Water retaining engineering is with emergent formula flood control frame of being convenient for install fast
1. The utility model provides a manger plate engineering is with emergent formula flood control frame convenient to install fast, which is characterized by, including fluting deflector (1), spacing subassembly (2), manger plate subassembly (3), insurance subassembly (4), fixed subassembly (5), seal assembly (6) and connection auxiliary assembly (7), be equipped with spacing subassembly (2) on fluting deflector (1), be equipped with manger plate subassembly (3) on fluting deflector (1), be equipped with insurance subassembly (4) on fluting deflector (1), be equipped with fixed subassembly (5) on fluting deflector (1), be equipped with seal assembly (6) on fluting deflector (1), be equipped with connection auxiliary assembly (7) on fluting deflector (1).
2. The emergency flood protection frame convenient for quick installation for water retaining engineering according to claim 1, wherein the limiting component (2) comprises a limiting frame (21), a first extension spring (22) and a U-shaped strip (23), the limiting frame (21) is symmetrically and slidably connected to the top of the slotted guide plate (1), a pair of first extension springs (22) is connected between the limiting frame (21) and the slotted guide plate (1), and the U-shaped strip (23) is connected between the two limiting frames (21).
3. The emergency flood protection rack convenient for quick installation for water retaining engineering as claimed in claim 2, wherein the water retaining assembly (3) comprises a main water retaining plate (31), a connecting rod (32), a sliding block (33), a first compression spring (34), a connecting block (35), a side water retaining plate (36) and a second compression spring (37), the main water retaining plate (31) is rotatably connected to the slotted guide plate (1), the main water retaining plate (31) is rotatably connected to a pair of connecting rods (32), the sliding block (33) is slidably connected to the slotted guide plate (1), the sliding block (33) is rotatably connected to the connecting rod (32), the slotted guide plate (1) is connected to a pair of connecting blocks (35), the first compression spring (34) is connected between the sliding block (33) and the connecting block (35), the main water retaining plate (31) is slidably connected to a pair of side water retaining plates (36), the side water baffle (36) is contacted with the slotted guide plate (1), and a pair of second compression springs (37) is connected between the side water baffle (36) and the main water baffle (31).
4. The emergency flood protection frame convenient for quick installation for water retaining engineering is characterized in that a safety component (4) comprises a movable sleeve (41), a wedge block (42), a third compression spring (43), a limiting rod (44) and a second extension spring (45), the movable sleeve (41) is connected to the top of the grooving guide plate (1), the wedge block (42) is connected to the movable sleeve (41) in a sliding mode, the wedge block (42) is in contact with the main water retaining plate (31), the third compression spring (43) is connected between the wedge block (42) and the movable sleeve (41), the limiting rod (44) is connected to the movable sleeve (41) in a sliding mode, the limiting rod (44) is in contact with the wedge block (42), and the second extension spring (45) is connected between the limiting rod (44) and the movable sleeve (41).
5. The emergency flood protection frame convenient for quick installation for water retaining engineering according to claim 4, wherein the fixing component (5) comprises an opening connecting frame (51), a suction cup frame (52), a fourth compression spring (53), a movable lower compression bar (54), a support block (55), a third tension spring (56) and a pushing block (57), the top of the slotted guide plate (1) is slidably connected with the opening connecting frame (51), the opening connecting frame (51) is provided with a rectangular groove, the inside of the opening connecting frame (51) is of a hollow structure, the opening connecting frame (51) is connected with the suction cup frame (52), the inside of the suction cup frame (52) is of a hollow structure, the suction cup frame (52) is communicated with the opening connecting frame (51), the fourth compression spring (53) is connected between the opening connecting frame (51) and the slotted guide plate (1), the top of the slotted guide plate (1) is slidably connected with the movable lower compression bar (54), the movable lower pressing rod (54) is in contact with the opening connecting frame (51), the top of the slotted guide plate (1) is connected with a support block (55), a third extension spring (56) is connected between the movable lower pressing rod (54) and the support block (55), and a pushing block (57) is connected to one sliding block (33).
6. The emergency flood protection frame convenient for quick installation for water retaining engineering according to claim 5, wherein the sealing assembly (6) comprises an L-shaped connecting bar (61) and a sealing plate (62), the L-shaped connecting bar (61) is slidably connected to the slotted guide plate (1), the sealing plate (62) is connected to one end of the L-shaped connecting bar (61), and the sealing plate (62) is in contact with the opening connecting frame (51).
7. The emergency flood protection frame convenient for quick installation for water retaining engineering is characterized in that the connection auxiliary assembly (7) comprises a slotted movable connecting rod (71), a fifth compression spring (72), a guide seat (73), a clamping rod (74), a reset spring (75) and a spreading strip (76), the slotted movable connecting rod (71) is slidably connected on the slotted guide plate (1), the slotted movable connecting rod (71) is in contact with the L-shaped connecting strip (61), a pair of fifth compression springs (72) is connected between the slotted movable connecting rod (71) and the slotted guide plate (1), the guide seat (73) is connected on the slotted guide plate (1), the clamping rod (74) is slidably connected on the guide seat (73), the reset spring (75) is connected between the clamping rod (74) and the guide seat (73), the spreading strip (76) is slidably connected on the slotted guide plate (1), the opening strip (76) is connected with one of the limiting frames (21).
Background
Flood is a natural phenomenon, can cause the problem of river bank or coastal zone inundation, and some places often receive the threat that the flood floods to flood calamity and flood control problem have appeared, and the flood spread range is wide, the incoming situation is violent, the destructiveness is very big, and the flood not only can submerge house and population, causes a large amount of casualties, can also submerge the farmland, destroys crops, leads to that grain reduces substantially and produces, thereby causes famine, therefore, flood control is the first task in river control.
In a flood area with a lot of flood, flood often happens randomly, so people need to make flood control measures in advance, the flood control measures are countermeasures, measures and methods for preventing flood from damaging human beings, the existing flood control method is to pile a large amount of sand bags to achieve the purpose of building dam heights, the built dam heights block the flood, the method cannot quickly complete the protection measures, so that the flood cannot be blocked in time, the protection equipment cannot be quickly dismantled, and a large amount of time and manpower are consumed.
Disclosure of Invention
Therefore, in order to solve the above problems, there is a need to provide an emergency flood protection frame for a water retaining engineering, which can effectively block flood, can stably fix equipment quickly, and can quickly pack up the equipment so as to be used next time, so as to be convenient for quick installation, and solve the problems that the protection measures cannot be quickly completed and the protection equipment cannot be quickly dismantled, which are proposed in the background art.
The technical scheme is as follows: the utility model provides a manger plate engineering is with emergent formula flood control frame of being convenient for install fast, including fluting deflector, spacing subassembly, manger plate subassembly, insurance subassembly, fixed subassembly, seal assembly and connection auxiliary assembly, be equipped with spacing subassembly on the fluting deflector, be equipped with the manger plate subassembly on the fluting deflector, be equipped with insurance subassembly on the fluting deflector, be equipped with fixed subassembly on the fluting deflector, be equipped with seal assembly on the fluting deflector, be equipped with connection auxiliary assembly on the fluting deflector.
As a further preferred scheme, the limiting assembly comprises a limiting frame, a first extension spring and a U-shaped strip, the limiting frame is symmetrically connected to the top of the slotted guide plate in a sliding manner, a pair of first extension springs is connected between the limiting frame and the slotted guide plate, and the U-shaped strip is connected between the two limiting frames.
As a further preferred scheme, the manger plate subassembly is including main breakwater, the connecting rod, the sliding block, first compression spring, the connecting block, side breakwater and second compression spring, the rotation type is connected with main breakwater on the fluting deflector, the rotation type is connected with a pair of connecting rod on the main breakwater, the sliding block that slides on the fluting deflector, the sliding block is connected with the connecting rod rotary type, the hookup has a pair of connecting block on the fluting deflector, be connected with first compression spring between sliding block and the connecting block, the rotation type is connected with a pair of side breakwater on the main breakwater, the side breakwater contacts with the fluting deflector, be connected with a pair of second compression spring between side breakwater and the main breakwater.
As a further preferred scheme, the safety assembly comprises a movable sleeve, a wedge block, a third compression spring, a limiting rod and a second extension spring, the movable sleeve is connected to the top of the grooving guide plate in a connecting mode, the wedge block is connected to the movable sleeve in a sliding mode and is in contact with the main water baffle, the third compression spring is connected between the wedge block and the movable sleeve, the limiting rod is connected to the movable sleeve in a sliding mode and is in contact with the wedge block, and the second extension spring is connected between the limiting rod and the movable sleeve.
As a further preferred scheme, the fixing assembly comprises an opening connecting frame, a sucker frame, a fourth compression spring, a movable lower compression rod, a support block, a third extension spring and a pushing block, the top of the slotted guide plate is slidably connected with the opening connecting frame, a rectangular groove is formed in the opening connecting frame, the inside of the opening connecting frame is of a hollow structure, the sucker frame is connected to the opening connecting frame, the inside of the sucker frame is of a hollow structure, the sucker frame is communicated with the opening connecting frame, the fourth compression spring is connected between the opening connecting frame and the slotted guide plate, the top of the slotted guide plate is slidably connected with the movable lower compression rod, the movable lower compression rod is in contact with the opening connecting frame, the top of the slotted guide plate is connected with the support block, the third extension spring is connected between the movable lower compression rod and the support block, and the pushing block is connected to one sliding block.
As a further preferable scheme, the sealing assembly comprises an L-shaped connecting strip and a sealing plate, the L-shaped connecting strip is slidably connected to the slotted guide plate, the sealing plate is connected to one end of the L-shaped connecting strip, and the sealing plate is in contact with the opening connecting frame.
As a further preferred scheme, the connection auxiliary assembly comprises a slotted movable connecting rod, a fifth compression spring, a guide seat, a clamping rod, a reset spring and an opening strip, the slotted guide plate is slidably connected with the slotted movable connecting rod, the slotted movable connecting rod is in contact with the L-shaped connecting strip, a pair of fifth compression springs is connected between the slotted movable connecting rod and the slotted guide plate, the slotted guide plate is connected with the guide seat, the guide seat is slidably connected with the clamping rod, the reset spring is connected between the clamping rod and the guide seat, the slotted guide plate is slidably connected with the opening strip, and the opening strip is connected with one of the limiting frames.
The invention has the following advantages:
through the cooperation of main breakwater, side breakwater and fluting swing joint pole and device above that, main breakwater can block flood with the side breakwater, is convenient for improve the height of dykes and dams, and the kelly on the adjacent equipment blocks fluting swing joint pole, prevents that fluting swing joint pole from reseing to make a plurality of equipment link together steadily, and then realize the purpose of flood fighting, realized the purpose that can fight flood effectively.
Through the cooperation of closing plate and opening link and the device on it, the closing plate can be sealed with the opening link for the inside atmospheric pressure of sucking disc frame is less than external atmospheric pressure, thereby makes sucking disc frame and device on it adsorb subaerial firmly, and then can fix this equipment on the dyke dam effectively, prevents that flood from washing away equipment, has reached the effect that can stabilize fixedly fast with equipment.
Through the cooperation of closing plate and opening link and device above that, when the closing plate no longer sealed the opening link, balanced with external atmospheric pressure in the opening link for the sucking disc frame no longer adsorbs subaerial, is convenient for pack up equipment fast, has reached and can pack up equipment fast so that the effect of next use is in.
Drawings
Fig. 1 is a schematic perspective view of a first embodiment of the present invention.
Fig. 2 is a schematic perspective view of a second embodiment of the present invention.
Fig. 3 is a third perspective view of the present invention.
Fig. 4 is a partial perspective view of the present invention.
Fig. 5 is a schematic perspective view of the spacing assembly of the present invention.
FIG. 6 is a schematic view of a first partially disassembled three-dimensional structure of the water dam assembly of the present invention.
FIG. 7 is a schematic view of a second split perspective of the water module of the present invention.
Fig. 8 is a perspective view of the seal assembly of the present invention.
Fig. 9 is a schematic disassembled perspective view of the safety assembly of the present invention.
Fig. 10 is a partial perspective view of the fastening assembly of the present invention.
FIG. 11 is a schematic view of a first partially assembled body of the connection assist assembly of the present invention.
FIG. 12 is a schematic view of a second partially assembled body of the connection assistance module of the present invention.
Number designation in the figures: 1-slotted guide plate, 2-limiting component, 21-limiting frame, 22-first extension spring, 23-U-shaped strip, 3-water retaining component, 31-main water retaining plate, 32-connecting rod, 33-sliding block, 34-first compression spring, 35-connecting block, 36-side water retaining plate, 37-second compression spring, 4-safety component, 41-movable sleeve, 42-wedge-shaped block, 43-third compression spring, 44-limiting rod, 45-second extension spring, 5-fixing component, 51-opening connecting frame, 52-sucker frame, 53-fourth compression spring, 54-movable lower compression rod, 55-supporting block, 56-third extension spring, 57-pushing block and 6-sealing component, 61-L-shaped connecting strip, 62-sealing plate, 7-connecting auxiliary component, 71-slotted movable connecting rod, 72-fifth compression spring, 73-guide seat, 74-clamping rod, 75-return spring and 76-opening strip.
Detailed Description
The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.
Example (b): the utility model provides a manger plate engineering is with emergent formula flood control frame convenient to install fast, as shown in fig. 1-12, including fluting deflector 1, spacing subassembly 2, manger plate subassembly 3, insurance subassembly 4, fixed subassembly 5, seal assembly 6 and connection auxiliary assembly 7, be equipped with spacing subassembly 2 on the fluting deflector 1, be equipped with manger plate subassembly 3 on the fluting deflector 1, manger plate subassembly 3 is used for blockking the flood effectively, be equipped with insurance subassembly 4 on the fluting deflector 1, insurance subassembly 4 is used for preventing that the mistake from touching opening link 51 and making it take place the off normal, be equipped with fixed subassembly 5 on the fluting deflector 1, fixed subassembly 5 is used for stabilizing equipment fixed, be equipped with seal assembly 6 on the fluting deflector 1, be equipped with connection auxiliary assembly 7 on the fluting deflector 1, connection auxiliary assembly 7 is used for making a plurality of equipment link together steadily.
The limiting assembly 2 comprises a limiting frame 21, a first extension spring 22 and a U-shaped strip 23, the limiting frame 21 is connected to the top of the grooving guide plate 1 in a symmetrical sliding mode, the limiting frame 21 is used for limiting a sliding block 33, a pair of first extension springs 22 is connected between the limiting frame 21 and the grooving guide plate 1, the first extension springs 22 are used for driving the limiting frame 21 to reset, and the U-shaped strip 23 is connected between the two limiting frames 21.
The water retaining component 3 comprises a main water retaining plate 31, a connecting rod 32, a sliding block 33, a first compression spring 34, a connecting block 35, a side water retaining plate 36 and a second compression spring 37, the main water retaining plate 31 is rotatably connected with the slotted guide plate 1, the main water retaining plate 31 is used for retaining flood, the main water retaining plate 31 is rotatably connected with a pair of connecting rods 32, the sliding block 33 is slidably connected with the slotted guide plate 1, the sliding block 33 is rotatably connected with the connecting rods 32, the slotted guide plate 1 is connected with a pair of connecting blocks 35, the first compression spring 34 is connected between the sliding block 33 and the connecting blocks 35, the main water retaining plate 31 is rotated to a standing state through the matching of the sliding block 33, the first compression spring 34 and the connecting rods 32, the main water retaining plate 31 is slidably connected with a pair of side water retaining plates 36, the side water retaining plate 36 is used for assisting the main water retaining plate 31 to retain the flood, and the side water retaining plate 36 is contacted with the slotted guide plate 1, a pair of second compression springs 37 are connected between the side splash plate 36 and the main splash plate 31, and the second compression springs 37 are used for driving the side splash plate 36 to move towards the direction away from each other.
The safety component 4 comprises a movable sleeve 41, a wedge block 42, a third compression spring 43, a limiting rod 44 and a second extension spring 45, the movable sleeve 41 is connected to the top of the grooving guide plate 1, the wedge block 42 is connected to the movable sleeve 41 in a sliding mode, the wedge block 42 is used for clamping the limiting rod 44, the wedge block 42 is in contact with the main water baffle 31, the third compression spring 43 is connected between the wedge block 42 and the movable sleeve 41, the third compression spring 43 is used for driving the wedge block 42 to move upwards, the limiting rod 44 is connected to the movable sleeve 41 in a sliding mode, the limiting rod 44 is used for clamping the opening connecting frame 51, the limiting rod 44 is in contact with the wedge block 42, the second extension spring 45 is connected between the limiting rod 44 and the movable sleeve 41, and the second extension spring 45 is used for driving the limiting rod 44 to reset.
The fixing component 5 comprises an opening connecting frame 51, a sucker frame 52, a fourth compression spring 53, a movable lower compression rod 54, a supporting block 55, a third extension spring 56 and a pushing block 57, the top of the slotted guide plate 1 is connected with the opening connecting frame 51 in a sliding manner, a rectangular groove is arranged on the opening connecting frame 51, the inside of the opening connecting frame 51 is of a hollow structure, the sucker frame 52 is connected to the opening connecting frame 51 and used for stably adsorbing auxiliary equipment on the ground, the inside of the sucker frame 52 is of a hollow structure, the sucker frame 52 is communicated with the opening connecting frame 51, the fourth compression spring 53 is connected between the opening connecting frame 51 and the slotted guide plate 1 and used for driving the opening connecting frame 51 to reset, the top of the slotted guide plate 1 is connected with the movable lower compression rod 54 in a sliding manner, the movable lower compression rod 54 is used for pushing the opening connecting frame 51 and an upper device thereof to move downwards, the movable lower compression rod 54 is contacted with the opening connecting frame 51, the top of the slotted guide plate 1 is connected with a support block 55, a third extension spring 56 is connected between the movable lower pressure rod 54 and the support block 55, the third extension spring 56 is used for driving the movable lower pressure rod 54 to reset, one sliding block 33 is connected with a pushing block 57, and the pushing block 57 is used for pushing the movable lower pressure rod 54 to move.
The sealing assembly 6 comprises an L-shaped connecting strip 61 and a sealing plate 62, the L-shaped connecting strip 61 is connected on the slotted guide plate 1 in a sliding mode, the sealing plate 62 is connected at one end of the L-shaped connecting strip 61, the sealing plate 62 is used for sealing the opening connecting frame 51, and the sealing plate 62 is in contact with the opening connecting frame 51.
The auxiliary connecting assembly 7 comprises a slotted movable connecting rod 71, a fifth compression spring 72, a guide seat 73, a clamping rod 74, a return spring 75 and an opening strip 76, the slotted guide plate 1 is slidably connected with the slotted movable connecting rod 71, the slotted movable connecting rod 71 is used for pushing the clamping rod 74 on adjacent equipment to move, the slotted movable connecting rod 71 is in contact with the L-shaped connecting strip 61, a pair of fifth compression springs 72 is connected between the slotted movable connecting rod 71 and the slotted guide plate 1, the fifth compression springs 72 are used for driving the slotted movable connecting rod 71 to reset, the slotted guide plate 1 is connected with the guide seat 73, the clamping rod 74 is slidably connected on the guide seat 73, the clamping rod 74 is used for clamping the slotted movable connecting rod 71, the return spring 75 is connected between the clamping rod 74 and the guide seat 73, the return spring 75 is used for driving the clamping rod 74 to reset, the opening strip 76 is slidably connected on the slotted guide plate 1, the opening bar 76 is used for pushing the clamping rod 74 on the adjacent equipment to move, and the opening bar 76 is connected with one limiting frame 21.
When flood control is needed, the device needs to be quickly installed on a dam, the device is firstly placed on the dam, the limiting frame 21 is manually pulled to move upwards, the first extension spring 22 is extended, the limiting frame 21 does not limit the sliding block 33 any more, the first compression spring 34 in a compressed state is reset, the sliding block 33 and the device on the sliding block 33 move along the sliding groove on the slotted guide plate 1, the main water baffle plate 31 rotates to a standing state through the matching of the sliding block 33, the first compression spring 34 and the connecting rod 32, meanwhile, the slotted guide plate 1 does not block the side water baffle plate 36, the side water baffle plate 36 moves towards a direction far away from each other under the resetting action of the second compression spring 37, when flood comes, the main water baffle plate 31 and the side water baffle plate 36 can block the flood, the height of the dam is convenient to be improved, and the effect of effectively blocking the flood is achieved, then, the stopper frame 21 is released, and the stopper frame 21 is returned by the return action of the first tension spring 22.
When the main water baffle 31 is erected, the main water baffle 31 can be separated from the wedge-shaped block 42, the wedge-shaped block 42 is not limited by the main water baffle 31, the wedge-shaped block 42 can move upwards under the reset action of the third compression spring 43, the wedge-shaped block 42 can not clamp the limiting rod 44, the limiting rod 44 can move under the reset action of the second extension spring 45, the limiting rod 44 is separated from the opening connecting frame 51, and the limiting rod 44 can not clamp the opening connecting frame 51.
In the process that the sliding block 33 and the upper device thereof move along the sliding groove on the slotted guide plate 1, the pushing block 57 pushes the movable lower pressing rod 54 to move, the third stretching spring 56 is stretched accordingly, so that the movable lower pressing rod 54 pushes the open connecting frame 51 and the upper device thereof to move downwards, the fourth compressing spring 53 is compressed accordingly, the sealing plate 62 is contacted with the slotted position of the open connecting frame 51, so that the sealing plate 62 seals the open connecting frame 51, and further, a closed space is formed by the cavity body communicated with the open connecting frame 51 and the suction cup frame 52, when the suction cup frame 52 is contacted with the ground, the gas in the suction cup frame 52 is discharged, so that the gas pressure in the suction cup frame 52 is smaller than the external gas pressure, and the suction cup frame 52 and the upper device thereof are firmly adsorbed on the ground, thereby effectively fixing the device on a dam to prevent flood from flushing the device, reach and to have reached the stable fixed effect of equipment fast, the closing plate 62 is sealed with opening link 51 and can prevent that its inside from carrying out gas exchange with the external world, and the suction disc frame 52 of being convenient for adsorbs subaerial steadily.
When flood control measures need to be taken, the above operations are repeated to install a plurality of devices on the dam in parallel, adjacent devices are tightly attached, a worker steps on the slotted movable connecting rod 71 to move downwards, the fifth compression spring 72 is compressed along with the slotted movable connecting rod, the slotted movable connecting rod 71 is clamped on the guide seat 73 of the adjacent device, the slotted movable connecting rod 71 pushes the clamping rod 74 on the adjacent device to move, the return spring 75 on the adjacent device is compressed along with the slotted movable connecting rod, then the slotted movable connecting rod 71 is contacted with the other side of the clamping rod 74 on the adjacent device, the clamping rod 74 on the adjacent device is reset under the reset action of the return spring 75 on the adjacent device, so that the clamping rod 74 on the adjacent device clamps the slotted movable connecting rod 71, the slotted movable connecting rod 71 is prevented from resetting, a plurality of devices are stably connected together, and the flood control purpose is further realized, the aim of effectively fighting flood is achieved.
When the device needs to be folded, the main water baffle 31 is manually pushed to reset, the sliding block 33 is reset along with the main water baffle under the action of the connecting rod 32, the first compression spring 34 is compressed along with the sliding block 33, the limiting frame 21 and the device on the limiting frame are pushed to move upwards in the process, the first extension spring 22 is stretched along with the sliding block 33, and when the sliding block 33 is contacted with the other side of the limiting frame 21, the limiting frame 21 and the device on the limiting frame are reset under the reset action of the first extension spring 22, so that the sliding block 33 is clamped by the limiting frame 21 again.
When the limiting frame 21 and the device thereon move upwards, the opening bar 76 will push the clamping rod 74 on the adjacent device to move, the return spring 75 on the adjacent device will be compressed accordingly, so that the clamping rod 74 on the adjacent equipment can not clamp the slotted movable connecting rod 71 any more, the slotted movable connecting rod 71 can reset under the resetting action of the fifth compression spring 72, the adjacent equipment is separated, the effect that a plurality of connected equipment can be quickly disassembled for convenient transportation is achieved, meanwhile, the slotted movable connecting rod 71 pushes the L-shaped connecting bar 61 and the upper device thereof to move upwards for a certain distance, so that the sealing plate 62 no longer seals the open attachment frame 51, thereby allowing the air pressure inside the open attachment frame 51 to be balanced with the outside, therefore, the suction cup frame 52 is not sucked on the ground any more, and then the worker can easily lift the equipment, so that the effect of quickly retracting the equipment for the next use is achieved.
When the sliding block 33 and the devices thereon are reset, the pushing block 57 no longer pushes the movable pressing rod 54, the movable pressing rod 54 is reset under the reset action of the third extension spring 56, so that the movable pressing rod 54 no longer pushes the open connecting frame 51, and the open connecting frame 51 and the devices thereon are reset under the reset action of the fourth compression spring 53.
In the process of resetting the main water baffle 31, the side water baffle 36 can be contacted with the slotted guide plate 1 again, so that the slotted guide plate 1 pushes the side water baffle 36 to reset, the second compression spring 37 can be compressed therewith, then the main water baffle 31 can be contacted with the wedge block 42, the main water baffle 31 can push the wedge block 42 to move downwards, the third compression spring 43 can be compressed therewith, the wedge block 42 can push the limiting rod 44 to move, the second extension spring 45 can be compressed therewith, so that the limiting rod 44 clamps the opening connecting frame 51 again, the mistaken touch of the opening connecting frame 51 is prevented, the deviation of the opening connecting frame 51 is caused, the sucker frame 52 is adsorbed on other objects, and the normal operation of the equipment is ensured.
In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
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