阅读说明：本技术 一种新能源动力电池套热缩管机 (New forms of energy power battery cover pyrocondensation pipe machine ) 是由 屈紫懿 于 2020-07-17 设计创作，主要内容包括：本发明公开了一种新能源动力电池套热缩管机,包括包括料斗、从链轮、调整器、电动机、主链轮、接料槽、第一气缸、光电管、第二气缸、压板、第三气缸、闸门、第四气缸和第五气缸；采用整理器设计和双气缸擒纵设计的方式,并设立了光电管检测和闸门开合功能,使得电池供给准确有效,工作程序准确可靠,提高了生产效率,减少了不良品率,降低了劳动强度,具有设计合理、自动化程度高、可靠性强、使用方便的特点。(The invention discloses a new energy power battery jacket heat-shrinkable tube machine which comprises a hopper, a driven chain wheel, an adjuster, a motor, a main chain wheel, a material receiving groove, a first air cylinder, a photoelectric tube, a second air cylinder, a pressing plate, a third air cylinder, a gate, a fourth air cylinder and a fifth air cylinder, wherein the driven chain wheel is arranged on the hopper; the mode of collator design and double-cylinder escapement design is adopted, and the photoelectric tube detection and gate opening and closing functions are set, so that the battery supply is accurate and effective, the working procedure is accurate and reliable, the production efficiency is improved, the defective product rate is reduced, the labor intensity is reduced, and the device has the characteristics of reasonable design, high automation degree, strong reliability and convenience in use.)

1. A new forms of energy power battery cover thermal shrinkage machine, characterized by: the new energy power battery jacket heat-shrinkable tube machine comprises a hopper, a slave chain wheel, an adjuster, a motor, a master chain wheel, a material receiving groove, a first cylinder, a photoelectric tube, a second cylinder, a pressing plate, a third cylinder, a gate, a fourth cylinder and a fifth cylinder;

an adjuster is arranged in a V-shaped groove at the upper part of the hopper, one end of the adjuster is fixedly connected with a driven chain wheel outside the hopper, the other end of the adjuster is arranged in a bearing seat inside the hopper, the driven chain wheel is connected with a main chain wheel through a chain, a shaft of a motor is fixedly connected with the main chain wheel, the shaft of the motor is fixedly connected with the main chain wheel, a round hole is arranged opposite to the motor of the hopper, a first cylinder is arranged on the hopper, a material receiving groove is arranged below the hopper, a gate is arranged at the lower end of the hopper, the upper end of the gate is connected with the lower pipe wall at one side of the hopper through a hinge, a fourth cylinder is arranged on the lower pipe wall at one side of the hopper through a mounting bracket of the fourth cylinder, a fifth cylinder is arranged on the lower pipe wall at one side of the hopper through a mounting bracket of the fifth cylinder, the second cylinder is installed on the lower pipe wall of the other side of the hopper through the installation support of the fifth cylinder, the pressing plate is installed on the lower pipe wall of the other side of the hopper, and a third cylinder telescopic rod of the third cylinder is connected with the pressing plate in a shaft mode.

Technical Field

The invention relates to the field of power battery tools, in particular to a new energy power battery sleeve heat-shrinking machine.

Background

With the increasing pressure of energy shortage and environmental protection, lithium ion batteries gradually form the main body of power sources with the advantages of high energy, small volume, light weight, long storage life and the like, and the advantages of almost no memory effect and no secondary pollution. The traditional new energy power battery sleeve heat-shrinkable tube equipment is low in production efficiency and high in labor intensity, and the produced battery products are poor in consistency and difficult to meet the higher requirements of power batteries. The work of the heat-shrinkable tube of the power battery sleeve in the prior art is usually realized manually, and has the advantages of low automation rate, low efficiency, low speed and high labor cost.

Disclosure of Invention

The invention aims to provide a new energy power battery jacket heat pipe shrinking machine to solve the problems in the background technology.

In order to achieve the purpose, the technical solution of the invention is as follows: a new forms of energy power battery cover pyrocondensation pipe machine includes hopper, follow sprocket, adjuster, motor, main sprocket, connects silo, first cylinder, photoelectric tube, second cylinder, clamp plate, third cylinder, gate, fourth cylinder and fifth cylinder.

An adjuster is arranged in a V-shaped groove at the upper part of the hopper, one end of the adjuster is fixedly connected with a driven chain wheel outside the hopper, the other end of the adjuster is arranged in a bearing seat inside the hopper, the driven chain wheel is connected with a main chain wheel through a chain, a shaft of a motor is fixedly connected with the main chain wheel, the shaft of the motor is fixedly connected with the main chain wheel, a round hole is arranged opposite to the motor of the hopper, a first cylinder is arranged on the hopper, a material receiving groove is arranged below the hopper, a gate is arranged at the lower end of the hopper, the upper end of the gate is connected with the lower pipe wall at one side of the hopper through a hinge, a fourth cylinder is arranged on the lower pipe wall at one side of the hopper through a mounting bracket of the fourth cylinder, a fifth cylinder is arranged on the lower pipe wall at one side of the hopper through a mounting bracket of the fifth cylinder, the second cylinder is installed on the lower pipe wall of the other side of the hopper through the installation support of the fifth cylinder, the pressing plate is installed on the lower pipe wall of the other side of the hopper, and a third cylinder telescopic rod of the third cylinder is connected with the pressing plate in a shaft mode.

The working principle of the invention is as follows: the during operation is placed the battery in the hopper earlier, starts the back, and the photoelectric tube detects the battery and whether can work on the operating position, and the control unit gives the instruction for the motor according to the signal of photoelectric tube, and the motor rotates and drives the main sprocket rotation, and the main sprocket drives from the sprocket rotation, drives the adjuster rotation from the sprocket for the battery moves down, and motor stop work after the photoelectric tube detects the battery, and the cylinder on each station is according to the control unit's instruction work in proper order: standby: the second cylinder, the fourth cylinder and the fifth cylinder are in an extending state, the first cylinder and the third cylinder are in a retracting state, the pressing plate is lifted, and the battery is in a standby state; blanking: the fourth cylinder and the fifth cylinder are in an extending state, the first cylinder, the second cylinder and the third cylinder are in a retracting state, the pressing plate is lifted, the stop lever of the second cylinder retracts, and the battery falls; fixing: the second cylinder, the third cylinder and the fourth cylinder are in an extending state, the first cylinder and the fifth cylinder are in a retracting state, and the pressing plate is pressed down to stop the battery in the V-shaped groove; sleeving a sleeve: the first cylinder, the second cylinder, the third cylinder, the fourth cylinder and the fifth cylinder are all in an extending state, and the stretched thermoplastic pipes conveyed by the automatic heat shrinkable pipe feeding mechanism are sleeved on the battery to complete pipe cutting; blanking of finished products: the second cylinder and the fifth cylinder are in an extending state, the first cylinder, the third cylinder and the fourth cylinder are in a retracting state, the third cylinder retracts, the pressing plate is lifted, the fourth cylinder retracts, the gate is opened, and the battery sleeved with the heat-shrinkable tube falls into the material receiving groove; resetting: the second cylinder, the fourth cylinder and the fifth cylinder are in an extending state, the first cylinder and the third cylinder are in a retracting state, the pressing plate is lifted, the battery is in a standby state, and the process is repeated.

The invention has the beneficial effects that: the invention adopts the mode of collator design and double-cylinder escapement design, and sets the functions of photoelectric tube detection and gate opening and closing, so that the battery supply is accurate and effective, the working procedure is accurate and reliable, the production efficiency is improved, the defective product rate is reduced, the labor intensity is reduced, and the invention has the characteristics of reasonable design, high automation degree, strong reliability and convenient use.

Description of the figures

The invention is further described with reference to the following figures and detailed description.

FIG. 1 is a schematic structural diagram of the present invention;

fig. 2 is a cross-sectional view taken along a-a of fig. 1.

In the figure: 1. the automatic feeding device comprises a hopper, 101, a round hole, 2, a driven chain wheel, 201, a chain, 3, an adjuster, 4, a motor, 5, a main chain wheel, 6, a material receiving groove, 7, a first air cylinder, 8, a photoelectric tube, 9, a second air cylinder, 10, a pressing plate, 11, a third air cylinder, 1101, a third air cylinder telescopic rod, 12, a gate, 1201, a hinge, 13, a fourth air cylinder, 1301, a fourth air cylinder mounting bracket, 14, a fifth air cylinder, 1401, a fifth air cylinder mounting bracket, 15, a heat shrinkable tube automatic feeding mechanism, 16, a battery, 17 and a heat shrinkable tube.

Detailed Description

As shown in the attached drawing, the new energy power battery heat-shrinkable tube machine comprises a hopper 1, a driven chain wheel 2, an adjuster 3, a motor 4, a main chain wheel 5, a material receiving groove 6, a first cylinder 7, a photoelectric tube 8, a second cylinder 9, a pressing plate 10, a third cylinder 11, a gate 12, a fourth cylinder 13 and a fifth cylinder 14.

An adjuster 3 is arranged in a V-shaped groove at the upper part of the hopper 1, one end of the adjuster 3 is fixedly connected with a driven chain wheel 2 outside the hopper 1, the other end of the adjuster 3 is arranged in a bearing seat inside the hopper 1, the driven chain wheel 2 is connected with a main chain wheel 5 through a chain 201, a shaft of a motor 4 is fixedly connected with the main chain wheel 5, a shaft of the motor 4 is fixedly connected with the main chain wheel 5, the hopper 1 is provided with a round hole 101 and a first air cylinder 7 opposite to the motor 4, a material receiving groove 6 is arranged below the hopper 1, the lower end of the hopper 1 is provided with a gate 12, the upper end of the gate 12 is connected with the lower pipe wall at one side of the hopper 1 through a hinge 1201, a fourth air cylinder 13 is arranged on the lower pipe wall at one side of the hopper 1 through a fourth air cylinder mounting bracket 1301, a fifth air cylinder 14 is arranged on the lower pipe wall at one side of, photoelectric tubes 8 are sequentially arranged on the lower tube wall of the other side of the hopper 1 from top to bottom, a second air cylinder 9 is installed on the lower tube wall of the other side of the hopper 1 through a fifth air cylinder installation support, a pressing plate 10 is installed on the lower tube wall of the other side of the hopper 1, and a third air cylinder expansion rod 1101 of a third air cylinder 11 is connected with the pressing plate 10 in a shaft mode.

The during operation, place battery 16 in hopper 1 earlier, after the start, photoelectric tube 8 detects battery 16 and whether can work on the operating position, the control unit gives motor 4 instruction according to photoelectric tube 8's signal, motor 4 rotates and drives the main sprocket rotation, the main sprocket drives from sprocket 2 and rotates, drive adjuster 3 from sprocket 2 and rotate, make battery 16 downstream, motor 4 stop work after photoelectric tube 8 detects battery 16, the cylinder on each station is according to the work in proper order of the instruction of the control unit: standby: the second air cylinder 9, the fourth air cylinder 13 and the fifth air cylinder 14 are in an extending state, the first air cylinder 7 and the third air cylinder 11 are in a retracting state, the pressure plate 10 is lifted, and the battery 16 is in a standby state; blanking: the fourth cylinder 13 and the fifth cylinder 14 are in an extending state, the first cylinder 7, the second cylinder 9 and the third cylinder 11 are in a retracting state, the pressing plate 10 is lifted, the stop lever of the second cylinder 9 retracts, and the battery 16 falls; fixing: the second air cylinder 9, the third air cylinder 11 and the fourth air cylinder 13 are in an extending state, the first air cylinder 7 and the fifth air cylinder 14 are in a retracting state, and the pressing plate 10 is pressed down, so that the battery 16 can be stopped in the V-shaped groove 12; sleeving a sleeve: the first cylinder 7, the second cylinder 9, the third cylinder 11, the fourth cylinder 13 and the fifth cylinder 14 are all in an extending state, and the expanded thermoplastic pipe 17 conveyed by the automatic heat shrinkable pipe feeding mechanism 15 is sleeved on the battery 16 to complete pipe cutting; blanking of finished products: the second cylinder 9 and the fifth cylinder 14 are in an extending state, the first cylinder 7, the third cylinder 11 and the fourth cylinder 13 are in a retracting state, the third cylinder 11 retracts, the pressing plate 10 is lifted, the fourth cylinder 13 retracts, the gate 12 is opened, and the battery 16 sleeved with the heat shrinkable tube 17 falls into the material receiving groove 6; resetting: the second cylinder 9, the fourth cylinder 13 and the fifth cylinder 14 are in the extended state, the first cylinder 7 and the third cylinder 11 are in the retracted state, the pressing plate 10 is lifted, and the battery 16 is in the standby state, and the cycle is repeated.

The above-mentioned embodiments are merely descriptions of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements made to the technical solution of the present invention by those skilled in the art without departing from the spirit of the present invention should fall within the protection scope defined by the claims of the present invention.