CN109811705B - Snowball synthesizing unit - Google Patents

Abstract

The invention relates to a snowball synthesizing unit, belonging to the technical field of environmental protection, mechanical transmission, equipment for removing accumulated snow on roads and the like, wherein the snowball synthesizing unit is positioned in front of an inclined plane transmission unit and consists of hemispherical snowball synthesizing pieces, a transmission arm and a transmission arm track, the transmission arm is connected with a snowball synthesizing and driving unit, the two hemispherical snowball synthesizing pieces are distributed oppositely, the snowball synthesizing and driving unit can drive the transmission arm to enable the two hemispherical snowball synthesizing pieces to be in a separated state or a connected state, the transmission arm moves upwards along the transmission arm track, the two hemispherical snowball synthesizing pieces move to the upper part of an inclined plane transmission piece of the inclined plane transmission unit and recover to the separated state, snowballs fall onto the first inclined plane transmission piece, the transmission arm moves downwards along the transmission arm track, and the two hemispherical snowball synthesizing pieces return to the front of the inclined plane transmission unit; the snowball synthesizing unit is used for a snow pressure ball transmission device and can realize the functions of snow transmission and collection.

Description

Snowball synthesizing unit

The application is a divisional application of the invention patent application of a snow pressure ball transmission device and a method for a quick-freezing hot air type snow and ice removing vehicle.

Application date of the original case: 2017-12-31.

Original application No.: 2017114973787.

the name of the original invention is: an accumulated snow pressure ball transmission device and method for a quick-freezing hot air type snow and ice removing vehicle.

Technical Field

The invention relates to a snowball synthesizing unit, belonging to the technical fields of environmental protection, mechanical transmission, equipment for removing snow on roads and the like.

Background

The snow removing vehicle is mechanical equipment for removing the accumulated snow on the road in the north, and the traditional snow removing vehicle is provided with a rolling brush in front of a vehicle head and is used for removing the accumulated snow on the road to the roadside by rotating the rolling brush. For the road surface which just runs snow, the snow cleaning vehicle has ideal cleaning effect, and the ground can be directly exposed after cleaning. However, the snow sweeper has the disadvantages that firstly, the roller brush cannot clean snow blocks formed by snow compacted by other vehicles, secondly, the roller brush cannot clean ice on the road surface, and thirdly, the cleaned snow is only stacked beside the road and still needs to be collected, cleaned and transported by matching with mechanical equipment such as a forklift and the like.

The metal baffle is arranged in front of the vehicle head of the snow removal vehicle, and the snow removal vehicle can not only clean snow blocks formed by the compaction of snow by other vehicles, but also clean the icing on the road surface, namely, the snow removal vehicle has the functions of removing snow and ice. However, the snow sweeper has limited snow clearing and deicing effects, and the road surface cleaned by the snow sweeper may still be covered with a layer of thin ice or snow.

To the problem in the field of snow removing vehicles, the team applies a quick-freezing hot air type snow and ice removing vehicle, so that snow removing and ice removing functions are realized, the road surface treated by the vehicle is directly exposed, and ice and snow are collected.

Disclosure of Invention

The invention discloses a snow pressure ball transmission device and a snow pressure ball transmission method for a quick-freezing hot air type snow and ice removing vehicle, and provides more technical choices for the quick-freezing hot air type snow and ice removing vehicle.

The purpose of the invention is realized as follows:

an accumulated snow pressure ball transmission device facing a quick-freezing hot air type snow-cleaning and deicing vehicle comprises a snow ball synthesizing unit, an inclined plane transmission unit, a rolling wheel group, a snow ball synthesizing driving unit, a rolling wheel group driving unit and a snow ball collecting unit;

the snowball synthesizing unit is positioned in front of the inclined plane transmission unit and consists of hemispherical snowball synthesizing pieces with a hollow radius R, a transmission arm and a transmission arm track, the transmission arm is connected with the snowball synthesizing driving unit, the two hemispherical snowball synthesizing pieces are distributed oppositely, the snowball synthesizing driving unit can drive the transmission arm to enable the two hemispherical snowball synthesizing pieces to be in a separated state or a connected state, the separation distance D of the two hemispherical snowball synthesizing pieces is larger than the diameter 2R of the hemispherical snowball synthesizing pieces in the separated state, the two hemispherical snowball synthesizing pieces are combined into a sphere in the synthesized state, the transmission arm moves upwards along the transmission arm track, the two hemispherical snowball synthesizing pieces move to the position above the first inclined plane transmission piece of the inclined plane transmission unit to recover the separated state, the snowball falls onto the first inclined plane transmission piece, and the transmission arm moves downwards along the transmission arm track, the two hemispherical snowball synthetic sheets return to the front of the inclined plane transmission unit;

the lower end of the inclined plane transmission unit is connected with the undulation wheel set, the inclined plane transmission unit is composed of M inclined plane transmission pieces, and the height of the ith inclined plane transmission piece is h_iThe width is L, wherein L > 2R, and the inclined plane drive plate is delta h at snowball transmission direction head and tail end difference in height, contacts between the inclined plane drive plate, and the cross section of inclined plane drive plate is middle low both sides high arc, and the snowball realizes the transmission from low to high in the inclined plane drive unit, and when the snowball transmits on the inclined plane drive plate, divide into following several kinds of condition:

a. loading a snowball to the bottom end of a 1 st inclined plane driving sheet by a snowball synthesizing unit, driving an odd inclined plane driving sheet to ascend by an odd-numbered fluctuation wheel and driving an even-numbered inclined plane driving sheet to descend by an even-numbered fluctuation wheel under the action of a fluctuation wheel group, leveling the tail end of the 1 st inclined plane driving sheet and the head end of a 2 nd inclined plane driving sheet, and rolling the snowball to the bottom end of the 2 nd inclined plane driving sheet along the tail end of the 1 st inclined plane driving sheet;

b. the snowball is arranged at the bottom end of the inclined surface driving sheet of the ith sheet, i belongs to N ⁺1 & lti & lt M, under the action of a fluctuation wheel group, under the action of the fluctuation wheel group, an ith fluctuation wheel drives an ith inclined plane transmission sheet to ascend, an (i + 1) th fluctuation wheel drives an (i + 1) th inclined plane transmission sheet to descend, the tail end of the ith inclined plane transmission sheet is level with the head end of the (i + 1) th inclined plane transmission sheet, the state is kept, and a snowball rolls to the tail end of the (i + 1) th inclined plane transmission sheet along the tail end of the ith inclined plane transmission sheet;

c. the bottom end of the M piece of inclined surface driving piece is in contact with the accumulated snow ball collecting unit, and the snow ball directly rolls into the accumulated snow ball collecting unit at the bottom end of the M piece of inclined surface driving piece;

the undulation wheel set consists of M undulation wheels with the same specification, the undulation wheels are arranged below the inclined plane transmission sheet, the phase difference between the adjacent undulation wheels is 180 degrees, the height difference between the undulation wheels in the rising state and the undulation wheels in the falling state is d, the undulation wheels are coaxially connected, and the height h of the inclined plane transmission sheet is h_iIs h is₁Is a first term, d-delta h is an arithmetic progression of tolerance,

the undulation wheel group consists of M undulation wheels with the same specification,the M undulation wheels are coaxially connected and powered by an undulation wheel set driving unit, the phase difference between the adjacent undulation wheels is 180 degrees, the height difference of the undulation wheels in the rising state and the falling state is d, and the height h of the inclined plane driving sheet is h_iIs h is₁Is a first term, d-delta h is an arithmetic progression of tolerance,

h_i+1＝h_i+d-Δh

when the snowball is arranged at the bottom end of the ith inclined surface driving sheet, the height of the central point of the snowball is lower than that of the head end of the (i + 1) th inclined surface driving sheet,

h_i+1＞h_i+d-R

the snow ball collecting unit edge is less than Mth inclined plane transmission piece bottom, when the snowball transmission arrives Mth inclined plane transmission piece bottom, directly rolls into in the snow ball collecting unit.

The accumulated snow pressure ball transmission device for the quick-freezing hot air type snow and ice removing vehicle is characterized in that the undulation wheel in the undulation wheel set is an eccentric wheel.

The accumulated snow pressure ball transmission device for the quick-freezing hot air type snow and ice removing vehicle is characterized in that the undulation wheel in the undulation wheel set is a cam.

The automobile chassis comprises the accumulated snow pressure ball transmission device facing the quick-freezing hot air type snow and ice removing vehicle, wherein an opening is formed in the automobile chassis, and the accumulated snow pressure ball transmission device facing the quick-freezing hot air type snow and ice removing vehicle is installed in the opening.

A snow pressure ball transmission method realized by a snow pressure ball transmission device facing a quick-freezing hot air type snow and ice removing vehicle comprises the following steps:

a. the snowball synthesizing driving unit drives the driving transmission arm and the two hemispherical snowball synthesizing pieces to gather towards the middle, so that the two hemispherical snowball synthesizing pieces are connected together to form a sphere to synthesize a snowball;

b. the two snowball synthetic pieces and the snowball move to the upper part of the first inclined plane transmission piece of the inclined plane transmission unit to recover the separation state, the snowball falls onto the first inclined plane transmission piece, and the two hemispherical snowball synthetic pieces return to the front part of the inclined plane transmission unit;

c. the snowball rolls into the bottom end of the 1 st inclined plane driving sheet, under the action of the fluctuation wheel group, the odd fluctuation wheels drive the odd inclined plane driving sheet to ascend, the even fluctuation wheels drive the even inclined plane driving sheet to descend, the tail end of the 1 st inclined plane driving sheet is level with the head end of the 2 nd inclined plane driving sheet, and the snowball rolls to the bottom end of the 2 nd inclined plane driving sheet along the tail end of the 1 st inclined plane driving sheet;

d. the snowball is arranged at the bottom end of the inclined surface driving sheet of the ith sheet, i belongs to N ⁺1 & lti & lt M, under the action of a fluctuation wheel group, under the action of the fluctuation wheel group, an ith fluctuation wheel drives an ith inclined plane transmission sheet to ascend, an (i + 1) th fluctuation wheel drives an (i + 1) th inclined plane transmission sheet to descend, the tail end of the ith inclined plane transmission sheet is level with the head end of the (i + 1) th inclined plane transmission sheet, the state is kept, and a snowball rolls to the tail end of the (i + 1) th inclined plane transmission sheet along the tail end of the ith inclined plane transmission sheet;

e. the bottom of the M piece of inclined surface transmission piece is in contact with the snow ball collecting unit, and the snow ball directly rolls into the snow ball collecting unit at the bottom of the M piece of inclined surface transmission piece.

Has the advantages that:

1. the special structure of the snow pressing ball realizes the functions of pressing balls to transmit and collect the accumulated snow;

2. in the concept of the snow sweeper, the accumulated snow can be collected at the same time, the accumulated snow does not occupy lanes or sidewalks beside the road, and the subsequent accumulated snow collecting procedures are reduced;

3. compared with the other two patents which are applied by the team on the same day, namely the snow pressure ball transmission device and the snow pressure ball transmission method for the quick-freezing hot-air type snow-cleaning and deicing vehicle and the snow pressure ball transmission device and the snow pressure ball transmission method for the quick-freezing hot-air type snow-cleaning and deicing vehicle, the snow ball comprehensive transmission device has the unique technical advantages that the movement track of a snow ball synthesis unit is limited, the structure is rigorous, snow balls cannot scatter in the transmission process, and the cleaning effect is best.

Drawings

FIG. 1 is a schematic structural diagram of a snow pressure ball transmission device for a quick-freezing hot air type snow and ice removing vehicle according to the present invention.

In the figure: the snow ball collecting device comprises a snow ball synthesizing unit 1, a hemispherical snow ball synthesizing piece 1-1, a transmission arm 1-2, a transmission arm track 1-3, an inclined surface transmission unit 2, an inclined surface transmission piece 2-1, a fluctuating wheel set 3, a fluctuating wheel 3-1, a snow ball synthesizing driving unit 4, a fluctuating wheel set driving unit 5 and a snow ball collecting unit 6.

Detailed Description

The following describes in further detail specific embodiments of the present invention with reference to the accompanying drawings.

Detailed description of the invention

The following embodiment is an embodiment of the snow pressure ball transmission device for the quick-freezing hot-air type snow and ice removing vehicle.

As shown in fig. 1, the snow pressure ball transmission device for the quick-freezing hot air type snow and ice removing vehicle of the embodiment is composed of a snow ball synthesizing unit 1, an inclined surface transmission unit 2, a rolling wheel set 3, a snow ball synthesizing drive unit 4, a rolling wheel set drive unit 5 and a snow ball collecting unit 6;

the snowball synthesizing unit 1 is positioned in front of the inclined plane transmission unit 2, the snowball synthesizing unit 1 consists of hemispherical snowball synthesizing pieces 1-1 with a hollow radius R, a transmission arm 1-2 and a transmission arm track 1-3, the transmission arm 1-2 is connected with a snowball synthesizing drive unit 4, the two hemispherical snowball synthesizing pieces 1-1 are distributed oppositely, the snowball synthesizing drive unit 4 can drive the transmission arm 1-2 to enable the two hemispherical snowball synthesizing pieces 1-1 to be in a separating state or a connecting state, in the separating state, the separation distance D of the two hemispherical snowball synthesizing pieces 1-1 is larger than the diameter 2R of the hemispherical snowball synthesizing pieces 1-1, in the synthesizing state, the two hemispherical snowball synthesizing pieces 1-1 are combined into a sphere to synthesize a snowball, and the transmission arm 1-2 moves upwards along the transmission arm track 1-3, the two hemispherical snowball synthetic slices 1-1 move to the upper part of the inclined plane transmission unit 2 and the first inclined plane transmission slice 2-1 to recover the separation state, snowballs fall onto the first inclined plane transmission slice 2-1, the transmission arm 1-2 moves downwards along the transmission arm track 1-3, and the two hemispherical snowball synthetic slices 1-1 return to the front of the inclined plane transmission unit 2;

the lower end of the inclined plane transmission unit 2 is connected with the undulation wheel set 3, the inclined plane transmission unit 2 consists of M inclined plane transmission pieces 2-1, and the height of the ith inclined plane transmission piece 2-1 is h_iWidth ofL, wherein L is more than 2R, the height difference of the head end and the tail end of the inclined surface transmission piece 2-1 in the snowball transmission direction is delta h, the inclined surface transmission pieces 2-1 are contacted, the cross section of the inclined surface transmission piece 2-1 is in a circular arc shape with a lower middle and two higher sides, the snowball is transmitted from low to high in the inclined surface transmission unit 2, and when the snowball is transmitted on the inclined surface transmission piece 2-1, the following conditions are divided:

a. loading a snowball from the snowball synthesizing unit 1 to the bottom end of a 1 st inclined plane driving sheet 2-1, driving an odd inclined plane driving sheet 2-1 to ascend by an odd-numbered fluctuation wheel 3-1 and driving an even-numbered inclined plane driving sheet 2-1 to descend by an even-numbered fluctuation wheel 3-1 under the action of a fluctuation wheel group 3, leveling the tail end of the 1 st inclined plane driving sheet 2-1 and the head end of the 2 nd inclined plane driving sheet 2-1, and rolling the snowball to the bottom end of the 2 nd inclined plane driving sheet 2-1 along the tail end of the 1 st inclined plane driving sheet 2-1;

b. the snowball is arranged at the bottom end of the inclined surface driving strap 2-1 of the ith strap, i belongs to N ⁺1 & lti & lt M, under the action of the fluctuation wheel group 3, the ith fluctuation wheel 3-1 drives the ith inclined plane transmission piece 2-1 to ascend, the (i + 1) th fluctuation wheel 3-1 drives the (i + 1) th inclined plane transmission piece 2-1 to descend, the tail end of the (i) th inclined plane transmission piece 2-1 is level with the head end of the (i + 1) th inclined plane transmission piece 2-1, the state is kept, and the snowball rolls to the tail end of the (i + 1) th inclined plane transmission piece 2-1 along the tail end of the (i + 1) th inclined plane transmission piece 2-1;

c. the bottom end of the M piece of inclined surface driving piece 2-1 is in contact with the accumulated snow ball collecting unit 6, and the snow ball directly rolls into the accumulated snow ball collecting unit 6 at the bottom end of the M piece of inclined surface driving piece 2-1;

the undulation wheel group 3 consists of M undulation wheels 3-1 with the same specification, is positioned below the inclined plane transmission piece 2-1, the phase difference between the adjacent undulation wheels 3-1 is 180 degrees, the height difference of the undulation wheels 3-1 in the rising state and the falling state is d, the undulation wheels 3-1 are coaxially connected, and the height h of the inclined plane transmission piece 2-1_iIs h is₁Is a first term, d-delta h is an arithmetic progression of tolerance,

the undulation wheel set 3 consists of M undulation wheels 3-1 with the same specification, is positioned below the inclined surface transmission piece 2-1, corresponds to the M inclined surface transmission pieces 2-1, and is coaxially connected with the M undulation wheels 3-1, and is powered by an undulation wheel set driving unit 6 which is adjacent to the M undulation wheels 3-1The phase difference between the undulating wheels 3-1 is 180 degrees, the height difference between the undulating wheels 3-1 in the rising state and the falling state is d, and the height h of the inclined surface transmission piece 2-1_iIs h is₁Is a first term, d-delta h is an arithmetic progression of tolerance,

h_i+1＝h_i+d-Δh

when the snowball is arranged at the bottom end of the ith inclined surface driving piece 2-1, the height of the central point of the snowball is lower than that of the head end of the (i + 1) th inclined surface driving piece 2-1,

h_i+1＞h_i+d-R

the edge of the snow ball collecting unit 6 is lower than the bottom end of the M inclined surface driving piece 2-1, and when the snow ball is driven to the bottom end of the M inclined surface driving piece 2-1, the snow ball directly rolls into the snow ball collecting unit 6.

Detailed description of the invention

The following embodiment is an embodiment of the snow pressure ball transmission device for the quick-freezing hot-air type snow and ice removing vehicle.

The snow pressure ball transmission device for the quick-freezing hot air type snow and ice removing vehicle is further defined on the basis of the first specific embodiment, and the undulation wheel 3-1 in the undulation wheel set 3 is an eccentric wheel.

Detailed description of the invention

The following embodiment is an embodiment of the snow pressure ball transmission device for the quick-freezing hot-air type snow and ice removing vehicle.

The snow pressure ball transmission device for the quick-freezing hot air type snow and ice removing vehicle is further defined on the basis of the first specific embodiment, and the undulation wheel 3-1 in the undulation wheel set 3 is a cam.

Detailed description of the invention

The following embodiments are automotive chassis embodiments.

In the embodiment, an opening is arranged on the automobile chassis, and a snow pressure ball transmission device facing the quick-freezing hot air type snow and ice removing vehicle is arranged in the opening.

Detailed description of the invention

The following embodiment is an embodiment of the snow pressure ball transmission method for the quick-freezing hot-air type snow and ice removing vehicle.

The invention relates to a snow pressure ball transmission method for a quick-freezing hot air type snow and ice removing vehicle, which comprises the following steps:

a. the snowball synthesizing driving unit 4 drives the driving transmission arm 1-2 and the two hemispherical snowball synthesizing pieces 1-1 to gather towards the middle, so that the two hemispherical snowball synthesizing pieces 1-1 are connected together to form a sphere to synthesize a snowball;

b. the two snowball synthetic slices 1-1 and the snowball move to the upper part of the first inclined plane transmission slice 2-1 of the inclined plane transmission unit 2 to recover the separation state, the snowball falls onto the first inclined plane transmission slice 2-1, and the two hemispherical snowball synthetic slices 1-1 return to the front of the inclined plane transmission unit 2;

c. the snowball rolls into the bottom end of the 1 st inclined plane driving sheet 2-1, under the action of the fluctuation wheel group 3, the odd fluctuation wheel 3-1 drives the odd inclined plane driving sheet 2-1 to ascend, the even fluctuation wheel 3-1 drives the even inclined plane driving sheet 2-1 to descend, the tail end of the 1 st inclined plane driving sheet 2-1 is level with the head end of the 2 nd inclined plane driving sheet 2-1, and the snowball rolls to the bottom end of the 2 nd inclined plane driving sheet 2-1 along the tail end of the 1 st inclined plane driving sheet 2-1;

d. the snowball is arranged at the bottom end of the inclined surface driving strap 2-1 of the ith strap, i belongs to N ⁺1 & lti & lt M, under the action of the fluctuation wheel group 3, the ith fluctuation wheel 3-1 drives the ith inclined plane transmission piece 2-1 to ascend, the (i + 1) th fluctuation wheel 3-1 drives the (i + 1) th inclined plane transmission piece 2-1 to descend, the tail end of the (i) th inclined plane transmission piece 2-1 is level with the head end of the (i + 1) th inclined plane transmission piece 2-1, the state is kept, and the snowball rolls to the tail end of the (i + 1) th inclined plane transmission piece 2-1 along the tail end of the (i + 1) th inclined plane transmission piece 2-1;

e. the bottom end of the M-th inclined surface transmission piece 2-1 is in contact with the snow ball collecting unit 6, and the snow ball directly rolls into the snow ball collecting unit 6 at the bottom end of the M-th inclined surface transmission piece 2-1.

It should be noted that how the snow ball collecting unit 6 is cleaned and replaced is out of the scope of the present invention.

Claims (3)

1. Snowball synthesizing unit, characterized in that it is located in the inclined plane transmission unit (2)) Front, the snowball synthesizing unit (1) is composed of a hollow radiusRThe snowball synthetic slice comprises hemispherical snowball synthetic slices (1-1), transmission arms (1-2) and transmission arm tracks (1-3), wherein the transmission arms (1-2) are connected with a snowball synthetic driving unit (4), the two hemispherical snowball synthetic slices (1-1) are distributed oppositely, the snowball synthetic driving unit (4) can drive the transmission arms (1-2) to enable the two hemispherical snowball synthetic slices (1-1) to be in a separation state or a connection state, and in the separation state, the separation distance between the two hemispherical snowball synthetic slices (1-1)DIs larger than the diameter 2 of the hemispherical snowball synthetic piece (1-1)RIn a synthesis state, the two hemispherical snowball synthesis pieces (1-1) are combined into a ball body to synthesize a snowball, the transmission arm (1-2) moves upwards along the transmission arm track (1-3), the two hemispherical snowball synthesis pieces (1-1) move to the position above the first inclined surface transmission piece (2-1) of the inclined surface transmission unit (2) to recover a separation state, the snowball falls onto the first inclined surface transmission piece (2-1), the transmission arm (1-2) moves downwards along the transmission arm track (1-3), and the two hemispherical snowball synthesis pieces (1-1) return to the front of the inclined surface transmission unit (2).

2. The snowball synthesizing unit according to claim 1, characterized by a snow pressure ball driving device for facing the quick-freezing hot air type snow and ice removing vehicle.

3. Snowball synthesizing unit according to claim 2, characterized in that the snow ball driving device facing the quick-freeze hot-blast type snow-cleaning and ice-removing vehicle further comprises a slope driving unit (2), a heave wheel set (3), a snowball synthesizing driving unit (4), a heave wheel set driving unit (5) and a snowball collecting unit (6).

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