CN215099955U - Skew distance conveying structure for port conveyor - Google Patents

Abstract

The utility model discloses a port transport machine inclined distance transport structure relates to port transport machine technical field. Including oblique journey conveyer and install installation component and spacing subassembly on oblique journey conveyer, the installation component includes the leading wheel, the leading wheel runs through oblique journey conveyer's left side, the right side slidable mounting of leading wheel is on the left side of sliding plate, the upper and lower both ends slidable mounting of sliding plate is on oblique journey conveyer's inner wall, the right side fixed mounting of sliding plate has spring A, spring A's right side slidable mounting is on the left side of fixed plate, the upper and lower both ends of fixed plate are fixed on oblique journey conveyer's inner wall, the leading wheel is run through by the control lever and is connected with the control lever rotation. Can be when the belt is changed to needs through the installation component that sets up, can directly make the belt not be in the state of tautness with the leading wheel retraction inclined distance conveyer inside, make things convenient for the workman to demolish the belt that damages and change more.

Description

Skew distance conveying structure for port conveyor

Technical Field

The utility model relates to a port transport machine technical field specifically is a port transport machine inclined distance transport structure.

Background

The belt conveyor has the advantages of strong conveying capacity, long conveying distance, simple structure, easy maintenance and convenient implementation of programmed control and automatic operation. The continuous or intermittent motion of the conveyer belt is used to convey 100KG below article, powder or granular article, and the conveyer belt has high speed, smooth running, low noise and capacity of conveying up and down slope.

The inclined distance conveying structure for the existing smooth mouth conveyor has the advantages that when the belt is seriously abraded and needs to be replaced after long-time use, the two ends of the device need to be disassembled to install the belt, time and labor are very wasted, and the efficiency is extremely low.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a port transport is with oblique journey transport structure has solved the problem of proposing in the above-mentioned background art.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a port transport machine is with oblique journey transport structure, includes oblique journey conveyer and installs installation component and spacing subassembly on oblique journey conveyer, the installation component includes the leading wheel, the leading wheel runs through the left side of oblique journey conveyer, the right side slidable mounting of leading wheel is on the left side of sliding plate, the upper and lower both ends slidable mounting of sliding plate is on oblique journey conveyer's inner wall, the right side fixed mounting of sliding plate has spring A, spring A's right side slidable mounting is on the left side of fixed plate, the upper and lower both ends of fixed plate are fixed on oblique journey conveyer's inner wall, the leading wheel is run through and is connected with the control lever rotation by the control lever, the control lever runs through oblique journey conveyer.

Preferably, the limiting assembly comprises a bidirectional telescopic rod, the top of the bidirectional telescopic rod is hinged to the inner wall of the inclined conveyor, the middle of the bidirectional telescopic rod is hinged to the inner wall of the inclined conveyor, the bottom of the bidirectional telescopic rod is hinged to the top of the guide wheel, a U-shaped block is fixed to the left side of the bidirectional telescopic rod, the top of the inner side of the U-shaped block is hinged to the top of the clamping plate, and a limiting block is fixed to the top of the inner side of the U-shaped block.

Preferably, spacing subassembly is still including the stock, the left side of stock is fixed on the inner wall of oblique journey conveyer, the top of stock is run through by the ejector pin, the bottom fixed mounting of ejector pin has spring B, spring B's bottom is fixed on the diaphragm, the diaphragm is fixed on the inner wall of stock.

Preferably, a volute spiral spring is arranged at a position where the control rod is connected with the guide wheel, one end of the volute spiral spring is fixed on the control rod, and one end of the volute spiral spring, which is far away from the control rod, is fixed on the guide wheel.

Preferably, a pull rope is wound on the control rod, one end of the pull rope is fixed on the control rod, and one end of the pull rope, which is far away from the control rod, is fixed at the bottom of the ejector rod through a wire guide wheel.

Preferably, a chute for the control rod to move is formed in the inclined conveyor.

(III) advantageous effects

The utility model provides a port transport machine inclined distance transport structure. The method has the following beneficial effects:

(1) this port transport machine is with oblique journey transport structure can be when the belt is changed to needs through the installation component that sets up, can be directly with inside the leading wheel retraction oblique journey conveyer, make the belt not be in the state of tautness, make things convenient for the workman to demolish the belt that damages and change more.

(2) This port transport machine is with oblique journey transport structure can guarantee through the spacing subassembly that sets up at oblique journey conveyer at the during operation, can not lead to the leading wheel to remove because of the rotation of belt, and then guaranteed normal operating time, can make the belt be in normal operating condition, can not take place not hard up phenomenon.

Drawings

FIG. 1 is a schematic structural view of the entire device of the present invention;

FIG. 2 is a schematic view of the partial cross-section front view structure of the present invention;

FIG. 3 is an enlarged schematic view of the structure of the present invention A;

FIG. 4 is an enlarged schematic view of the structure of the present invention B;

FIG. 5 is an enlarged schematic view of the structure of the present invention;

fig. 6 is a schematic structural diagram of the connection of the control rod, the spiral spring and the guide wheel of the present invention.

In the figure: 1. a skew conveyor; 2. mounting the component; 21. a guide wheel; 22. a sliding plate; 23. a spring A; 24. a fixing plate; 25. a control lever; 3. a limiting component; 31. a bidirectional telescopic rod; 32. a U-shaped block; 33. clamping a plate; 34. a limiting block; 35. a long rod; 36. a top rod; 37. a spring B; 38. a transverse plate; 4. a spiral spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: an inclined stroke conveying structure for a port conveyor comprises an inclined stroke conveyor 1, and a mounting assembly 2 and a limiting assembly 3 which are mounted on the inclined stroke conveyor 1, wherein a chute for a control rod 25 to move is formed in the inclined stroke conveyor 1, the control rod 25 can move left and right on the inclined stroke conveyor 1, the mounting assembly 2 comprises a guide wheel 21, the guide wheel 21 penetrates through the left side of the inclined stroke conveyor 1, the right side of the guide wheel 21 is slidably mounted on the left side of a sliding plate 22, the upper end and the lower end of the sliding plate 22 are slidably mounted on the inner wall of the inclined stroke conveyor 1, a spring A23 is fixedly mounted on the right side of the sliding plate 22, the right side of a spring A23 is slidably mounted on the left side of a fixing plate 24, the guide wheel 21 can normally move right in the inclined stroke conveyor 1, the upper end and the lower end of the fixing plate 24 are fixed on the inner wall of the inclined stroke conveyor 1, the guide wheel 21 is penetrated by the control rod 25 and is rotatably connected with the control rod 25, control lever 25 runs through inclined conveyor 1, spacing subassembly 3 includes two-way telescopic rod 31, two-way telescopic rod 31's top articulates on inclined conveyor 1's inner wall, two-way telescopic rod 31's middle part is articulated with inclined conveyor 1's inner wall, two-way telescopic rod 31's bottom is articulated with leading wheel 21's top, two-way telescopic rod 31's left side is fixed with U type piece 32, U type piece 32's inboard top is articulated with cardboard 33's top, U type piece 32's inboard top is fixed with stopper 34, stopper 34 is closely laminated with cardboard 33's left side under the normal state all the time, and then make cardboard 33 can only rotate right with U type piece 32 articulated position.

In this embodiment, the inner wall of the inclined conveyor 1 is fixed to the left side of the long rod 35, the top of the long rod 35 is penetrated by the push rod 36, the bottom of the push rod 36 is fixedly provided with a spring B37, the bottom of the spring B37 is fixed to the transverse plate 38, the transverse plate 38 is fixed to the inner wall of the long rod 35, the scroll spring 4 is arranged at the position where the control rod 25 is connected to the guide wheel 21, one end of the scroll spring 4 is fixed to the control rod 25, one end of the scroll spring 4 far away from the control rod 25 is fixed to the guide wheel 21, when the pull rope is pulled by rotating the control rod 25, the scroll spring 4 is in a rolling state, after the control rod 25 is loosened, the control rod 25 is reversed under the action of the scroll spring 4 and loosens the pull rope, the pull rope is wound on the control rod 25, one end of the pull rope is fixed to the control rod 25, the end of the pull rope far away from the control rod 25 is fixed to the bottom of the push rod 36 through the guide wheel, the control rod 25 can pull the push rod 36 downwards through the pull rope, so that it no longer catches the card 33.

During the during operation (or during the use), damage when needing to be changed after the belt live time overlength, through rotating control lever 25, control lever 25 tightens up the stay cord, and control lever 25 pulls ejector pin 36 downwards through the pulling stay cord, and ejector pin 36 no longer blocks cardboard 33, and under spring A23's effect, sliding plate 22 takes leading wheel 21 to move rightwards, makes the belt no longer be in the tight state, and then can make the staff easily take off the belt that damages and change new belt.

After a new belt is replaced, the control rod 25 is pulled, the control rod 25 drives the guide wheel 21 to move leftwards, the control rod 25 releases the pull rope under the action of the spiral spring 4, the pull rope is in a tensioned state when the control rod 25 is driven by the guide wheel 21 to move rightwards, the ejector rod 36 is in a downward pulled state, after the control rod 25 drives the guide wheel 21 to move leftwards, the pull rope is released, the ejector rod 36 moves upwards and resets again under the action of the spring B37, the clamping plate 33 is pushed by the ejector rod 36 and rotates rightwards around the position hinged with the U-shaped block 32, the ejector rod 36 is inserted into the inner side of the U-shaped block 32 again, and the clamping plate 33 rotates downwards under the action of gravity, so that the clamping plate is clamped by the ejector rod 36 again, and resetting is achieved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a port transport machinery is with oblique journey transport structure, includes oblique journey conveyer (1) and installs installation component (2) and spacing subassembly (3) on oblique journey conveyer (1), its characterized in that: the installation component (2) comprises a guide wheel (21), the guide wheel (21) penetrates through the left side of the inclined conveyor (1), the right side of the guide wheel (21) is slidably installed on the left side of a sliding plate (22), the upper end and the lower end of the sliding plate (22) are slidably installed on the inner wall of the inclined conveyor (1), a spring A (23) is fixedly installed on the right side of the sliding plate (22), the right side of the spring A (23) is slidably installed on the left side of a fixing plate (24), the upper end and the lower end of the fixing plate (24) are fixed on the inner wall of the inclined conveyor (1), the guide wheel (21) is penetrated through by a control rod (25) and is rotatably connected with the control rod (25), and the control rod (25) penetrates through the inclined conveyor (1).

2. The skew-travel conveying structure for the port conveyor according to claim 1, wherein: spacing subassembly (3) include two-way telescopic link (31), the top of two-way telescopic link (31) articulates on the inner wall of inclined journey conveyer (1), the middle part of two-way telescopic link (31) is articulated with the inner wall of inclined journey conveyer (1), the bottom of two-way telescopic link (31) is articulated with the top of leading wheel (21), the left side of two-way telescopic link (31) is fixed with U type piece (32), the inboard top of U type piece (32) is articulated with the top of cardboard (33), the inboard top of U type piece (32) is fixed with spacing piece (34).

3. The skew-travel conveying structure for the port conveyor according to claim 1, wherein: spacing subassembly (3) are still including stock (35), the left side of stock (35) is fixed on the inner wall of oblique journey conveyer (1), the top of stock (35) is run through by ejector pin (36), the bottom fixed mounting of ejector pin (36) has spring B (37), the bottom of spring B (37) is fixed on diaphragm (38), diaphragm (38) are fixed on the inner wall of stock (35).

4. The skew-travel conveying structure for the port conveyor according to claim 1, wherein: the position that control lever (25) and leading wheel (21) are connected is provided with spiral spring (4), the one end of spiral spring (4) is fixed on control lever (25), spiral spring (4) are fixed on leading wheel (21) keeping away from the one end of control lever (25).

5. The skew-travel conveying structure for the port conveyor according to claim 1, wherein: a pull rope is wound on the control rod (25), one end of the pull rope is fixed on the control rod (25), and one end of the pull rope, which is far away from the control rod (25), is fixed at the bottom of the ejector rod (36) through a wire guide wheel.

6. The skew-travel conveying structure for the port conveyor according to claim 1, wherein: the inclined conveyor (1) is provided with a chute for the control rod (25) to move.

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