CN210167431U - Cap device for battery hole - Google Patents

Abstract

The utility model discloses a storage battery handhole door cap device relates to storage battery equipment pretreatment equipment field. In this application, a battery hole cap device includes: a frame; a first vibration excitation part arranged at the side end of the frame; the first bracket is arranged at the side end of the rack; a first driving part disposed above the first support; a first moving part disposed above the first support; a first mounting portion provided at a side end of the first moving portion; a first adjusting part arranged at the side end of the first mounting part; a first correcting portion disposed above the first support; the first conveying part is arranged at the side end of the first adjusting part. This application carries out the block through the hole that first regulation portion, first installation department, first removal portion etc. had to the storage battery thereby reduces the cost of labor of storage battery processing before packing.

Description

Cap device for battery hole

Technical Field

The utility model relates to a storage battery processing equipment field before the packing, in particular to storage battery handhole door cap device.

Background

The storage battery need seal up the block to the acid hole that adds of storage battery before the packing, prevent that the foreign matter from adding sour hole entering storage battery, current storage battery adds sour hole and covers the seal up block and all adopt artifical block, this kind of mode need be equipped with many workman and just can in time accomplish the cost of labor that the block work produced huge, the manual work can produce fatigue after long-time work simultaneously and lead to the block to leak the lid, and whether firm lid of in-process block at the block is also uncertain on storage battery adds sour hole, unqualified product appears easily. The positioning of the storage battery in the capping process is also a problem, and the positioning point of the storage battery can deviate in long-time work, so that the error generated at the time can cause the problem that the capping is completely inaccurate and the cap is not covered.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a storage battery handhole door cap device for the block that adds the sour hole of storage battery needs artifical block among the solution prior art, and is inefficient, very easily takes place to leak under the long-time work simultaneously and covers, fixes a position unsafe problem.

In order to achieve the above purpose, the embodiments of the present application adopt the following technical solutions: a battery hole cap assembly comprising: a frame; a first vibration excitation part arranged at the side end of the frame; the first bracket is arranged at the side end of the rack; a first driving part disposed above the first support; a first moving part disposed above the first support; a first mounting portion provided at a side end of the first moving portion; a first adjusting part arranged at the side end of the first mounting part; a first correcting portion disposed above the first support; the first conveying part is arranged at the side end of the first adjusting part; the second bracket is arranged at the side end of the rack; a second driving part disposed above the second bracket; a second moving part disposed above the second bracket; a second mounting portion provided at a side end of the second moving portion; a second regulating part arranged at the side end of the second mounting part; a second correction portion disposed above the second support; and the second transmission part is arranged at the side end of the second adjusting part.

In above-mentioned technical scheme, this application embodiment has solved the storage battery through first installation department, first correction portion etc. and need carry out the block to adding sour hole before the packing, adopts artifical block inefficiency to leak the lid easily after working for a long time, and the problem of skew takes place easily in the location of storage battery when adopting the device block simultaneously.

Further, according to the embodiment of the present application, wherein the first excitation portion includes: the first chassis is arranged at the side end of the rack; a first vibratory barrel disposed above the first chassis. The first vibratory cylinder stores a port cap. The cap in the first vibrating cylinder can be adjusted in opening position in advance in the process of capping the battery cap through the first vibrating cylinder, so that the condition of cap leakage in the battery cap is prevented.

Further, according to the embodiment of the present application, wherein the first excitation portion includes: the first feeding tray is arranged at the side end of the rack. The first feeding tray is in a P shape and is placed spirally. The cover cap can be divided into three strands to a pre-placing position through the first feeding disc.

Further, according to the embodiment of the present application, wherein the first excitation portion includes: the first feeding area is arranged inside the first excitation part; the second feeding area is arranged inside the first excitation part; and the third feeding area is arranged inside the first excitation part. The first feeding area is divided into 3 sections; the second feeding area is divided into 3 sections; the third feeding zone is divided into 3 sections. The first feeding area is used for initial feeding; the second feeding area is connected with one end of the first feeding area; the third feeding area is connected with the other end of the second feeding area, and the second feeding area is in a semi-spiral shape. Vibrations through the material loading district carry out work to the block, and the vibrational force that the one end of block light in weight (having opening one end) received is strong, and the motion amplitude is big, easy upset for the whole laminating material loading district bottom surface of the heavy one end of block weight (the block stands), accomplishes the adjustment work of block opening up.

Further, according to the embodiment of the present application, wherein the first excitation portion includes: the screening area is arranged in the first vibration excitation part; the discharge gate sets up and forms by a plurality of semicircle combinations in this screening district inside this first excitation portion. The caps are guided and concentrated through the semicircle of the screening area.

Further, according to the embodiment of the application, the first bracket is arranged behind the first excitation part.

Further, according to the embodiment of the application, the first driving part is horizontally arranged behind the first excitation part; the first moving part is arranged above the first driving part; the first mounting part is vertically arranged at the side end of the first moving part; the first adjusting part is horizontally arranged at the side end of the first mounting part, and the first driving part is horizontally arranged behind the first excitation part along the driving direction; the first moving part is horizontally and vertically arranged above the first driving part along the moving direction; the first mounting part is horizontally and vertically arranged on the side end surface of the first moving part along the moving direction; the first adjusting part is horizontally and vertically arranged on the side end surface of the first mounting part along the moving direction.

Further in accordance with an embodiment of the present application, wherein the first orthotic is horizontally disposed above the first brace; the first conveying part is vertically arranged at the side end of the first adjusting part.

Further, according to the embodiment of the present application, wherein the second support is symmetrically disposed opposite to the first support; the second driving part is horizontally arranged above the second bracket; the second moving part is arranged above the second driving part; the second mounting part is vertically arranged at the side end of the second moving part; the second adjusting part is horizontally arranged at the side end of the second mounting part, and the second driving part is horizontally arranged above the second bracket along the driving direction; the second moving part is horizontally and vertically arranged above the second driving part along the moving direction; the second mounting part is horizontally and vertically arranged on the side end surface of the second moving part along the moving direction; the second adjusting portion is horizontally and vertically arranged on the side end surface of the second mounting portion along the moving direction.

Further, according to the embodiment of the present application, wherein the first transmitting portion includes: a first connecting plate provided at a side end of the first regulating portion; the second connecting plate is arranged at the side end of the first adjusting part; a third connecting plate provided at the first regulating portion side end; the adsorption piece is arranged above the first connecting plate, and the first connecting plate, the second connecting plate and the third connecting plate are in the same shape; the first connecting plate is vertically arranged on the side end surface of the first adjusting part; the second connecting plate is vertically arranged on the side end surface of the first adjusting part; the third connecting plate is vertically arranged on the side end surface of the first adjusting part, and the first connecting plate, the second connecting plate and the third connecting plate are all L-shaped; the adsorption pieces are divided into 3 pieces which are respectively connected with the first connecting plate, the second connecting plate and the third connecting plate; the adsorption piece is respectively connected and arranged on the upper surfaces of the first connecting plate, the second connecting plate and the third connecting plate in the short direction.

Further, according to the embodiment of the present application, wherein the first transmitting portion includes: a first positioning plate disposed at a side end of the first correction portion; the first positioning plate is divided into 2 blocks, is respectively arranged at the side end of the first correcting part, is attached to the side end surface of the first correcting part, and is Z-shaped. Realize preventing at long-time operating condition to the fixed of first correction portion through first locating plate, first correction portion takes place the skew and leads to storage battery positioning error.

Further, according to the embodiment of the present application, wherein the first transmitting portion includes: the first correction connecting plate is arranged above the first correction part; the first correcting plate is arranged below the first correcting connecting plate; the first pressure plate is arranged above the first correction connecting plate, the first correction connecting plate is rectangular, and the first correction connecting plate is attached and connected along the sliding direction of the first correction part; the first pressing plate is rectangular and is vertically arranged with the first correction connecting plate; the first correction plate is L-shaped, and the first correction plate and the first correction connecting plate are fixedly connected with the first correction plate and horizontally arranged in the transverse direction. Through the cooperation of first correction connecting plate and first correction board can fix the storage battery in required position completely and prevent that it from taking place the skew in the block.

Further, according to the embodiment of the present application, wherein the second transmitting portion includes: a fourth connecting plate provided at the second regulating portion side end; a fifth connecting plate provided at the second regulating portion side end; the sixth connecting plate is arranged at the side end of the second adjusting part, and the fourth connecting plate, the fifth connecting plate and the sixth connecting plate are in the same shape; the fourth connecting plate is vertically arranged on the side end surface of the second adjusting part; the fifth connecting plate is vertically arranged on the side end surface of the second adjusting part; the sixth connecting plate is vertically arranged on the side end surface of the second adjusting part, and the third connecting plate, the fifth connecting plate and the sixth connecting plate are all L-shaped. The storage battery is fixed through the second conveying part to prevent the storage battery from moving.

Further, according to the embodiment of the present application, wherein the second transmitting portion includes: a second positioning plate disposed at a side end of the second correction portion; the second positioning plate is divided into 2 pieces, which are respectively arranged at the side end of the second correcting part, the second positioning plate is attached to the side end surface of the second correcting part, and the second positioning plate is Z-shaped. The second correcting part is firmly fixed through the second positioning plate, and the second correcting part is prevented from moving under long-time work.

Further, according to the embodiment of the present application, wherein the second transmitting portion includes: the second correction connecting plate is arranged above the second correction part; the second correction plate is arranged below the second correction connecting plate; the second pressure plate is arranged above the second correction connecting plate, the second correction connecting plate is rectangular, and the second correction connecting plate is attached and connected along the sliding direction of the second correction part; the second pressing plate is rectangular and is vertically arranged with the second correction connecting plate; the second correction plate is L-shaped, and the second correction plate and the second correction connecting plate are fixedly connected with the second correction plate and are horizontally arranged in the transverse direction.

In order to achieve the above purpose, the embodiments of the present application adopt the following technical solutions: a battery hole cap assembly comprising: a frame; the first bracket is arranged at the side end of the rack; a first driving part disposed above the first support; a first moving part disposed above the first support; a first mounting portion provided at a side end of the first moving portion; a first adjusting part arranged at the side end of the first mounting part; a first correcting portion disposed above the first support; the first conveying part is arranged at the side end of the first adjusting part.

In above-mentioned technical scheme, this application embodiment has solved the storage battery through first installation department, first correction portion etc. and need carry out the block to adding sour hole before the packing, adopts artifical block inefficiency to leak the lid easily after working for a long time, and the problem of skew takes place easily in the location of storage battery when adopting the device block simultaneously.

Further, according to the embodiment of the present application, wherein the first bracket is disposed at the rack side end.

Further, according to the embodiment of the present application, wherein the first driving part is horizontally disposed above the first support; the first moving part is arranged above the first driving part; the first mounting part is vertically arranged at the side end of the first moving part; the first adjusting part is horizontally arranged at the side end of the first mounting part, and the first driving part is horizontally arranged behind the first excitation part along the driving direction; the first moving part is horizontally and vertically arranged above the first driving part along the moving direction; the first mounting part is horizontally and vertically arranged on the side end surface of the first moving part along the moving direction; the first adjusting part is horizontally and vertically arranged on the side end surface of the first mounting part along the moving direction.

Further in accordance with an embodiment of the present application, wherein the first orthotic is horizontally disposed above the first brace; the first conveying part is vertically arranged at the side end of the first adjusting part.

Further, according to the embodiment of the present application, wherein the first transmitting portion includes: a first connecting plate provided at a side end of the first regulating portion; the second connecting plate is arranged at the side end of the first adjusting part; a third connecting plate provided at the first regulating portion side end; the adsorption piece is arranged above the first connecting plate, and the first connecting plate, the second connecting plate and the third connecting plate are in the same shape; the first connecting plate is vertically arranged on the side end surface of the first adjusting part; the second connecting plate is vertically arranged on the side end surface of the first adjusting part; the third connecting plate is vertically arranged on the side end surface of the first adjusting part, and the first connecting plate, the second connecting plate and the third connecting plate are all L-shaped; the adsorption pieces are divided into 3 pieces which are respectively connected with the first connecting plate, the second connecting plate and the third connecting plate; the adsorption piece is respectively connected and arranged on the upper surfaces of the first connecting plate, the second connecting plate and the third connecting plate in the short direction.

Further, according to the embodiment of the present application, wherein the first transmitting portion includes: a first positioning plate disposed at a side end of the first correction portion; the first positioning plate is divided into 2 blocks, is respectively arranged at the side end of the first correcting part, is attached to the side end surface of the first correcting part, and is Z-shaped.

Further, according to the embodiment of the present application, wherein the first transmitting portion includes: the first correction connecting plate is arranged above the first correction part; the first correcting plate is arranged below the first correcting connecting plate; the first pressure plate is arranged above the first correction connecting plate, the first correction connecting plate is rectangular, and the first correction connecting plate is attached and connected along the sliding direction of the first correction part; the first pressing plate is rectangular and is vertically arranged with the first correction connecting plate; the first correction plate is L-shaped, and the first correction plate and the first correction connecting plate are fixedly connected with the first correction plate and horizontally arranged in the transverse direction.

In order to achieve the above purpose, the embodiments of the present application adopt the following technical solutions: a battery hole cap assembly comprising: a first excitation section having: a first chassis disposed on a horizontal plane; a first vibration cylinder disposed above the first chassis; the first feeding tray is arranged above the first chassis; the first feeding area is arranged inside the first excitation part; the second feeding area is arranged inside the first excitation part; and the third feeding area is arranged inside the first excitation part.

In the technical scheme, the problem that the cover cap cannot be accurately moved at a required position in the process of covering the cover cap of the battery cell and the problem that the cover cap is wrong due to the fact that the position of the opening direction of the cover cap is not right is solved through the first vibration excitation portion.

Further, according to the embodiment of the present application, wherein the first excitation portion includes: the screening area is arranged in the first vibration excitation part; the discharge gate sets up and forms by a plurality of semicircle combinations in this screening district inside this first excitation portion.

Further in accordance with an embodiment of the present application, wherein the first vibratory cartridge stores a port cap.

Further, according to this application embodiment, wherein, first material loading dish is the P shape, and this first material loading dish is placed in the spiral.

Further, according to the embodiment of the application, the first feeding area is divided into 3 sections; the second feeding area is divided into 3 sections; the third feeding area is divided into 3 sections, and the first feeding area is used as initial feeding; the second feeding area is connected with one end of the first feeding area; the third feeding area is connected with the other end of the second feeding area, and the second feeding area is in a semi-spiral shape.

The embodiment of the utility model also discloses a use method based on above-mentioned battery hole block device, including following step:

starting a motor, placing the storage battery to be covered on the conveying belt, and moving the storage battery to the second mounting part through the conveying belt;

the storage battery stops after reaching the second mounting part, meanwhile, the second correction part is started to push the storage battery to approach the first correction part, and the storage battery is fixed through the second correction part and the first correction part;

the first adjusting part and the second adjusting part adsorb the pore caps in the moving and fixing processes of the storage battery;

then the first driving part drives the first moving part to a set position, and the first adjusting part moves up and down in the sliding direction of the first mounting part to mount the cap.

Further, according to the embodiment of the application, after the cap is installed, the second correcting part resets, and meanwhile, the first adjusting part and the second adjusting part reset to adsorb the cap; and taking out the battery jar with the cap at the tail end of the transmission belt, and repeating the steps for the second battery jar to be capped.

Further, according to the embodiment of the application, when the cap is adsorbed, the cap in the first excitation part is subjected to vibration positioning; the cap in the first vibration excitation part is adjusted the position through the vibration and the open end is all downward, then first regulation part, second regulation part adsorb the cap.

The utility model has the advantages that: firstly, the storage battery hole cap device of the utility model corrects and fixes the storage battery through the first correction part, the first installation part, the second correction part, the second installation part and the like, so that the storage battery stays at the preset position, then the acid adding hole of the storage battery is capped through the first installation part and the second installation part, thereby greatly reducing the labor cost of the storage battery pre-packaging treatment, greatly improving the capping efficiency of the acid adding hole of the storage battery, reducing the problem that the cap is missed in the long-time work, meanwhile, the cap is not completely fixed on the acid adding hole, so that the cap is easy to fall off in the later period, and unqualified products are produced; in addition, under the condition that the device works for a long time, the positioning of the storage battery is kept unchanged, the position of the storage battery is deviated after the storage battery works for a long time, so that the cap can not be accurately installed on the storage battery acid adding hole, and the follow-up work is influenced.

Drawings

The present application is further described below with reference to the drawings and examples.

Fig. 1 is a schematic view of the overall structure of a battery hole cap device according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of another view angle of the battery hole cap device according to the embodiment of the present invention.

Fig. 3 is a schematic structural diagram of the first excitation portion according to the embodiment of the present invention.

Fig. 4 is a schematic diagram of an internal structure of the first excitation portion according to the embodiment of the present invention.

Fig. 5 is another view-angle configuration diagram of the first excitation portion according to the embodiment of the present invention.

Fig. 6 is a schematic diagram of a part of a connection structure according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of the capping process according to the embodiment of the present invention.

Fig. 8 is a schematic structural view of a second transfer unit according to an embodiment of the present invention.

Fig. 9 is a schematic structural view of the first transfer unit according to the embodiment of the present invention.

Fig. 10 is a schematic structural diagram of a position control portion according to an embodiment of the present invention.

Fig. 11 is a schematic structural diagram of the position control portion according to the embodiment of the present invention after being started.

Fig. 12 is a schematic view of the working state of the embodiment of the present invention.

In the attached drawings

10. Frame 20, first excitation portion 201, first chassis

202. A first vibrating cylinder 203, a first feeding tray 204, a first feeding area

205. A second feeding area 206, a third feeding area 207 and a cover cap

208. Screening area 209, discharge port

30. Conductive part 301, first conductive plate 302, second conductive plate

303. First connecting block 304, second connecting block

40. Battery 50, first drive part 60, first removal part

70. First installation part 80, first adjusting part 90 and first support

100. A second support 110, a second driving part 120, and a second moving part

130. Second mounting part 140, second adjustment part 150, and second excitation part

160. First correction unit 170 and placement unit

180. First transfer unit 1801, first connection plate 1802, and second connection plate

1803. Third connecting plate 1804, first locating plate 1805, first correction plate

1806. First clamp plate 1807, first correction connecting plate 1808, adsorption piece

190. Second correction unit 200, second transfer unit 2001, and fourth connection plate

2002. Fifth connecting plate 2003, sixth connecting plate 2004, second presser plate

2005. Second positioning plate 2006, second correction connecting plate 2007 and second correction plate

210. Position control part

Detailed Description

In order to make the objects and technical solutions of the present invention clear and fully described, and the advantages thereof more clearly understood, the embodiments of the present invention are described in further detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of some, but not all, embodiments of the present invention and are not to be considered as limiting, and that all other embodiments can be made by one of ordinary skill in the art without any inventive work.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "inner", "outer", "top", "bottom", "side", "vertical", "horizontal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "a," "an," "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

For the purposes of simplicity and explanation, the principles of the embodiments are described by referring mainly to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. But it is obvious. To one of ordinary skill in the art, the embodiments may be practiced without limitation to these specific details. In some instances, well-known methods and structures have not been described in detail so as not to unnecessarily obscure the embodiments. In addition, all embodiments may be used in combination with each other.

The first embodiment is as follows:

as shown in fig. 1, 2 and 6, the embodiment discloses a battery hole cap device, which comprises a frame 10, wherein a conveyor belt capable of conveying batteries 40 forwards is arranged on the frame 10, and the conveyor belt is divided into 2 sections. The two sections of conveying belts are made of plastic materials, so that the friction between the surfaces of the conveying belts and the storage battery 40 is reduced during movement, and the positioning of the storage battery 40 is greatly influenced. The conduction parts 30 are symmetrically arranged at two sides of the frame 10, the conduction parts 30 are fixed on the lateral surface of the frame 10 through the second connection blocks 304, the conduction parts 30 are symmetrically arranged at 2 sides, the first connection blocks 303 are connected above the second connection blocks 304 through cylinders, a round column is arranged at the right side of the first connecting block 303 and is connected with a second conducting plate 302, a first conducting plate 301 is arranged opposite to the second conducting plate 302, a space suitable for placing the battery 40 is arranged between the first conducting plate 301 and the second conducting plate 302, under the setting of conduction portion 30 when the battery 40 behind the drive of conveyer belt through the accurate removal of conduction portion 30 ability to first installation department 70 and second installation department 130 below, the circular post of connecting first conduction board 301, second conduction board 302 can be used for adjusting the unable problem of adjusting of conduction portion when the battery block of equidimension not slides from side to side in first connecting block 303.

The left side and the right side of the rack 10 are provided with the first vibration excitation part 20 and the second vibration excitation part 150, the first vibration excitation part 20 and the second vibration excitation part 150 are completely the same, the inner cap can be automatically fed under the action of the first vibration excitation part 20, the opening face of the cap 207 is automatically upward in the feeding process, the cap efficiency of the device is improved, the error rate of the cap 207 is reduced, and the cap leakage of the storage battery 40 is prevented. An installation part which can suck the caps 207 and can respectively cover the sucked caps 207 on acid adding holes of the storage batteries 40 is arranged behind the first excitation part 20 and the second excitation part 150, a storage battery 40 which can be used for conveying the storage batteries on the conveying belt is arranged below the installation part, and a correction part which is fixed below the installation part and can be released after the caps are finished is arranged below the installation part. A first moving part 60 is provided behind the first mounting part 70 for the first mounting part 70 to move forward and backward as necessary, a first driving part 50 is provided below the first moving part 60 for the first moving part 60 to move left and right, the first driving part 50 is placed above the placing part 170, and the placing part 170 is provided on the surface of the first bracket 90.

As shown in fig. 1, 2, 3, 4 and 5, a first excitation part 20 on the right side of a frame 10 is connected with the frame 10 through a first chassis 201, the first chassis 201 is arranged at the middle part of the frame, a first vibration cylinder 202 is fixedly arranged on the upper surface of the first chassis 201, a vibration motor is arranged in the first vibration cylinder 202, a cap is put in the first vibration cylinder 202, the cap slowly rises along a spiral track of the inner wall of the first vibration cylinder 202 under the action of the vibration motor, a first feeding disc 203 is arranged on the periphery of the first vibration cylinder 202, the first feeding disc 203 is approximately in a P shape, the first feeding disc 203 is spirally arranged, the cap in the first vibration cylinder 202 is divided into 3 sections through the first feeding disc 203 when rolling upwards through vibration, a first feeding area 204, a second feeding area 205, a third feeding area 206 and a third feeding area are arranged in the first feeding disc 203, A discharge port 209, a screening area 208 is further arranged between the second feeding area 205 and the first feeding area 204 for screening caps 207 with downward opening faces to prevent the caps 207 from opening upwards to cause that the whole caps of the storage battery 40 cannot be covered, the caps 207 in the first feeding area 204 can be screened up and down with the opening faces firstly, the caps 207 in the first feeding area 204 can move downwards slowly along with vibration under the action of a vibration motor, the caps 207 in the first feeding area 204 can move downwards in 3 sections in the first feeding area 204, the caps 207 with downward opening faces can move along with the vibration and a semicircular track of the screening area 208 when moving to the screening area 208, the caps 207 with downward opening faces automatically fall into the first vibrating cylinder 202 again due to no supporting point when passing through the screening area 208 to prevent the caps 207 from being taken out and left in the discharge port 209 to cause errors of the caps of the storage battery 40 when the caps are needed, the cap 207 passing through the screening zone 208 will pass through the second feeding zone 205 and its own rotational torque will convert the cap 207 opening upwards into a cap 207 opening downwards, moving to the third feeding zone 206 and then to the final discharge port 209 waiting for the cap to be removed. The arrangement of the first feeding area 204, the second feeding area 205, the screening area 208 and the third feeding area 206 ensures that all the caps 207 moving in the first feeding tray 203 are in the same opening direction and cannot be missed during capping of the storage battery 40.

As shown in fig. 1, 2, 3, 6, 7, 8, 9, the first bracket 90 and the frame 10 are fixedly connected, the first correcting unit 160 is provided on the right small rectangular surface of the first bracket 90, the first transmitting unit 180 is provided on the left side of the first correcting unit 160, the first transmitting unit 180 is fixedly mounted on the surface of the first adjusting unit 80, the first adjusting unit 80 is fixedly provided on the outer surface of the first mounting unit 70, the first mounting unit 70 is fixedly connected to the outer surface of the first moving unit 60, the first moving unit 60 is fixedly connected to the first driving unit 50, the first driving unit 50 moves the first moving unit 60 to the left and right for adjusting distance, the first moving unit 60 moves the first mounting unit 70 to the front and back for adjusting distance, the first mounting unit 70 moves the first adjusting unit 80 to the up and down for adjusting distance, the first connecting plate 1801, the second connecting plate 1802, and the third connecting plate 1803 of the first transmitting unit 180 are fixed on the surface of the first adjusting unit 80, the first connecting plate 1801 and the third connecting plate 1803 are movably adjusted, the holes of the storage batteries 40 with different sizes, which need to be capped, can be capped under the adjustment of the first adjusting portion 80, the adsorbing member 1808 is arranged on the connecting plate, the adsorbing member 1808 adopts pneumatic adsorption, the left side and the right side of the first correcting portion 160 are provided with first positioning plates 1804, the first positioning plates 1804 are used for fixing the first correcting portion 160, the fixed position of the storage battery 40 is prevented from being shifted due to the movement of the first correcting portion 160, so that the capping 207 cannot completely cover the required capping position of the storage battery 40, the upper surface of the first positioning plates 1804 is fixedly connected with a first pressing plate 1806, the upper surface of the first pressing plate 1806 is provided with a discharge port 209, the capping 207 is placed in the discharge port 209, the adsorbing members 1808 correspond to the capping 207 in the discharge port 209 one by one, the upper surface of the moving block of the first correcting portion 160 is fixedly provided with a first correcting connecting plate 1807, the height of the first correction connecting plate 1807 is flush with the height of the first positioning plate 1804, the lower surface of the first correction connecting plate 1807 is connected with a first correction plate 1805, the first correction plate 1805 is transversely connected to the lower surface of the first correction connecting plate 1807 in an L shape, the extending distance of the first correction plate 1805 is controlled by the first correction part 160, and the first correction part 160 is manually controlled.

The left side of the frame 10 is provided with the same structure as the right side, the left side of the frame 10 is connected with the second bracket 100, the upper surface of the second bracket 100 is provided with the second driving part 110, the upper surface of the second driving part 110 is connected with the second moving part 120, the surface of the sliding block of the second moving part 120 is connected with the second installation part 130, the surface of the sliding block of the second installation part 130 is connected with the second adjusting part 140, the surface of the sliding block of the second adjusting part 140 is connected with the second transmission part 200, the second transmission part 200 comprises a fourth connecting plate 2001, a fifth connecting plate 2002, a sixth connecting plate 2003, a second pressing plate 2004, a second positioning plate 2005, a second correcting connecting plate 2006 and a second correcting plate 2007, the connection mode of the second transmission part 200 is completely the same as the first transmission part 180 arranged at the right side of the frame 10, the first transmission part 180 and the second transmission part 200 are arranged in a crossed symmetrical mode, the second straightening plate 2007 is transversely placed in an L-shape, and a long section of the surface of the second straightening plate 2007 is flush with the second conductive plate 302 of the conductive part 30.

The storage battery 40 is conveyed by the conveyor belt and reaches the second correction plate 2007 of the second conveying part 200, the second correction plate 2007 intercepts the storage battery 40 so that the storage battery 40 stops between the second conveying part 200 and the first conveying part 180, the second correction plate 2007 intercepts the storage battery 40, after interception, the second correction part 190 pushes the storage battery 40 to move towards the first conveying part 180 so that the storage battery 40 is fixed left and right, a space formed by the first correction plate 1805 and the second correction plate 2007 just contains the storage battery 40, the adsorption piece 1808 sucks up the cap 207 in the discharge port 209 through vacuum in the moving process of the storage battery 40, then the first driving part 50 moves the first moving part 60 to move the first adjusting part 80 to be right above the storage battery 40 to be aligned with a place where the cap is needed, the first installing part 70 moves the first adjusting part 80 to move upwards while the first adjusting part 80 moves right above the storage battery 40 to prevent the first adjusting part 80 from moving to be insufficient to impact the storage battery 40 in the moving space in the process of moving the first adjusting part 80 to be right above the storage battery 40 40 damages the storage battery 40, the block implementation mode on the right side is used for corresponding to a part of the storage battery 40 and needs the block position, the block implementation mode on the left side of the rack 10 and the block implementation mode on the right side are in the same motion mode, after the adsorption piece 1808 sucks up the block 207, the block is moved to the position right above the storage battery 40 and then waits for the storage battery 40 to move to the second correction plate 2007 through the conveyor belt to stop, then the second correction part 190 pushes the storage battery 40 to move to the first correction part 160 and fix the storage battery 40 at the same time, after the storage battery 40 is fixed, the first conveying part 180 aligned to the position right above the storage battery 40, the second conveying part 200 downwards moves through the first installation part 70 and the second installation part 130 to cover the block 207 on the hole of the storage battery 40, then the second correction part 190 resets, and the storage battery 40 is continuously. Can break away from artifical block greatly and improve block efficiency completely when the block is carried out in the hole of storage battery 40 through the block device, simultaneously the interval variation in size of hole when storage battery 40 is the specification of equidimension not, this device can adjust according to the big or small specification of storage battery 40 and form many specifications storage battery 40 block, save the cost, storage battery 40's location is for producing the deviation under the long-time work of device, the deviation is in case produce the hou mian block basically all can go out the problem, so this device has set up first locating plate 1804, second locating plate 2005, carry out location completely to first correction portion 160 and second correction portion 190 and make the device can also produce higher locate effect to storage battery 40 under long-time work, this application storage battery 40 need not to stop transport at block in-process subsequent storage battery, also need not to intercept by the waiting, this can further improve work efficiency. The device adopts a linear module and program control for the first driving part 50, the first moving part 60, the first mounting part 70, the second driving part 110, the second moving part 120 and the second mounting part 130. The first adjustment unit 80, the second adjustment unit 140, the first correction unit 160, and the second correction unit 190 are controlled by ball screws.

Through the right capping step controlled by the first driving part 50, the first moving part 60, the first mounting part 70 and the first adjusting part 80, and the left capping step controlled by the second driving part 110, the second moving part 120, the second mounting part 130 and the second adjusting part 140, capping can be performed on acid adding holes of storage batteries 40 with different specifications, so that the capping cost is reduced, the capping efficiency is improved, the device can keep the capping rate of the other side after one side of the capping device breaks down, and the phenomenon that the capping device stops completely after the capping device breaks down is reduced.

As shown in fig. 1, 2, 10, and 11, two sides of the front end of the rack 10 are provided with a position control part 210, the position control part 210 includes a position control motor, a position control block, a position control disc, and a position control main body, a placing plate is arranged on the lower surface of the rack 1, the placing plate is arranged in an L shape, the position control motor is mounted on the upper surface of the placing plate, the position control motor controls the position control disc to rotate, the control main body is arranged on the left and right sides of the rack 10, a shaft of the position control motor passes through the inside of the position control main body, one end of a shaft of the position control motor is connected with the position control disc, the position control block is arranged inside the position control disc, the position control block is in an arc shape, the position control block is connected with the position control disc through a spring, the arc edge of the position control block is attached to the side wall of the battery 40, the position control parts 210 are symmetrically arranged on two sides of the rack 10 to prevent the battery 40 from inclining only, storage battery 40's one end perk leads to storage battery 40 at the removal in-process, the one side of perk damages storage battery 40 with the lateral wall friction that exceeds probably causes storage battery 40 to move forward simultaneously and causes the delay, the unable normal work of device, it need not to see the space between storage battery 40 to place storage battery 40 on the conveyer belt to be provided with behind the accuse position portion 210 manual work, prevent that the efficiency of the too big block in space from seriously declining, prevent that the too little preceding 40 block in space from not accomplishing subsequent storage battery and having gone into the block district and cause the unable work of accomplishing of the block of preceding storage battery, it need not to stop storage battery 40 and move forward and also need not to control the interval between the storage battery 40 to control to carry on storage battery 40 on the conveying through accuse position portion 210, reduce artificial amount of labour, greatly improve block efficiency. Be provided with the inductor on the right side of accuse position portion 210, when the inductor senses storage battery 40 time accuse position portion 210 passes through accuse position motor start, drive the rotation that accuse position dish carried out the relative direction, at this moment storage battery 40 removes the position that accuse position portion 210 can contact storage battery 40 lateral wall, the accuse position piece of both sides accuse position portion 210 carries out the centre gripping to storage battery 40 lateral wall simultaneously, and remove storage battery 40 to the block position fast through rotating and make storage battery 40 of accuse position portion 210 and the position of rear 40 produce certain interval and prevent the inaccurate emergence of interval between storage battery 40 when the block, the inaccurate problem of cap, the spring of connecting at removal in-process accuse position piece can continuously carry out the centre gripping to storage battery 40 and prevent to remove in storage battery 40 and break away from, when follow-up storage battery 40 is sensed time accuse position portion 210 can rotate repeated above-mentioned operation until work is accomplished by the inductor.

Finally, as shown in fig. 10, there is also provided a method for using the battery hole cap device, comprising the following steps:

the motor is started, the storage battery 40 to be covered is placed on the conveying belt, and the storage battery moves to the second mounting portion 130 through the conveying belt.

When the battery 40 reaches the second mounting portion 130, it stops, and the second correction portion 190 starts to push the battery 40 toward the first correction portion 160, so that the battery 40 is fixed by the second correction portion 190 and the first correction portion 160.

The first adjusting part 80 and the second adjusting part 140 absorb the cap 207 in the moving and fixing processes of the battery 40.

Then, the first driving part 50 drives the first moving part 60 to a set position and the first adjusting part 80 moves up and down in the sliding direction of the first mounting part 70 to mount the cap.

When the cap 207 is sucked, the cap 207 in the first excitation portion 20 is vibrated and positioned.

The cap 207 in the first exciting portion 20 is positioned downward at the opening end by vibration, and then the cap 207 is sucked by the first adjusting portion 80 and the second adjusting portion 140.

After the battery 40 is mounted on the cap 207, the second correcting unit 190 is reset, and the first adjusting unit 80 and the second adjusting unit 140 are reset to adsorb the cap 207 to prepare for the next cap mounting.

When the cap 207 is adsorbed, the position control part 210 controls the position of the battery 40 manually placed on the conveying belt to keep the battery 40 at the same interval.

The battery 40 with the cap is taken out at the end of the driving belt, and the second battery to be capped repeats the above steps.

Although the illustrative embodiments of the present application have been described above to enable those skilled in the art to understand the present application, the present application is not limited to the scope of the embodiments, and various modifications within the spirit and scope of the present application defined and determined by the appended claims will be apparent to those skilled in the art from this disclosure.

Claims (10)

1. Storage battery handhole door cap device, characterized by includes:

a frame;

a first vibration excitation portion provided at a side end of the frame;

the first bracket is arranged at the side end of the rack;

a first driving part disposed above the first support;

a first moving part disposed above the first support;

a first mounting portion provided at a first moving portion side end;

a first adjusting portion provided at a first mounting portion side end;

a first correction portion provided above the first bracket;

the first conveying part is arranged at the side end of the first adjusting part;

the second bracket is arranged at the side end of the rack;

a second driving part disposed above the second bracket;

a second moving part disposed above the second bracket;

a second mounting portion provided at a second moving portion side end;

a second regulating portion provided at a second mounting portion side end;

a second correction portion provided above the second bracket; and

a second transmission portion provided at the second regulation portion side end.

2. The device of claim 1, wherein the first excitation portion comprises:

the first chassis is arranged at the side end of the rack;

a first vibratory barrel disposed above the first chassis.

3. The device of claim 1, wherein the first excitation portion comprises:

the first feeding disc is arranged at the side end of the rack.

4. The device of claim 1, wherein the first excitation portion comprises:

the first feeding area is arranged inside the first excitation part;

the second feeding area is arranged inside the first excitation part;

and the third feeding area is arranged inside the first excitation part.

5. The device of claim 1, wherein the first excitation portion comprises:

the screening area is arranged inside the first vibration excitation part;

and the discharge port is arranged in the first excitation part.

6. The device of claim 1, wherein the first bracket is disposed behind the first excitation portion.

7. The device of claim 1, wherein the first driving portion is horizontally disposed behind the first excitation portion;

the first moving part is arranged above the first driving part;

the first mounting part is vertically arranged at the side end of the first moving part;

the first adjusting part is horizontally arranged at the side end of the first mounting part.

8. The battery hole cap apparatus of claim 1, wherein the first rectification part is horizontally disposed above the first support;

the first conveying part is vertically arranged at the side end of the first adjusting part.

9. The battery hole cap apparatus of claim 1, wherein the second support is symmetrically disposed opposite the first support;

the second driving part is horizontally arranged above the second bracket;

the second moving part is arranged above the second driving part;

the second mounting part is vertically arranged at the side end of the second moving part;

the second adjusting part is horizontally arranged at the side end of the second mounting part.

10. The battery hole cap apparatus of claim 1, wherein the second orthotic is horizontally disposed above the second support;

the second conveying part is vertically arranged at the side end of the second adjusting part.

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