CN109930528B - Utilize adsorbed leaf processing apparatus for gardens of circulation - Google Patents

Abstract

The invention discloses a garden leaf treatment device utilizing circulation adsorption, which structurally comprises: the lawn leaf-falling centralized device comprises a double-end air collector, a supporting force arm, a suction pipe, a control handle, a chassis and a connecting outer pipe, wherein the double-end air collector is horizontally fixed at the end head at the bottom of the supporting force arm and communicated with the inner cavity of the suction pipe, the control handle is vertically welded and fixed at the top of the chassis and forms an integrated structure, the suction pipe is attached to the inside of a groove at the top of the chassis, the right end head penetrates through a wind port of the chassis and is connected with the connecting outer pipe, and a pulley at the bottom end of the chassis and a small wheel at the bottom end of the double-end air collector are positioned on the same plane.

Description

Utilize adsorbed leaf processing apparatus for gardens of circulation

Technical Field

The invention relates to a garden processing device, in particular to a garden leaf processing device utilizing circulation adsorption.

Background

The plant in the gardens need clean it in autumn and winter a large amount of leaves that drop, can also avoid the tree root part that too much fallen leaves caused to receive the infringement of worm in the time of reutilization, still skids easily after the rainwater soaks and causes inconvenience for the gardens maintainer, and the current sweeper majority adopts the mode of air suction to clear up but need carry out the place of optimizing in the clearance a bit:

the air suction port is limited in order to keep the caliber of the suction port, and the fallen leaves on a large area on the lawn can be cleaned only by swinging all the time when being cleaned.

Disclosure of Invention

In view of the above problems, the present invention provides a tree leaf treatment apparatus for gardens using circulation adsorption.

In order to achieve the purpose, the invention is realized by the following technical scheme: a leaf processing apparatus for gardens utilizing circulation adsorption structurally comprises: bi-polar collection wind ware, the support arm of force, straw, control handle, quick-witted case, connection outer tube, bi-polar collection wind ware level is fixed and is communicated with each other at the end of supporting the arm of force bottom and with the inner chamber of straw, control handle vertical welding fixes at the top of quick-witted case and forms an organic whole structure, the straw is attached inside the recess at quick-witted case top and right side end pass quick-witted case wind gap and be connected with connection outer tube, the pulley of machine bottom end and the truckle of bi-polar collection wind ware bottom are in the coplanar, bi-polar collection wind ware inner structure includes: the guide double arms are provided with two guide small wheels, the guide small wheels are horizontally fixed on the left side and the right side of the adsorption port through bolts, the sleeve shafts are welded and fixed on the surface walls of the left side and the right side of the rear end of the adsorption port, the driven small wheels are fixed in the middle of the bottom end of the adsorption port through bolts, the guide forks are horizontally fixed on the left sides of the driven small wheels and tightly attached to the surface of the adsorption port, and the wind collecting plate is arranged at the top of the adsorption port at an angle of 45 degrees.

As a further improvement of the invention, the two guide arms comprise a curtain type air arm, an annular air arm, an adjusting box, a fixed main shaft and an air valve, the annular air arm is horizontally fixed on the left side of the curtain type air arm and both the annular air arm and the annular air arm are communicated with the inside of the air valve, the curtain type air arm is fixed at the front end of the adjusting box, the axle center of the curtain type air arm is connected with the fixed main shaft, and the air valve is connected with an air blowing structure inside the case through an outer pipe.

As a further improvement of the invention, the curtain type air arm consists of a sleeve valve, a centralized cavity, a fine air plate, a spiral arm, a bidirectional shaft arm and a rotary ring, wherein the sleeve valve is nested on the left side of the centralized cavity and fills a side seam through sealant, the fine air plate is vertically embedded into a groove seat in the middle of the centralized cavity, the spiral arm is arranged at the axis of a joint connecting the centralized cavity and the bidirectional shaft arm, and an arc-shaped notch on the right side of the bidirectional shaft arm and the edge of the rotary ring form an integral structure through welding.

As a further improvement of the invention, the annular wind arm consists of an embedded groove, a rod, a flow equalizing plate, an expansion joint and a second wind cavity, the embedded groove is tightly buckled in the middle of the second wind cavity and is matched with the rod, the rod is connected to the center line of the surface wall at the rear end of the flow equalizing plate in an adhesive mode, and the expansion joint is horizontally fixed between the second wind cavity and the concentration cavity.

As a further improvement of the invention, more than two guide forks are arranged and are uniformly arranged in an array, and the front ends of the guide forks are processed by chamfering.

As a further improvement of the invention, the surface of the fine wind plate is provided with a vertical reinforcing rod, and two sides in contact with the concentration cavity are reinforced by sealant.

As a further improvement of the invention, the surface of the expansion joint is provided with folds, and two sides of the expansion joint are of straight-edge sleeve structures.

As a further improvement of the invention, the wind collecting plate is arc-shaped and is integrated with the upper cavity surface wall of the adsorption port.

The invention has the beneficial effects that:

the leaf to traditional clearance lawn need blow into one pile then adsorbing it, and the condition that wastes time and energy improves, carries out the air curtain that both sides direction both arms formed through bi-polar wind collector and makes the fallen leaves concentrate fast, and the guide fork of bottom makes the absorption port clear up the blade fast in the guide of blade, and to a great extent has improved work efficiency.

In conclusion, the improved lawn air curtain integrates fallen leaves of the lawn through the combination of the air cavity and the air curtain, avoids the scattered blowing, enters the inner end of the adsorption port along with the circulation formed in the middle part, and quickly cleans the inner end of the adsorption port, and avoids the situation of rolling back and forth on the lawn for a long time.

Drawings

Fig. 1 is a schematic structural view of a garden leaf treatment apparatus using circulation adsorption according to the present invention.

Fig. 2 is a schematic structural view of the double-ended air collector of the present invention.

Fig. 3 is a schematic structural diagram of the guiding double arm of the present invention.

FIG. 4 is a schematic structural diagram of a curtain arm according to the present invention.

Fig. 5 is a schematic structural view of the annular air arm of the present invention.

Fig. 6 is a schematic internal perspective view of the annular air arm of the present invention.

FIG. 7 is a schematic view of the connection structure of the double-ended air collector and the suction pipe according to the present invention.

Fig. 8 is a schematic diagram of the blowing structure of the guide double arms of the present invention.

In the figure: double-end wind collector-1, support arm of force-2, suction pipe-3, control handle-4, case-5, connecting outer pipe-6, guide double arms-11, adsorption port-12, sleeve shaft-13, driven small wheel-14, guide fork-15, wind collecting plate-16, annular wind arm-111, curtain type wind arm-112, adjusting box-113, fixed main shaft-114, wind valve-115, sleeve valve-1111, concentration cavity-1112, fine wind plate-1113, rotary arm-1114, bidirectional shaft arm-1115, rotary ring-1116, nesting groove-1121, rod-1122, flow equalizing plate-1123, expansion joint-1124 and second wind cavity-1125.

Detailed Description

In order to make the technical means, creation features, achievement objects and effects of the present invention easy to understand, fig. 1 to 8 schematically show the structure of a double-ended wind collector of an embodiment of the present invention, and the present invention is further described below with reference to specific embodiments.

Examples

As shown in fig. 1 to 8, the present invention provides a tree leaf processing apparatus for gardens using circulation adsorption, which comprises: double-end wind collector 1, support arm of force 2, straw 3, control handle 4, quick-witted case 5, connection outer tube 6, the end that supports 2 bottoms of arm of force and communicates with each other with the inner chamber of straw 3 are fixed to double-end wind collector 1 level, control handle 4 vertical welding fixes at the top of quick-witted case 5 and forms an organic whole structure, straw 3 is attached inside the recess at quick-witted case 5 top and the right side end passes quick-witted case 5 wind gaps and is connected with connection outer tube 6, the pulley of 5 bottoms of quick-witted case and the steamboat of 1 bottom of double-end wind collector are in the coplanar, double-end wind collector 1 its inner structure includes: the air-collecting device comprises two guide double arms 11, an adsorption port 12, a sleeve shaft 13, driven small wheels 14, guide forks 15 and an air collecting plate 16, wherein the two guide double arms 11 are horizontally fixed at the left side and the right side of the adsorption port 12 through bolts, the sleeve shaft 13 is welded and fixed on the surface walls of the left side and the right side of the rear end of the adsorption port 12, the driven small wheels 14 are fixed at the middle part of the bottom end of the adsorption port 12 through bolts, the guide forks 15 are horizontally fixed at the left side of the driven small wheels 14 and tightly attached to the surface of the adsorption port 12, and the air collecting plate 16 is arranged at the top of the adsorption port 12 at an angle.

As a further improvement of the present invention, the guiding double arm 11 is composed of a curtain type air arm 112, an annular air arm 111, an adjusting box 113, a fixed main shaft 114, and an air valve 115, the annular air arm 111 is horizontally fixed at the left side of the curtain type air arm 112, and both of them are communicated with the inside of the air valve 115, the curtain type air arm 112 is fixed at the front end of the adjusting box 113, and the axle center is connected through the fixed main shaft 114, and the air valve 115 is connected with the blowing structure inside the chassis 5 through an outer tube.

As a further improvement of the invention, the curtain type air arm 112 is composed of a sleeve valve 1111, a concentration cavity 1112, a fine air plate 1113, a rotary arm 1114, a bidirectional shaft arm 1115 and a rotary ring 1116, wherein the sleeve valve 1111 is nested at the left side of the concentration cavity 1112 and fills the side seam by sealant, the fine air plate 1113 is vertically embedded into a groove seat at the middle part of the concentration cavity 1112, the rotary arm 1114 is arranged at the joint axle center of the connection of the concentration cavity 1112 and the bidirectional shaft arm 1115, and the arc-shaped notch at the right side of the bidirectional shaft arm 1115 and the edge of the rotary ring 1116 form an integral structure by welding.

As a further improvement of the present invention, the annular wind arm 111 is composed of a nested groove 1121, a rod 1122, a flow equalizing plate 1123, an expansion joint 1124 and a second wind cavity 1125, the nested groove 1121 is tightly fastened in the middle of the second wind cavity 1125 and is matched with the rod 1122, the rod 1122 is connected to a center line of a rear end surface wall of the flow equalizing plate 1123 in a gluing manner, the expansion joint 1124 is horizontally fixed between the second wind cavity 1125 and the concentration cavity 1112, the flow equalizing plate 1123 has certain elasticity, and the edge is inclined, so that an up-and-down circulation can be formed to lift fallen leaves to the middle.

As a further improvement of the invention, more than two guide forks 15 are arranged and uniformly arranged in an array, the front ends of the guide forks are subjected to chamfering treatment, the guide forks 15 are used for separating piled fallen leaves and quickly separating some broken soil blocks, and the impact on an air pipe is reduced.

As a further improvement of the invention, the surface of the fine wind plate 1113 is provided with a vertical reinforcing rod, and two sides in contact with the concentration cavity 1112 are reinforced by sealant, so that the reinforcing rod prevents the blade from generating resonance to influence the wind flow direction.

As a further improvement of the present invention, the surface of the expansion joint 1124 is provided with wrinkles, two sides of the expansion joint are straight-sided sleeve structures, the wrinkles in the middle are convenient to bend, the straight-sided structures at two sides can make the sealing performance better, and meanwhile, the nested mounting structure is more stable.

As a further improvement of the present invention, the wind-collecting plate 16 is arc-shaped and is integrated with the top wall of the cavity at the adsorption port 12, so that the included angle of the adsorbed airflow is more concentrated to rapidly collect the lifted fallen leaves.

The working principle is as follows:

the outer connecting pipe 6 is connected with a garbage truck or a collecting bag is directly placed in the sweeping process of fallen leaves, feeding is carried out through a driving unit inside the case 5, the control handle 4 controls steering, the fallen leaves are collected to the middle by the double-end air collector 1 at the bottom, and then the fallen leaves are conveyed through the suction pipe 3.

Guide both arms 11 are fixed in the both sides of adsorbing port 12, in order to avoid highly crossing excessively to make adsorbing port 12 touch the end, set up driven steamboat 14 in the bottom and assist, because the fallen leaves at middle part are comparatively thick and heavy, the bottom is still comparatively moist, need comb through guide fork 15, can separate the clod in the fallen leaves on the one hand, make the fallen leaves in the bottom remove on the other hand and turn to, more do benefit to along with the wind current is adsorbed, more fallen leaves can directly send to adsorbing port 12 inside along guide fork 15.

The curtain type wind arms 112 on the two sides are combined with the annular wind arms 111, the annular wind arms 111 are mainly used for drawing fallen leaves on the two sides towards the middle, the flow equalizing plate 1123 is installed on the nesting groove 1121 of the second wind cavity 1125 through the rod 1122, the periphery of the flow equalizing plate 1123 is subjected to chamfering treatment, so that the outlet air forms an upper and lower circulation and two side circulation towards the middle, the fallen leaves are lifted from the bottom in the blowing process by the airflow and drawn towards the middle, the airflow of the adsorption port 12 is in a reverse suction state, so that the airflow formed by the curtain type wind arms 112 forms a backflow, and the fallen leaves are drawn towards the middle quickly after being lifted and are adsorbed and recovered.

In addition, in order to avoid falling leaves from the bottom, two annular air arms 111 are arranged at positions close to the adsorption port 12, air flow enters the concentration cavity 1112 and is thinned by the fine air plate 1113 to form an air curtain with high pressure at two ends, and the condition that the air flow is unstable due to the fact that the speed of the cart is too high is reduced.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (5)

1. A leaf processing apparatus for gardens utilizing circulation adsorption structurally comprises: double-end wind collector (1), support arm of force (2), straw (3), control handle (4), quick-witted case (5), connection outer tube (6), its characterized in that:

the double-end air collector (1) is horizontally fixed at the end head at the bottom of the supporting force arm (2) and communicated with the inner cavity of the suction pipe (3), the control handle (4) is vertically welded and fixed at the top of the case (5) and forms an integral structure, the suction pipe (3) is attached to the inside of a groove at the top of the case (5), the right end head penetrates through a wind port of the case (5) to be connected with the connecting outer pipe (6), and a pulley at the bottom end of the case (5) and a driven small wheel (14) at the bottom end of the double-end air collector (1) are positioned on the same plane;

the double-end air collector (1) comprises an internal structure: the air collecting device comprises two guide double arms (11), an adsorption port (12), sleeve shafts (13), driven small wheels (14), guide forks (15) and air collecting plates (16), wherein the two guide double arms (11) are horizontally fixed on the left side and the right side of the adsorption port (12) through bolts, the sleeve shafts (13) are welded and fixed on the surface walls of the left side and the right side of the rear end of the adsorption port (12), the driven small wheels (14) are fixed in the middle of the bottom end of the adsorption port (12) through bolts, the guide forks (15) are horizontally fixed on the left side of the driven small wheels (14) and tightly attached to the surface of the adsorption port (12), and the air collecting plates (16) are arranged at the top of the adsorption port (12) at an angle of 45 degrees;

the guide double arms (11) are composed of a curtain type air arm (112), an annular air arm (111), an adjusting box (113), a fixed main shaft (114) and an air valve (115), the annular air arm (111) is horizontally fixed on the left side of the curtain type air arm (112), the annular air arm and the air valve are communicated with the inside of the air valve (115), the curtain type air arm (112) is fixed at the front end of the adjusting box (113), the axis of the curtain type air arm is connected through the fixed main shaft (114), and the air valve (115) is connected with an internal blowing structure of the case (5) through an outer pipe.

2. A leaf treatment apparatus for gardens using circulation adsorption according to claim 1, wherein: curtain formula blast arm (112) comprise cover valve (1111), concentrated chamber (1112), fine aerofoil (1113), spiral arm (1114), two-way armshaft (1115), circle (1116), cover valve (1111) nestification is in the left side of concentrated chamber (1112) and through sealed glue filling side seam, fine aerofoil (1113) imbeds in the groove seat at concentrated chamber (1112) middle part perpendicularly, spiral arm (1114) are installed at the joint axle center that concentrated chamber (1112) and two-way armshaft (1115) are connected, two-way armshaft (1115) right side arc notch forms an organic whole structure through the welding with the edge of circle (1116).

3. A leaf treatment apparatus for gardens using circulation adsorption according to claim 1, wherein: the annular wind arm (111) is composed of a nesting groove (1121), a rod (1122), a flow equalizing plate (1123), an expansion joint (1124) and a second wind cavity (1125), the nesting groove (1121) is tightly buckled in the middle of the second wind cavity (1125) and is mutually matched with the rod (1122), the rod (1122) is connected to the center line of the rear end surface wall of the flow equalizing plate (1123) in an adhesive mode, and the expansion joint (1124) is horizontally fixed between the second wind cavity (1125) and the concentration cavity (1112).

4. A leaf treatment apparatus for gardens using circulation adsorption according to claim 1, wherein: the guide forks (15) are more than two and are uniformly arranged in an array, and the front ends of the guide forks are processed by chamfering.

5. A leaf treatment apparatus for gardens utilizing circulation adsorption according to claim 2, wherein: the surface of the fine wind plate (1113) is provided with a vertical reinforcing rod, and two sides of the fine wind plate, which are in contact with the concentration cavity (1112), are reinforced by sealant.

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