CN112673739B - Hardened nutrient soil repairing device - Google Patents

Abstract

The invention provides a nutrient soil hardening repairing device which comprises an underframe, side supporting plates, an upper supporting plate, a cylinder and the like; fixedly connected with side extension board on the chassis, the collateral branch board symmetry sets up the both sides on chassis upper portion, and the collateral branch board is far away from the chassis one side fixedly connected with of extension board, and a cylinder fixed connection is on the upper portion of side extension board. According to the invention, the trigger assembly touches the liquid injection assembly in the traveling path to open the bottleneck of the liquid dropping bottle in the liquid injection assembly, so that the nutrient solution in the liquid dropping bottle can drop into the nutrient soil in the flowerpot, and then the bottleneck is closed through the tension spring in the movable door assembly, so that the purpose of adding the nutrient solution into the flowerpot is realized.

Description

Hardened nutrient soil repairing device

Technical Field

The invention relates to the technical field related to nutrient soil regeneration or restoration, in particular to a nutrient soil hardening restoration device.

Background

Flower planting in flowerpots is a common planting mode, with the development of human society, the urban construction speed is accelerated, the environmental greening occupation is increasing day by day, and in order to effectively increase the greening area, flowerpots are widely used for greening and planting buildings.

Flower growers need transplant flowers after the flower cultivation is finished, the used flower pots can be idle for a long time, the nutrient soil in the flower pots can be cracked due to dryness and lose nutrition, and the nutrient soil can be replaced again when the flower pots need to be reused for planting, so that resources are wasted, and the labor force is increased.

Therefore, in order to overcome the defects in the prior art, a device for repairing hardened nutrient soil of potted flowers is needed, which can be used for drilling down nutrient soil in a flowerpot, turning the soil and adding automatic nutrient solution.

Disclosure of Invention

In order to overcome the defects, the invention provides a potted flower nutrient soil hardening and repairing device which can drill down nutrient soil in a flowerpot, turn the soil and add automatic nutrient solution.

In order to achieve the purpose, the specific technical scheme of the invention is as follows:

a nutrient soil hardening repairing device comprises an underframe, side supporting plates, an upper supporting plate, a first air cylinder, a first connecting rod, a contact block, a second connecting rod, a liquid injection assembly, a material pushing assembly and a nutrient soil repairing assembly, wherein the side supporting plates are fixedly connected to the underframe and symmetrically arranged on two sides of the upper part of the underframe, the upper supporting plate is fixedly connected to one side of each side supporting plate far away from the underframe, the first air cylinder is fixedly connected to the upper part of each side supporting plate, the first connecting rod and the second connecting rod are symmetrically provided with two side supporting plates, the middle part of the first connecting rod is fixedly connected with a push rod of the first air cylinder, the first connecting rod is in sliding connection with the upper supporting plate, one end of the second connecting rod is fixedly connected with one end of the first connecting rod close to the air cylinder, the second connecting rod penetrates through the upper supporting plate in a sliding manner, the contact block is fixedly connected to one end of the first connecting rod far away from the second connecting rod, the contact block is in sliding connection with the upper supporting plate, and the liquid injection assembly is fixedly connected to one side of the upper supporting plate far away from the first air cylinder, push away material subassembly sliding connection on the upper portion of chassis, push away material subassembly and be connected with the second connecting rod, push away material subassembly and annotate the liquid subassembly contact, nutrition soil restoration subassembly is all connected with chassis, collateral branch board and last bolster, nutrition soil restoration subassembly and touching piece contact.

Preferably, annotate the liquid subassembly including the feed cylinder, the mount, the liquid drip bottle, the pipe, the baffle, circular connecting rod and movable door subassembly, one side that gas one was kept away from to feed cylinder and mount fixed connection at last extension board, install the liquid drip bottle on the mount, the liquid drip bottle passes through pipe connection with the feed cylinder, baffle fixed connection keeps away from the one end of going up the extension board on the mount, circular connecting rod has four, the one end of circular connecting rod is fixed in respectively on four angles that the mount kept away from upper bracket one end, the one end fixedly connected with movable door subassembly that the mount was kept away from to circular connecting rod, movable door subassembly and touch panel contact, movable door subassembly and liquid drip bottle sliding fit.

Preferably, the movable door assembly comprises a square plate, a small long plate, a thin sliding rod, a movable plate and a touch plate, a round hole is formed in the center of the square plate, the square plate is fixedly connected to one end, away from the fixed frame, of a round connecting rod, the small long plate is fixedly connected to one side, close to the fixed frame, of the square plate, the movable plate is slidably connected between the square plate and the liquid drop bottle, the movable plate is in sliding type sealing fit with the liquid drop bottle, the thin sliding rods are symmetrically arranged in two numbers, one end of the thin sliding rod is fixed to the small long plate, the thin sliding rods are slidably connected with the movable plate, tension springs are sleeved on the thin sliding rods, two ends of each tension spring are respectively fixedly connected with the small long plate and the movable plate, the touch plate is fixedly connected to one side, away from the small long plate, and the touch plate is in contact with the baffle.

Preferably, the material pushing assembly comprises a first L-shaped connecting rod, a sliding block, a first round rod and a first spring, the clamping block, little extension board one, spring two, round pin and crescent moon board, L connecting rod symmetry is equipped with two, L connecting rod one respectively with second connecting rod fixed connection, L connecting rod one and chassis sliding connection, sliding block and two equal fixed connection of L connecting rod, sliding block and chassis sliding connection, one side of sliding block is worn to locate by round bar one, round bar one and clamping block fixed connection, the spring suit is on round bar one, the both ends of spring one contact with sliding block and clamping block respectively, the crescent moon board articulates on the clamping block through the round pin, little extension board symmetry is equipped with two, little extension board and clamping block fixed connection, the equal fixed connection of homonymy of every little extension board has spring two, the other end of spring two and the side fixed connection of crescent moon board, it is equipped with two to trigger the subassembly symmetry, all be equipped with a trigger subassembly on every L connecting rod one.

Preferably, the triggering assembly comprises a second sliding rod, a shifting rod and a third spring, one end of the second sliding rod is fixedly connected with one end, far away from the second connecting rod, of the L-shaped connecting rod, the shifting rod is sleeved on the second sliding rod in a sliding mode, the shifting rod is in sliding contact with the touch plate, the third spring is sleeved on each second sliding rod, one end of each third spring is in contact with the L-shaped connecting rod, and the other end of each third spring is in contact with the shifting rod.

Preferably, the nutrient soil restoration component comprises a triangular block, a circular rotating rod, a straight gear, a cylinder II, a spur rack, a connecting pin, an annular sleeve, a connecting circular rod, a spring IV, an inserting cutter, a square support plate, a first tension spring, a second tension spring and a clamping component, wherein the triangular block is arranged at a position of the upper support plate far away from the cylinder I in a penetrating way, the triangular block is in sliding fit with the touch block, the triangular block is connected with the two L-shaped connecting rods II and the square support plate which are symmetrically arranged, the L-shaped connecting rods II are close to the square support plate, each square support plate is fixedly connected with the first tension spring, the first tension spring is fixedly connected with the upper support plate, the lower part of the triangular block is rotatably connected with the circular rotating rod, the straight gear is sleeved at a position where the circular rotating rod is connected with the triangular block, the annular sleeve is fixedly connected with the annular sleeve, the four connecting circular rods are arranged on the annular sleeve in an annular array, the connecting circular rods are in sliding connection with the annular sleeve, the inserting cutter is fixedly connected at the lower ends of the connecting circular rods, every connect all the cover on the round bar and have a spring four, and cylinder two fixed connection is at the inboard middle part of a side extension board that is close to the touch piece, spur rack and side extension board sliding connection, and the spur rack passes through the connecting pin with cylinder two and is connected, and the spur rack cooperates clamping components symmetry with the straight gear transmission and is equipped with two sets ofly, clamping components and chassis fixed connection, clamping components and two sliding fit of L connecting rod.

Preferably, the clamping assembly comprises a side plate, a sliding block, a round rod III, a spring V, a clamping rod, a small supporting plate II and a tension spring II, the side plate is fixedly connected to the upper portion of the bottom frame, the side plate is close to the cylinder II, the sliding block penetrates through the middle of the side plate, the sliding block is in sliding fit with the L connecting rod II, the small supporting plate II is symmetrically provided with two small supporting plates, the small supporting plate II is fixedly connected with the sliding block, each small supporting plate II is fixedly connected with one tension spring II, the tension spring II is fixedly connected with the side plate, the round rod III is in penetrating fit with the sliding block, one end, far away from the sliding block, of the round rod III is fixedly connected with the clamping rod, the round rod III is sleeved with the spring V, one end of the spring V is in contact with the sliding block, and the other end of the spring V is in contact with the clamping rod.

As preferred, still including connecing workbin, spring six and buffer board, connect the workbin to install in the chassis and be close to one side of curb plate, connect workbin inside to be equipped with a plurality of springs six, buffer board sliding connection is in connecing the workbin, buffer board and six fixed connection of spring.

Compared with the closest prior art, the invention has the following beneficial effects:

1) the invention achieves the purpose of opening the nutrient liquid drop outlet of the liquid injection assembly by the touch of the trigger assembly to the liquid injection assembly in the traveling path, so that the nutrient liquid in the liquid drop bottle can drop into the nutrient soil in the flowerpot, and the purpose of adding the nutrient liquid into the flowerpot is realized.

2) According to the invention, the circular rotating rod in the nutrient soil restoration assembly is pressed down and rotated, so that the slotting tool can drill into the nutrient soil in the flowerpot while rotating, and the purposes of drilling down and turning soil can be achieved.

3) The flowerpot is clamped by the clamping assembly, so that the flowerpot is prevented from being overturned when the slotting tool rotates, and the effect of fixing the flowerpot is achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the liquid injection assembly of the present invention.

Fig. 3 is an enlarged view of a portion of the priming assembly of the present invention.

Fig. 4 is a schematic perspective view of the pusher assembly of the present invention.

FIG. 5 is an enlarged view of A in FIG. 4 according to the present invention.

Fig. 6 is a schematic perspective view of the trigger assembly of the present invention.

Fig. 7 is a partial schematic view of a nutrient soil remediation assembly of the present invention.

Fig. 8 is a partial structural schematic view of the nutrient soil restoration assembly of the invention.

Fig. 9 is a perspective view of the clamping assembly of the present invention.

Fig. 10 is an exploded view of the receiver box of the present invention.

Description of reference numerals: 1_ chassis, 101_ side plate, 1011_ upper plate, 102_ cylinder one, 103_ first link, 1031_ touch block, 104_ second link, 2_ cartridge, 201_ holder, 2011_ drip bottle, 202_ catheter, 203_ baffle, 204_ round link, 205_ square plate, 206_ small long plate, 2061_ thin slide bar, 207_ movable plate, 208_ touch plate, 3_ L link one, 301_ slide block, 302_ round bar one, 3021_ spring one, 303_ clamp block, 3031_ small support plate one, 3032_ spring two, 304_ round pin, 305_ crescent plate, 4_ slide bar two, 401_ toggle lever, 402_ spring three, 5_ triangle block, 501_ round bar, 502_ straight gear, 5021_ cylinder two, 5022_ straight gear, 5023_ connecting pin, 503_ annular sleeve, 504_ connecting round bar, 505_ spring four, 506_ insert, 506_ square plate, 509_ square plate, tension spring 508_ side plate 507_ tension spring 508, 601_ slide block, 602_ round rod three, 6021_ spring five, 603_ clamping rod, 604_ small support plate two, 605_ tension spring two, 7_ receiving box, 701_ spring six and 702_ buffer plate.

Detailed Description

The invention is described in further detail below with reference to the following figures and specific examples:

example 1

As shown in figure 1, the nutrient soil hardening repairing device comprises a base frame 1, a side supporting plate 101, an upper supporting plate 1011, a first cylinder 102, a first connecting rod 103, a touch block 1031, a second connecting rod 104, a liquid injection assembly, a material pushing assembly and a nutrient soil repairing assembly, wherein the upper side of the base frame 1 is fixedly connected with the side supporting plate 101, the side supporting plate 101 is symmetrically arranged at the left side and the right side of the upper part of the base frame 1, the upper side of the side supporting plate 101 is fixedly connected with the upper supporting plate 1011, the first cylinder 102 is fixedly connected at the left upper side of the side supporting plate 101, the first connecting rod 103 and the second connecting rod 104 are symmetrically provided with two parts, the middle part of the inner side of the first connecting rod 103 is fixedly connected with a push rod of the first cylinder 102, the first connecting rod 103 is slidably connected with the upper supporting plate 1011, the upper end of the second connecting rod 104 is fixedly connected with the left end of the first connecting rod 103, the second connecting rod 104 slides through the upper supporting plate 1011, the touch block 1031 is fixedly connected with the right end of the first connecting rod 103, the touch block 1031 is slidably connected with the upper supporting plate 1011, annotate liquid subassembly fixed connection and go up the downside surface of extension board 1011, push away material subassembly sliding connection at the upside of chassis 1, push away material subassembly and be connected with second connecting rod 104, push away material subassembly and annotate the liquid subassembly contact, nutrition soil restoration subassembly and chassis 1, collateral branch board 101 and upper support board 1011 are all connected, and nutrition soil restoration subassembly and touching piece 1031 contact.

The worker places the flowerpot to be repaired at the middle position of the upper side of the base frame 1, then starts the first cylinder 102, the first cylinder 102 drives the first connecting rod 103 to slide rightwards along the upper supporting plate 1011, at this time, the first link rod 103 will drive the second link rod 104 to slide together, the second link rod 104 will drive the pushing assembly to slide along the upper side of the bottom frame 1, at the moment, the material pushing component can drive the flowerpot to slide rightwards, when the material pushing component touches the liquid injection component, the liquid injection component can drip nutrient solution into the flowerpot, then the material returning component continues to drive the flowerpot to move rightwards, at the moment, the liquid injection component is closed, a new flowerpot pushes the processed flowerpot away from the bottom frame 1, at this time, the touch block 1031 extrudes the nutrient soil restoration component, the nutrient soil restoration component clamps the flowerpot in advance, then the nutrient soil restoration component extends into the flowerpot to turn over the nutrient soil in the flowerpot, so that restoration of the nutrient soil of the flowerpot is completed.

Example 2

As shown in fig. 2, based on embodiment 1, the liquid injection assembly includes a material cylinder 2, a fixing frame 201, a liquid dropping bottle 2011, a conduit 202, a baffle 203, a circular connecting rod 204 and a movable door assembly, the material cylinder 2 and the fixing frame 201 are fixedly connected to the lower side of an upper support plate 1011, a liquid dropping bottle 2011 is installed on the fixing frame 201, the liquid dropping bottle 2011 is connected to the material cylinder 2 through the conduit 202, the baffle 203 is fixedly connected to the right lower end of the fixing frame 201, there are four circular connecting rods 204, the upper end of the circular connecting rod 204 is respectively fixed to four corners of the bottom side of the fixing frame 201, the lower end of the circular connecting rod 204 is fixedly connected to the movable door assembly, the movable door assembly is in contact with a touch panel 208, and the movable door assembly is in sliding fit with the liquid dropping bottle 2011.

After the pushing assembly touches the movable door assembly, the nutrient solution can flow into the liquid dropping bottle 2011 through the conduit 202, and then flows into the nutrient soil in the flowerpot from the liquid dropping bottle 2011, so that after the pushing assembly is separated from the movable door assembly, the bottle mouth of the liquid dropping bottle 2011 can be blocked, and thus the aim of adding the nutrient solution into the nutrient soil in the flowerpot is completed.

As shown in fig. 3, the movable door assembly includes a square plate 205, a small long plate 206, a thin sliding rod 2061, a movable plate 207 and a touch plate 208, a circular hole is opened in the center of the square plate 205, the square plate 205 is fixedly connected to the lower end of the circular connecting rod 204, the small long plate 206 is fixedly connected to the left upper side of the square plate 205, the small long plate 206 is slidably connected between the square plate 205 and a drip bottle 2011, the small long plate 206 is slidably and hermetically matched with the drip bottle 2011, two thin sliding rods 2061 are symmetrically arranged, the left end of the thin sliding rod 2061 is fixed to the small long plate 206, the thin sliding rod 2061 is slidably connected to the movable plate 207, a tension spring is sleeved on the thin sliding rod 2061, two ends of the tension spring are respectively fixedly connected to the small long plate 206 and the movable plate 207, the touch plate 208 is fixedly connected to the right side of the movable plate 207, and the touch plate 208 is in contact with the baffle 203.

After the pushing assembly touches the touch plate 208, the pushing assembly can drive the touch plate 208 to slide rightwards, at the moment, the touch plate 208 can drive the movable plate 207 to slide together, at the moment, nutrient solution can be dripped into the flowerpot through the dropping bottle 2011, after the touch plate 208 touches the baffle 203, the touch plate 208 cannot move, at the moment, the pushing assembly can be separated from the touch plate 208 to be in contact, and the touch plate 208 can be pulled to reset by the tension spring sleeved on the small and long plate 206, so that the opening and closing control of the dropping bottle 2011 is realized.

As shown in fig. 4-5, the material pushing assembly includes a first L-link 3, a sliding block 301, a first circular rod 302, a first spring 3021, a clamping block 303, a first small support plate 3031, a second spring 3032, a circular pin 304, and a crescent 305, two symmetrical first L-links 3 are provided, the left end of the first L-link 3 is fixedly connected to the lower side of the second link 104, the first L-link 3 is slidably connected to the chassis 1, the sliding block 301 is fixedly connected to the first L-links 3, the sliding block 301 is slidably connected to the chassis 1, the first circular rod 302 is inserted into the left side of the sliding block 301, the first circular rod 302 is fixedly connected to the clamping block 303, the first spring 3021 is sleeved on the first circular rod 302, the left and right ends of the first spring 3021 are respectively contacted to the sliding block 301 and the clamping block 303, the crescent 305 is hinged to the clamping block 303 through the circular pin 304, two symmetrical small support plates 3031 are provided, the small support plate 3031 is fixedly connected to the clamping block 303, the right side of each small support plate is fixedly connected to the second spring 3032, the right end of the spring II 3032 is fixedly connected with the left side edge of the crescent board 305, two trigger assemblies are symmetrically arranged, and each L connecting rod I3 is provided with one trigger assembly.

When the second connecting rod 104 drives the first L connecting rod 3 to slide rightwards along the underframe 1, the first L connecting rod 3 drives the sliding block 301 to move together, the sliding block 301 drives the first small supporting plate 3031 to move, the first small supporting plate 3031 drives the crescent 305 to move rightwards, at this time, the crescent 305 can touch the flowerpot and drive the flowerpot to move rightwards together, and therefore the flowerpot is conveyed, the second spring 3032 located on two sides of the clamping block 303 mainly plays a role in repairing the crescent 305 in the direction, the first spring 3021 plays a certain buffering role, when the first small supporting plate 3031 extrudes the first spring 3021, the first round rod 302 can be retracted into the sliding block 301, and therefore the flowerpot can be pushed rightwards stably.

As shown in fig. 6, the triggering assembly includes a second sliding rod 4, a shift lever 401 and a third spring 402, the lower end of the second sliding rod 4 is fixedly connected with the right end of the L-shaped connecting rod, the shift lever 401 is slidably sleeved on the second sliding rod 4, the shift lever 401 is in sliding contact with the touch plate 208, the third spring 402 is sleeved on each second sliding rod 4, the lower end of the third spring 402 is in contact with the L-shaped connecting rod, and three ends of the third spring 402 are in contact with the shift lever 401.

When the first L-link 3 moves rightwards along the bottom frame 1, the first L-link 3 drives the trigger assembly to move rightwards together, at this time, the shift lever 401 touches the touch pad 208 and drives the touch pad 208 to move rightwards together, when the touch pad 208 is clamped by the baffle 203, the shift lever 401 slides downwards along the second sliding rod 4, at this time, the shift lever 401 compresses the third spring 402, when the shift lever 401 crosses the touch pad 208, the third spring 402 drives the shift lever 401 to reset, and thus the purpose of opening the movable plate 207 is achieved.

Example 3

As shown in fig. 7-8, based on the embodiment 2, the nutrient soil restoration assembly comprises a triangular block 5, a circular rotation rod 501, a straight gear 502, a cylinder II 5021, a spur rack 5022, a connecting pin 5023, an annular sleeve 503, a connecting circular rod 504, a spring IV 505, a knife insert 506, a square support plate 507, a tension spring I508, a connecting rod II and a clamping assembly, wherein the triangular block 5 is arranged at the middle of the right side of an upper support plate 1011 in a penetrating manner, the triangular block 5 is in sliding fit with a touch block 1031, the triangular block 5 is connected with two symmetrically arranged L connecting rod II 509 and the square support plate 507, the L connecting rod II 509 is arranged right below the square support plate 507, each square support plate 507 is fixedly connected with the tension spring I508, the tension spring I508 is fixedly connected with the upper support plate 1011, the lower part of the triangular block 5 is rotatably connected with the circular rotation rod 501, the straight gear 502 is sleeved at the position where the circular rotation rod 501 is connected with the triangular block 5, the annular sleeve 503 is fixedly connected with the circular rotation rod 501, annular array has four to connect round bar 504 on the annular cover 503, connect round bar 504 and annular cover 503 sliding connection, connect the equal fixedly connected with slotting tool 506 of lower extreme of round bar 504, it has a spring four 505 all to overlap on every connects round bar 504, cylinder two 5021 fixed connection is on the inner wall of a side extension board 101 on right side, spur rack 5022 and side extension board 101 sliding connection, spur rack 5022 and spur gear 502 transmission fit, spur rack 5022 is connected through connecting pin 5023 with cylinder two 5021, the clamping component symmetry is equipped with two sets ofly, clamping component and chassis 1 fixed connection, clamping component and two 509 sliding fit of L connecting rod.

When the crescent plate 305 pushes the flowerpot to the rightmost side of the base, the first cylinder 102 will drive the first connecting rod 103 to slide leftwards, the first connecting rod 103 will drive the contact block 1031 to move together, when the touch block 1031 touches the triangular block 5, the touch block 1031 presses the triangular block 5 to move downward, at this time, the triangular block 5 drives the round rotating rod 501, the spur gear 502 and the slotting tool 506 to move downwards together, the slotting tool 506 is inserted into the nutrient soil in the flowerpot during the process, the spur gear 502 is meshed with the spur rack 5022, when the second air cylinder 5021 drives the spur rack 5022 to slide along the side support plate 101 in a reciprocating manner, the spur rack 5022 drives the spur gear 502 to rotate in a reciprocating manner, the spur gear 502 drives the circular rotating rod 501 to rotate, the circular rotating rod 501 drives the slotting tool 506 to rotate through the connecting circular rod 504, and then the first tension spring 508 pulls the slotting tool, the triangular blocks 5 drive the round rotating rods 501 and the like to recover, so that the purpose of turning over the nutrient soil in the flowerpot is achieved.

As shown in fig. 9, the clamping assembly includes a side plate 6, a slide block 601, a third round bar 602, a fifth spring 6021, a clamping rod 603, a second small support plate 604 and a second tension spring 605, the side plate 6 is fixedly connected to the right upper side of the chassis 1, the slide block 601 is inserted into the center of the side plate 6, the right end of the slide block 601 is in sliding fit with the lower end of the second L link 509, the two small support plates 604 are symmetrically arranged, the second small support plate 604 is fixedly connected with the inner end of the slide block 601, each second small support plate 604 is fixedly connected with a second tension spring 605, the second tension spring 605 is fixedly connected with the side plate 6, the third round bar 602 is inserted into the slide block 601 for matching, the inner end of the third round bar 602 is fixedly connected with the clamping rod 603, the third round bar 602 is sleeved with the fifth spring 6021, the outer end of the fifth spring 6021 is in contact with the slide block 601, and the other inner end of the fifth spring 6021 is in contact with the clamping rod 603.

When the triangular block 5 drives the second L connecting rod 509 to move downwards, the second L connecting rod 509 touches the sliding block 601, so that the sliding block 601 slides inwards along the side plate 6, the sliding block 601 can drive the third round rod 602 and the clamping rod 603 to slide rightwards, at this time, after the clamping rod 603 touches the flowerpot, the clamping rod 603 can extrude the third round rod 602 to compress the fifth spring 6021, at this time, the third round rod 602 can collapse into the sliding block 601, the fifth spring 6021 mainly plays a role of buffering during clamping, and when machining is finished, the second tension spring 605 can pull the second small support plate 604 and the sliding block 601 to reset, so that clamping of the flowerpot is realized.

As shown in fig. 10, the device further comprises a material receiving box 7, six springs 701 and a buffer plate 702, wherein the material receiving box 7 is installed on the right side of the base frame 1, the four springs 701 are arranged inside the material receiving box 7, the buffer plate 702 is slidably connected to the inner wall of the material receiving box 7, and the upper ends of the buffer plate 702 and the six springs 701 are fixedly connected.

When a new flowerpot is conveyed to the side supporting plate 101 on the right side, the flowerpot to be processed pushes the last processed flowerpot to the material receiving box 7, and the six springs 701 in the material receiving box 7 absorb shock to enable the flowerpot to stably fall onto the buffer plate 702 and then be collected by workers, so that the collection of the flowerpot is completed.

It should be noted that the summary and the detailed description of the invention are intended to demonstrate the practical application of the technical solutions provided by the present invention, and should not be construed as limiting the scope of the present invention. Various modifications, equivalent alterations, and improvements will occur to those skilled in the art and are intended to be within the spirit and scope of the invention. Such changes and modifications are intended to be included within the scope of the appended claims.

Claims (6)

1. A nutrient soil hardening repairing device comprises an underframe (1), side supporting plates (101), upper supporting plates (1011), a first cylinder (102), a first connecting rod (103), a touch block (1031) and a second connecting rod (104), wherein the side supporting plates (101) are fixedly connected to the underframe (1), the side supporting plates (101) are symmetrically arranged on two sides of the upper portion of the underframe (1), the upper supporting plates (1011) are fixedly connected to one side, away from the underframe (1), of the side supporting plates (101), the first cylinder (102) is fixedly connected to the upper portion of the side supporting plates (101), the first connecting rod (103) and the second connecting rod (104) are symmetrically arranged, the middle portion of the first connecting rod (103) is fixedly connected with a push rod of the first cylinder (102), the first connecting rod (103) is slidably connected with the upper supporting plates (1011), one end of the second connecting rod (104) is fixedly connected with one end, close to the cylinder, of the first connecting rod (103), and the second connecting rod (104) slidably penetrates through the upper supporting plates (1011), the nutrient soil restoration device is characterized by further comprising a liquid injection assembly, a material pushing assembly and a nutrient soil restoration assembly, wherein the liquid injection assembly is fixedly connected to one side, away from the first cylinder (102), of the upper support plate (1011), the material pushing assembly is connected to the upper portion of the base frame (1) in a sliding mode, the material pushing assembly is connected with the second connection rod (104), the material pushing assembly is in contact with the liquid injection assembly, the nutrient soil restoration assembly is connected with the base frame (1), the side support plate (101) and the upper support plate (1011), and the nutrient soil restoration assembly is in contact with the touch block (1031);

the liquid injection assembly comprises a charging barrel (2), a fixed frame (201), a liquid dropping bottle (2011), a conduit (202), a baffle (203), a circular connecting rod (204) and a movable door assembly, the charging barrel (2) and the fixing frame (201) are fixedly connected to one side, far away from the gas I, of the upper support plate (1011), a liquid dropping bottle (2011) is installed on the fixing frame (201), the liquid dropping bottle (2011) is connected with the charging barrel (2) through a conduit (202), the baffle (203) is fixedly connected to one end, far away from the upper support plate (1011), of the fixing frame (201), four circular connecting rods (204) are arranged, one end of each circular connecting rod (204) is respectively fixed to four corners, far away from one end of the upper support plate (1011), of the fixing frame (201), one end, far away from the fixing frame (201), of each circular connecting rod (204) is fixedly connected with a movable door assembly, the movable door assembly is in contact with the touch plate (208), and the movable door assembly is in sliding fit with the liquid dropping bottle (2011);

the movable door assembly comprises a square plate (205), a small long plate (206), a thin sliding rod (2061), a movable plate (207) and a touch plate (208), a round hole is formed in the center of the square plate (205), the square plate (205) is fixedly connected to one end, far away from the fixed frame (201), of the round connecting rod (204), the small long plate (206) is fixedly connected to one side, close to the fixed frame (201), of the square plate (205), the movable plate (207) is slidably connected between the square plate (205) and the dropping bottle (2011), the movable plate (207) is in sliding sealing fit with the dropping bottle (2011), the thin sliding rods (2061) are symmetrically arranged in two numbers, one end of the thin sliding rod (2061) is fixed to the small long plate (206), the thin sliding rod (2061) is slidably connected with the movable plate (207), a tension spring is sleeved on the thin sliding rod (2061), two ends of the tension spring are respectively fixedly connected with the small long plate (206) and the movable plate (207), the touch plate (208) is fixedly connected to one side, far away from the small long plate (206), the touch plate (208) is in contact with the baffle (203).

2. The nutrient soil hardening repair device as claimed in claim 1, wherein the pushing assembly comprises a first L-shaped connecting rod (3), a sliding block (301), a first round rod (302), a first spring (3021), a clamping block (303), a first small supporting plate (3031), a second spring (3032), a round pin (304) and a crescent plate (305), two first L-shaped connecting rods (3) are symmetrically arranged, the first L-shaped connecting rods (3) are respectively and fixedly connected with the second connecting rod (104), the first L-shaped connecting rod (3) is in sliding connection with the base frame (1), the sliding block (301) is fixedly connected with both the first L-shaped connecting rods (3), the sliding block (301) is in sliding connection with the base frame (1), the first round rod (302) is arranged at one side of the sliding block (301), the first round rod (302) is fixedly connected with the clamping block (303), the first spring (3021) is sleeved on the first round rod (302), and two ends of the first spring (3021) are respectively in contact with the sliding block (301) and the clamping block (303), crescent board (305) pass through round pin (304) and articulate on clamp splice (303), and little extension board (3031) symmetry is equipped with two, little extension board and clamp splice (303) fixed connection, the equal fixedly connected with spring two (3032) of homonymy of every little extension board, the other end of spring two (3032) and the side fixed connection of crescent board (305), and the trigger subassembly symmetry is equipped with two, all is equipped with a trigger subassembly on every L connecting rod (3).

3. The nutrient soil hardening repairing device according to claim 2, wherein the triggering assembly comprises a second sliding rod (4), a shifting rod (401) and a third spring (402), one end of the second sliding rod (4) is fixedly connected with one end of the L-shaped connecting rod far away from the second connecting rod (104), the shifting rod (401) is slidably sleeved on the second sliding rod (4), the shifting rod (401) is in sliding contact with the touch plate (208), the third spring (402) is sleeved on each second sliding rod (4), one end of the third spring (402) is in contact with the L-shaped connecting rod, and the other end of the third spring (402) is in contact with the shifting rod (401).

4. The nutrient soil hardening repairing device according to claim 3, characterized in that the nutrient soil repairing component comprises a triangular block (5), a round rotating rod (501), a straight gear (502), a second cylinder (5021), a straight rack (5022), a connecting pin (5023), an annular sleeve (503), a connecting round rod (504), a fourth spring (505), a slotting tool (506), a square support plate (507), a first tension spring (508), a second connecting rod and a clamping component, wherein the triangular block (5) is arranged at a position far away from the first cylinder (102) in the upper support plate (1011), the triangular block (5) is in sliding fit with a touch block (1031), the triangular block (5) is connected with two symmetrically arranged second L connecting rods (509) and the square support plate (507), the second L connecting rods (509) are close to the square support plate (507), a first tension spring (508) is fixedly connected to each square support plate (507), and the first tension spring (508) is fixedly connected to the upper support plate (1011), the lower part of the triangular block (5) is rotatably connected with a circular rotating rod (501), a straight gear (502) is sleeved at the position where the circular rotating rod (501) is connected with the triangular block (5), an annular sleeve (503) is fixedly connected to the circular rotating rod (501), four connecting circular rods (504) are arranged on the annular sleeve (503) in an annular array mode, the connecting circular rods (504) are in sliding connection with the annular sleeve (503), the lower end of each connecting circular rod (504) is fixedly connected with an insert cutter (506), each connecting circular rod (504) is sleeved with a spring II (505), a cylinder II (5021) is fixedly connected to the middle part of the inner side of a side support plate (101) close to a touch block (1031), a straight rack (5022) is in sliding connection with the side support plate (101), the straight rack (5022) is connected with the cylinder II (5021) through a connecting pin (5023), and the straight rack (5022) is in transmission fit with the straight gear (502) to clamp the assembly and is symmetrically provided with two groups, the clamping component is fixedly connected with the underframe (1) and is in sliding fit with the second L-shaped connecting rod (509).

5. The nutrient soil hardening repair device according to claim 4, wherein the clamping assembly comprises a side plate (6), a sliding block (601), a round bar III (602), a spring V (6021), a clamping rod (603), a small supporting plate II (604) and a tension spring II (605), the side plate (6) is fixedly connected to the upper portion of the base frame (1), the side plate (6) is close to the cylinder II (5021), the sliding block (601) is arranged in the middle of the side plate (6) in a penetrating manner, the sliding block (601) is in sliding fit with the L connecting rod II (509), the small supporting plate II (604) is symmetrically provided with two, the small supporting plate II (604) is fixedly connected with the sliding block (601), each small supporting plate II (604) is fixedly connected with one tension spring II (605), the tension spring II (605) is fixedly connected with the side plate (6), the round bar III (602) is in sliding fit with the sliding block (601), one end, far away from the sliding block (601), of the round bar III (602) is fixedly connected with the clamping rod (603), and a spring five (6021) is sleeved on the round rod three (602), one end of the spring five (6021) is contacted with the sliding block (601), and the other end of the spring five (6021) is contacted with the clamping rod (603).

6. The nutrient soil hardening repairing device according to claim 5, characterized by further comprising a material receiving box (7), six springs (701) and a buffer plate (702), wherein the material receiving box (7) is installed on one side, close to the side plate (6), of the bottom frame (1), the six springs (701) are arranged inside the material receiving box (7), the buffer plate (702) is connected in the material receiving box (7) in a sliding mode, and the buffer plate (702) is fixedly connected with the six springs (701).

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