CN111113992A - Quantitative compression device for ironwork in refuse dump - Google Patents

Abstract

This device a disposal site ironwork ration compressor arrangement, include the casing and be located feed arrangement in the casing, feed arrangement includes the ascending feeding chamber of left side opening, the rear side in feeding chamber is equipped with the conversion chamber, feed arrangement's right side is equipped with power device, power device is including being located the power chamber on feeding chamber right side, the downside in power chamber is equipped with compression power chamber, the rear end wall in power chamber has set firmly the motor, the front and back end wall of motor is equipped with and is located the tensile spring groove on motor right side, this device can automatic control get into the definite of ironwork quality at every turn, has made things convenient for the loaded down with trivial details of manual process volume, and automatic compressing discharge to rubbish simultaneously has saved artifical packing's flow, conveniently retrieves and shipment and transportation, very big saving the manual work, has improved work efficiency.

Description

Quantitative compression device for ironwork in refuse dump

Technical Field

The invention relates to the technical field of solid garbage treatment, in particular to a quantitative compression device for ironwork in a garbage yard.

Background

Ironwork that uses in the life is more and more, like some iron cans and iron sheet class, the shape is different, and ironwork belongs to perishable renewable energy moreover, and is loaded down with trivial details at the in-process of storage and transportation, causes the recovery to ironwork to increase the degree of difficulty, causes the utilization ratio decline of reutilization, and simultaneously, weighing of some disposal field ironwork can not the ration be sold, and is extremely inconvenient.

Disclosure of Invention

Aiming at the technical defects, the invention provides a quantitative compression device for ironwork in a refuse dump, which can overcome the defects.

The invention relates to a quantitative compression device for ironwork in a refuse dump, which comprises a shell and a feeding device positioned in the shell, wherein the feeding device comprises a feeding cavity with an upward opening on the left side, a conversion cavity is arranged on the rear side of the feeding cavity, a power device is arranged on the right side of the feeding device, the power device comprises a power cavity positioned on the right side of the feeding cavity, a compression power cavity is arranged on the lower side of the power cavity, a motor is fixedly arranged on the rear end wall of the power cavity, a tension spring groove positioned on the right side of the motor is arranged on the front and rear end walls of the motor, a sliding plate groove positioned on the front side of the motor is arranged on the left side of the tension spring groove on the front side, a compression device is arranged on the lower side of the power device, the compression device comprises a pressing cavity, a sliding groove is arranged on the lower end wall of the pressing cavity, a top pressing plate groove is arranged on the left, the right end wall of the pressing cavity is provided with a discharge hole which is in the same horizontal plane with the pushing plate groove, the lower end wall of the discharge hole is provided with a discharge opening communicated with the lower end surface of the shell, the upper end wall of the discharge hole is provided with a door opening groove, the door opening groove is internally and slidably connected with a baffle plate which extends downwards to the lower end wall of the discharge hole, the right end wall of the pressing cavity is provided with a moving block groove positioned on the upper side of the discharge hole, a moving block is slidably connected between the upper end wall and the lower end wall of the moving block groove, the left end surface of the moving block is provided with a moving wedge groove communicated with the pressing cavity, a rotating shaft is rotatably connected between the front end wall and the rear end wall of the moving wedge groove, a fixed rod is fixedly arranged on the rotating shaft, the left end surface of the fixed rod is fixedly connected with a moving wedge which extends leftwards to the inside of, a moving block spring is fixedly connected between the right end face of the moving block and the right end wall of the moving block groove, and the lower end wall of the feeding cavity is communicated with the position, close to the right side, of the left end wall of the pressing cavity through a connecting channel.

Preferably, the conversion cavity and the feeding cavity are connected with two first rotating shafts arranged left and right in a rotating mode, the first rotating shafts are fixedly connected with rollers located in the feeding cavity, the two rollers are connected through belts, the tail end of the rear side of the first rotating shaft on the left side is fixedly connected with a first gear located in the conversion cavity, the tail end of the rear side of the first rotating shaft on the right side is fixedly connected with a second gear located in the conversion cavity, a second rotating shaft extending left and right is rotatably connected between the conversion cavity and the power cavity, and the second rotating shaft is fixedly connected with a first bevel gear meshed with the second gear and a third gear meshed with the first gear.

Preferably, a power shaft is dynamically connected to the front end of the motor, a sliding plate is slidably connected to the left and right end walls of the sliding plate groove, a sliding plate spring is fixedly connected between the lower end surface of the sliding plate and the lower end wall of the sliding plate groove, one end of a tensioning rope is fixedly connected to the lower end surface of the sliding plate, a third rotating shaft which extends forwards and is in splined connection with the power shaft is rotatably connected to the sliding plate, a double-sided bevel gear is fixedly connected to the third rotating shaft, a fourth gear which is in meshed connection with the double-sided bevel gear is fixedly connected to the right end surface of the second rotating shaft, a fourth rotating shaft which is located on the right side of the power shaft is rotatably connected between the front end wall and the rear end wall of the power chamber, a fifth gear, a second bevel gear and a third bevel gear which is located between the fifth gear and the, extension spring inslot sliding connection has the sliding block, the left end face of sliding block with fixedly connected with extension spring, downside between the left end wall in extension spring groove the right-hand member face fixedly connected with of sliding block compress the other end of rope, two it is located to rotate to be connected with between the sliding block the fifth axis of rotation on fourth axis of rotation right side, fixedly connected with sixth gear in the fifth axis of rotation.

Preferably, the upper end surface of the lower sliding block is provided with a sliding block groove positioned on the right side of the fifth rotating shaft, the left and right section walls of the sliding block groove are connected with a reversing sliding plate in a sliding manner, a reversing spring is fixedly connected between the lower end wall of the sliding block groove and the lower end surface of the reversing sliding plate, the lower end surface of the reversing sliding plate is fixedly connected with the other end of the reversing rope, the reversing sliding plate is rotatably connected with a sixth rotating shaft extending into the power cavity, the right end of the sixth rotating shaft is fixedly connected with a seventh gear engaged with the sixth gear, the sixth rotating shaft is fixedly connected with an eighth gear positioned on the front side of the seventh gear and a rear rope winding wheel positioned on the front side of the eighth gear, the front side of the rear rope winding wheel is provided with a front rope winding wheel fixedly connected with the sixth rotating shaft, and the rear rope winding wheel is fixedly connected with one end of the door opening rope, one end of a pushing rope is fixedly connected to the front rope winding wheel, a seventh rotating shaft which is rotatably connected with the reversing sliding plate is arranged between the sixth rotating shaft and the fifth rotating shaft, and a ninth gear meshed with the eighth gear is fixedly arranged on the seventh rotating shaft.

Preferably, the power chamber with rotate between the compression power chamber and be connected with the eighth axis of rotation that extends from top to bottom, eighth axis of rotation go up fixedly connected with the fourth bevel gear that second bevel gear meshing is connected, eighth axis of rotation fixedly connected with is located the trough of belt cylinder in the compression power chamber, the left side of trough of belt cylinder is equipped with downwardly extending to press the material intracavity and with casing sliding connection's lifter, the right-hand member face fixedly connected with of lifter with trough of belt cylinder sliding connection's fixed pin.

Preferably, a material pushing plate is arranged in the material pushing plate groove in a sliding connection manner, a material pushing spring is fixedly connected between the left end face of the material pushing plate and the left end wall of the material pushing plate groove, the left end face of the material pushing plate is fixedly connected with the other end of the material pushing rope, an upward extending moving rod is connected in the sliding groove in a sliding manner, a material carrying plate is fixedly connected at the top end of the moving rod in a sliding manner and is in sliding connection with the left end wall and the right end wall of the material pressing cavity, a material carrying plate spring is fixedly connected between the lower end face of the material carrying plate and the lower end wall of the material pressing cavity, an electromagnetic spring groove is arranged on the left end face of the moving rod, an electromagnetic block is connected in the electromagnetic spring groove in a sliding manner, an electromagnetic spring is fixedly connected between the right end face of the electromagnetic block and the right end wall of the electromagnetic spring groove, a top pressing plate is connected in the top pressing, the left end face of the top pressure plate is fixedly connected with the other end of the tensioning rope.

The beneficial effects are that: this device can automatic control get into certain of ironwork quality at every turn, has made things convenient for the loaded down with trivial details of manual work journey volume, and the flow of having saved artifical packing is simultaneously compressed the discharge to rubbish voluntarily, conveniently retrieves and shipment and transportation, and very big saving is artifical, has improved work efficiency.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of a quantitative compressing device for ironwork in a refuse dump according to the present invention;

FIG. 2 is a schematic view of the structure at A-A in FIG. 1;

FIG. 3 is an enlarged view of the structure at B in FIG. 1;

FIG. 4 is an enlarged view of the structure at C in FIG. 1;

FIG. 5 is an enlarged view of the structure at D in FIG. 1;

fig. 6 is an enlarged view of the structure at E in fig. 2.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention discloses a quantitative compression device for ironwork in a refuse dump, which comprises a shell 10 and a feeding device 901 positioned in the shell 10, wherein the feeding device 901 comprises a feeding cavity 14 with an upward opening at the left side, a conversion cavity 89 is arranged at the rear side of the feeding cavity 14, a power device 902 is arranged at the right side of the feeding device 901, the power device 902 comprises a power cavity 17 positioned at the right side of the feeding cavity 14, a compression power cavity 26 is arranged at the lower side of the power cavity 17, a motor 60 is fixedly arranged at the rear end wall of the power cavity 17, a tension spring groove 51 positioned at the right side of the motor 60 is arranged at the front end wall and the rear end wall of the motor 60, a sliding plate groove 49 positioned at the front side of the motor 60 is arranged at the left side of the tension spring groove 51 at the front side, a compression device 903 is arranged at the lower side of the power device 902, the compression device 903 comprises a material pressing cavity 38, and a, a top pressure plate groove 80 is formed in the left end wall of the sliding groove 77, a pushing plate groove 35 is formed in the left end wall of the pressing cavity 38, a discharge hole 32 which is in the same horizontal plane with the pushing plate groove 35 is formed in the right end wall of the pressing cavity 38, a discharge opening 34 communicated with the lower end face of the shell 10 is formed in the lower end wall of the discharge hole 32, a door opening groove 30 is formed in the upper end wall of the discharge hole 32, a material blocking plate 33 which extends downwards to the lower end wall of the discharge hole 32 is arranged in the door opening groove 30 in a sliding connection mode, a moving block groove 69 which is located on the upper side of the discharge hole 32 is formed in the right end wall of the pressing cavity 38, a moving block 63 is connected between the upper end wall and the lower end wall of the moving block groove 69 in a sliding mode, a moving wedge-shaped block groove 67 which is communicated with the pressing cavity 38 is formed in the left end face of the moving block 63, the left end face of the fixed rod 65 is fixedly connected with a movable wedge block 64 which extends leftwards into the material pressing cavity 38, the right end face of the movable block 63 is fixedly connected with a reversing rope 54 and a compression rope 55 which is positioned on the lower side of the reversing rope 54, a movable block spring 68 is fixedly connected between the right end face of the movable block 63 and the right end wall of the movable block groove 69, and the lower end wall of the material feeding cavity 14 is communicated with the position, close to the right side, of the left end wall of the material pressing cavity 38 through a connecting channel 39.

Advantageously, two first rotating shafts 11 arranged left and right are rotatably connected between the switching chamber 89 and the feeding chamber 14, rollers 12 located in the feeding chamber 14 are fixedly connected to the first rotating shafts 11, the two rollers 12 are connected through belts 13, a first gear 44 located in the switching chamber 89 is fixedly connected to a rear end of the first rotating shaft 11 on the left side, a second gear 45 located in the switching chamber 89 is fixedly connected to a rear end of the first rotating shaft 11 on the right side, a second rotating shaft 40 extending left and right is rotatably connected between the switching chamber 89 and the power chamber 17, and a first bevel gear 56 engaged with the second gear 45 and a third gear 43 engaged with the first gear 44 are fixedly connected to the second rotating shaft 40.

Advantageously, a power shaft 59 is power-connected to the front end of the motor 60, a sliding plate 46 is slidably connected to the left and right end walls of the sliding plate groove 49, a sliding plate spring 47 is fixedly connected between the lower end surface of the sliding plate 46 and the lower end wall of the sliding plate groove 49, one end of the tension rope 15 is fixedly connected to the lower end surface of the sliding plate 46, a third rotating shaft 16 extending forward and splined to the power shaft 59 is rotatably connected to the sliding plate 46, a double-sided bevel gear 58 is fixedly connected to the third rotating shaft 16, a fourth gear 57 engaged with the double-sided bevel gear 58 is fixedly connected to the right end of the second rotating shaft 40, a fourth rotating shaft 61 located on the right side of the power shaft 59 is rotatably connected between the front and rear end walls of the power chamber 17, and a fifth gear 86, 86 and a fourth rotating shaft 61 are fixedly connected to, A second bevel gear 84 and a third bevel gear 83 located between the fifth gear 86 and the second bevel gear 84, a sliding block 52 is slidably connected in the extension spring groove 51, an extension spring 50 is fixedly connected between the left end surface of the sliding block 52 and the left end wall of the extension spring groove 51, the other end of the compression rope 55 is fixedly connected to the right end surface of the sliding block 52 on the lower side, a fifth rotating shaft 18 located on the right side of the fourth rotating shaft 61 is rotatably connected between the two sliding blocks 52, and a sixth gear 20 is fixedly connected to the fifth rotating shaft 18.

Advantageously, the upper end surface of the lower slide block 52 is provided with a slide block groove 53 located at the right side of the fifth rotating shaft 18, the left and right section walls of the slide block groove 53 are slidably connected with a reversing slide plate 70, a reversing spring 48 is fixedly connected between the lower end wall of the slide block groove 53 and the lower end surface of the reversing slide plate 70, the lower end surface of the reversing slide plate 70 is fixedly connected with the other end of the reversing rope 54, the reversing slide plate 70 is rotatably connected with a sixth rotating shaft 22 extending into the power chamber 17, the right end of the sixth rotating shaft 22 is fixedly connected with a seventh gear 24 engaged with the sixth gear 20, the sixth rotating shaft 22 is fixedly connected with an eighth gear 23 located at the front side of the seventh gear 24 and a rear rope winding wheel 19 located at the front side of the eighth gear 23, the front side of the rear rope winding wheel 19 is provided with a front rope winding wheel 62 fixedly connected with the sixth rotating shaft 22, one end of the door opening rope 31 is fixedly connected to the rear rope winding wheel 19, one end of the pushing rope 37 is fixedly connected to the front rope winding wheel 62, a seventh rotating shaft 21 rotatably connected with the reversing sliding plate 70 is arranged between the sixth rotating shaft 22 and the fifth rotating shaft 18, and a ninth gear 25 meshed with the eighth gear 23 is fixedly arranged on the seventh rotating shaft 21.

Advantageously, an eighth rotating shaft 29 extending up and down is rotatably connected between the power chamber 17 and the compression power chamber 26, a fourth bevel gear 85 engaged with the second bevel gear 84 is fixedly connected to the eighth rotating shaft 29, a grooved roller 27 located in the compression power chamber 26 is fixedly connected to the eighth rotating shaft 29, a lifting rod 28 extending down into the pressing material chamber 38 and slidably connected to the housing 10 is provided on the left side of the grooved roller 27, and a fixing pin 41 slidably connected to the grooved roller 27 is fixedly connected to the right end face of the lifting rod 28.

Beneficially, a material pushing plate 82 is slidably connected in the material pushing plate groove 35, a material pushing spring 36 is fixedly connected between a left end surface of the material pushing plate 82 and a left end wall of the material pushing plate groove 35, the other end of the material pushing rope 37 is fixedly connected to a left end surface of the material pushing plate 82, an upward extending moving rod 72 is slidably connected in the sliding groove 77, a material carrying plate 71 slidably connected to a left end wall and a right end wall of the material pressing cavity 38 is fixedly connected to a top end of the moving rod 72, a material carrying plate spring 73 is fixedly connected between a lower end surface of the material carrying plate 71 and a lower end wall of the material pressing cavity 38, an electromagnetic spring groove 75 is formed in the left end surface of the moving rod 72, an electromagnetic block 76 is slidably connected in the electromagnetic spring groove 75, an electromagnetic spring 74 is fixedly connected between a right end surface of the electromagnetic block 76 and a right end wall of the electromagnetic spring groove 75, and a top pressure plate 78 is, a top pressure plate spring 79 is fixedly connected between the left end surface of the top pressure plate 78 and the left end wall of the top pressure plate groove 80, and the other end of the tensioning rope 15 is fixedly connected to the left end surface of the top pressure plate 78.

In the initial state, the loading plate 71 is at the upper limit position, the electromagnetic spring 74 and the sliding plate spring 47 are in the compressed state, the jacking plate spring 79 is in the compressed state, the double-sided bevel gear 58 is engaged with the fourth gear 57, the sliding block 52 is at the right limit position, the fifth gear 86 is disengaged from the sixth gear 20, and the extension spring 50 is in the extended state;

when the double-sided bevel gear transmission device starts to work, materials enter from the feeding cavity 14, the motor 60 is started, the power shaft 59 starts to rotate, the two first rotating shafts 11 are driven to rotate simultaneously through the double-sided bevel gear 58, the fourth gear 57, the second rotating shaft 40, the second gear 45 and the first gear 44, the belt 13 is driven to move rightwards, the materials enter the loading plate 71 in the pressing cavity 38 through the connecting channel 39 to compress the loading plate spring 73, the loading plate 71 drives the moving rod 72 to move downwards, when the moving rod 72 moves to a lower limit position, the electromagnetic block 76 and the jacking plate 78 are positioned on the same horizontal plane, under the action of the electromagnetic spring 74, the electromagnetic block 76 jacks the jacking plate 78 to compress the jacking plate spring 79 and release the tensioning rope 15, under the action of the sliding plate spring 47, the sliding plate 46 drives the third rotating shaft 16 to move backwards to disengage the double-sided bevel gear 58 and the fourth gear 57, the double-sided bevel gear 58 is meshed with the third bevel gear 83, and the material stops entering.

The double-sided bevel gear 58 continues to rotate, the fixing pin 41 is driven to move up and down through the rotation of the fifth gear 86, the fourth rotating shaft 61, the second bevel gear 84, the fourth bevel gear 85, the eighth rotating shaft 29 and the grooved roller 27, and when the fixing pin 41 drives the lifting rod 28 to move down, the pressing plate 42 compresses the material on the carrying plate 71.

When the fixing pin 41 drives the lifting rod 28 to move upwards, the right surface of the pressing plate 42 compresses the movable wedge block 64, the compression rope 55 is loosened, the sliding block 52 drives the fifth rotating shaft 18 to move leftwards under the action of the extension spring 50, the sixth gear 20 is meshed with the fifth gear 86, the rear rope winding wheel 19 and the front rope winding wheel 62 are driven to rotate through the seventh gear 24 and the sixth rotating shaft 22, the door opening rope 31 is tensioned while the pushing rope 37 is loosened, the pushing plate 82 leaves the pushing plate groove 35 under the action of the pushing spring 36 to compress the material, the material blocking plate 33 slides upwards at the same time, the material outlet 32 is communicated with the material pressing cavity 38, and the compressed material is pushed out.

The pressing plate 42 continues to move upwards, the reversing rope 54 is loosened, the reversing sliding plate 70 drives the seventh rotating shaft 21 to move upwards under the action of the reversing spring 48, so that the ninth gear 25 is meshed with the sixth gear 20, the eighth gear 23 drives the sixth rotating shaft 22 to rotate reversely, the material pushing plate 82 and the material blocking plate 33 are reset, meanwhile, the electromagnetic spring 74 is started to generate pulling force on the electromagnetic block 76, the electromagnetic block 76 is reset, and the object carrying plate 71 is reset.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (6)

1. The utility model provides a disposal field ironwork ration compressor arrangement, includes the casing and is located feed arrangement in the casing, its characterized in that: the feeding device comprises a feeding cavity with an upward opening on the left side, a conversion cavity is arranged on the rear side of the feeding cavity, a power device is arranged on the right side of the feeding device and comprises a power cavity positioned on the right side of the feeding cavity, a compression power cavity is arranged on the lower side of the power cavity, a motor is fixedly arranged on the rear end wall of the power cavity, tension spring grooves positioned on the right side of the motor are formed in the front end wall and the rear end wall of the motor, a sliding plate groove positioned on the front side of the motor is formed in the left side of the tension spring groove on the front side, a compression device is arranged on the lower side of the power device and comprises a pressing cavity, a sliding groove is formed in the lower end wall of the pressing cavity, a top pressing plate groove is formed in the left end wall of the sliding groove, a material pushing plate groove is formed in the left end wall of the pressing cavity, and a discharge hole on, the lower end wall of the discharge port is provided with a discharge port communicated with the lower end surface of the shell, the upper end wall of the discharge port is provided with a door opening groove, the door opening groove is internally provided with a baffle plate which extends downwards to the lower end wall of the discharge port in a sliding connection manner, the right end wall of the material pressing cavity is provided with a moving block groove positioned on the upper side of the discharge port, a moving block is connected between the upper end wall and the lower end wall of the moving block groove in a sliding manner, the left end surface of the moving block is provided with a moving wedge groove communicated with the material pressing cavity, a rotating shaft is rotatably connected between the front end wall and the rear end wall of the moving wedge groove, a fixed rod is fixedly arranged on the rotating shaft, the left end surface of the fixed rod is fixedly connected with a moving wedge which extends leftwards into the material pressing cavity, the right end surface of the moving block is fixedly connected with a reversing rope and a compression, the lower end wall of the feeding cavity is close to the right side position and the left end wall of the pressing cavity is close to the upper side position, and the feeding cavity and the pressing cavity are communicated through a connecting channel.

2. The quantitative compression device for ironwork in a refuse dump according to claim 1, wherein: the feeding device is characterized in that two first rotating shafts arranged on the left and right are rotatably connected between the conversion cavity and the feeding cavity, the first rotating shafts are fixedly connected with rollers located in the feeding cavity, the rollers are connected through belts, the tail end of the rear side of each first rotating shaft is fixedly connected with a first gear located in the conversion cavity, the tail end of the rear side of each first rotating shaft on the right is fixedly connected with a second gear located in the conversion cavity, a second rotating shaft extending left and right is rotatably connected between the conversion cavity and the power cavity, and the second rotating shaft is fixedly connected with a first bevel gear meshed with the second gear and a third gear meshed with the first gear.

3. The quantitative compression device for ironwork in a refuse dump according to claim 1, wherein: the end of the front side of the motor is in power connection with a power shaft, the left end wall and the right end wall of the sliding plate groove are in sliding connection with a sliding plate, a sliding plate spring is fixedly connected between the lower end surface of the sliding plate and the lower end wall of the sliding plate groove, the lower end surface of the sliding plate is fixedly connected with one end of a tensioning rope, the sliding plate is rotatably connected with a third rotating shaft which extends forwards and is in spline connection with the power shaft, a double-sided bevel gear is fixedly connected onto the third rotating shaft, a fourth gear which is in meshing connection with the double-sided bevel gear is fixedly connected onto the right end of the second rotating shaft, a fourth rotating shaft which is positioned on the right side of the power shaft is rotatably connected between the front end wall and the rear end wall of the power cavity, and a fifth gear, a second bevel gear and a third bevel gear, extension spring inslot sliding connection has the sliding block, the left end face of sliding block with fixedly connected with extension spring, downside between the left end wall in extension spring groove the right-hand member face fixedly connected with of sliding block compress the other end of rope, two it is located to rotate to be connected with between the sliding block the fifth axis of rotation on fourth axis of rotation right side, fixedly connected with sixth gear in the fifth axis of rotation.

4. The quantitative compression device for ironwork in a refuse dump according to claim 1, wherein: the upper end surface of the sliding block at the lower side is provided with a sliding block groove positioned at the right side of the fifth rotating shaft, the left and right section walls of the sliding block groove are connected with a reversing sliding plate in a sliding manner, a reversing spring is fixedly connected between the lower end wall of the sliding block groove and the lower end surface of the reversing sliding plate, the lower end surface of the reversing sliding plate is fixedly connected with the other end of the reversing rope, the reversing sliding plate is rotatably connected with a sixth rotating shaft extending into the power cavity, the right end of the sixth rotating shaft is fixedly connected with a seventh gear meshed with the sixth gear, the sixth rotating shaft is fixedly connected with an eighth gear positioned at the front side of the seventh gear and a rear rope winding wheel positioned at the front side of the eighth gear, the front side of the rear rope winding wheel is provided with a front rope winding wheel fixedly connected with the sixth rotating shaft, and one end of the door opening rope is fixedly connected onto the rear rope winding wheel, one end of a pushing rope is fixedly connected to the front rope winding wheel, a seventh rotating shaft which is rotatably connected with the reversing sliding plate is arranged between the sixth rotating shaft and the fifth rotating shaft, and a ninth gear meshed with the eighth gear is fixedly arranged on the seventh rotating shaft.

5. The quantitative compression device for ironwork in a refuse dump according to claim 1, wherein: the power chamber with rotate between the compression power chamber and be connected with the eighth axis of rotation that extends from top to bottom, in the eighth axis of rotation fixedly connected with the fourth bevel gear that second bevel gear meshing is connected, fixedly connected with is located in the eighth axis of rotation the trough of belt cylinder in the compression power chamber, the left side of trough of belt cylinder is equipped with downwardly extending to press the material intracavity and with casing sliding connection's lifter, the right-hand member face fixedly connected with of lifter with trough of belt cylinder sliding connection's fixed pin.

6. The quantitative compression device for ironwork in a refuse dump according to claim 1, wherein: the pushing plate groove is internally and slidably connected with a pushing plate, a pushing spring is fixedly connected between the left end face of the pushing plate and the left end wall of the pushing plate groove, the left end face of the pushing plate is fixedly connected with the other end of the pushing rope, the sliding groove is internally and slidably connected with a moving rod extending upwards, the top end of the moving rod is fixedly connected with a carrying plate which is in sliding connection with the left end wall and the right end wall of the pressing cavity, a carrying plate spring is fixedly connected between the lower end face of the carrying plate and the lower end wall of the pressing cavity, the left end face of the moving rod is provided with an electromagnetic spring groove, an electromagnetic block is slidably connected in the electromagnetic spring groove, an electromagnetic spring is fixedly connected between the right end face of the electromagnetic block and the right end wall of the electromagnetic spring groove, a jacking plate is slidably connected in the jacking plate groove, and a jacking plate spring is fixedly connected between the left end face of the jacking plate and the, the left end face of the top pressure plate is fixedly connected with the other end of the tensioning rope.

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