 60 according to the comparison between the detection result and the standard;

step five: according to the command of the control system, a male connector 63 in the alignment motor set is inserted into a corresponding female connector 37 of the carrier, and a Y-axis plate, an X-axis plate or a lower clamping plate in the carrier is pushed by a motor 62, so that the position of a product II is adjusted, until the product II and the product I are accurately assembled, the operation of the alignment motor set is stopped, and the male connector is pulled out of the female connector; correspondingly, a male connector in the X-axis alignment motor module is inserted into a female connector on the X-axis plate, and the motor pushes the X-axis plate to slide left and right along the Y-axis plate; a male plug in the Y-axis alignment motor module is inserted into a female plug on the Y-axis plate, the motor pushes the Y-axis plate to slide back and forth along the chassis, a male connector in the rotary shaft alignment motor module is inserted into a female plug of the lower clamping plate, and the motor drives the lower clamping plate to rotate around the rotary shaft so as to adjust the position of the product II and accurately assemble the product II with the product I;

step six: the clamping unit (53) loosens the carrier (30), the discharging streamline 50 runs, the carrier flows out of the discharging streamline, and the work is finished; in this embodiment, the product is a charging box, the charging box includes an upper cover (TE), a hinge (hinge) and a lower cover (BE), and is assembled twice, the first assembling process is to assemble the hinge on the BE, the first product is the hinge in this process, the upper clamp clamps the hinge, the second product is the lower cover, and the lower clamp fixes the lower cover (the lower cover is placed in the fixing box, and the fixing box is placed on the lower clamp); when the hinge is assembled on the lower cover, the second assembly is carried out, namely the upper cover (TE) is assembled on the hinge (hinge), the upper cover is clamped by the upper clamping plate in the process, the lower cover is fixed by the upper clamping plate, and after the upper cover and the hinge are assembled, the upper cover and the lower cover are assembled together through the hinge, so that the whole process of installing the charging box is completed.

It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several changes and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. The utility model provides a wireless earphone of cell-phone box equipment of charging which characterized in that: including frame (10) and be fixed in bottom plate (11) in the frame, be equipped with feeding streamline (20) and ejection of compact streamline (50), carrier transport module (40), counterpoint motor group (60) and detection module (70) that are used for transmitting carrier (30) on bottom plate (11), carrier transport module (40) are used for carrying the carrier on the feeding streamline to ejection of compact streamline, product subassembly (80) are equipped with in carrier (30), and wherein the product subassembly includes product one and product two, counterpoint motor group (60) are used for carrying out position adjustment to product two in the carrier thereby assembling product one and product two correctly, detection module (70) are used for shooing the location to the product subassembly in the carrier.

2. The wireless headset charging box assembly device of claim 1, wherein: the feeding streamline (20) is arranged along the length direction of the bottom plate (11), the length direction of the bottom plate is defined as the X-axis direction, the width direction of the bottom plate is defined as the Y-axis direction, and the discharging streamline (50) is arranged in parallel with the feeding streamline (20).

3. The wireless headset charging box assembly device of claim 2, wherein: the feeding streamline (20) comprises a first frame (21), a first transmission belt (22) arranged on the first frame and a first driving unit for driving the first transmission belt to run, the discharging streamline (50) comprises a second frame (51), a second transmission belt (52) arranged on the second frame and a second driving unit for driving the second transmission belt to run, and a plurality of clamping units (53) used for fixing the carrier (30) are arranged on two sides of the second frame (51).

4. The wireless headset charging box assembly device of claim 3, wherein: the second frame (51) both sides are equipped with the clamping unit of two pairs of symmetries, clamping unit (53) including fixed frame, be fixed in on the fixed frame driving motor and with driving motor in the clamping piece of piston rod fixed connection, driving motor drive clamping piece stretches out and fixes carrier (30).

5. The wireless headset charging box assembly device of claim 1, wherein: carrier (30) include support frame (31), be fixed in chassis (32) on the support frame and be located punch holder (33) of chassis top, be equipped with on chassis (32) and carry out gliding Y axle board (34) around can following the chassis, be equipped with on Y axle board (34) and carry out X axle board (35) of horizontal slip along the Y axle board, be equipped with on X axle board (35) and can carry out lower plate (36) for X axle board pivoted, all be equipped with on X axle board, Y axle board and the lower plate outside outstanding female joint (37), lower plate (36) are used for pressing from both sides tight product one, and product two is arranged in on the product one and is fixed through punch holder (33).

6. The wireless headset charging box assembly device of claim 5, wherein: the chassis (32) and the Y-axis plate (34) as well as the Y-axis plate (34) and the X-axis plate (35) are mutually connected in a sliding mode through a sliding rail and a sliding groove, a rotating shaft is arranged on the X-axis plate, and the rotating shaft is just inserted into a slot of the lower clamping plate (36).

7. The wireless headset charging box assembly device of claim 5, wherein: counterpoint motor assembly (60) include three counterpoint motor module, are X axle counterpoint motor module (64), Y axle counterpoint motor module (65) and rotation axis counterpoint motor module (66) respectively, ejection of compact streamline one side is located to Y axle counterpoint motor module (65) and rotation axis counterpoint motor module (66), the below of ejection of compact streamline is located to X axle counterpoint motor module (64), counterpoint motor module including be fixed in first support (61) on bottom plate (11), be fixed in counterpoint motor (62) on first support and with public joint (63) of being connected of the piston rod of counterpoint motor, the during operation, this public joint just pegs graft on female joint (37).

8. The wireless headset charging box assembly device of claim 1, wherein: the carrier carrying module (40) comprises a fixing frame (41) fixed on the bottom plate (11), a Y-axis linear module (42) fixed on the fixing frame, a Z-axis linear module (43) connected to the Y-axis linear module in a sliding mode and a clamping jaw (44) connected to the Z-axis linear module in a sliding mode.

9. The wireless headset charging box assembly device of claim 1, wherein: the detection module (70) comprises a second support (71) fixed on the bottom plate (11), an X-axis linear module (72) fixed on the second support and a detection head (73) connected to the X-axis linear module in a sliding mode, and the detection head (73) comprises a CCD module and a laser module.