CN109774672B - PHEV power battery disassembling and assembling machine - Google Patents

Abstract

The invention discloses a PHEV power battery disassembling and assembling machine which comprises a base assembly, a vertical sliding rail assembly and a swing arm assembly, wherein the swing arm assembly can slide to any position along the length direction of the vertical sliding rail assembly; and a power battery clamp assembled at the end of the swing arm assembly far from one end of the vertical sliding rail assembly, wherein the power battery clamp is used for clamping and fixing the PHEV power battery; the vertical sliding rail assembly is provided with a positioning turning plate assembly, and the positioning turning plate assembly is used for positioning the swing arm assembly. The invention aims to provide a PHEV power battery disassembling and assembling machine which can realize single disassembly and assembly of a power battery of a new energy hybrid electric series automobile through a special clamp, and the PHEV power battery disassembling and assembling machine has the advantages of novel and simple structure, lower manufacturing cost, convenient movement, stable and reliable work, convenient control, capability of saving manpower and material resources, improvement of working efficiency and realization of multiple purposes under the condition of being provided with the special clamp.

Description

PHEV power battery disassembling and assembling machine

Technical Field

The invention relates to the technical field of automobile machinery manufacturing and automobile maintenance equipment, in particular to a PHEV power battery disassembling and assembling machine.

Background

PHEV refers to plug in hybrid electric vehicle in new energy automobiles, particularly hybrid automobiles that are charged by plug-in. The special power supply pile is generally required for supplying power, when the electric energy is sufficient, the motor is adopted to drive the vehicle, and when the electric energy is insufficient, the engine participates in the driving or generating link.

In recent years, the automobile industry develops rapidly, and becomes a supporting industry for economic development in China. With the international advocacy of energy conservation and environmental protection and the continuous development of new energy hybrid electric vehicle technologies, the related technologies have become mature, and plug-in (non-plug-in) oil-electric hybrid electric vehicles have been well popularized and used in the market. Meanwhile, the automobile maintenance equipment industry is required to follow the development of the automobile industry, new energy automobiles are immediately followed, novel equipment is developed and researched in a targeted mode, more timely service is provided, and the maintenance equipment is more practical. And the existing automobile owners pay more attention to automobile maintenance, and two concepts of maintenance and repair are parallel.

In the past, due to the restrictions of the development state of the automobile industry, the manufacturing technology of automobile protection equipment and the automobile maintenance technology, most of domestic repair factories adopt manual, original or crude maintenance equipment to carry out automobile maintenance, so that the automobile maintenance work is time-consuming, labor-consuming, unsafe and low in efficiency.

With the continuous improvement of automobile technology, the increase of automobile conservation quantity and the development of automobile maintenance markets, especially in recent years, new energy automobiles are emerging and rushed into automobile markets, a batch of modern enterprises enter the automobile conservation equipment industry to start producing and providing various professional automobile conservation equipment, so that advanced and modern automobile conservation equipment in China is popularized in a large amount, and a large number of automobile conservation equipment in China are out of the country, and under the guidance of national policies, the automobile conservation equipment industry in China presents a happy development situation. Under the drive of professional gas-protecting equipment, the automobile maintenance technology is also rapidly developed and promoted, new maintenance technology is applied, industry communication is increasingly frequent, and more economic benefits and living convenience are brought to the country and people.

Disclosure of Invention

The invention aims to provide a PHEV power battery disassembling and assembling machine which is novel in structure, high in safety, low in manufacturing cost and capable of achieving single disassembly and assembly and saving manpower and material resources.

In order to achieve the above object, the present invention provides the following technical solutions:

the invention discloses a PHEV power battery disassembling and assembling machine, comprising:

a base assembly;

the vertical sliding rail assembly is arranged on the base assembly and extends along the vertical direction;

the swing arm assembly is assembled with the vertical sliding rail assembly and extends in the horizontal direction, and the swing arm assembly can slide to any position along the length direction of the vertical sliding rail assembly; and

the power battery clamp is assembled at the end part of the swing arm assembly, which is far away from one end of the vertical sliding rail assembly, and is used for clamping and fixing the PHEV power battery;

the vertical sliding rail assembly is provided with a positioning turning plate assembly, and the positioning turning plate assembly is used for positioning the swing arm assembly.

Further, the base assembly comprises a base front beam and a base rear beam, and a base longitudinal beam is fixedly connected between the base front beam and the base rear beam;

the two ends of the front cross beam of the base are provided with directional casters;

the end part of the base rear cross beam is provided with universal rear casters;

the vertical sliding rail component is fixedly connected to the upper part of one end, close to the base rear cross beam, of the base longitudinal beam;

an auxiliary supporting arm is slidably arranged on one side, away from the universal rear caster, of the rear cross beam of the base, and an auxiliary supporting leg block is arranged at the end part of the auxiliary supporting arm;

the upper portion of auxiliary supporting legs piece is connected with the operation hand wheel through the screw rod screw thread, the operation hand wheel drives the screw rod is rotatory in order to adjust auxiliary supporting legs piece distance for ground.

Further, the vertical sliding rail assembly comprises a sliding rail fixedly connected with the base longitudinal beam through a fixed bottom plate, and a sliding groove is formed in the sliding rail along the length direction of the sliding rail;

the sliding groove of the sliding rail is embedded with a pulley, the upper end of the pulley is in sliding connection with the sliding rail through a rolling pin bearing, the side surface of the pulley is provided with a universal ball which is in contact with the inner wall of the sliding rail, and the front side of the pulley is provided with the positioning turning plate assembly;

the positioning turning plate assembly comprises a positioning turning plate connected with the pulley, and a positioning turning plate pin is arranged at the front end of the positioning turning plate;

the lower part of the sliding rail is also embedded with a hydraulic oil cylinder, a cylinder rod of the hydraulic oil cylinder is fixedly connected with the pulley, and the hydraulic oil cylinder drives the pulley to slide along the sliding rail.

Further, the rear side of the vertical sliding rail assembly is arranged on a remote control pneumatic hydraulic pump, and the hydraulic cylinder is controlled by the remote control pneumatic hydraulic pump;

the remote control pneumatic hydraulic pump is arranged at the joint of the sliding rail and the base longitudinal beam, and the lower part of the remote control pneumatic hydraulic pump is fixed through the sliding rail reinforcing rib.

Further, the swing arm assembly comprises a swing arm extending along the horizontal direction, one end of the swing arm, which is close to the sliding rail, is rotationally connected with a swing arm smooth shaft, and the swing arm rotates around the swing arm smooth shaft;

a swing arm side plate which covers the end part of the swing arm and the swing arm lever shaft is arranged at one end of the swing arm, which is close to the sliding rail;

a positioning turning plate pin embedding hole is formed at the upper end of the swing arm side plate;

the positioning turnover plate pin at the positioning turnover end part can be embedded into the positioning turnover plate pin embedding hole to position the swing arm assembly.

Further, the power battery clamp comprises a clamp beam arranged at the end part of the swing arm and clamp swing supporting arms fixed at two ends of the clamp beam, and a power battery clamping space is formed between the clamp beam and the clamp swing supporting arms.

Further, the upper end and the lower end of the end part of the swing arm are respectively provided with a clamp supporting plate, and the clamp cross beam is rotationally connected with the clamp supporting plates through clamp cross beam pins so as to adjust the angle of the power battery clamp.

Further, the clamp swing bracket arm is rotatably connected with the clamp cross beam through a rotating shaft so as to adjust the opening size of the power battery clamping space.

In the technical scheme, the PHEV power battery disassembling and assembling machine provided by the invention has the following beneficial effects:

the invention aims to provide a PHEV power battery disassembling and assembling machine which can realize single disassembly and assembly of power batteries of new energy hybrid electric series automobiles through special clamps; after the power battery is fixed on the clamp, stable lifting and stable descending can be realized within a certain range, and weights such as the power battery and the like can be transferred to other designated positions through the mobile equipment; the equipment has the advantages of novel and simple structure, lower manufacturing cost, convenient movement, more stable and reliable work, convenient control, capability of saving manpower and material resources and improving the working efficiency, and capability of realizing multiple purposes under the condition of being provided with a special fixture.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of a PHEV power battery disassembling and assembling machine according to an embodiment of the present invention;

FIG. 2 is an exploded view of a PHEV power battery remover according to an embodiment of the present invention;

fig. 3 is a partially enlarged view of a PHEV power battery remover provided in an embodiment of the present invention.

Reference numerals illustrate:

1. a base assembly; 2. a vertical slide rail assembly; 3. a swing arm assembly; 4. a power battery clamp;

101. a base front cross beam; 102. a base rear cross beam; 103. a base longitudinal beam; 104. a directional caster; 105. universal rear castor; 106. an auxiliary support arm; 107. auxiliary supporting leg blocks;

201. a slide rail; 202. push-pull armrests; 203. remotely controlling a pneumatic hydraulic pump; 204. positioning a turning plate; 205. positioning a turning plate pin; 206. a pulley; 207. a universal ball; 208. needle roller bearings; 209. a hydraulic cylinder;

301. swing arms; 302. swing arm side plates; 303. positioning turning plate embedding holes; 304. pulley lugs; 305. a swing arm lever shaft;

401. a clamp beam; 402. the clamp swings the bracket arm; 403. a clamp support plate; 404. a clamp beam pin; 405. and a clamp swing arm supporting plate.

Detailed Description

In order to make the technical scheme of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 2, a PHEV power battery disassembling and assembling machine provided by an embodiment of the present invention includes:

a base assembly 1;

the vertical sliding rail assembly 2 is arranged on the base assembly 1 and extends along the vertical direction;

the swing arm assembly 3 is assembled with the vertical sliding rail assembly 2 and extends along the horizontal direction, and the swing arm assembly 3 can slide to any position along the length direction of the vertical sliding rail assembly 2; and

a power battery clamp 4 assembled at the end of the swing arm assembly 3 away from the end of the vertical sliding rail assembly 2, the power battery clamp 4 being used for clamping and fixing the PHEV power battery;

the vertical sliding rail assembly 2 is provided with a positioning turning plate assembly which is used for positioning the swing arm assembly 3.

Specifically, this embodiment mainly discloses a dismouting machine that PHEV power battery maintenance was used, wherein, the dismouting machine of this embodiment mainly includes base subassembly 1 that plays the effect of supporting the basis, and install on base subassembly 1 and can adjust vertical slide rail subassembly 2 of high low position, still include simultaneously can adjust power battery clamp 4 swing angle's swing arm subassembly 3, and combine swing arm subassembly 3 of this embodiment, not only can realize adjusting power battery clamp 4's swing angle through swing arm 301 alone, can also be through adjusting power battery clamp 4 with the opening size and the swing angle of micro adjustment clamp, therefore, combine the description of structure to see that this embodiment just can be according to the position of power battery and the maintenance requirement adjustment height (realize lifting) and swing angle after the power battery dismantles under the prerequisite of only a staff (in order to remove the battery to the assigned position), practiced thrift a large amount of operation time, manpower and materials have been practiced thrift.

Preferably, the base assembly 1 in this embodiment includes a base front beam 101 and a base rear beam 102, and a base longitudinal beam 103 is fixedly connected between the base front beam 101 and the base rear beam 102;

the two ends of the front cross beam 101 of the base are provided with directional casters 104;

the end part of the base rear cross beam 102 is provided with universal rear casters 105;

the vertical sliding rail component 2 is fixedly connected to the upper part of one end of the base longitudinal beam 103, which is close to the base rear cross beam 102;

an auxiliary supporting arm 106 is slidably arranged on one side of the base rear cross beam 102, which is far away from the universal rear caster 105, and an auxiliary supporting leg block 107 is arranged at the end part of the auxiliary supporting arm 106;

the upper part of the auxiliary supporting leg block 107 is connected with an operation hand wheel through screw threads, and the operation hand wheel drives the screw to rotate so as to adjust the distance between the auxiliary supporting leg block 107 and the ground.

The present embodiment mainly describes and defines the structure of the base assembly 1, which forms a base with a larger contact area with the ground through the front base beam 101, the rear base beam 102 and the base longitudinal beams 103, and this structure, especially, the size of the base longitudinal beams 103, can be properly adjusted according to actual needs, and the adjustment of the base longitudinal beams 103 can be length adjustment, number of the base longitudinal beams 103, and the like. Meanwhile, for convenient movement, a push-pull handrail 202 is designed at the upper end of the vertical sliding rail assembly 2, so that the equipment is convenient for operators to move, and for convenient movement, the two ends of the base front cross beam 101 are provided with low-gravity-center directional casters, the stability of movement can be ensured, meanwhile, the base rear cross beam 102 is also provided with universal rear casters 105, the universal rear casters 105 have a locking braking function, fixed-point parking is convenient, and safety can be improved.

Preferably, based on the above embodiment, the present embodiment mainly describes the structure and principle of the vertical sliding rail assembly 2, where the vertical sliding rail assembly 2 includes a sliding rail 201 fixedly connected to the base longitudinal beam 103 through a fixed bottom plate, and the sliding rail 201 is formed with a sliding slot along the length direction thereof;

a pulley 206 is embedded in the sliding groove of the sliding rail 201, the upper end of the pulley 206 is in sliding connection with the sliding rail 201 through a rolling pin bearing 208, a universal ball 207 which is in contact with the inner wall of the sliding rail 201 is arranged on the side surface of the pulley 206, and a positioning turning plate assembly is arranged on the front side of the pulley 206;

the positioning turning plate assembly comprises a positioning turning plate 204 connected with a pulley 206, and a positioning turning plate pin 205 is arranged at the front end of the positioning turning plate 204;

the lower part of the slide rail 201 is also embedded with a hydraulic cylinder 209, a cylinder rod of the hydraulic cylinder 209 is fixedly connected with the pulley 206, and the hydraulic cylinder 209 drives the pulley 206 to slide along the slide rail 201.

The sliding rail 201 in the vertical sliding rail assembly 2 of this embodiment is fixed at one end of the base longitudinal beam 103 near the rear side, wherein the sliding rail 201 is used as a sliding base, a pulley 206 and a hydraulic cylinder 209 are embedded in the sliding rail 201, wherein the hydraulic cylinder 209 controls the movement of the pulley 206 to drive the positioning turning plate assembly thereon to move, along with the adjustment of the height of the swing arm assembly 3 at the front end, the pulley 206 in this embodiment also needs to be adjusted along with the height of the swing arm assembly 3, after the swing arm assembly 3 determines a suitable lifting height, the pulley 206 is moved to a required position, then the positioning turning plate 204 is turned down and the swing arm 301 is positioned by using the positioning turning plate 204, so that the swing arm 301 is located at the middle position.

Further, based on the above embodiment, the rear side of the vertical sliding rail assembly 2 is mounted on the remote pneumatic hydraulic pump 203, and the hydraulic cylinder 209 is controlled by the remote pneumatic hydraulic pump 203;

the remote control pneumatic hydraulic pump 203 is installed at the joint of the slide rail 201 and the base longitudinal beam 103, and the lower part of the remote control pneumatic hydraulic pump 203 is fixed through the slide rail reinforcing ribs.

Since the hydraulic cylinder 209 is introduced to control the sliding of the pulley 206 in this embodiment, a power device needs to be disposed on the apparatus, and the hydraulic cylinder 209 of this embodiment mainly controls the hydraulic cylinder 209 through the remote pneumatic hydraulic pump 203 integrated externally. In addition, the integrated position of the remote control pneumatic hydraulic pump 203 in this embodiment is described in detail above, in order to increase structural stability, a rail reinforcing rib is fixed among the remote control pneumatic hydraulic pump 203, the rail 201 and the base longitudinal beam 103, and the rail reinforcing rib is in a triangle structure as a whole, so that the remote control pneumatic hydraulic pump has good stability, and is also used as a supporting plate of the pneumatic hydraulic pump, thereby improving safety of equipment.

Preferably, the swing arm assembly 3 in this embodiment includes a swing arm 301 extending along a horizontal direction, one end of the swing arm 301, which is close to the sliding rail 201, is rotatably connected with a swing arm lever shaft 305, and the swing arm 301 rotates around the swing arm lever shaft 305; one end of the swing arm 301, which is close to the slide rail 201, is provided with a swing arm side plate 302 which covers the end part of the swing arm 301 and a swing arm lever shaft 305; the swing arm side plate 302 is formed at its upper end with a positioning flap pin insertion hole 303 (see fig. 3); the positioning flap pin 205 at the end of the positioning flap 204 can be inserted into the positioning flap pin insertion hole 303 to position the swing arm assembly 3.

The power battery clamp 4 includes a clamp beam 401 mounted on an end of the swing arm 301, and clamp swing brackets 402 fixed to two ends of the clamp beam 401, and a power battery clamping space is formed between the clamp beam 401 and the clamp swing brackets 402.

In addition, based on the above embodiment, more specifically: the upper and lower ends of the end portion of the swing arm 301 are both provided with a clamp support plate 403, and the clamp beam 401 is rotatably connected with the clamp support plate 403 through a clamp beam pin 404 to adjust the angle of the power battery clamp 4.

The clamp swing bracket arm 402 is rotatably connected with the clamp beam 401 through a rotating shaft to adjust the opening size of the power battery clamping space.

The size of the PHEV power battery can have certain difference according to different models, and the power battery clamp 4 of this embodiment can adjust the swing angle according to the position of the battery and adjust the opening size of the battery clamping space according to the size of the battery, so that the device can adapt to the power batteries of different models, and has good practicality.

The specific operation flow is as follows:

first, in a repair shop, a left rear door (detachable from a right rear door) of a PHEV car is detached, a trunk of the car is opened, and a power battery-related line and a cooling line are cut off. Secondly, the PHEV power battery disassembling and assembling machine is moved to a pre-working position, the auxiliary supporting arm 106 is pulled out, the auxiliary supporting leg block 107 is rotated to be in contact with the ground, then the swing arm 301 above and the clamp beam 401 of the power battery clamp 4 are swung, the height of the swing arm 301 is adjusted through the remote control pneumatic hydraulic pump 203, the power battery clamp 4 is driven to be adjusted to be at a proper height, at the moment, the two clamp swing supporting arms 402 of the power battery clamp 4 are close to supporting plates on two sides of the power battery, after the clamp swing supporting arms 402 firmly and stably pull the supporting plates on two sides of the battery, positioning pins are inserted, then the swing arm 301 is lifted up through the remote control pneumatic hydraulic pump 203 to enable the power battery to be separated from a vehicle body, then the swing arm 301 and the clamp beam 401 are swung to enable the power battery to avoid the vehicle body to be in contact with the vehicle body, and finally the positioning turning plate 204 on the rear side of the swing arm 301 is turned down to enable the swing arm 301 to be positioned in the middle position.

Finally, after the auxiliary support arm 106 is returned in the reverse direction, the device is moved until the power battery is completely moved out of the vehicle, and then the power battery can be moved to a designated position for replacement, maintenance or repair.

And similarly, the installation process of the power battery is reverse operation of the process.

In the technical scheme, the PHEV power battery disassembling and assembling machine provided by the invention has the following beneficial effects:

the invention aims to provide a PHEV power battery disassembling and assembling machine which can realize single disassembly and assembly of power batteries of new energy hybrid electric series automobiles through special clamps; after the power battery is fixed on the clamp, stable lifting and stable descending can be realized within a certain range, and weights such as the power battery and the like can be transferred to other designated positions through the mobile equipment; the equipment has the advantages of novel and simple structure, lower manufacturing cost, convenient movement, more stable and reliable work, convenient control, capability of saving manpower and material resources and improving the working efficiency, and capability of realizing multiple purposes under the condition of being provided with a special fixture.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims (4)

1. PHEV power battery remover, characterized by comprising:

   a base assembly (1);

   the vertical sliding rail assembly (2) is arranged on the base assembly (1) and extends along the vertical direction;

   the swing arm assembly (3) is assembled with the vertical sliding rail assembly (2) and extends in the horizontal direction, and the swing arm assembly (3) can slide to any position along the length direction of the vertical sliding rail assembly (2); and

   the power battery clamp (4) is assembled at the end part of the swing arm assembly (3) far away from one end of the vertical sliding rail assembly (2), and the power battery clamp (4) is used for clamping and fixing a PHEV power battery;

   a positioning turning plate assembly is arranged on the vertical sliding rail assembly (2) and is used for positioning the swing arm assembly (3);

   the base assembly (1) comprises a base front cross beam (101) and a base rear cross beam (102), and a base longitudinal beam (103) is fixedly connected between the base front cross beam (101) and the base rear cross beam (102);

   the two ends of the base front cross beam (101) are provided with directional casters (104);

   the end part of the base rear cross beam (102) is provided with universal rear casters (105);

   the vertical sliding rail assembly (2) is fixedly connected to the upper part of one end, close to the base rear cross beam (102), of the base longitudinal beam (103);

   an auxiliary supporting arm (106) is slidably arranged on one side, far away from the universal rear caster wheel (105), of the base rear cross beam (102), and an auxiliary supporting leg block (107) is arranged at the end part of the auxiliary supporting arm (106);

   an operation hand wheel is connected to the upper part of the auxiliary supporting leg block (107) through screw threads, and the operation hand wheel drives the screw to rotate so as to adjust the distance between the auxiliary supporting leg block (107) and the ground;

   the vertical sliding rail assembly (2) comprises a sliding rail (201) fixedly connected with the base longitudinal beam (103) through a fixed bottom plate, and the sliding rail (201) is provided with a sliding groove along the length direction;

   a sliding groove of the sliding rail (201) is embedded with a sliding block (206), the upper end of the sliding block (206) is in sliding connection with the sliding rail (201) through a rolling pin bearing (208), a universal ball (207) which is in contact with the inner wall of the sliding rail (201) is arranged on the side surface of the sliding block (206), and the front side of the sliding block (206) is provided with the positioning turning plate assembly;

   the positioning turning plate assembly comprises a positioning turning plate (204) connected with the pulley (206), and a positioning turning plate pin (205) is arranged at the front end of the positioning turning plate (204);

   the lower part of the sliding rail (201) is also embedded with a hydraulic oil cylinder (209), a cylinder rod of the hydraulic oil cylinder (209) is fixedly connected with the pulley (206), and the hydraulic oil cylinder (209) drives the pulley (206) to slide along the sliding rail (201);

   the rear side of the vertical sliding rail assembly (2) is arranged on a remote control pneumatic hydraulic pump (203), and the hydraulic cylinder (209) is controlled by the remote control pneumatic hydraulic pump (203);

   the remote control pneumatic hydraulic pump (203) is arranged at the joint of the sliding rail (201) and the base longitudinal beam (103), and the lower part of the remote control pneumatic hydraulic pump (203) is fixed through a sliding rail reinforcing rib;

   the swing arm assembly (3) comprises a swing arm (301) extending along the horizontal direction, one end, close to the sliding rail (201), of the swing arm (301) is rotatably connected with a swing arm lever shaft (305), and the swing arm (301) rotates around the swing arm lever shaft (305);

   one end of the swing arm (301) close to the sliding rail (201) is provided with a swing arm side plate (302) which covers the end part of the swing arm (301) and the swing arm lever shaft (305);

   a positioning turning plate pin embedding hole (303) is formed at the upper end of the swing arm side plate (302);

   a positioning flap pin (205) at the end of the positioning flap (204) can be embedded into the positioning flap pin embedding hole (303) to position the swing arm assembly (3).
2. 2. The PHEV power battery remover according to claim 1, wherein the power battery clamp (4) includes a clamp beam (401) mounted to an end of the swing arm (301), and clamp swing brackets (402) fixed to both ends of the clamp beam (401), and a power battery clamping space is formed between the clamp beam (401) and the clamp swing brackets (402).
3. 3. The PHEV power battery remover according to claim 2, wherein a clamp support plate (403) is mounted at both upper and lower ends of the end of the swing arm (301), and the clamp beam (401) is rotatably connected to the clamp support plate (403) by a clamp beam pin (404) to adjust the angle of the power battery clamp (4).
4. 4. The PHEV power battery remover according to claim 2, wherein the clamp swing bracket (402) is pivotally connected to the clamp beam (401) by a pivot to adjust the size of the opening of the power battery clamping space.