CN112411591A - Cast-in-place sump pit of concrete exempts from to tear open template device, equipment - Google Patents

Abstract

The invention discloses a disassembly-free template device and equipment for a concrete cast-in-place sump, which comprises a shell, wherein a motor space is arranged on the upper side of the shell, an annular sliding groove is arranged on the left side of the motor space, the annular sliding groove is an annular space, and a hydraulic oil space is arranged on the right side of the motor space. And cylindrical sumps of various sizes can be manufactured as required.

Description

Cast-in-place sump pit of concrete exempts from to tear open template device, equipment

Technical Field

The invention relates to the field of building construction, in particular to a concrete cast-in-place sump disassembly-free template device and equipment.

Background

The water collecting pit drainage method, also known as Ming drainage method, is to set a water collecting pit at the bottom of the pit, and to excavate a drainage ditch along the periphery or center of the pit bottom to make water flow into the water collecting pit, and then to pump away the water by a sewage pump (submersible sewage pump). The pumped water should be led to a place far away from the foundation pit so as to prevent the pumped water from flowing back into the foundation pit. When construction is carried out in rainy season, a intercepting ditch is excavated or a soil dike is built around a foundation pit or at the upstream of ground water so as to prevent the ground water from flowing into the foundation pit. The method is suitable for coarse-grained soil layers and also for clay layers with low water permeability.

The traditional pit pouring needs to dig a pit firstly, then two sides of the pit are blocked by materials such as wood boards, the pit is properly larger than the size to be poured, concrete is poured into the interlayer after the wood boards are placed, after the concrete is formed, the wood boards are removed, the removing process is complicated, and the poured pit can be damaged.

Disclosure of Invention

The invention aims to solve the technical problems that a disassembly-free template device and equipment for a concrete cast-in-place sump pit are provided, and the problems that a wood plate is disassembled after concrete is formed, the disassembling process is complicated, and the well-poured sump pit is damaged possibly are solved.

The invention is realized by the following technical scheme.

The invention relates to a concrete cast-in-place sump disassembly-free template device and equipment, which comprises a shell, wherein a motor space is arranged on the upper side of the shell, an annular chute is arranged on the left side of the motor space, the annular chute is an annular space, a hydraulic oil space is arranged on the right side of the motor space, a second space is arranged on the lower side of the hydraulic oil space, a first space is arranged on the left side of the second space, the first space is communicated with the second space, a driving motor is fixedly connected to the upper side wall of the motor space, a main shaft is connected to the lower side of the driving motor in a power mode, the main shaft extends downwards to penetrate through the lower side wall of the motor space to enter the space between the first space and the second space, a special cam and a fixed block are fixedly connected in sequence from top to bottom of the main shaft, the special cam is a special gear, the left side and the right side of the ejector rod are both provided with hydraulic oil, the hydraulic oil leads to two different parts, the ejector rod extends leftwards to penetrate through the left side wall of the hydraulic oil space to enter the motor space, the left side of the ejector rod is abutted against the special cam, a spring is fixedly connected between the right side of the ejector rod and the right side wall of the hydraulic oil space, the left side of the fixed block is fixedly connected with a pit digging device shell, the right side of the fixed block is fixedly connected with a disassembly-free template device shell, a space is arranged in the pit digging device shell, the left side of the space is provided with a first sliding space, the right side of the pit digging device shell is provided with a second sliding space, the disassembly-free template device shell is also provided with a space, the upper side of the space is provided with an electromagnet space, the fixed block is provided with a transmission, the second driving shaft extends leftwards to penetrate through the left side wall of the transmission space to enter the space of the shell of the pit digging device, the left side of the second driving shaft is fixedly connected with a driving belt wheel, the right side of the bidirectional motor is in power connection with a first driving shaft, the first driving shaft extends rightwards to penetrate through the right side wall of the transmission space to enter the space of the shell of the non-dismantling template device, the right side of the first driving shaft is fixedly connected with a first belt wheel, the space of the electromagnet, the space of the second space and the space of the shell of the non-dismantling template device are provided with the non-dismantling template device, the non-dismantling template device comprises an electromagnet fixedly arranged on the right side wall of the electromagnet space, the electromagnet is electrified to generate magnetism, the magnetism can be changed, a repulsion sliding block is connected between the space side walls of the electromagnet, and a spring, the electromagnetic mold plate device is characterized in that a magnet is arranged on the right side of the repelling slider, a sliding groove is arranged in the repelling slider, a threaded slider is connected in the sliding groove in a sliding mode, a screw rod is connected between the front side wall and the rear side wall of the sliding groove in a rotating mode, the screw rod is in threaded fit with the threaded slider, the screw rod extends backwards to penetrate through the rear side wall of the sliding groove and enters the space of the electromagnet, a large belt wheel is fixedly connected to the rear side of the screw rod, a first transmission shaft is connected between the space side walls of the mold plate device shell in a rotating mode, a butt switch, a second belt wheel, a first support frame and a first bevel gear are sequentially and fixedly connected to the first transmission shaft from left to right, a butt contact block is fixedly connected to the left side of the space and can be abutted against the butt switch, the electromagnet is connected, a belt is arranged, The bevel gear shaft is fixedly connected with a small belt wheel and a second bevel gear in sequence from front to back, the second bevel gear is meshed with the first bevel gear, the small belt wheel is in belt transmission with the big belt wheel, the first support frame is a slide rail, a rotary table is rotatably connected between the side walls of the first support frame, a clamping block is arranged on the upper side of the rotary table and can drive the rotary table to rotate, the rear side surface of the first support frame is rotatably connected with twenty-four short shafts, a small gear is fixedly connected with the front side of each short shaft, a connecting rod is fixedly connected with the right side of the small gear, a fixed telescopic device shell is fixedly connected with the front side of the connecting rod, a telescopic space is arranged in the fixed telescopic device shell, a telescopic rod is slidably connected in the telescopic space, and a spring, the flexible space with left hydraulic oil export communicates with each other in the hydraulic oil space, the telescopic link can stretch out, works as twenty four the telescopic link is whole to be stretched out, and round a circular range, can play the effect that blocks the concrete flow of flowing form, makes cylindrical sump pit can the shaping, the motor space with be equipped with transmission between the hydraulic oil space, the annular chute with be equipped with high setting device between the first space, first space first slip space second slip space with be equipped with adjustable device of digging pit between the space in the device shell of digging pit.

Preferably, transmission includes fixed mounting and is in lateral wall on the motor space the initiative motor, initiative motor downside power is connected with the main shaft, main shaft downwardly extending runs through lateral wall gets into under the motor space first space with between the second space, the main shaft is from last to lower fixedly connected with in proper order special cam with the fixed block.

Preferably, the adjustable pit digging device comprises a connecting block slidably mounted between the side walls of the first sliding space, a spring telescopic rod is fixedly connected between the upper side of the connecting block and the upper side wall of the first sliding space, a connecting slide block is slidably connected between the side walls of the second sliding space, a second transmission shaft is rotatably connected between the connecting slide block and the connecting block, the second transmission shaft extends rightwards to penetrate through the right side wall of the second sliding space to enter the space of the pit digging device shell, the second transmission shaft is in rotating fit with the right side wall of the space of the pit digging device shell, a second supporting frame and a driven belt wheel are sequentially and fixedly connected with the second transmission shaft from left to right, the second supporting frame is provided with an inner gear ring, a transmission belt is arranged between the driven belt wheel and the driving belt wheel, and a hydraulic rod space is arranged in the connecting slide block, two separation thread blocks are slidably connected between the side walls of the hydraulic rod space, a hydraulic telescopic rod is fixedly connected between the left separation thread block and the left side wall of the hydraulic rod space, a hydraulic telescopic rod is fixedly connected between the right side separation thread block and the right side wall of the hydraulic rod space, the hydraulic telescopic rod is communicated with a hydraulic outlet on the right side of the hydraulic oil space, the two separation thread blocks can form a complete thread block, the second support frame is a rotary table, a fixed frame is fixedly connected on the rear side of the second support frame, the front side of the fixed frame is rotatably connected with a connecting shaft, the front side of the connecting shaft is fixedly connected with a connecting plate, the front side of the connecting plate is dynamically connected with a power shaft, the power shaft can be started to drive a gear to rotate, the rear side of the power shaft is fixedly connected with a power gear, and the front side, two sliding blocks are connected in the sliding groove in a sliding mode, the upper sides of the sliding blocks are rotatably connected with meshing gear shafts, transmission gears are fixedly connected to the rear sides of the meshing gear shafts, the transmission gears are meshed with the power gears, the transmission gears are meshed with the inner gear rings of the second supporting frame, fixed wheels are fixedly connected to the middle sides of the meshing gear shafts, six rotating shafts are uniformly arranged on the fixed wheels in a rotating mode, each rotating shaft is sequentially and fixedly connected with a milling cutter and a second meshing gear from back to front, the second meshing gear rotates to dig out soil like the metal milled by the milling cutter, the rotating shafts can drive the milling cutter to rotate to enable the milling cutter to be close to the second supporting frame, the milled circular area is reduced, a small motor is fixedly connected to the front side face of the fixed wheel on the left side, and a rotating shaft is dynamically, the rotating shaft extends to the right side of the first meshing gear, a section of thread and two rotating gears are fixedly connected to the rotating shaft from left to right in sequence, an adjusting slider is connected to the rotating shaft through the thread, a telescopic contact is arranged on the upper side of the adjusting slider, the first meshing gear is rotatably connected to the foremost side of the meshing gear shaft and meshed with the second meshing gear, a sliding rheostat is fixedly connected to the upper side of the first meshing gear, the contact on the upper side of the adjusting slider is contacted with the sliding rheostat, so that the resistance of the sliding rheostat can be changed, the magnetism of the electromagnet is changed, a fixed rack is fixedly connected to the right side of each first meshing gear, the front side of each fixed rack is meshed with the rotating gear, and when the rotating gear rotates, the first meshing gear rotates relative to the fixed gear by an angle, thereby rotating the second meshing gear.

Preferably, the height setting device comprises a long shaft rotatably mounted on the left side wall of the annular chute, the long shaft extends leftwards to penetrate through the left side wall of the annular chute and enter an outer space, the long shaft is fixedly connected with a rotary handle and a meshing wheel in sequence from left to right, the rotary handle can be rotated manually, the lower side wall of the annular chute is connected with a rack in a sliding manner, the upper side of the rack is provided with a rack, the upper side of the rack is meshed with the meshing wheel, the rack extends downwards to penetrate through the lower side wall of the annular chute and enter the first space and continues to extend downwards to enter the second sliding space, the lower side of the rack is rotatably connected with a threaded shaft, the upper side of the threaded shaft is fixedly connected with a wide gear, the threaded shaft can be in threaded fit with the separation threaded block, and the upper side surface of the pit digging device, and a power motor shaft is dynamically connected to the lower side of the power motor, and the power motor shaft extends downwards to the space of the shell of the pit digging device. The lower side of the shaft of the power motor is fixedly connected with a starting gear, and the starting gear is meshed with the wide gear.

The invention has the beneficial effects that: the invention relates to a disassembly-free type sump pit pouring template which can be used for pouring a cylindrical sump pit, wherein the depth and the diameter of the cylindrical sump pit can be set according to the requirements of a user, the pit base of the sump pit is dug out according to a set value, the angle of the template is changed according to the diameter of the previously set cylindrical pit, a sealing cylinder body approximate to a circular surface is constructed through a plurality of templates, the cylinder body is placed into the previously dug pit, concrete is poured into an interlayer between the cylinder body and the pit, the cylinder body is folded when the concrete is quickly formed, the complex template dismantling can be avoided, and the cylindrical sump pits with various sizes can be manufactured according to the requirements.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the structure in the direction A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic view of the structure in the direction B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the embodiment of the present invention at C in FIG. 1;

FIG. 5 is an enlarged schematic view of the embodiment of the present invention at D in FIG. 1;

FIG. 6 is an enlarged schematic view of the embodiment of the present invention at E in FIG. 1;

FIG. 7 is a schematic view of the structure in the direction F-F in FIG. 6 according to the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to fig. 1-7, the cast-in-place concrete sump pit disassembly-free formwork device and apparatus include a casing 11, a motor space 13 is disposed on an upper side of the casing 11, an annular chute 14 is disposed on a left side of the motor space 13, the annular chute 14 is an annular space, a hydraulic oil space 12 is disposed on a right side of the motor space 13, a second space 16 is disposed on a lower side of the hydraulic oil space 12, a first space 15 is disposed on a left side of the second space 16, the first space 15 is communicated with the second space 16, an active motor 17 is fixedly connected to a side wall of the motor space 13, a main shaft 18 is dynamically connected to a lower side of the active motor 17, the main shaft 18 extends downward to penetrate through a lower side wall of the motor space 13 to enter between the first space 15 and the second space 16, and the main shaft 18 is sequentially and fixedly connected to a special cam 19 and, the special cam 19 is a special gear and is provided with a protrusion and a groove, a push rod 42 is slidably connected between the side walls of the hydraulic oil space 12, the left and right sides of the push rod 42 are both provided with hydraulic oil, the hydraulic oil leads to two different positions, the push rod 42 extends leftwards to penetrate through the left side wall of the hydraulic oil space 12 to enter the motor space 13, the left side of the push rod 42 is abutted to the special cam 19, a spring is fixedly connected between the right side of the push rod 42 and the right side wall of the hydraulic oil space 12, a pit digging device shell 88 is fixedly connected to the left side of the fixed block 20, a template dismounting-free device shell 87 is fixedly connected to the right side of the fixed block 20, a space is arranged in the pit digging device shell 88, a first sliding space 55 is arranged on the left side of the space, a second sliding space 56 is arranged on the right side of the, the upper side of the space is provided with an electromagnet space 32, a transmission space 21 is arranged in the fixed block 20, the lower side wall of the transmission space 21 is fixedly connected with a two-way motor 22, the left side of the two-way motor 22 is in power connection with a second driving shaft 24, the second driving shaft 24 extends leftwards to penetrate through the left side wall of the transmission space 21 to enter the space of the digging device shell 88, the left side of the second driving shaft 24 is fixedly connected with a driving pulley 52, the right side of the two-way motor 22 is in power connection with a first driving shaft 23, the first driving shaft 23 extends rightwards to penetrate through the right side wall of the transmission space 21 to enter the space of the detachment-free template device shell 87, the right side of the first driving shaft 23 is fixedly connected with a first pulley 25, and the space of the electromagnet space 32, the second space 16 and the detachment-free template device, the disassembly-free template device 101 comprises an electromagnet 33 fixedly installed on the right side wall of the electromagnet space 32, the electromagnet 33 is electrified to generate magnetism, the magnetism can be changed, a repelling sliding block 34 is connected between the side walls of the electromagnet space 32 in a sliding manner, a spring is arranged between the left side of the repelling sliding block 34 and the left side wall of the electromagnet space 32, a magnet is arranged on the right side of the repelling sliding block 34, a sliding groove 35 is arranged in the repelling sliding block 34, a threaded sliding block 36 is connected in the sliding groove 35 in a sliding manner, a screw rod 37 is rotatably connected between the front side wall and the rear side wall of the sliding groove 35, the screw rod 37 is in threaded fit with the threaded sliding block 36, the screw rod 37 extends backwards to penetrate through the rear side wall of the sliding groove 35 to enter the electromagnet space 32, a large belt wheel 89 is fixedly connected on the rear side of the screw rod 37, and a, the first transmission shaft 27 is fixedly connected with an abutting switch 28, a second belt wheel 26, a first support frame 31 and a first bevel gear 30 from left to right in sequence, an abutting contact block 29 is fixedly connected with the left side of the space, the abutting contact block 29 can abut against the abutting switch 28 to enable the electromagnet 33 to be switched on, a belt is arranged between the second belt wheel 26 and the first belt wheel 25, a bevel gear shaft 39 is rotatably connected with the rear side wall of the space, a small belt wheel 40 and a second bevel gear 41 are fixedly connected with the bevel gear shaft 39 from front to back in sequence, the second bevel gear 41 is meshed with the first bevel gear 30, the small belt wheel 40 and the large belt wheel 89 are transmitted through the belt 38, the first support frame 31 is a slide rail, a rotary table 44 is rotatably connected between the side walls of the first support frame 31, a clamping block 45 is arranged on the upper side of the rotary table 44, and the clamping block 45 can drive, the utility model discloses a concrete flow-resistant construction machine, including first support frame 31, motor space 13 and hydraulic oil space 12, first support frame 31 trailing flank rotates and is connected with twenty four minor axis 46, every minor axis 46 front side fixedly connected with pinion 47, pinion 47 right side fixedly connected with connecting rod 48, connecting rod 48 front side fixedly connected with fixes telescoping device shell 49, be equipped with flexible space 50 in the fixed telescoping device shell 49, sliding connection has telescopic link 51 in flexible space 50, telescopic link 51 the left side with fixedly connected with spring between the left side wall of flexible space 50, flexible space 50 with left hydraulic oil outlet communicates with each other in the hydraulic oil space 12, telescopic link 51 can stretch out, works as twenty four telescopic link 51 is whole to be stretched out, and round a circular array, can play the effect that blocks the concrete flow form and flow, makes cylindrical sump can take shape, motor space 13 with be equipped with transmission 104 between the, a height setting device 103 is arranged between the annular chute 14 and the first space 15, and an adjustable pit digging device 102 is arranged between the first space 15, the first sliding space 55, the second sliding space 56 and the space in the pit digging device housing 88.

Advantageously, the transmission device 104 includes the driving motor 17 fixedly mounted on the upper side wall of the motor space 13, the main shaft 18 is connected to the lower side of the driving motor 17, the main shaft 18 extends downward to penetrate through the lower side wall of the motor space 13 to enter between the first space 15 and the second space 16, and the main shaft 18 is sequentially connected to the special cam 19 and the fixing block 20 from top to bottom.

Advantageously, the adjustable pit digging device 102 comprises a connecting block 67 slidably mounted between the side walls of the first sliding space 55, a telescopic spring rod is fixedly connected between the upper side of the connecting block 67 and the side wall of the first sliding space 55, a connecting slider 57 is slidably connected between the side walls of the second sliding space 56, a second transmission shaft 53 is rotatably connected between the connecting slider 57 and the connecting block 67, the second transmission shaft 53 extends rightward to penetrate through the right side wall of the second sliding space 56 to enter the space of the pit digging device shell 88, the second transmission shaft 53 is rotatably matched with the right side wall of the space of the pit digging device shell 88, a second supporting frame 68 and a driven pulley 54 are fixedly connected to the second transmission shaft 53 from left to right in sequence, the second supporting frame 68 is provided with an internal gear ring, a transmission belt is arranged between the driven pulley 54 and the driving pulley 52, a hydraulic rod space 58 is arranged in the connecting slide block 57, two separation thread blocks 60 are slidably connected between the side walls of the hydraulic rod space 58, a hydraulic telescopic rod 59 is fixedly connected between the separation thread block 60 on the left side and the left side wall of the hydraulic rod space 58, a hydraulic telescopic rod 59 is fixedly connected between the separation thread block 60 on the right side and the right side wall of the hydraulic rod space 58, the hydraulic telescopic rod 59 is communicated with a hydraulic outlet on the right side of the hydraulic oil space 12, the two separation thread blocks 60 can form a complete thread block, the second support frame 68 is a turntable, a fixing frame 69 is fixedly connected with the rear side of the second support frame 68, a connecting shaft 70 is rotatably connected with the front side of the fixing frame 69, a connecting plate 71 is fixedly connected with the front side of the connecting shaft 70, a power shaft 72 is dynamically connected with the front side of the connecting plate 71, and the power shaft 72 can, the rear side of the power shaft 72 is fixedly connected with a power gear 73, the front side surface of the second support frame 68 is provided with an annular sliding groove, two sliding blocks are connected in the sliding groove in a sliding manner, the upper sides of the sliding blocks are rotatably connected with a meshing gear shaft 74, the rear side of the meshing gear shaft 74 is fixedly connected with a transmission gear 86, the transmission gear 86 is meshed with the power gear 73, the transmission gear 86 is meshed with an annular gear of the second support frame 68, the middle side of the meshing gear shaft 74 is fixedly connected with a fixed wheel 76, six rotating shafts 77 are uniformly and rotatably arranged on the fixed wheel 76, each rotating shaft 77 is fixedly connected with a milling cutter 79 and a second meshing gear 78 in sequence from back to front, the second meshing gear 78 rotates to dig out soil like the milling cutters milling metal, the rotating shafts 77 can drive the milling cutters 79 to rotate, so that the milling cutters 79 are close to the second support, so that the milled circle area is reduced, a small motor 80 is fixedly connected to the front side surface of the fixed wheel 76 on the left side, a rotating shaft 81 is dynamically connected to the right side of the small motor 80, the rotating shaft 81 extends to the right side of the first meshing gear 75, a section of screw thread and two rotating gears 85 are fixedly connected to the rotating shaft 81 from left to right in sequence, an adjusting slider 82 is connected to the rotating shaft 81 through a screw thread, a telescopic contact is arranged on the upper side of the adjusting slider 82, a first meshing gear 75 is rotatably connected to the foremost side of the meshing gear shaft 74, the first meshing gear 75 is meshed with the second meshing gear 78, a sliding rheostat 83 is fixedly connected to the upper side of the first meshing gear 75, and a contact on the upper side of the adjusting slider 82 is in contact with the sliding rheostat 83, so that the resistance of the sliding rheostat 83 can be changed, thereby changing the magnetic, a fixed rack 84 is fixedly connected to the right side of each of the first engaging gears 75, the front side of the fixed rack 84 is engaged with the rotating gear 85, and when the rotating gear 85 rotates, the first engaging gear 75 rotates relative to the fixed gear 76 at an angle, so as to rotate the second engaging gear 78.

Advantageously, the height setting device 103 comprises a long shaft 65 rotatably mounted on the left side wall of the annular sliding chute 14, the long shaft 65 extends leftwards to penetrate through the left side wall of the annular sliding chute 14 into the outer space, the long shaft 65 is fixedly connected with a rotating handle 66 and an engaging wheel 64 in sequence from left to right, the rotating handle 66 can be rotated manually, the lower side wall of the annular sliding chute 14 is slidably connected with a rack 63, the upper side of the rack 63 is provided with a rack, the upper side of the rack 63 is engaged with the engaging wheel 64, the rack 63 extends downwards to penetrate through the lower side wall of the annular sliding chute 14 into the first space 15 and continues downwards to extend into the second sliding space 56, the lower side of the rack 63 is rotatably connected with a threaded shaft 61, the upper side of the threaded shaft 61 is fixedly connected with a wide gear 62, and the threaded shaft 61 can be in threaded fit with the separation threaded block, the upper side of the pit digging device shell 88 is fixedly connected with a power motor 90, the lower side of the power motor 90 is connected with a power motor shaft 91 in a power mode, and the power motor shaft 91 extends downwards to the space of the pit digging device shell 88. A starting gear 92 is fixedly connected to the lower side of the power motor shaft 91, and the starting gear 92 is meshed with the wide gear 62.

In an initial state, the pit digging device shell 88 is positioned in the first space 15, the disassembly-free template device shell 87 is positioned in the second space 16, the ejector rod 42 is in a middle state, the connecting block 67, the second supporting frame 68 and the connecting slide block 57 are positioned at the highest position, the threaded slide block 36 is positioned at the foremost side, the repelling slide block 34 is positioned at the rightmost side, the electromagnet 33 is not electrified at the moment, the abutting switch 28 is separated from and abutted against the abutting contact block 29, a circle formed between the telescopic rods 51 is positioned at the largest position, the milling cutter 79 is positioned at the most opened position, the threaded shaft 61 is positioned at the lowest position, the threaded shaft 61 is not in threaded fit with the separating threaded block 60 at the moment, and the motor is.

When the device is required to excavate a sump, the position is determined, the manual rotation rotating handle 66 is rotated in the forward direction, the meshing wheel 64 is rotated, the rack 63 is lifted upwards for a certain distance as required, then the driving motor 17 is started to rotate ninety degrees clockwise, the pit digging device shell 88 is rotated ninety degrees backwards to align the position to be excavated, the special cam 19 rotates ninety degrees clockwise at the moment, the bulge of the special cam 19 pushes the ejector rod 42, the ejector rod 42 moves rightwards, hydraulic oil on the right side in the hydraulic oil space 12 enters the hydraulic telescopic rod 59 through a pipeline, the hydraulic telescopic rod 59 stretches and retracts, the two separation screw blocks 60 move towards the middle, the separation screw block 60 is in threaded fit with the screw shaft 61 at the moment, and the rack 63 and the meshing wheel 64 are prevented from being separated and meshed, so that the rack 63 descends.

After the height setting is completed, the small motor 80 is started for a period of time according to the circle diameter of the sump to be excavated, so that the rotating shaft 81 and the two rotating gears 85 rotate, the adjusting slider 82 moves rightwards, the resistance of the sliding rheostat 83 is reduced, the current in the circuit is increased, meanwhile, the rotating gears 85 are meshed with the fixed rack 84, the two first meshing gears 75 both rotate, the second meshing gear 78 rotates, the milling cutter 79 and the rotating shaft 77 are driven to rotate, the second meshing gear 78 rotates inwards, the distance from the outermost extension of the milling cutter 79 to the center of the connecting shaft 70 is reduced, and at the moment, if the milling cutter rotates, the cut circle diameter is reduced.

When the diameter of the excavated water collecting pit is set, the two-way motor 22 is started to drive the second driving shaft 24 to rotate ninety degrees in the forward direction, the cutting surface of the second supporting frame 68 faces downwards, the power motor 90 and the power shaft 72 are started to rotate at the same time, the power shaft 72 is started to rotate the power gear 73, the connecting plate 71 can rotate around the connecting shaft 70, the power gear 73 is meshed with the transmission gear 86, the transmission gear 86 is meshed with the inner gear ring of the second supporting frame 68, the sliding blocks on the rear sides of the two meshed gear shafts 74 rotate along the annular sliding grooves, the meshed gear shafts 74 rotate continuously at the same time, the arranged milling cutter 79 is driven to rotate at the same time, after the power motor 90 is started, the threaded shaft 61 rotates through transmission, the connecting sliding block 57 and the connecting block 67 drive the second supporting frame 68 to descend, the milling cutter 79 descends while rotating, and the soil is excavated into a round pit with the set, because the lower side of the threaded shaft 61 is provided with a limiting block, the sliding block cannot fall off, and because the remaining threaded section is shortened after the threaded shaft 61 is pulled upwards, the descending distance of the connecting sliding block 57 is shortened.

After the excavation is finished, the power motor 90 is started reversely, the second supporting frame 68 is reset, then the soil in the pit is cleaned manually, meanwhile, the bidirectional motor 22 is started to drive the second driving shaft 24 to reset reversely, and drive the first driving shaft 23 to rotate ninety degrees forwardly, so that the first supporting frame 31 faces downwards, at the moment, the abutting switch 28 abuts against the abutting contact block 29, because the current in the previous circuit is set, at the moment, after the circuit is started, the magnetism of the electromagnet 33 is related to the starting time of the previous small motor 80, namely, the withdrawing distance of the milling cutter 79, at the moment, due to transmission, the threaded sliding block 36 moves backwards through the belt 38, so that the rotating rod 43 is clamped into the clamping block 45, and simultaneously, the electromagnet 33 generates magnetism, the repulsion sliding block 34 is pushed to move leftwards for a corresponding distance, so that the turntable 44 rotates for a corresponding distance, and the connecting rod 48 rotates inwards for a corresponding angle through, at this time, the circle formed between the fixed telescopic device shell 49 and the telescopic rod 51 is correspondingly reduced to match the size of the pit excavated before, at this time, the driving motor 17 is started to drive the spindle 18 to rotate anticlockwise by more than ninety degrees, because the rack of the rack 63 and the gear of the engaging wheel 64 have certain tooth height, the tooth height can adapt to the situation that the pit excavating device shell 88 rotates anticlockwise by more than ninety degrees, the clamping cannot happen, so that the groove of the special cam 19 faces the ejector rod 42, at this time, the ejector rod 42 slides leftwards, the hydraulic telescopic rod 59 is retracted, at this time, the separating thread block 60 is separated from the thread shaft 61, the engaging wheel 64 is re-engaged with the rack 63, the rack 63 cannot fall down, the ejector rod 42 slides leftwards, so that the hydraulic oil on the left side of the hydraulic oil space 12 is extruded into the telescopic space 50 through a pipeline, the telescopic rod 51 extends out of the pit bottom, at this time, an interlayer is, and passing concrete into the interlayer.

After the concrete is formed, the driving motor 17 is started to drive the main shaft 18 to rotate clockwise again for resetting, so that the telescopic rod 51 is retracted, the two-way motor 22 is driven to reversely drive the first driving shaft 23 to rotate at the moment, the first driving shaft 27 is reversely rotated for resetting, the first support frame 31 is retracted into the device, the electromagnet 33 loses magnetism, the turntable 44 is reset, a circle formed between the telescopic rods 51 is restored to the maximum, the rotating handle 66 is reversely rotated at the moment, so that the threaded shaft 61 descends to the original position, and the resetting of the device is completed.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (4)

1. Cast-in-place sump pit of concrete exempts from to tear open template device, equipment, including the shell, its characterized in that: the utility model discloses a motor, including shell, motor space, annular spout, motor space left side, annular spout, lateral wall fixedly connected with initiative motor, the shell upside is equipped with the motor space, motor space left side is equipped with annular spout, annular spout is an annular space, motor space right side is equipped with the hydraulic oil space, hydraulic oil space downside is equipped with the second space, second space left side is equipped with the first space, the first space with the second space communicates with each other, lateral wall fixedly connected with initiative motor on the motor space, the downside power of initiative motor is connected with the main shaft, the main shaft extends downwards and runs through lateral wall under the motor space and gets into between first space and the second space, the main shaft is from last to fixedly connected with special cam and fixed block down in proper order, special cam is a special gear, has arch and recess, sliding connection has the ejector pin between the lateral, hydraulic oil leads to two different parts, the ejector rod extends leftwards to penetrate through the left side wall of the hydraulic oil space to enter the motor space, the left side of the ejector rod is abutted against the special cam, a spring is fixedly connected between the right side of the ejector rod and the right side wall of the hydraulic oil space, the left side of the fixed block is fixedly connected with a pit digging device shell, the right side of the fixed block is fixedly connected with a disassembly-free template device shell, a space is arranged in the pit digging device shell, the left side of the space is provided with a first sliding space, the right side of the pit digging device shell is provided with a second sliding space, the disassembly-free template device shell is also provided with a space, the upper side of the space is provided with an electromagnet space, a transmission space is arranged in the fixed block, the lower side wall of the transmission space is, the second driving shaft extends leftwards to penetrate through the left side wall of the transmission space to enter the space of the shell of the pit digging device, the left side of the second driving shaft is fixedly connected with a driving belt wheel, the right side of the bidirectional motor is in power connection with a first driving shaft, the first driving shaft extends rightwards to penetrate through the right side wall of the transmission space to enter the space of the shell of the non-dismantling template device, the right side of the first driving shaft is fixedly connected with a first belt wheel, the space of the electromagnet, the space of the second space and the space of the shell of the non-dismantling template device are provided with the non-dismantling template device, the non-dismantling template device comprises an electromagnet fixedly arranged on the right side wall of the electromagnet space, the electromagnet is electrified to generate magnetism, the magnetism can be changed, a repulsion sliding block is connected between the space side walls of the electromagnet, and a spring, the electromagnetic mold plate device is characterized in that a magnet is arranged on the right side of the repelling slider, a sliding groove is arranged in the repelling slider, a threaded slider is connected in the sliding groove in a sliding mode, a screw rod is connected between the front side wall and the rear side wall of the sliding groove in a rotating mode, the screw rod is in threaded fit with the threaded slider, the screw rod extends backwards to penetrate through the rear side wall of the sliding groove and enters the space of the electromagnet, a large belt wheel is fixedly connected to the rear side of the screw rod, a first transmission shaft is connected between the space side walls of the mold plate device shell in a rotating mode, a butt switch, a second belt wheel, a first support frame and a first bevel gear are sequentially and fixedly connected to the first transmission shaft from left to right, a butt contact block is fixedly connected to the left side of the space and can be abutted against the butt switch, the electromagnet is connected, a belt is arranged, The bevel gear shaft is fixedly connected with a small belt wheel and a second bevel gear in sequence from front to back, the second bevel gear is meshed with the first bevel gear, the small belt wheel is in belt transmission with the big belt wheel, the first support frame is a slide rail, a rotary table is rotatably connected between the side walls of the first support frame, a clamping block is arranged on the upper side of the rotary table and can drive the rotary table to rotate, the rear side surface of the first support frame is rotatably connected with twenty-four short shafts, a small gear is fixedly connected with the front side of each short shaft, a connecting rod is fixedly connected with the right side of the small gear, a fixed telescopic device shell is fixedly connected with the front side of the connecting rod, a telescopic space is arranged in the fixed telescopic device shell, a telescopic rod is slidably connected in the telescopic space, and a spring, the flexible space with left hydraulic oil export communicates with each other in the hydraulic oil space, the telescopic link can stretch out, works as twenty four the telescopic link is whole to be stretched out, and round a circular range, can play the effect that blocks the concrete flow of flowing form, makes cylindrical sump pit can the shaping, the motor space with be equipped with transmission between the hydraulic oil space, the annular chute with be equipped with high setting device between the first space, first space first slip space second slip space with be equipped with adjustable device of digging pit between the space in the device shell of digging pit.

2. The cast-in-place concrete sump pit disassembly-free template device and equipment as claimed in claim 1, wherein: transmission includes fixed mounting and is in lateral wall on the motor space initiative motor, initiative motor downside power is connected with the main shaft, the main shaft downwardly extending runs through lateral wall gets into under the motor space first space with between the second space, the main shaft is from last to fixedly connected with down in proper order special cam with the fixed block.

3. The cast-in-place concrete sump pit disassembly-free template device and equipment as claimed in claim 1, wherein: the adjustable pit digging device comprises a connecting block which is slidably arranged between the side walls of the first sliding space, a spring telescopic rod is fixedly connected between the upper side of the connecting block and the upper side wall of the first sliding space, a connecting slide block is slidably connected between the side walls of the second sliding space, a second transmission shaft is rotatably connected between the connecting slide block and the connecting block, the second transmission shaft extends rightwards to penetrate through the right side wall of the second sliding space to enter the space of the pit digging device shell, the second transmission shaft is in rotating fit with the right side wall of the space of the pit digging device shell, a second supporting frame and a driven belt wheel are fixedly connected with the second transmission shaft from left to right in sequence, the second supporting frame is provided with an inner gear ring, a transmission belt is arranged between the driven belt wheel and the driving belt wheel, and a hydraulic rod space is arranged in the, two separation thread blocks are slidably connected between the side walls of the hydraulic rod space, a hydraulic telescopic rod is fixedly connected between the left separation thread block and the left side wall of the hydraulic rod space, a hydraulic telescopic rod is fixedly connected between the right side separation thread block and the right side wall of the hydraulic rod space, the hydraulic telescopic rod is communicated with a hydraulic outlet on the right side of the hydraulic oil space, the two separation thread blocks can form a complete thread block, the second support frame is a rotary table, a fixed frame is fixedly connected on the rear side of the second support frame, the front side of the fixed frame is rotatably connected with a connecting shaft, the front side of the connecting shaft is fixedly connected with a connecting plate, the front side of the connecting plate is dynamically connected with a power shaft, the power shaft can be started to drive a gear to rotate, the rear side of the power shaft is fixedly connected with a power gear, and the front side, two sliding blocks are connected in the sliding groove in a sliding mode, the upper sides of the sliding blocks are rotatably connected with meshing gear shafts, transmission gears are fixedly connected to the rear sides of the meshing gear shafts, the transmission gears are meshed with the power gears, the transmission gears are meshed with the inner gear rings of the second supporting frame, fixed wheels are fixedly connected to the middle sides of the meshing gear shafts, six rotating shafts are uniformly arranged on the fixed wheels in a rotating mode, each rotating shaft is sequentially and fixedly connected with a milling cutter and a second meshing gear from back to front, the second meshing gear rotates to dig out soil like the metal milled by the milling cutter, the rotating shafts can drive the milling cutter to rotate to enable the milling cutter to be close to the second supporting frame, the milled circular area is reduced, a small motor is fixedly connected to the front side face of the fixed wheel on the left side, and a rotating shaft is dynamically, the rotating shaft extends to the right side of the first meshing gear, a section of thread and two rotating gears are fixedly connected to the rotating shaft from left to right in sequence, an adjusting slider is connected to the rotating shaft through the thread, a telescopic contact is arranged on the upper side of the adjusting slider, the first meshing gear is rotatably connected to the foremost side of the meshing gear shaft and meshed with the second meshing gear, a sliding rheostat is fixedly connected to the upper side of the first meshing gear, the contact on the upper side of the adjusting slider is contacted with the sliding rheostat, so that the resistance of the sliding rheostat can be changed, the magnetism of the electromagnet is changed, a fixed rack is fixedly connected to the right side of each first meshing gear, the front side of each fixed rack is meshed with the rotating gear, and when the rotating gear rotates, the first meshing gear rotates relative to the fixed gear by an angle, thereby rotating the second meshing gear.

4. The cast-in-place concrete sump pit disassembly-free template device and equipment as claimed in claim 1, wherein: the height setting device comprises a long shaft which is rotatably arranged on the left side wall of the annular chute, the long shaft extends leftwards to penetrate through the left side wall of the annular chute to enter an outer space, the long shaft is fixedly connected with a rotary handle and a meshing wheel in sequence from left to right, the rotary handle can be rotated manually, the lower side wall of the annular chute is connected with a rack in a sliding manner, the upper side of the rack is provided with a rack, the upper side of the rack is meshed with the meshing wheel, the rack extends downwards to penetrate through the lower side wall of the annular chute to enter the first space and continues to extend downwards to enter the second sliding space, the lower side of the rack is rotatably connected with a threaded shaft, the upper side of the threaded shaft is fixedly connected with a wide gear, the threaded shaft can be in threaded fit with the separation threaded block, and the upper side surface of a, and a power motor shaft is dynamically connected to the lower side of the power motor, and the power motor shaft extends downwards to the space of the shell of the pit digging device. The lower side of the shaft of the power motor is fixedly connected with a starting gear, and the starting gear is meshed with the wide gear.

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