Automatic acid pot falling into position mechanism
By using front and rear guide components to create a receiving space in the automatic acid pot dropping mechanism, the problems of acid pot jamming and tipping are solved, and the battery production efficiency is improved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 浙江天能精工科技有限公司
- Filing Date
- 2025-07-25
- Publication Date
- 2026-07-10
AI Technical Summary
The existing automatic acid tank lowering mechanism is prone to jamming and tipping problems, resulting in low battery production efficiency and requiring manual intervention.
Design an automatic dropping mechanism for the acid pot. By vertically installing multiple front and rear guide components side by side on the frame, a space is formed to hold the acid pot, ensuring that the acid pot drops smoothly and is not easy to tip over.
This allows the acid reservoir to fall smoothly, eliminating the need for manual intervention and improving battery production efficiency.
Smart Images

Figure CN224477205U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of storage battery manufacturing technology, and in particular relates to an automatic acid tank lowering mechanism. Background Technology
[0002] An automatic acid reservoir lowering mechanism is an essential piece of equipment in an automatic acid reservoir clamping machine before clamping the acid reservoir. However, existing automatic acid reservoir lowering mechanisms are prone to problems such as the acid reservoir getting stuck and failing to fall, and the acid reservoir tipping over. When these problems occur, manual intervention is required, which is not only time-consuming and labor-intensive, but also seriously restricts the production efficiency of batteries. Therefore, there is an urgent need to research an automatic acid reservoir lowering mechanism to solve the above problems. Utility Model Content
[0003] The present invention provides an automatic acid pot falling into place mechanism, the purpose of which is to solve the technical problems mentioned in the background art.
[0004] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:
[0005] This utility model is an automatic acid pot lowering mechanism, including a frame; the frame is vertically mounted with multiple front guide components and multiple rear guide components corresponding to the front guide components; an acid pot accommodating space is formed between any one of the front guide components and the corresponding rear guide component.
[0006] As a preferred embodiment of this utility model, the frame includes a pair of vertically arranged support frames side by side; a first support rod and a second support rod are horizontally arranged from top to bottom between one side edge of the two support frames; the two ends of the first support rod and the two ends of the second support rod are respectively fixed to one side edge of the two support frames; a plurality of mounting strips are vertically fixed side by side along the length direction on the lower surface of the first support rod; a bearing rod parallel to the first support rod is fixed to the lower end of each of the plurality of mounting strips; a front guide assembly is installed between two adjacent mounting strips, and the front guide assembly is connected to the second support rod and the bearing rod; a pair of third support rods are horizontally arranged from top to bottom between the other side edge of the two support frames, and the two ends of any one of the third support rods are respectively fixed to the other side edge of the two support frames; a plurality of rear guide assemblies are all connected side by side to the two third support rods.
[0007] As a preferred embodiment of this utility model, the front guide assembly includes a pair of first positioning blocks respectively fixed on any two adjacent support rods and a pair of second positioning blocks fixed side by side on the second support rod; a first mounting rod perpendicular to the second support rod is horizontally fixed on the two first positioning blocks; a second mounting rod perpendicular to the second support rod is horizontally fixed on the two second positioning blocks; the two second mounting rods are respectively disposed below the two first mounting rods, and one end of any one of the second mounting rods is connected to one end of the first mounting rod above it by a vertically disposed limiting shaft; the limiting shaft is disposed between the support rod and the third support rod; a reinforcing rod is vertically fixed on the limiting shaft, and the reinforcing rod is disposed on the side of the limiting shaft away from the third support rod.
[0008] As a preferred embodiment of this utility model, the upper surface of the bearing rod is provided with a plurality of first through holes arranged side by side along the length direction; the upper surface of the second support rod is provided with a plurality of second through holes arranged side by side along the length direction; the first positioning block and the second positioning block have the same structure; both the first positioning block and the second positioning block include a pair of adjusting blocks arranged side by side; the opposite sides of the two adjusting blocks are provided with vertical receiving grooves, and the receiving groove on any one of the adjusting blocks penetrates through the upper and lower surfaces of the adjusting block; the two receiving grooves on the first positioning block in the upper and lower positions are connected to any one of the first through holes by bolts; the two receiving grooves on the second positioning block in the upper and lower positions are connected to any one of the second through holes by bolts; the opposite inner surfaces of the two adjusting blocks are provided with limiting grooves; the first mounting rod is inserted into the two limiting grooves on the first positioning block; the second mounting rod is inserted into the two limiting grooves on the second positioning block.
[0009] As a preferred embodiment of the present invention, the rear guide assembly includes a pair of guide strips arranged vertically side by side; the upper and lower edges of any one of the guide strips are respectively connected to a first positioning seat and a second positioning seat; both first positioning seats are fixed on a third support rod; and both second positioning seats are fixed on another third support rod.
[0010] As a preferred embodiment of this utility model, the upper surfaces of both third support rods are provided with a plurality of third through holes arranged side by side along the length direction; the upper edge of the guide strip is provided with a first through groove; the first positioning seat includes a first plate horizontally disposed on the upper surface of the third support rod; the upper surface of the first plate is provided with a second through groove; the second through groove is connected to any one of the third through holes on a third support rod by bolts; a second plate is vertically fixed to one side of the first plate; a third plate perpendicular to the first plate is vertically fixed to one side of the second plate; a third through groove corresponding to the first through groove is provided on one side of the third plate; the third through groove is connected to the first through groove by bolts.
[0011] As a preferred embodiment of this utility model, the lower edge of the guide strip is provided with a fourth through groove; the second positioning seat has an L-shaped structure; the horizontal section of the second positioning seat is provided with a fifth through groove; the fifth through groove is connected to any third through hole on another third support rod by bolts; the vertical section of the second positioning seat is provided with a sixth through groove; the sixth through groove is connected to the fourth through groove by bolts.
[0012] This utility model has the following beneficial effects:
[0013] This invention involves vertically assembling multiple front guide components and multiple corresponding rear guide components on a frame, forming an acid reservoir accommodating space between the front guide components and the corresponding rear guide components. The acid reservoir is then vertically placed into this space from the top of the frame, allowing it to fall smoothly and preventing it from tipping over. This not only effectively ensures the efficiency of securing the acid reservoir but also avoids problems such as manual intervention during its descent. Furthermore, it guarantees the production efficiency of the battery and has high market application value.
[0014] Of course, any product implementing this utility model does not necessarily need to achieve all of the advantages described above at the same time. Attached Figure Description
[0015] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0016] Figure 1 This is a schematic diagram of the automatic lowering mechanism of the acid pot according to the present invention.
[0017] Figure 2 for Figure 1 Top view of the structure.
[0018] Figure 3 This is a schematic diagram of the frame structure of this utility model.
[0019] Figure 4 This is a schematic diagram of the connection between the frame and the front guide component of this utility model.
[0020] Figure 5 This is a schematic diagram of the front guide assembly of this utility model.
[0021] Figure 6 This is a schematic diagram of the structure of the adjusting block of this utility model.
[0022] Figure 7 This is a schematic diagram of the connection between the frame and the rear guide assembly of this utility model.
[0023] Figure 8 This is a schematic diagram of the rear guide assembly of this utility model.
[0024] Figure 9 This is a schematic diagram of the structure of the first positioning seat of this utility model.
[0025] The attached diagram lists the components represented by each number as follows:
[0026] 1-Frame, 2-Front guide assembly, 3-Rear guide assembly, 101-Support frame, 102-First support rod, 103-Second support rod, 104-Mounting strip, 105-Bearing rod, 106-Third support rod, 107-First through hole, 108-Second through hole, 109-Third through hole, 201-First positioning block, 202-Second positioning block, 203-First mounting rod, 204-Second mounting rod, 20 5-Limiting shaft, 206-Reinforcing rod, 207-Adjusting block, 208-Accommodating groove, 209-Limiting groove, 301-Guide strip, 302-First positioning seat, 303-Second positioning seat, 304-First through groove, 305-First plate, 306-Second through groove, 307-Second plate, 308-Third plate, 309-Third through groove, 310-Fourth through groove, 311-Fifth through groove, 312-Sixth through groove. Detailed Implementation
[0027] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.
[0028] Example 1:
[0029] Please see Figure 1-2As shown, this utility model is an automatic acid pot lowering mechanism, including a frame 1; multiple front guide components 2 and multiple rear guide components 3 corresponding to the front guide components 2 are vertically mounted side by side on the frame 1; an acid pot accommodating space is formed between any one front guide component 2 and the corresponding rear guide component 3. In use, by vertically mounting multiple front guide components 2 and multiple rear guide components 3 corresponding to the front guide components 2 side by side on the frame 1, and forming an acid pot accommodating space between the front guide components 2 and the corresponding rear guide components 3, the acid pot is then vertically placed into the acid pot accommodating space from the top of the frame. This allows the acid pot to fall smoothly and is less likely to tip over, effectively ensuring the efficiency of locking the acid pot, avoiding problems such as manual intervention in the falling of the acid pot, and also ensuring the production efficiency of the storage battery.
[0030] Among them, such as Figure 3 As shown, frame 1 includes a pair of vertically arranged support frames 101 arranged side by side; a first support rod 102 and a second support rod 103 are horizontally arranged from top to bottom between one side edge of the two support frames 101; the two ends of the first support rod 102 and the two ends of the second support rod 103 are respectively welded to one side edge of the two support frames 101; multiple mounting strips 104 are vertically welded side by side along the length direction on the lower surface of the first support rod 102; a bearing rod 105 parallel to the first support rod 102 is welded to the lower end of each of the multiple mounting strips 104; a front guide assembly 2 is installed between two adjacent mounting strips 104, and the front guide assembly 2 is connected to the second support rod 103 and the bearing rod 105; a pair of third support rods 106 are horizontally arranged from top to bottom between the other side edge of the two support frames 101, and the two ends of any one of the third support rods 106 are respectively welded to the other side edge of the two support frames 101; multiple rear guide assemblies 3 are all connected side by side to the two third support rods 106. In use, by connecting the front guide assembly 2 to the second support rod 103 and the bearing rod 105, and connecting the rear guide assembly 3 to the two third support rods 106 side by side, the acid pot is then placed from the gap between the first support rod 102 and the third support rod 106 into the acid pot receiving space formed between the front guide assembly 2 and the rear guide assembly 3, which can ensure that the acid pot falls smoothly and is not easy to tip over.
[0031] Example 2:
[0032] Based on Example 1, as follows Figure 4-5 and Figure 7-8As shown, the front guide assembly 2 includes a pair of first positioning blocks 201 respectively fixed to any two adjacent support rods 105 and a pair of second positioning blocks 202 fixed side by side to the second support rods 103; a first mounting rod 203 perpendicular to the second support rod 103 is horizontally fixed on the two first positioning blocks 201; a second mounting rod 204 perpendicular to the second support rod 103 is horizontally fixed on the two second positioning blocks 202; the two second mounting rods 204 are respectively disposed below the two first mounting rods 203, and one end of any second mounting rod 204 is connected to one end of the first mounting rod 203 above it. The components are connected by a vertically arranged limiting shaft 205; the limiting shaft 205 is located between the bearing rod 105 and the third support rod 106; a reinforcing rod 206 is vertically welded onto the limiting shaft 205, and the reinforcing rod 206 is located on the side of the limiting shaft 205 away from the third support rod 106; the rear guide assembly 3 includes a pair of guide strips 301 arranged vertically side by side; the upper and lower edges of any one guide strip 301 are respectively connected to a first positioning seat 302 and a second positioning seat 303; both first positioning seats 302 are fixed to a third support rod 106; both second positioning seats 303 are fixed to another third support rod 106. In use, the acid pot is inserted from the gap between the first support rod 102 and the third support rod 106 into the gap formed between the two limiting shafts 205 and the two guide strips 301, with the acid guide plate of the acid pot facing the two guide strips 301 and the two guide strips 301 engaging in the middle gap between the two acid guide plates of the acid pot. This effectively guides the falling direction of the acid pot, ensuring that the acid pot falls smoothly and is not easy to tip over, thus effectively ensuring the efficiency of the acid pot.
[0033] Among them, such as Figure 3-6As shown, the upper surface of the support rod 105 has multiple first through holes 107 arranged side by side along its length; the upper surface of the second support rod 103 has multiple second through holes 108 arranged side by side along its length; the first positioning block 201 and the second positioning block 202 have the same structure; both the first positioning block 201 and the second positioning block 202 include a pair of adjusting blocks 207 arranged side by side; the opposite sides of the two adjusting blocks 207 are vertically provided with receiving grooves 208, and the receiving groove 208 on any one adjusting block 207 penetrates both the upper and lower surfaces of the adjusting block 207; the two receiving grooves 208 on the first positioning block 201 in the upper and lower positions are connected to any one of the first through holes 107. The two positioning blocks 201 are connected by bolts; the two receiving grooves 208 on the second positioning block 202, which are in the upper and lower positions, are connected to any one of the second through holes 108 by bolts; the two adjusting blocks 207 have limit grooves 209 on their respective inner surfaces; the first mounting rod 203 is inserted into the two limit grooves 209 on the first positioning block 201, and the outer circumferential wall of the first mounting rod 203 is in contact with the inner surface of the two limit grooves 209 on the first positioning block 201; the second mounting rod 204 is inserted into the two limit grooves 209 on the second positioning block 202, and the outer circumferential wall of the second mounting rod 204 is in contact with the inner surface of the two limit grooves 209 on the second positioning block 202. In use, by designing the two receiving grooves 208 on the first positioning block 201, which are in the upper and lower positions, to be connected to any one of the first through holes 107 by bolts, and by designing the two receiving grooves 208 on the second positioning block 202, which are in the upper and lower positions, to be connected to any one of the second through holes 108 by bolts, the position of the limiting shaft 205 can be easily adjusted. By designing the first mounting rod 203 to be inserted into the two limiting grooves 209 on the first positioning block 201, and the second mounting rod 204 to be inserted into the two limiting grooves 209 on the second positioning block 202, the relative distance between the limiting shaft 205 and the guide strip 301 can be easily adjusted, thereby facilitating the effective adjustment of the falling space of the acid pot to ensure that the acid pot falls smoothly and is not easy to tip over.
[0034] Among them, such as Figure 3 and Figure 7-9As shown, the upper surfaces of both third support rods 106 are provided with multiple third through holes 109 arranged side by side along the length direction; the upper edge of the guide strip 301 is provided with a first through groove 304; the first positioning seat 302 includes a first plate 305 horizontally disposed on the upper surface of the third support rod 106; the upper surface of the first plate 305 is provided with a second through groove 306; the second through groove 306 is bolted to any one of the third through holes 109 on a third support rod 106; a second plate 307 is vertically welded to one side of the first plate 305; a third through hole 304 perpendicular to the first plate 305 is vertically welded to one side of the second plate 307. The third plate 308 has a third through groove 309 on one side, corresponding to the first through groove 304. The third through groove 309 and the first through groove 304 are connected by bolts. The guide strip 301 has a fourth through groove 310 on its lower edge. The second positioning seat 303 has an L-shaped structure. The horizontal section of the second positioning seat 303 has a fifth through groove 311. The fifth through groove 311 is connected by bolts to any third through hole 109 on another third support rod 106. The vertical section of the second positioning seat 303 has a sixth through groove 312. The sixth through groove 312 is connected by bolts to the fourth through groove 310. In use, by designing the second through groove 306 to be connected with any third through hole 109 on a third support rod 106 by bolts, and the fifth through groove 311 to be connected with any third through hole 109 on another third support rod 106 by bolts, the position of the guide strip 301 can be easily adjusted, thereby facilitating the effective adjustment of the falling space of the acid pot, so as to ensure that the acid pot falls smoothly and is not easy to tip over.
[0035] The preferred embodiments of this utility model disclosed above are merely illustrative of the present utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the utility model to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of this utility model, thereby enabling those skilled in the art to better understand and utilize it. This utility model is limited only by the claims and their full scope and equivalents.
Claims
1. An automatic lowering mechanism for an acid pot, characterized in that, Includes framework (1); The frame (1) is vertically mounted with multiple front guide components (2) and multiple rear guide components (3) corresponding to the front guide components (2); an acid pot accommodating space is formed between any one of the front guide components (2) and the corresponding rear guide component (3).
2. The automatic lowering mechanism for the acid jug according to claim 1, characterized in that, The frame (1) includes a pair of vertically arranged support frames (101) side by side; a first support rod (102) and a second support rod (103) are horizontally arranged from top to bottom between one side edge of the two support frames (101); the two ends of the first support rod (102) and the two ends of the second support rod (103) are respectively fixed to one side edge of the two support frames (101); a plurality of mounting strips (104) are vertically fixed side by side along the length direction on the lower surface of the first support rod (102); the lower ends of the plurality of mounting strips (104) are all fixed to the first support rod (102). Parallel support rods (105); a front guide assembly (2) is installed between two adjacent mounting strips (104), and the front guide assembly (2) is connected to the second support rod (103) and the support rod (105); a pair of third support rods (106) are horizontally arranged from top to bottom between the other side edges of the two support frames (101), and the two ends of any one of the third support rods (106) are respectively fixed to the other side edges of the two support frames (101); a plurality of rear guide assemblies (3) are connected side by side to the two third support rods (106).
3. The automatic lowering mechanism of the acid jug according to claim 2, characterized in that, The front guide assembly (2) includes a pair of first positioning blocks (201) respectively fixed on any two adjacent support rods (105) and a pair of second positioning blocks (202) fixed side by side on the second support rod (103); the two first positioning blocks (201) are horizontally fixed with first mounting rods (203) perpendicular to the second support rods (103); the two second positioning blocks (202) are horizontally fixed with second mounting rods (204) perpendicular to the second support rods (103); the two second mounting rods (204) are horizontally fixed with second mounting rods (205) perpendicular to the second support rods (103); the two second mounting rods (205) are horizontally fixed with second mounting rods (204) perpendicular to the second support rods (103). 04) Each of the two first mounting rods (203) is respectively set below the first mounting rod (203), and one end of any one of the second mounting rods (204) is connected to one end of the first mounting rod (203) above it by a vertically set limiting shaft (205); the limiting shaft (205) is set between the bearing rod (105) and the third support rod (106); a reinforcing rod (206) is vertically fixed on the limiting shaft (205), and the reinforcing rod (206) is set on the side of the limiting shaft (205) away from the third support rod (106).
4. The automatic lowering mechanism for the acid jug according to claim 3, characterized in that, The upper surface of the bearing rod (105) is provided with a plurality of first through holes (107) arranged side by side along the length direction; the upper surface of the second support rod (103) is provided with a plurality of second through holes (108) arranged side by side along the length direction; the first positioning block (201) and the second positioning block (202) have the same structure; both the first positioning block (201) and the second positioning block (202) include a pair of adjusting blocks (207) arranged side by side; the opposite sides of the two adjusting blocks (207) are provided with vertical receiving grooves (208), and the receiving groove (208) on any one of the adjusting blocks (207) penetrates the upper and lower sides of the adjusting block (207). The two receiving grooves (208) on the first positioning block (201) in the upper and lower positions are connected to any one of the first through holes (107) by bolts; the two receiving grooves (208) on the second positioning block (202) in the upper and lower positions are connected to any one of the second through holes (108) by bolts; the two adjusting blocks (207) have limit grooves (209) on their respective inner surfaces; the first mounting rod (203) is inserted into the two limit grooves (209) on the first positioning block (201); the second mounting rod (204) is inserted into the two limit grooves (209) on the second positioning block (202).
5. The automatic lowering mechanism for the acid jug according to claim 3 or 4, characterized in that, The rear guide assembly (3) includes a pair of guide strips (301) arranged vertically side by side; the upper and lower edges of any one of the guide strips (301) are respectively connected to a first positioning seat (302) and a second positioning seat (303); both first positioning seats (302) are fixed on a third support rod (106); both second positioning seats (303) are fixed on another third support rod (106).
6. The automatic lowering mechanism for the acid jug according to claim 5, characterized in that, Both of the third support rods (106) have a plurality of third through holes (109) arranged side by side along their length on their upper surfaces; the guide strip (301) has a first through groove (304) on its upper edge; the first positioning seat (302) includes a first plate (305) horizontally disposed on the upper surface of the third support rod (106); the upper surface of the first plate (305) has a second through groove (306); the second through groove (306) and any of the third support rods (106) on the second through groove (306) are connected to the guide strip (301) on the guide strip (301). A third through hole (109) is connected by bolts; a second plate (307) is fixed vertically downward on one side of the first plate (305); a third plate (308) perpendicular to the first plate (305) is fixed vertically on one side of the second plate (307); a third through groove (309) corresponding to the first through groove (304) is opened on one side of the third plate (308); the third through groove (309) and the first through groove (304) are connected by bolts.
7. The automatic lowering mechanism for the acid jug according to claim 6, characterized in that, The lower edge of the guide strip (301) is provided with a fourth through groove (310); the second positioning seat (303) has an L-shaped structure; the horizontal section of the second positioning seat (303) is provided with a fifth through groove (311); the fifth through groove (311) is connected to any third through hole (109) on another third support rod (106) by bolts; the vertical section of the second positioning seat (303) is provided with a sixth through groove (312); the sixth through groove (312) is connected to the fourth through groove (310) by bolts.