Mobile phone battery hot-pressing device
Technical Field
The utility model relates to a battery processing equipment field, in particular to mobile phone batteries hot press unit.
Background
In the production process of the soft package battery, the soft package battery needs to be subjected to hot-pressing shaping treatment, so that the shape of the battery is regular, and the requirements of subsequent processing, installation and use are met, for the battery with the improper hot-pressing shaping, the battery cannot be installed in various electronic products in the use process due to overlarge deviation of the external dimension, so that the experience effect of a user is poor, in order to enable the shape of the battery to meet the requirements, a hot-pressing device is generally adopted to shape the two sides of the battery, however, after the hot-pressing shaping is carried out on the two sides of the battery, due to extrusion during hot pressing, one end of the battery close to a lug can bulge after hot pressing, the quality of the battery is affected, therefore, a battery hot-pressing device needs to be manufactured, after the hot-pressing shaping is carried out on the side edge of the battery, the end of the battery close to the lug can also be, the quality of the battery is improved.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a cell-phone battery hot press unit is in order to solve the problem of mentioning in the background art.
In order to achieve the above object, the present invention provides the following technical solutions:
a mobile phone battery hot-pressing device comprises a workbench, a feeding platform and a discharging platform, wherein the feeding platform and the discharging platform are fixed on the workbench;
the double-side hot-pressing mechanism carries out hot-pressing shaping on the left side and the right side of the battery and is provided with a first transfer part;
the end pressure maintaining mechanism is used for maintaining the pressure and shaping one side of the upper end surface of the battery, which is close to the lug, and a second transfer part is arranged on the end pressure maintaining mechanism;
the triple mechanical arm is erected above the feeding platform, the double-side hot-pressing mechanism, the end pressure maintaining mechanism and the discharging platform along the X-axis direction and used for transporting batteries on the feeding platform, the first transfer part and the second transfer part to the right.
To the further description of the present invention: the bilateral hot pressing mechanism comprises a first mounting plate, a left hot pressing assembly, a right hot pressing assembly and a conveying assembly, the first mounting plate is erected on the workbench, the conveying assembly comprises a sliding table and a carrying table, the sliding table is fixed on the first mounting plate along a Y axis, the carrying table is mounted at the power output end of the sliding table and is in sliding connection with the sliding table, the carrying table can slide back and forth between one end of the sliding table and the first transfer part, the left hot pressing assembly and the right hot pressing assembly are respectively arranged at the left side and the right side of the carrying table, the right hot pressing assembly comprises a first support, the hot pressing machine comprises a hot pressing motor, a hot pressing head, a first lifting cylinder and a fastening pressing block, wherein a first support is installed on a first installation plate, the hot pressing motor is installed on the first support, the hot pressing head is installed at the power output end of the hot pressing motor and corresponds to the right side of a carrying platform, the first lifting cylinder is installed on the first support, and the fastening pressing block is fixed at the power output end of the first lifting cylinder and corresponds to the upper side of the carrying platform.
To the further description of the present invention: the left hot pressing assembly, the right hot pressing assembly and the carrying platform are respectively provided with two groups and respectively correspond to the front end and the rear end of the sliding table.
To the further description of the present invention: the end pressure maintaining mechanism comprises a second mounting plate, an X-axis positioning assembly, a Y-axis positioning assembly and a pressure maintaining assembly, the second mounting plate is erected on the workbench, the X-axis positioning assembly comprises a first positioning cylinder, a first positioning block and a second positioning block, the first positioning cylinder is mounted on the second mounting plate, the first positioning block is mounted at the power output end of the first positioning cylinder, the second positioning block is fixed on the second mounting plate, the first positioning block and the second positioning block respectively correspond to the left side and the right side of the second transit part, the Y-axis positioning assembly comprises a second positioning cylinder and a third positioning block, the second positioning cylinder is fixed on the second mounting plate, the third positioning block is mounted at the power output end of the second positioning cylinder and corresponds to one side of the second transit part, the pressure maintaining assembly comprises a second support, a second lifting cylinder and a pressure maintaining press block, the second support is fixed on the second mounting plate, the second lifting cylinder is installed on the second support, and the pressure maintaining pressing block is installed at the power output end of the second lifting cylinder and corresponds to the position above the second transfer part.
To the further description of the present invention: the feeding platform, the first transfer part, the second transfer part and the discharging platform are linearly arranged along the X-axis direction, and the adjacent intervals are equal.
To the further description of the present invention: the triple mechanical arm comprises an X-axis driving assembly and three groups of material taking assemblies, wherein the X-axis driving assembly is erected above the material loading platform, the double-side hot pressing mechanism, the end pressure maintaining mechanism and the material loading platform, the three groups of material taking assemblies are arranged on the power output end of the X-axis driving assembly along the X-axis direction, and the adjacent distance is equal to the distance between the first transfer part and the second transfer part.
The utility model has the advantages that: through the cooperation use of left hot pressing subassembly, right hot pressing subassembly and pressurize subassembly, carry out two side hot pressing processes earlier to the battery, exert pressure to the upper end of battery again and carry out the pressurize, make the one end that is close to utmost point ear on the battery also can be by the plastic, improved the overall dimension precision of battery and guaranteed the quality of battery.
Drawings
FIG. 1 is an overall structure of the present invention;
fig. 2 is a top view of the utility model with a concealed triple-linkage manipulator;
fig. 3 is a structural diagram of the utility model after the triple-linkage mechanical arm is hidden;
FIG. 4 is a view of perspective A of FIG. 3;
fig. 5 is a structural diagram of the triple manipulator of the present invention;
description of reference numerals:
1. a work table; 2. a feeding platform; 3. a blanking platform; 4. a double-side hot-pressing mechanism; 41. a first mounting plate; 42. a left hot pressing assembly; 43. a right hot pressing assembly; 431. a first bracket; 432. a hot-pressing motor; 433. a hot-pressing head; 434. a first lifting cylinder; 435. fastening a pressing block; 44. a transport assembly; 441. a sliding table; 442. a stage; 5. an end portion pressure maintaining mechanism; 51. a second mounting plate; 52. an X-axis positioning assembly; 521. a first positioning cylinder; 522. a first positioning block; 523. a second positioning block; 53. a Y-axis positioning assembly; 531. a second positioning cylinder; 532. a third positioning block; 54. a pressure maintaining component; 541. a second bracket; 542. a second lifting cylinder; 543. pressure maintaining and briquetting; 6. a triple manipulator; 61. an X-axis drive assembly; 62. a material taking assembly; 7. a first transfer section; 8. a second transfer section.
Detailed Description
The invention is further explained below with reference to the drawings:
as shown in fig. 1-2: a mobile phone battery hot-pressing device comprises a workbench 1, and a feeding platform 2 and a discharging platform 3 which are fixed on the workbench 1, and further comprises a double-side hot-pressing mechanism 4, an end pressure maintaining mechanism 5 and a triple mechanical arm 6, wherein the feeding platform 2, the double-side hot-pressing mechanism 4, the end pressure maintaining mechanism 5 and the discharging platform 3 are arranged on the workbench 1 from left to right;
the double-side hot-pressing mechanism 4 carries out hot-pressing shaping on the left side and the right side of the battery, and a first transfer part 7 is arranged on the double-side hot-pressing mechanism 4;
the end pressure maintaining mechanism 5 is used for maintaining the pressure and shaping the upper end surface of the battery at one side close to the lug, and a second transfer part 8 is arranged on the end pressure maintaining mechanism 5;
the triple-linkage manipulator 6 is erected above the feeding platform 2, the double-side hot-pressing mechanism 4, the end pressure maintaining mechanism 5 and the discharging platform 3 along the X-axis direction and used for transporting batteries on the feeding platform 2, the first transfer part 7 and the second transfer part 8 to the right.
Feeding platform 2, first transfer portion 7, second transfer portion 8 and unloading platform 3 are equal along X axle direction linear arrangement and adjacent interval, and the interval of adjacent station is the same, is favorable to the operation that trigeminy manipulator 6 carried the battery like this, and trigeminy manipulator 6 can conveniently snatch three batteries simultaneously and throw simultaneously and put on the latter station.
As shown in fig. 2-4: the double-side hot pressing mechanism 4 comprises a first mounting plate 41, a left hot pressing assembly 42, a right hot pressing assembly 43 and a conveying assembly 44, the first mounting plate 41 is erected on the workbench 1, the conveying assembly 44 comprises a sliding table 441 and a carrier 442, the sliding table 441 is fixed on the first mounting plate 41 along the Y axis, the carrier 442 is mounted at a power output end of the sliding table 441 and is slidably connected with the sliding table 441, the carrier 442 can slide back and forth between one end of the sliding table 441 and the first transfer part 7, the left hot pressing assembly 42 and the right hot pressing assembly 43 are respectively arranged at the left side and the right side of the carrier 442, the right hot pressing assembly 43 comprises a first bracket 431, a hot pressing motor 432, a hot pressing head 433, a first lifting cylinder 434 and a fastening press block 435, the first bracket 431 is mounted on the first mounting plate 41, the hot pressing motor 432 is mounted on the first bracket 431, the hot pressing head 433 is mounted at the power output, the first lifting cylinder 434 is installed on the first support 431, the fastening pressing block 435 is fixed at the power output end of the first lifting cylinder 434 and corresponds to the upper side of the carrying platform 442, and before the hot-pressing process is performed on the battery by the left hot-pressing assembly 42 and the right hot-pressing assembly 43, the battery is pressed tightly by the fastening pressing block 435, so that the battery is prevented from shifting.
The left hot pressing assembly 42, the right hot pressing assembly 43 and the carrying platform 442 are respectively provided with two sets and respectively correspond to the front end and the rear end of the sliding table 441, the hot pressing time is longer than the pressure maintaining time for the same battery, and the hot pressing time can be reasonably distributed by the two sets of the left hot pressing assembly 42, the right hot pressing assembly 43 and the carrying platform 442, so that the hot pressing efficiency is improved, and the standby time of the pressure maintaining process is reduced.
The end pressure maintaining mechanism 5 comprises a second mounting plate 51, an X-axis positioning assembly 52, a Y-axis positioning assembly 53 and a pressure maintaining assembly 54, the second mounting plate 51 is erected on the workbench 1, the X-axis positioning assembly 52 comprises a first positioning cylinder 521, a first positioning block 522 and a second positioning block 523, the first positioning cylinder 521 is mounted on the second mounting plate 51, the first positioning block 522 is mounted at a power output end of the first positioning cylinder 521, the second positioning block 523 is fixed on the second mounting plate 51, the first positioning block 522 and the second positioning block 523 correspond to the left side and the right side of the second transit part 8 respectively, the Y-axis positioning assembly 53 comprises a second positioning cylinder 531 and a third positioning block 532, the second positioning cylinder 531 is fixed on the second mounting plate 51, the third positioning block 532 is mounted at a power output end of the second positioning cylinder 531 and corresponds to one side of the second transit part 8, the pressure maintaining assembly 54 comprises a second support 541, a second positioning cylinder, a second positioning, Second lift cylinder 542 and pressurize briquetting 543, second support 541 is fixed on second mounting panel 51, and second lift cylinder 542 installs on second support 541, and pressurize briquetting 543 is installed at the power take off end of second lift cylinder 542 and is corresponding in the top of second transfer portion 8, and pressurize briquetting 543 is used for carrying out the plastic to the upper end of battery, improves the precision of plastic and the quality of product.
As shown in fig. 5: triple mechanical hand 6 includes that X axle drive assembly 61 and three groups get material subassembly 62, X axle drive assembly 61 erects at material loading platform 2, two side hot pressing mechanism 4, tip pressurize mechanism 5 and unloading platform 3's top, three groups get material subassembly 62 and install on X axle drive assembly 61's power take off end and adjacent interval equals with the interval between first transfer portion 7 and the second transfer portion 8 along the X axle direction, at the in-process of carrying the battery, three groups get material subassembly 62 need not to carry out the ascending removal in X axle direction and can accomplish the transfer of battery for X axle drive assembly 61, improve the efficiency of carrying the battery.
The working principle of the embodiment is as follows:
firstly, in the previous process, the battery is placed on the feeding platform 2, the triple-linkage manipulator 6 places the battery on the carrying platform 442 located on the first transfer part 7, the carrying platform 442 conveys the battery between the left hot-pressing assembly 42 and the right hot-pressing assembly 43, the left hot-pressing assembly 42 and the right hot-pressing assembly 43 carry out hot pressing on the left end surface and the right end surface of the battery, the battery is conveyed back to the first transfer part 7 after the hot pressing is completed, the batteries are alternately conveyed between the two sets of left hot-pressing assemblies 42 and the right hot-pressing assembly 43 by the two sets of carrying platforms 442, the battery after the hot pressing is transferred to the second transfer part 8 by the triple-linkage manipulator 6, the battery is fixed by the X-axis positioning assembly 52 and the Y-axis positioning assembly 53, the pressure maintaining assembly 54 maintains the pressure on the upper end surface of the battery close to the tab side, and the battery.
The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.