CN116441162A

CN116441162A - Double-body gravity separator separating mechanism with high processing efficiency

Info

Publication number: CN116441162A
Application number: CN202310410869.2A
Authority: CN
Inventors: 陈实; 许斌; 杨从艳; 胡全刚
Original assignee: Hubei Nature Rice Co ltd
Current assignee: Hubei Nature Rice Co ltd
Priority date: 2023-04-17
Filing date: 2023-04-17
Publication date: 2023-07-18

Abstract

The invention discloses a separation mechanism of a double-body gravity grain separator with high processing efficiency, which comprises an electricity control box, a first screening box, a second screening box, a filter plate and a discharge hole, wherein a blower is arranged above the first screening box, the discharge holes are arranged on the reverse sides of the first screening box and the second screening box, and a wedge-shaped strip is arranged below one side of the screening plate far away from the discharge hole. This coarse separating mechanism of double body weight cereal that machining efficiency is high is provided with air-blower, buffer board and heating wire, starts the air-blower, the air-blower passes through air-supply line and connecting pipe to first minute sieve case and the inside air inlet of second minute sieve case, then through the effect of heating wire, turn into hot-blast to the coarse cereal on the buffer board with first minute sieve case and the inside air inlet of second minute sieve case and air-dry, the buffer board plays the cushioning effect to the coarse cereal that falls into, the whereabouts speed of the coarse cereal is reduced, the air-dry efficiency of the coarse cereal is improved, prevent the coarse adhesion of cereal and be in the same place inconvenient separation, and then can improve the separation efficiency of the coarse cereal.

Description

Double-body gravity separator separating mechanism with high processing efficiency

Technical Field

The invention relates to the technical field of double-body gravity paddy separator, in particular to a double-body gravity paddy separator separating mechanism with high processing efficiency.

Background

The gravity grain separator is one kind of grain separator with grain density, grain size and surface friction coefficient difference, and with the action of two-way inclined reciprocating work plate, automatic grading equipment is added to separate grain.

The double-body gravity paddy separator with good screening effect for rice processing disclosed by the publication No. CN216026114U solves the problems of poor screening effect and low working efficiency of the existing double-body gravity paddy separator by arranging a first motor, a convex roller, a push plate, an elastic sheet, a support rod, a mounting plate, a reset box, a limit plate, a spring and a movable wheel, and has the advantages of good screening effect and high working efficiency, but the device of the double-body gravity paddy separator has certain defects;

1. the separation mechanism is not provided with a drying device, rice directly enters the separation box through the feeding cover and the corrugated hose, the rice is affected by the storage environment and the external environment, the rice is often doped with water, the doped water enables the rice and the brown rice to be adhered together, and the rice is not easy to separate, so that the rice is not thorough enough when being screened, the separation efficiency and the separation quality of the rice cannot be guaranteed, and the separation efficiency of the rice is lower.

So we propose a double-body gravity separator separating mechanism with high processing efficiency so as to solve the problems mentioned above.

Disclosure of Invention

The invention aims to provide a double-body gravity grain and brown rice separator separating mechanism with high processing efficiency, which is used for solving the problems that the existing double-body gravity grain and brown rice separator separating mechanism in the market provided by the background technology is not provided with a drying device, rice directly enters into a separating box from a feeding cover and a corrugated hose, the rice is often doped with water under the influence of a storage environment and an external environment, the doped water enables the rice and a brown rice shell to be adhered together and not easy to separate, so that the rice is not thoroughly separated during screening, the grain and brown rice separating efficiency and separating quality cannot be ensured, and the grain and brown rice separating efficiency is low.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a coarse separating mechanism of double body weight grain that machining efficiency is high, includes accuse electric box, first branch screen box, second branch screen box, filter and discharge gate, the top horizontal installation of accuse electric box has the support basement, and just supports the top left and right sides of basement and install first branch screen box and second branch screen box respectively, and the feed inlet is all installed to the reverse one side of first branch screen box and second branch screen box moreover, the air-blower is installed to the top of first branch screen box, the filter is all installed to the inside of first branch screen box and second branch screen box, and installs first limiting plate on one side of the relative feed inlet of filter, the discharge gate is all installed to the reverse one side of first branch screen box and second branch screen box, and just the direction slide rail is installed to the interior bottom surface of first branch screen box and second branch screen box, divide and keep away from discharge gate one side below and install the wedge, first branch screen box and second branch screen box keep away from discharge gate one side inner wall and install the electric screen telescopic link perpendicularly, and the positive surface mounting of first branch screen box and second branch screen box is all installed.

Preferably, a vibration motor is vertically installed below the support substrate, and the vibration motor is located at a center position between the first screening box and the second screening box.

By adopting the structural design, the vibration motor can be started to drive the first screening box and the second screening box to vibrate, so that the filter plate and the screening plate inside the first screening box and the second screening box can be driven to vibrate, and the separation of the filter plate and the grain on the screening plate is facilitated.

Preferably, the buffer plate is installed in the first screening box and the second screening box, and is of an inclined structural design, and is located below the feeding hole, and the inside of the feeding hole is of an inclined structural design.

Adopt above-mentioned structural design, be convenient for throw into first branch sieve case and second branch sieve incasement with the paddy from the feed inlet, and the paddy is difficult for blockking up in the feed inlet, and the buffer board plays the cushioning effect to the paddy that falls into simultaneously, reduces the whereabouts speed of paddy.

Preferably, an air inlet pipe is arranged on the right side of the blower, a connecting pipe is arranged below the air inlet pipe, and the left side and the right side of the connecting pipe are respectively connected to the interiors of the first screening box and the second screening box.

Adopt above-mentioned structural design, start the air-blower, the air-blower is through air-supply line and connecting pipe to first minute sieve case and the inside air inlet of second minute sieve case, then through the effect of heating wire, will first minute sieve case and the inside air inlet of second minute sieve case convert into hot-blast to the rough grain on the buffer board and air-dry, improve the rough air-dry efficiency of grain, prevent the rough adhesion of grain and be in the same place inconvenient separation, and then can improve the rough separation efficiency of grain.

Preferably, the supporting blocks are vertically arranged in the opposite sides of the first screening box and the second screening box, the electric heating wires are vertically arranged above the supporting blocks, and the electric heating wires are located above the buffer plates.

By adopting the structural design, the electric heating wire can convert wind generated in the blower into hot air, thereby facilitating the drying treatment of the paddy on the buffer plate.

Preferably, the fixed block is vertically installed at the inner bottoms of the first screening box and the second screening box, the movable block is installed above the fixed block through the rotary ball, the screening plate is installed above the movable block, the second limiting plates are vertically installed at the left side and the right side of the screening plate, and the through holes are formed in one side, close to the discharge hole, of the screening plate.

Adopt above-mentioned structural design, make minute sieve about rocking, the second limiting plate plays spacing effect to the rough grain on the minute sieve, prevents that the rough grain from dropping to first minute sieve case and second minute sieve incasement portion, divides the sieve to rock the angle less simultaneously, makes the rough grain can not drop through the through-hole when rocking.

Preferably, the central lines of the fixed block, the rotary ball and the movable block are mutually overlapped, and the central lines of the fixed block, the rotary ball and the movable block are mutually overlapped with the vertical central lines of the screening plates.

By adopting the structural design, the separation sieve plate can shake left and right along the rotary ball, and the separation efficiency of the grains above the separation sieve plate is improved.

Preferably, the rice collecting grooves are arranged on the reverse sides of the first screening box and the second screening box, the left sides of the rice collecting grooves are connected with the discharge holes, and the rice collecting grooves and the discharge holes are located below the screening plates.

By adopting the structural design, after the screening is finished, the screening plate is adjusted to be in an inclined state, then the screening plate is vibrated by the vibrating motor, rice on the surface of the screening plate sequentially passes through the through holes and falls into the rice collecting groove, and the rice falls into the discharge hole through the rice collecting groove, so that the rice is conveniently collected.

Preferably, the guide slide rail is located heating wire one side, and the top of guide slide rail installs the draw runner perpendicularly, and guide slide rail and draw runner constitute sliding structure moreover, and the wedge shaped plate is installed to the top of draw runner moreover, and the wedge shaped plate is installed in the top of heating wire one side in addition, installs the strengthening rib between wedge shaped plate and the draw runner moreover, and the draw runner is connected with electric telescopic handle's output.

Adopt above-mentioned structural design, start electric telescopic handle, electric telescopic handle drives the draw runner and moves about the direction slide rail, then drives the wedge board and moves about, then drives through the wedge strip of wedge board top and divide the sieve along rotatory ball luffing motion, can further improve the rough separation efficiency of millet on dividing the sieve simultaneously under the vibrations effect of dividing the sieve, the strengthening rib plays the fixed effect of support to the wedge board simultaneously, prevents that the wedge board from receiving the pressure emergence deformation of wedge strip.

Compared with the prior art, the invention has the beneficial effects that: this heavy rough separating mechanism of binary digits of machining efficiency height grain:

1. the novel grain separator is provided with a blower, a buffer plate and an electric heating wire, the blower is started, the blower is used for feeding air into the first screening box and the second screening box through an air inlet pipe and a connecting pipe, then the air fed into the first screening box and the second screening box is converted into hot air through the action of the electric heating wire to air-dry grain on the buffer plate, the buffer plate plays a role in buffering fallen grain, the falling speed of the grain is reduced, the air-drying efficiency of the grain is improved, the grain is prevented from being adhered together and inconvenient to separate, and the separation efficiency of the grain can be improved;

2. is provided with a through hole and a rice collecting groove, when the screening is finished, the screening plate is adjusted to be in an inclined state, and then under the action of vibration of a vibration motor, the rice on the surface of the screening plate sequentially falls into the rice collecting groove through the through holes and falls into the discharge hole through the rice collecting groove, so that the rice is conveniently collected;

3. the electric telescopic rod is started, the electric telescopic rod drives the sliding strip to move left and right along the guide sliding rail, then drives the wedge plate to move left and right, then drives the sub-sieve plate to swing up and down along the rotating ball through the wedge strip above the wedge plate, meanwhile, the separation efficiency of the grain on the sub-sieve plate can be further improved under the vibration action of the sub-sieve plate, and meanwhile, the reinforcing ribs play a role in supporting and fixing the wedge plate to prevent the wedge plate from being deformed by the pressure of the wedge strip;

4. the vibrating motor is arranged, and the vibrating motor can be started to drive the first screening box and the second screening box to vibrate, so that the filter plates and the screening plates in the first screening box and the second screening box can be driven to vibrate, and the separation of the rice on the filter plates and the screening plates is facilitated;

5. be provided with the visual window, be convenient for observe the separation condition of first minute sieve case and the inside cereal of second minute sieve case through the visual window.

Drawings

FIG. 1 is a schematic view of the main section structure of the present invention;

FIG. 2 is a schematic diagram of a front view structure of the present invention;

FIG. 3 shows a fixing block according to the present invention a schematic diagram of the connection structure of the rotating ball and the movable block;

FIG. 4 is an enlarged schematic view of the structure of FIG. 1A according to the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 1B according to the present invention;

fig. 6 is an enlarged view of the structure of fig. 1 at C according to the present invention.

In the figure: 1. a power control box; 2. a support substrate; 3. a vibration motor; 4. a first screening box; 5. a second screening box; 6. a feed inlet; 7. a blower; 8. an air inlet pipe; 9. a connecting pipe; 10. a buffer plate; 11. a support block; 12. heating wires; 13. a filter plate; 14. a first limiting plate; 15. a fixed block; 16. a spin ball; 17. a movable block; 18. dividing the sieve plate; 19. a second limiting plate; 20. a through hole; 21. a rice collecting groove; 22. a discharge port; 23. a guide rail; 24. a slide bar; 25. wedge plate; 26. a third limiting plate; 27. reinforcing ribs; 28. wedge-shaped strips; 29. an electric telescopic rod; 30. and a visual window.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a high-processing-efficiency separating mechanism of a double-body gravity grain and brown separator, which comprises an electricity control box 1, a support base 2, a vibration motor 3, a first screening box 4, a second screening box 5, a feed inlet 6, a blower 7, an air inlet pipe 8, a connecting pipe 9, a buffer plate 10, a support block 11, an electric heating wire 12, a filter plate 13, a first limiting plate 14, a fixed block 15, a rotating ball 16, a movable block 17, a screening plate 18, a second limiting plate 19, a through hole 20, a rice collecting groove 21, a discharge hole 22, a guide sliding rail 23, a sliding strip 24, a wedge plate 25, a third limiting plate 26, a reinforcing rib 27, a wedge strip 28, an electric telescopic rod 29 and a visual window 30, wherein the support base 2 is horizontally arranged above the electricity control box 1, the vibration motor 3 is vertically arranged below the support base 2, and the vibration motor 3 is positioned at the center position between the first screening box 4 and the second screening box 5, the start vibration motor 3 can drive first minute sieve case 4 and the vibrations of second minute sieve case 5 to can drive the inside filter 13 and minute sieve 18 vibrations of first minute sieve case 4 and second minute sieve case 5, be convenient for separate the rough grain on filter 13 and the minute sieve 18, and support the top left and right sides of basement 2 and install first minute sieve case 4 and second minute sieve case 5 respectively, the internally mounted of first minute sieve case 4 and second minute sieve case 5 has buffer board 10, and buffer board 10 is slope structural design, and buffer board 10 is located the below of feed inlet 6, and the inside of feed inlet 6 is slope structural design, be convenient for throw into first minute sieve case 4 and second minute sieve case 5 with the rough grain from feed inlet 6, and the rough grain is difficult to block up in feed inlet 6, buffer board 10 plays the cushioning effect to the rough grain that falls into simultaneously, the whereabouts speed of rough grain is reduced.

The feed inlet 6 is all installed to the reverse one side of first branch screen box 4 and second branch screen box 5, air-blower 7 is installed to the top of first branch screen box 4, air-supply line 8 is installed on the right side of air-blower 7, and connecting pipe 9 is installed to the below of air-supply line 8, and the left and right sides of connecting pipe 9 is connected respectively in the inside of first branch screen box 4 and second branch screen box 5, start air-blower 7, air-blower 7 is through air-supply line 8 and connecting pipe 9 to the inside air inlet of first branch screen box 4 and second branch screen box 5, then through the effect of heating wire 12, turn into the hot-blast grain that is rough to on the buffer board 10 with the inside air inlet of first branch screen box 4 and second branch screen box 5, improve the air-drying efficiency of grain rough, prevent that the inconvenient separation together of grain rough adhesion, and then can improve the separation efficiency of grain rough, the inside supporting shoe 11 of all is installed perpendicularly in the opposite side of first branch screen box 4 and second branch screen box 5, and 12 are installed perpendicularly to the top of supporting shoe 11, and 12 are located the top of buffer board 10, and 12 are arranged in the top of buffer board 10, thereby the heating wire can turn into the hot-blast wire 10 on the buffer board that can be convenient for the drying.

The filter plates 13 are arranged in the first screening box 4 and the second screening box 5, the first limiting plate 14 is arranged on one side of the filter plates 13 opposite to the feed inlet 6, the fixed block 15 is vertically arranged at the inner bottom of the first screening box 4 and the second screening box 5, the movable block 17 is arranged above the fixed block 15 through the rotary ball 16, the screening plate 18 is arranged above the movable block 17, the second limiting plates 19 are vertically arranged at the left side and the right side of the screening plate 18, the through holes 20 are arranged on one side of the screening plate 18 close to the discharge hole 22, when the screening plate 18 shakes left and right, the second limiting plate 19 limits the grain on the screening plate 18, so that the grain is prevented from falling into the first screening box 4 and the second screening box 5, the shaking angle of the screening plate 18 is smaller, the grain can not fall through the through holes 20 when shaking, the central lines of the fixed block 15, the rotary ball 16 and the movable block 17 are mutually overlapped, and the central lines of the fixed block 15, the rotary ball 16 and the movable block 17 are mutually overlapped at the vertical central line of the split screen plate 18, so that the split screen plate 18 can shake left and right along the rotary ball 16, the separation efficiency of the grain above the split screen plate 18 is improved, the rice collecting grooves 21 are respectively arranged on the reverse sides of the first split screen box 4 and the second split screen box 5, the left sides of the rice collecting grooves 21 are connected with the discharge holes 22, the rice collecting grooves 21 and the discharge holes 22 are positioned below the split screen plate 18, after the split screen is finished, the split screen plate 18 is adjusted to be in an inclined state, and then the rice on the surface of the split screen plate 18 falls into the rice collecting grooves 21 through the through holes 20 in sequence under the action of vibration of the vibration motor 3, and falls into the discharge holes 22 through the rice collecting grooves 21, so that the rice is conveniently collected.

The reverse sides of the first screening box 4 and the second screening box 5 are respectively provided with a discharge hole 22, the inner bottom surfaces of the first screening box 4 and the second screening box 5 are provided with a guide sliding rail 23, a wedge-shaped bar 28 is arranged below one side of the screening plate 18 away from the discharge hole 22, the inner wall of one side of the first screening box 4 and the second screening box 5 away from the discharge hole 22 is vertically provided with an electric telescopic bar 29, the guide sliding rail 23 is positioned on one side of the heating wire 12, a sliding bar 24 is vertically arranged above the guide sliding rail 23, the guide sliding rail 23 and the sliding bar 24 form a sliding structure, a wedge-shaped plate 25 is arranged above the sliding bar 24, a third limiting plate 26 is arranged above the wedge-shaped plate 25 and above one side of the heating wire 12, a reinforcing rib 27 is arranged between the wedge-shaped plate 25 and the sliding bar 24, the sliding bar 24 is connected with the output end of the electric telescopic bar 29, the electric telescopic bar 29 is started, the electric telescopic bar 29 drives the sliding bar 24 to move left and right along the guide sliding rail 23, the wedge-shaped bar 28 above the wedge-shaped bar 25 drives the upper ball 18 to swing along the sliding bar 16, and simultaneously the wedge-shaped plate 18 can be separated by the wedge-shaped plate 28 and the wedge-shaped plate 25, and the vibration-shaped plate 25 can be further deformed by the wedge-shaped plate 25, and the vibration-shaped plate can be further supported by the wedge-shaped plate 25 under the action of the rolling bar 18, and the vibration screen plate is further arranged on the side of the screen plate 18, and the second screening box is provided with a vibration plate 25, and the vibration plate is further and the vibration plate is opposite to the vibration plate 25.

Working principle: when the double-body gravity grain and brown separator separating mechanism with high processing efficiency is used, firstly, the vibration motor 3, the air blower 7 and the electric telescopic rod 29 are started, grain and brown are put into the buffer plate 10 in the first screening box 4 and the second screening box 5 through the feed inlet 6, the buffer plate 10 plays a buffering role on the fallen grain and brown, the falling speed of the grain and brown is reduced, then the air blower 7 feeds air into the first screening box 4 and the second screening box 5 through the air inlet pipe 8 and the connecting pipe 9, then the air fed into the first screening box 4 and the second screening box 5 is converted into hot air through the action of the electric heating wire 12 to air-dry the grain and brown on the buffer plate 10, the grain and brown falls into the filter plate 13 under the vibration action of the buffer plate 10, the rice falls into the screening plate 18 under the vibration and the filtering action of the filter plate 13, and the first separation of the grain and brown is completed.

The electric telescopic rod 29 drives the sliding strip 24 to move left and right along the guide sliding rail 23, then drives the wedge plate 25 to move left and right, then drives the separation sieve plate 18 to swing up and down along the rotary ball 16 through the wedge strip 28 above the wedge plate 25, meanwhile, the separation efficiency of the paddy on the separation sieve plate 18 can be further improved under the vibration action of the separation sieve plate 18, the husked husks remain on the separation sieve plate 18, the second separation of the paddy is completed, after the separation sieve is completed, the separation sieve plate 18 is regulated to be in an inclined state through the electric telescopic rod 29, then the rice on the surface of the separation sieve plate 18 falls into the rice collecting groove 21 through the through holes 20 in sequence under the vibration action of the vibration motor 3, and falls into the discharge hole 22 through the rice collecting groove 21, so that the rice is convenient to collect. Thereby completing a series of works. What is not described in detail in this specification is prior art known to those skilled in the art.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims

1. The utility model provides a heavy rough separating mechanism of double body weight grain that machining efficiency is high, includes accuse electricity case (1), first branch screening case (4), second branch screening case (5), filter (13) and discharge gate (22), its characterized in that: the utility model discloses a motor-assisted screen cabinet, including accuse electricity case (1), support base (2) are installed to the top level of accuse electricity case (1), and support the top left and right sides of base (2) and install first branch screen case (4) and second branch screen case (5) respectively, feed inlet (6) are all installed to the reverse side of first branch screen case (4) and second branch screen case (5), air-blower (7) are installed to the top of first branch screen case (4), filter board (13) are all installed to the inside of first branch screen case (4) and second branch screen case (5), and first limiting plate (14) are installed to the relative feed inlet (6) one side of filter board (13), discharge gate (22) are all installed to the reverse side of first branch screen case (4) and second branch screen case (5), and guide rail (23) are all installed to the interior bottom surface of first branch screen case (4) and second branch screen case (5), wedge (28) are installed to branch screen case (18) one side below of keeping away from discharge gate (22), but first branch screen case (4) and second branch screen case (5) are installed to the first screen case (4) and second screen case (5) are kept away from one side and are installed the face (30) and are just to the screen table (30).

2. A dual gravity paddy separator with high processing efficiency according to claim 1 wherein: the vibration motor (3) is vertically arranged below the support substrate (2), and the vibration motor (3) is positioned at the center position between the first screening box (4) and the second screening box (5).

3. A dual gravity paddy separator with high processing efficiency according to claim 1 wherein: the inside of first branch screen box (4) and second branch screen box (5) is installed buffer board (10), and buffer board (10) are slope structural design, and buffer board (10) are located the below of feed inlet (6) moreover to the inside of feed inlet (6) is slope structural design.

4. A dual gravity paddy separator with high processing efficiency according to claim 1 wherein: an air inlet pipe (8) is arranged on the right side of the air blower (7), a connecting pipe (9) is arranged below the air inlet pipe (8), and the left side and the right side of the connecting pipe (9) are respectively connected to the insides of the first screening box (4) and the second screening box (5).

5. A dual gravity paddy separator with high processing efficiency according to claim 1 wherein: the inside supporting shoe (11) that all installs perpendicularly of opposite one side of first branch screen box (4) and second branch screen box (5), and heating wire (12) are installed perpendicularly to the top of supporting shoe (11), and heating wire (12) are located the top of buffer board (10).

6. A dual gravity paddy separator with high processing efficiency according to claim 1 wherein: the first divides the interior bottom of sieve case (4) and second to divide sieve case (5) to install fixed block (15) perpendicularly, and the top of fixed block (15) is installed movable block (17) through swivel ball (16), divides sieve plate (18) to install in the top of movable block (17) moreover, divides the left and right sides of sieve plate (18) to install second limiting plate (19) perpendicularly moreover, divides sieve plate (18) to be close to discharge gate (22) one side and has seted up through-hole (20).

7. A dual gravity paddy separator with high processing efficiency according to claim 6 wherein: the central lines of the fixed block (15), the rotary ball (16) and the movable block (17) are mutually overlapped, and the central lines of the fixed block (15), the rotary ball (16) and the movable block (17) are mutually overlapped with the vertical central lines of the sub-sieve plates (18).

8. A dual gravity paddy separator with high processing efficiency according to claim 1 wherein: the rice collecting grooves (21) are formed in the reverse sides of the first screening box (4) and the second screening box (5), the left sides of the rice collecting grooves (21) are connected with the discharge holes (22), and the rice collecting grooves (21) and the discharge holes (22) are located below the screening plates (18).

9. A dual gravity paddy separator with high processing efficiency according to claim 1 wherein: the guide slide rail (23) is located one side of the heating wire (12), the slide bar (24) is vertically arranged above the guide slide rail (23), the guide slide rail (23) and the slide bar (24) form a sliding structure, the wedge plate (25) is arranged above the slide bar (24), the third limiting plate (26) is arranged above the wedge plate (25) which is close to one side of the heating wire (12), the reinforcing rib (27) is arranged between the wedge plate (25) and the slide bar (24), and the slide bar (24) is connected with the output end of the electric telescopic rod (29).