CN105702911A - Absorption device of electrolyte of alkaline dry batteries - Google Patents

Abstract

The invention relates to an absorption device of electrolyte of alkaline dry batteries. The device comprises a base plate (1), a vertical post (2) fixed with the base plate, and a top plate (3) fixedly arranged at the top of the vertical post. A support cup rotation mechanism (6) is arranged on a driving shaft (4); multiple support cups (8) for mounting batteries are evenly distributed along the peripheral direction of the support cup rotation mechanism (6); the device also comprises an injection mechanism (9); the injection mechanism (9) comprises a first cylinder (90), an injection rod (91) and a second cylinder (92); and one end of the injection rod (91) is arranged on the first cylinder (90). According to the technical scheme provided by the invention, the problem that the electrolyte cannot be absorbed fully in a normal pressure state can be solved; the device is provided for combining the injection and absorption processes of the electrolyte together; and the absorption efficiency of the electrolyte is improved.

Description

A kind of alkaline dry battery electrolyte absorption plant

Technical field

The present invention relates to alkaline dry battery technical field, particularly relate to a kind of alkaline dry battery electrolyte absorption plant。

Background technology

Injecting mechanism in basic dry cell zinc injection glue and electrolytic solution machine is the critical component of this machine, it can directly influence electrolyte inject measuring accuracy and properties of product, alkaline dry battery electrolyte injecting mechanism of the prior art be generally adopted battery directly utilize in injection process cam mechanism reach move up and down。Authorization Notice No. is the Chinese patent of CN100459231C, disclosing a kind of alkaline dry battery electrolyte vacuum absorption device, this technical scheme is in use, although can improve the infiltration rate of electrolyte, but which increase vacuum extractor, add the operation of alkaline dry battery electrolyte injection。

Summary of the invention

An object of the present invention is for the deficiencies in the prior art part, overcoming electrolyte under atmospheric pressure state and absorb insufficient problem, it is provided that a kind of device, injection and the absorption operation of electrolyte are combined by this device, utilize a set of mechanism to complete, and the absorption efficiency of electrolyte is high。

A kind of alkaline dry battery electrolyte absorption plant, it is fixedly installed top board including the fixing column of base plate and base plate, column top, described base plate and top board are provided with vertically arranged driving shaft, described driving shaft is by motor driven gear transmitting power, being provided with hypanthium rotating mechanism on described driving shaft, this hypanthium rotating mechanism is along the circumferential direction evenly equipped with the hypanthium of multiple installation battery；Also including injection mechanism, this injection mechanism is used for injecting the electrolyte in described battery；Drive the hoisting mechanism that described injection mechanism moves up and down, described hoisting mechanism includes the first cam being fixed on below top board, the periphery of this first cam is provided with cam helical groove, this cam helical groove slidably connects bearing connection, the quantity of this bearing connection is equal with described hypanthium station groove number, also including the guide rod being connected with described bearing connection and can moving up and down, this guide rod slides up and down through the axle sleeve in each layer working rotary table along axle sleeve；Described injection mechanism includes the first cylinder, injection rod and the second cylinder, and one end of described injection rod is arranged in described first cylinder；Described first cylinder includes cavity, liquid injection port and liquid outlet, and described second cylinder is arranged on the lower section of described first cylinder, and described second cylinder is provided for the fluid passage of electrolyte flow, inlet and is arranged on the pore of its outer wall；The liquid outlet of described first cylinder connects with the inlet of described second cylinder；Described injection rod has electrolyte passage and electrolyte inlet, and its end offers connector；During work, the electrolyte in described cavity is entered in described electrolyte passage by described electrolyte inlet, and injection rod moves down, and described connector connects with described liquid outlet and described inlet, and described electrolyte enters in described fluid passage；Also including being arranged on the extraction sector connected below described first cylinder and with liquid cabin, this extraction sector includes the gas passage of both ends open, and the first opening of this gas passage passes in described liquid cabin, and its second opening passes in described battery。

Beneficial effects of the present invention:

(1) the invention provides a kind of alkaline dry battery electrolyte absorption plant, electrolyte absorption pattern in injection mechanism in this device is negative pressure absorbing, namely the absorption environment of electrolyte is subnormal ambient, in such a case, the assimilation effect of electrolyte is better, and the sudden and violent leakage aerial time, electrolyte is unlikely to deteriorate。

(2) present invention by note electrolyte and creates the ingenious function utilizing a mechanism simultaneously to realize the two of subnormal ambient。In mechanism, utilizing the ingenious combination of injection rod and the second cylinder, be capable of the circulation of electrolyte in the lower section that coordinates of the two, electrolyte can be entered the second cylinder by injection rod, and then enters to described battery；Meanwhile, the technical program can utilize air extraction structure, gas in battery is extracted, relative negative pressuren zone is formed at inside battery, now electrolyte can spray along the pore of the second cylinder to surrounding, negative pressure can better realize the absorption of electrolyte on the one hand, and can being formed of electrolyte is sprayed and leave to surrounding on the other hand, uniform absorption；And after in the battery of electrolyte entrance negative relative, owing to gas content is less, it is little with the contact probability of air, is unlikely to deteriorate。

(3) during work, having electrolyte in cavity, its interior electrolyte can form fluid-tight always, places gas space on injection rod top in liquid cabin and cavity and carries out gas exchange, affects the Effec-tive Function of extraction sector。

Preferred as one, described injection mechanism is fixedly installed on described guide rod by connecting rod and overall and described guide rod does synchronization lifting motion, and the other end of described injection rod drives the inwall along described first cylinder to move up and down by cylinder。

Preferred as one, described injection rod includes piston portion, vertical portion；Described piston portion coordinates with the inwall movable seal of described cavity。

Preferred as one, the inlet of the liquid outlet of described first cylinder and described second cylinder passes through soft pipe connection。

Preferred as one, also include cooling gas check valve, described cooling gas check valve is arranged on the junction of described first opening and described liquid cabin；Also including liquid non-return valve, described liquid non-return valve is arranged on the junction of described liquid outlet and described inlet, and described liquid can be flowed into described inlet by described liquid outlet。

Preferred as one, described cooling gas check valve includes the bullet of one end open, one end closing, and described bullet is provided with, near the position of cone point, otch of giving vent to anger；The cone of described bullet is sharp towards described first opening。

Preferred as one, described pore cross section is tubaeform；Described pore is along the intensive setting of outer wall of described second cylinder。

Preferred as one, described hypanthium rotating mechanism is provided with 2-5 layer along the uniform spacing of driving shaft；Described hypanthium rotating mechanism includes ring flange, is arranged on the working rotary table of described ring flange, this working rotary table is provided with holder mould rotating disk, described holder mould rotating disk is uniform is provided with hypanthium station groove, this hypanthium station groove is used for disposing described hypanthium, with working rotary table in same level position bottom this hypanthium, the working rotary table below hypanthium is provided with sealing ring and spring。

Preferred as one, also include hypanthium conveying mechanism, this hypanthium conveying mechanism is for sending into described hypanthium in hypanthium station；Described hypanthium conveying mechanism includes the track support being fixedly installed on base plate both sides, this track support is provided with supporting plate, described in the number of plies of this supporting plate, the number of plies of hypanthium rotating mechanism is identical, and it is on same level, being provided with hypanthium entrance and the track export of conveying hypanthium on described supporting plate, described hypanthium is entered by hypanthium entrance and removes through track export。

Preferred as one, described first cylinder diapire also includes liquid tank, and described liquid outlet and described inlet are by this liquid tank and soft pipe connection。

Preferred as one, described electrolyte passage cross section becomes inverted T-shaped, and including Vertical Channel and horizontal channel, the top of described horizontal channel is higher than described liquid outlet。

Preferred as one, also include electrolyte conveying pipe, described electrolyte conveying pipe connects with described liquid injection port, for conveying electrolyte。

Preferred as one, also include liquid supplementation pipe, described liquid supplementation pipe is communicated in described fluid flow paths for electrolyte is fed。

Accompanying drawing explanation

Technical scheme for the clearer explanation embodiment of the present invention, below the accompanying drawing used required during embodiment is described is briefly described, apparently, drawings discussed below is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawings according to these accompanying drawings。

Fig. 1 is the structural representation of a kind of electrolyte negative pressure absorbing device。

Fig. 2 is the attachment structure schematic diagram of negative pressure absorbing mechanism and guide rod。

Fig. 3 is partly cut-away's schematic diagram of negative pressure absorbing mechanism。

Fig. 4 is the close-up schematic view of liquid outlet and inlet position。

Fig. 5 is the structural representation of cooling gas check valve。

Fig. 6 is the outer wall close-up schematic view of the second cylinder。

Fig. 7 is the structural representation of first body of rod。

Fig. 8 is the structural representation of hypanthium conveying mechanism。

Fig. 9 is the structural representation of holder mould rotating disk。

Detailed description of the invention

Below in conjunction with accompanying drawing, the technical scheme in the embodiment of the present invention is illustrated clearly and completely。

Embodiment

As shown in Figures 1 and 2, a kind of alkaline dry battery electrolyte absorption plant, it is fixedly installed top board 3 including the fixing column 2 of base plate 1 and base plate, column top, described base plate 1 and top board 3 are provided with vertically arranged driving shaft 4, described driving shaft 4 is by motor 5 driven gear 50 transmitting power, being provided with hypanthium rotating mechanism 6 on described driving shaft 4, this hypanthium rotating mechanism 6 is along the circumferential direction evenly equipped with the hypanthium 8 of multiple installation battery 7；Also including injection mechanism 9, this injection mechanism 9 is used for injecting the electrolyte in described battery 7；Drive the hoisting mechanism 10 that described injection mechanism 9 moves up and down, described hoisting mechanism 10 includes the first cam 113 being fixed on below top board 3, the periphery of this first cam 113 is provided with cam helical groove 1101, this cam helical groove 1101 slidably connects bearing connection 1110, the quantity of this bearing connection 1110 is equal with described hypanthium 8 station groove number, also including the guide rod 12 being connected with described bearing connection 1110 and can moving up and down, this guide rod 12 slides up and down through the axle sleeve 13 in each layer working rotary table along axle sleeve。

As it is shown on figure 3, described injection mechanism 9 includes the first cylinder 90, injection rod 91 and the second cylinder 92, one end of described injection rod 91 is arranged in described first cylinder 90；Described first cylinder 90 includes cavity 901, liquid injection port 902 and liquid outlet 903, described second cylinder 92 is arranged on the lower section of described first cylinder 90, and described second cylinder 92 is provided for the fluid passage 920 of electrolyte flow, inlet 921 and is arranged on the pore 922 of its outer wall；The liquid outlet 903 of described first cylinder 90 connects with the inlet 921 of described second cylinder；Described injection rod 91 has fluid flow paths 910 and electrolyte inlet 911, and its end offers connector 912；During work, electrolyte in described cavity 901 is entered in described fluid flow paths 910 by described electrolyte inlet 911, injection rod 91 moves down, and described connector 912 connects with described liquid outlet 903 and described inlet 921, and described electrolyte enters in described fluid passage 920；Also include being arranged on the extraction sector 11 connected below described first cylinder 90 and with liquid cabin 9010, this extraction sector 11 includes the gas passage 110 of both ends open, first opening 111 of this gas passage 110 passes in described liquid cabin 9010, and its second opening 112 passes in described battery 7。

As it is shown in figure 1, described injection mechanism 9 is fixedly installed on described guide rod 12 by connecting rod 14 and overall and described guide rod 12 does synchronization lifting motion, and the other end of described injection rod 91 drives the inwall along described first cylinder 90 to move up and down by cylinder。

In the present embodiment, described injection rod 91 is driven by cylinder, and this cylinder and described injection mechanism 9 are fixedly installed, and injection rod 91 can move up and down along the inwall of described first cylinder 90 under the induced effect of cylinder, cylinder therein is prior art, does not just repeat at this。

As it is shown in fig. 7, described injection rod 91 includes piston portion 913, vertical portion 914；Described piston portion 913 coordinates with the inwall movable seal of described cavity 901。

As shown in Figure 4, the liquid outlet 903 of described first cylinder 90 passes through soft pipe connection with the inlet 921 of described second cylinder 92。

As shown in Fig. 3, Fig. 4 and Fig. 5, also including cooling gas check valve 140, described cooling gas check valve 140 is arranged on the junction of described first opening 111 and described liquid cabin 9010；Also including liquid non-return valve 141, described liquid non-return valve 141 is arranged on the junction of described liquid outlet 903 and described inlet 921, and described liquid can be flowed into described inlet 921 by described liquid outlet 903。Described cooling gas check valve 140 includes the bullet 1400 of one end open, one end closing, and described bullet is provided with, near the position of cone point, otch 1401 of giving vent to anger；The cone of described bullet is sharp towards described first opening 111。

As shown in Figure 6, described pore 922 cross section is tubaeform；Described pore 922 is along the intensive setting of outer wall of described second cylinder 92。

As shown in Figure 1, Figure 2 and shown in Fig. 9, described hypanthium rotating mechanism 6 is provided with 2-5 layer along the uniform spacing of driving shaft 4；Described hypanthium rotating mechanism 6 includes ring flange 60, is arranged on the working rotary table 61 of described ring flange 60, this working rotary table 61 is provided with holder mould rotating disk 610, described holder mould rotating disk 610 is uniform is provided with hypanthium station groove 6100, this hypanthium station groove 6100 is used for disposing described hypanthium 8, with working rotary table 61 in same level position bottom this hypanthium 8, the working rotary table below hypanthium is provided with sealing ring 6101 and spring 6102。

As shown in Figure 1, Figure 2 and shown in Fig. 8, also including hypanthium conveying mechanism 15, this hypanthium conveying mechanism 15 is for sending into described hypanthium 8 in hypanthium station；Described hypanthium conveying mechanism 15 includes the track support 150 being fixedly installed on base plate 1 both sides, this track support 150 is provided with supporting plate 151, described in the number of plies of this supporting plate 151, the number of plies of hypanthium rotating mechanism 6 is identical, and it is on same level, being provided with hypanthium entrance 1510 and the track export 1511 of conveying hypanthium on described supporting plate 151, described hypanthium 8 is entered by hypanthium entrance 1510 and removes through track export 1511。

As shown in Figure 4, described first cylinder 90 diapire also includes liquid tank 904, and described liquid outlet 903 is connected with flexible pipe 16 by this liquid tank 904 with described inlet 921。

As it is shown in fig. 7, described electrolyte passage 910 cross section becomes inverted T-shaped, including Vertical Channel 9101 and horizontal channel 9102, the top 91020 of described horizontal channel 9102 is higher than described liquid outlet 903。

As in figure 2 it is shown, also include electrolyte conveying pipe 17, described electrolyte conveying pipe 17 connects with described liquid injection port 902, for conveying electrolyte。Also including liquid supplementation pipe 16, described liquid supplementation pipe 16 is communicated in described fluid flow paths 910 for electrolyte is fed。

Workflow: in real process, is broadly divided into following step:

(1), battery 7 enters position: the hypanthium 8 equipped with battery 7 is delivered to hypanthium station groove 6100 by hypanthium conveying mechanism 15；

(2), injection mechanism 9 liquor charging: the injection rod 91 of injection mechanism 9 is moving down along the inwall of the first cylinder 90 under the induced effect of cylinder, and the mobile liquid outlet 903 to described first cylinder connects with the inlet 921 of described second cylinder；Electrolyte is entered described electrolyte passage 910 by described liquid injection port 902, and the end of this electrolyte passage 910 has connector 912, and then electrolyte enters to fluid passage 920, owing to the effect now electrolyte of pressure rests essentially within described fluid passage 920；

(3), extraction sector 11 air-breathing: then, extraction sector 11 entirety moves down, to battery 7 and stop to operating position, then injection rod 91 moves, by driving extraction sector 11 to make its work, air in battery 7 is absorbed, and the gas in battery 7 enters in described liquid cabin 9010；

(4), electrolyte flows out: the gas in battery 7 is extracted out gradually, electrolyte in fluid passage 920 can gradually ooze out under the effect of the pressure and carry out preliminary injection, injection rod 91 moves down afterwards, under the effect of cooling gas check valve 140 and liquid non-return valve 141, being formed pressure by expellant gas in liquid cabin 9010 promotes electrolyte to be ejected in battery 7 in 920, completes fluid injection；

(5), injection mechanism 9 move on the whole, injection rod 91 relative injection mechanism 9 moves down, and new round electrolyte reenters to described electrolyte passage 9102, waits the electrolyte injection of a new round。

The above; being only the present invention preferably detailed description of the invention, but protection scope of the present invention is not limited thereto, any those familiar with the art is in the technical scope that the invention discloses; the change that can readily occur in or replacement, all should be encompassed within protection scope of the present invention。Therefore, protection scope of the present invention should be as the criterion with the protection domain of claims。

Claims (10)

1. an alkaline dry battery electrolyte absorption plant, it is fixedly installed top board (3) including the fixing column (2) of base plate (1) and base plate, column top, described base plate (1) and top board (3) are provided with vertically arranged driving shaft (4), described driving shaft (4) is by motor (5) driven gear (50) transmitting power, it is characterized in that, being provided with hypanthium rotating mechanism (6) on described driving shaft (4), this hypanthium rotating mechanism (6) is along the circumferential direction evenly equipped with the hypanthium (8) of multiple installation battery (7)；Also including injection mechanism (9), this injection mechanism (9) is used for injecting the electrolyte in described battery (7)；Drive the hoisting mechanism (10) that described injection mechanism (9) moves up and down, described hoisting mechanism (10) includes the first cam (113) being fixed on top board (3) lower section, the periphery of this first cam (113) is provided with cam helical groove (1101), this cam helical groove (1101) slidably connects bearing connection (1110), the quantity of this bearing connection (1110) is equal with described hypanthium (8) station groove number, also include the guide rod (12) being connected with described bearing connection (111) and can moving up and down, this guide rod (12) slides up and down through the axle sleeve (13) in each layer working rotary table along axle sleeve；Described injection mechanism (9) includes the first cylinder (90), injection rod (91) and the second cylinder (92), and one end of described injection rod (91) is arranged in described first cylinder (90)；Described first cylinder (90) includes cavity (901), liquid injection port (902) and liquid outlet (903), described second cylinder (92) is arranged on the lower section of described first cylinder (90), and described second cylinder (92) is provided for the fluid passage (920) of electrolyte flow, inlet (921) and is arranged on the pore (922) of its outer wall；The liquid outlet (903) of described first cylinder (90) connects with the inlet (921) of described second cylinder；Described injection rod (91) has electrolyte passage (910) and electrolyte inlet (911), and its end offers connector (912)；During work, electrolyte in described cavity (901) is entered in described electrolyte passage (910) by described electrolyte inlet (911), injection rod (91) moves down, described connector (912) connects with described liquid outlet (903) and described inlet (921), and described electrolyte enters in described fluid passage (920)；Also include the extraction sector (11) being arranged on described first cylinder (90) lower section and connecting with liquid cabin (9010), this extraction sector (11) includes the gas passage (110) of both ends open, first opening (111) of this gas passage (110) passes in described liquid cabin (9010), and its second opening (112) passes in described battery (7)。

2. a kind of alkaline dry battery electrolyte absorption plant as claimed in claim 1, it is characterized in that, described injection mechanism (9) is fixedly installed on by connecting rod (14) that described guide rod (12) is upper and overall and described guide rod (12) does synchronization lifting motion, and the other end of described injection rod (91) is moved up and down along the inwall of described first cylinder (90) by cylinder drive。

3. a kind of alkaline dry battery electrolyte absorption plant as claimed in claim 2, it is characterised in that described injection rod (91) includes piston portion (913), vertical portion (914)；Described piston portion (913) coordinates with the inwall movable seal of described cavity (901)。

4. a kind of alkaline dry battery electrolyte absorption plant as claimed in claim 1, it is characterized in that, the inlet (921) of the liquid outlet (903) of described first cylinder (90) and described second cylinder (92) passes through soft pipe connection。

5. a kind of alkaline dry battery electrolyte absorption plant as claimed in claim 1, it is characterized in that, also including cooling gas check valve (140), described cooling gas check valve (140) is arranged on the junction of described first opening (111) and described liquid cabin (9010)；Also include liquid non-return valve (141), described liquid non-return valve (141) is arranged on the junction of described liquid outlet (903) and described inlet (921), and described liquid can be flowed into described inlet (921) by described liquid outlet (903)。

6. a kind of alkaline dry battery electrolyte absorption plant as claimed in claim 5, it is characterized in that, described cooling gas check valve (140) includes the bullet (1400) of one end open, one end closing, and described bullet is provided with otch of giving vent to anger (1401) near the position of cone point；The cone of described bullet is sharp towards described first opening (111)。

7. a kind of alkaline dry battery electrolyte absorption plant as described in as arbitrary in claim 1 to 6, it is characterised in that described pore (922) cross section is tubaeform；Described pore (922) is along the intensive setting of outer wall of described second cylinder (92)。

8. a kind of alkaline dry battery electrolyte absorption plant as described in as arbitrary in claim 1 to 6, it is characterised in that described hypanthium rotating mechanism (6) is provided with 2-5 layer along driving shaft (4) uniform spacing；Described hypanthium rotating mechanism (6) includes ring flange (60), is arranged on the working rotary table (61) of described ring flange (60), this working rotary table (61) is provided with holder mould rotating disk (610), described holder mould rotating disk (610) is uniform is provided with hypanthium station groove (6100), this hypanthium station groove (6100) is used for disposing described hypanthium (8), this hypanthium (8) bottom is with working rotary table (61) in same level position, and the working rotary table below hypanthium is provided with sealing ring (6101) and spring (6102)。

9. a kind of alkaline dry battery electrolyte absorption plant as described in as arbitrary in claim 1 to 6, it is characterized in that, also including hypanthium conveying mechanism (15), this hypanthium conveying mechanism (15) is for sending into described hypanthium (8) in hypanthium station；Described hypanthium conveying mechanism (15) includes the track support (150) being fixedly installed on base plate (1) both sides, this track support (150) is provided with supporting plate (151), described in the number of plies of this supporting plate (151), the number of plies of hypanthium rotating mechanism (6) is identical, and it is on same level, being provided with hypanthium entrance (1510) and the track export (1511) of conveying hypanthium on described supporting plate (151), described hypanthium (8) is entered by hypanthium entrance (1510) and removes through track export (1511)。

10. a kind of alkaline dry battery electrolyte absorption plant as claimed in claim 9, it is characterized in that, described electrolyte passage (910) cross section becomes inverted T-shaped, including Vertical Channel (9101) and horizontal channel (9102), the top (91020) of described horizontal channel (9102) is higher than described liquid outlet (903)。