CN210940583U - Horizontal scrap briquetting machine - Google Patents

Abstract

The utility model provides a horizontal sweeps briquetting machine, is the organism that the opening set up including the upper end, is equipped with the vertical briquetting that is used for vertical direction extrusion sweeps, is used for the horizontal briquetting of horizontal extrusion sweeps and is used for the vertical briquetting of vertical extrusion sweeps on organism upper portion and inside respectively, and vertical briquetting, horizontal briquetting and vertical briquetting link respectively has the pneumatic cylinder of its motion of drive. When the machine is used, the scraps are directly poured into the machine body from the upper opening of the machine body, and the scraps are sequentially extruded by the vertical pressing block, the transverse pressing block and the longitudinal pressing block after the machine is started to form compact scraps blocks.

Description

Horizontal scrap briquetting machine

Technical Field

The utility model relates to a technical field that the sweeps were handled especially relates to a horizontal sweeps briquetting machine.

Background

At present, in the process of hardware production, a large amount of metal chips such as linear cast iron chips, steel shavings and aluminum chips are generated, and the metal chips have high recycling value. However, since the metal chips have a relatively loose volume and a relatively large volume, if the metal chips are directly transported, a large transportation cost is required, and therefore, the metal chips need to be briquetted first. And the machine for briquetting the metal chips is a briquetting machine.

The existing briquetting machine is mostly vertical, and for example, the briquetting machine disclosed in the application number CN200920205826.6 comprises a host, an oil pressure station and a console, wherein the host comprises a metal scrap barrel box with a feeding hole and a discharging hole, a mounting frame fixed on the metal scrap barrel box, at least one oil pressure cylinder fixed on the mounting frame, and a pressing plate fixed on a piston rod of the oil pressure cylinder and matched with the metal scrap barrel box; the oil pressure station is connected with an oil pressure cylinder pipeline of the main machine; the console is connected to the hydraulic station to control the hydraulic station. When briquetting is carried out, the scraps are put in from the feed inlet, and then the oil hydraulic cylinder drives the pressing plate to briquette the scraps.

The above prior art solution has the following drawbacks: because the apparatus is vertical, its pan feeding mouth sets up in higher position, and this makes the metal fillings that need transport certain height just can the feeding when the feeding, leads to the feeding inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a horizontal sweeps briquetting machine, it has the effect that the feeding is highly low, makes things convenient for the feeding to exist to prior art not enough.

The above object of the present invention can be achieved by the following technical solutions:

a horizontal scrap briquetting machine comprises a machine body, wherein one side surface and the upper surface of the machine body are both provided with openings, namely a side opening and an upper opening respectively, the side opening is provided with a transverse briquetting for inwards and transversely extruding scraps along the width direction of the side opening, the two ends of the transverse briquetting are respectively abutted against the side wall of the machine body, one side of the transverse briquetting, which is far away from the machine body, is connected with a transverse hydraulic cylinder for driving the transverse briquetting to move relative to the machine body, the side opening of the machine body is also connected with a transverse mounting groove, the transverse hydraulic cylinder is fixed in the transverse mounting groove, one side wall of the machine body, which is adjacent to the side opening, is provided with a square through hole, one side edge of the through hole is abutted against the bottom of the machine body, the other side edge of the through hole is abutted against the side wall of the machine body, which is far, one side that the organism was kept away from to vertical briquetting is connected with the vertical pneumatic cylinder that is used for driving its motion, be equipped with the vertical mounting groove that is used for placing vertical pneumatic cylinder outside the organism lateral wall, vertical pneumatic cylinder is fixed in vertical mounting groove, still be equipped with the vertical briquetting that is used for vertical extrusion sweeps in side opening department, vertical briquetting one end is rotated and is connected in the both sides wall of side opening part, when vertical briquetting rotates horizontal position, vertical briquetting lateral wall and the equal butt in upper shed edge and its lower surface and horizontal briquetting upper surface butt, still be fixed with vertical mounting bracket on horizontal mounting groove, it is connected with vertical pneumatic cylinder to rotate on vertical mounting bracket top, vertical pneumatic cylinder tailpiece of the piston rod portion and the one side rotation connection of.

Through the technical scheme, when in use, the scraps are directly poured into the machine body from the upper opening of the machine body, then the vertical pressing block rotates around the rotating point under the driving of the vertical hydraulic cylinder, the scraps are extruded in the vertical direction and completely cover the upper opening of the machine body after reaching the horizontal position, then the transverse hydraulic cylinder drives the transverse pressing block to move towards the interior of the machine body, the scraps are extruded in the transverse direction, the scrap is gradually extruded to one side of the machine body provided with the longitudinal pressing block under the vertical limiting of the vertical pressing block and the horizontal extrusion of the transverse pressing block, and finally the longitudinal pressing block extrudes the scrap longitudinally under the driving of the longitudinal hydraulic cylinder. Compared with a vertical briquetting machine, the horizontal briquetting machine has the advantages that the horizontal position of the feeding opening is low, scraps do not need to be moved to a high position to be fed, and feeding is convenient. And because the gravity center is close to the bottom surface, when a large-capacity large-size machine type is produced, the influence of the gravity center and the stability of the chassis is small, and the large-capacity horizontal briquetting machine can be produced with lower cost.

The utility model discloses a further set up to: the material lifting mechanism is arranged on the inner wall, opposite to the longitudinal pressing block, of the machine body and comprises an L-shaped material lifting plate, the vertical portion of the material lifting plate is embedded in the side wall of the machine body, the surface of the material lifting plate and the side wall of the machine body keep the same plane, the horizontal portion of the bottom of the material lifting plate is embedded in the bottom plate of the machine body, the surface of the material lifting plate and the bottom surface of the machine body keep the same plane, a rotating portion is arranged at one end, away from the horizontal portion, of the material lifting plate, two lug pieces are arranged at the top of the side wall of the machine body, the rotating portion is rotatably connected to the lug pieces and is also connected with a rotating assembly used for driving the rotating portion to rotate, one end face, away from the vertical portion.

Through above-mentioned technical scheme, accomplish the extrusion to the sweeps, vertical briquetting, horizontal briquetting and vertical briquetting all reset the back, and the sweeps can be stayed in the corner relative with vertical briquetting, is located the horizontal part department that lifts the flitch promptly, then starts to lift material mechanism, lifts the flitch and will upwards rotate under rotating assembly's drive, and the sweeps piece will be lifted by upwards rotating under the drive that lifts the flitch this moment, is raised the organism upper shed high department. Through the material lifting effect of the material lifting plate, the material does not need to be inserted into the machine body to carry the sweeps during material taking, the sweeps are taken out conveniently, and manpower is saved.

The utility model discloses a further set up to: the side of the vertical pressing block, which faces away from the machine body, is provided with a limit buckle for limiting the vertical pressing block after the vertical pressing block rotates to a horizontal position, and when the vertical pressing block rotates to the horizontal position, the limit buckle is abutted against the upper surface of the machine body.

Through the technical scheme, the vertical pressing block can be limited to rotate, so that the vertical pressing block can be exactly horizontally covered on the upper opening of the machine body, and the interference of the movement of the transverse pressing block and the movement of the longitudinal pressing block due to the excessive rotation of the vertical pressing block is prevented.

The utility model discloses a further set up to: the outside of the side wall of the machine body and one side of the vertical pressing block back to the machine body are both provided with reinforcing walls, and the reinforcing walls are uniformly distributed with grid-shaped lightening grooves.

Through above-mentioned technical scheme, can strengthen the intensity of organism and vertical briquetting, can bear bigger pressure, make the one-off performance carry out the briquetting to more sweeps, and the sweeps piece that extrudes into is compacter. Compared with the solid wall with the same strength, the square hollowed-out reinforcing wall can save raw materials and reduce the overall weight of the machine body and the vertical pressing block.

The utility model discloses a further set up to: one side of the vertical press block on the vertical mounting rack is provided with a gasket, the gasket is made of flexible materials, and when the vertical press block rotates to the highest point under the driving of the vertical hydraulic cylinder, the gasket is abutted against the vertical press block.

Through above-mentioned technical scheme, can reduce vertical briquetting when rotating highest position and stop motion, the vibration that vertical briquetting and vertical pneumatic cylinder produced improves overall structure's when using stability.

The utility model discloses a further set up to: one side of the transverse mounting groove and one side of the longitudinal mounting groove far away from the machine body are both provided with a resisting plate, the resisting plate is arranged in a concave shape, and one ends of the transverse hydraulic cylinder and the longitudinal hydraulic cylinder far away from the machine body are both fixed in the concave part of the resisting plate.

Through the technical scheme, the end, far away from the organism, of the transverse hydraulic cylinder and the longitudinal hydraulic cylinder is fixed in the concave bottom plate, the firmness of the transverse hydraulic cylinder and the longitudinal hydraulic cylinder in respective mounting grooves can be enhanced, the transverse hydraulic cylinder and the longitudinal hydraulic cylinder can be prevented from being shifted due to uneven acting force in the operation process, the axial directions of the transverse hydraulic cylinder and the longitudinal hydraulic cylinder are always in the same straight line with the pushing direction, the transverse pressing block and the longitudinal pressing block are always kept with the maximum pushing force, and the push rod can be prevented from being damaged due to uneven stress.

The utility model discloses a further set up to: one side of the vertical mounting rack towards the vertical pressing block is provided with a safety chain, and one side of the vertical pressing block towards the vertical mounting rack is provided with a hook used for hooking the safety chain.

Through the technical scheme, when the appliance is not used for a long time or the appliance is overhauled, the safety chain can be hung on the hook, the vertical pressing block can be prevented from falling down freely due to the aging of the joint between the vertical pressing block and the vertical hydraulic cylinder, and the damage or the casualties of the appliance can be prevented.

The utility model discloses a further set up to: and a standard line for prompting the maximum feeding amount is arranged on the inner wall of the machine body.

Through above-mentioned technical scheme, can remind the maximum charge volume of apparatus when the feeding, prevent to make the apparatus can not normally operate because of reinforced too much.

To sum up, the utility model discloses following beneficial effect has:

1. the horizontal position of the feeding opening is low, so that feeding is convenient;

2. the gravity center of the apparatus is low, the chassis is stable, and the structure is stable;

3. the material is conveniently taken after being pressed into blocks;

4. the outer wall of the apparatus is firm, and can bear higher pressure;

5. the safety of the instrument is good.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is a schematic view of the working state of the vertical briquette of the embodiment;

FIG. 3 is a schematic view showing the working states of the transverse briquette and the longitudinal briquette according to the embodiment;

FIG. 4 is a schematic view I of the working state of the lifting mechanism of the embodiment;

fig. 5 is a schematic view of a working state of the lifting mechanism according to the embodiment.

In the figure, 10, the body; 20. transversely pressing blocks; 21. a transverse hydraulic cylinder; 22. a transverse mounting groove; 30. longitudinal briquetting; 31. a longitudinal hydraulic cylinder; 32. a longitudinal mounting groove; 40. vertically pressing a block; 41. a vertical hydraulic cylinder; 42. a vertical mounting rack; 43. a limit buckle; 44. a gasket; 45. a safety chain; 46. hooking; 50. a material lifting mechanism; 51. lifting a material plate; 52. a rotating part; 53. a tab; 54. a rotating shaft; 55. a rotating assembly; 551. a transmission rod; 552. a material lifting hydraulic cylinder; 553. a shaft support; 554. a hydraulic cylinder bracket; 60. a reinforcing wall; 70. a resisting plate; 80. and (5) standard line.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to the attached figure 1, the horizontal scrap briquetting machine comprises a machine body 10, wherein a transverse briquetting 20 for transversely extruding the scraps, a longitudinal briquetting 30 for longitudinally extruding the scraps and a vertical briquetting 40 for vertically extruding the scraps are arranged in the machine body 10.

Referring to fig. 1 and 3, a side surface and an upper surface of the machine body 10 are both open and are respectively open and open, the transverse pressing block 20 is located at the open position and is arranged along the width direction of the machine body 10, two ends of the transverse pressing block 20 are respectively abutted against the side wall of the machine body 10, the bottom surface of the transverse pressing block 20 is abutted against the bottom plate of the machine body 10, and the vertical height of the bottom plate of the machine body 10 is smaller than the depth inside the machine body 10. One side of the transverse press block 20 far away from the machine body 10 is connected with a transverse hydraulic cylinder 21 used for driving the transverse hydraulic cylinder to move, the machine body 10 is further connected with a transverse installation groove 22 at the side opening, the transverse hydraulic cylinder 21 is fixed in the transverse installation groove 22, one side of the transverse installation groove 22 far away from the machine body 10 is provided with a support plate 70, the support plate 70 is arranged in a concave shape, and one end of the transverse hydraulic cylinder 21 far away from the machine body 10 is fixed in the concave part of the support plate 70. With the structure, the transverse briquetting 20 can transversely extrude the scraps in the machine body 10 under the driving of the transverse hydraulic cylinder 21. The abutting plate 70 can reinforce the fixing strength of the transverse hydraulic cylinder 21 so that it does not deviate.

Referring to fig. 1 and fig. 3, a square through hole is formed in one of the side walls of the machine body 10 adjacent to the side opening, two adjacent sides of the through hole respectively abut against the bottom of the machine body 10 and the side wall of the machine body 10 far away from the transverse pressing block 20, the height of the through hole is the same as that of the transverse pressing block 20, and the side of the through hole close to the transverse pressing block 20 is located at the limit position where the transverse pressing block 20 pushes. A longitudinal pressing block 30 used for longitudinally extruding scraps is arranged in the through hole, the shape and the size of the longitudinal pressing block 30 are the same as those of the through hole, one side, far away from the machine body 10, of the longitudinal pressing block 30 is connected with a longitudinal hydraulic cylinder 31 used for driving the machine body to move, a longitudinal installation groove 32 used for placing the longitudinal hydraulic cylinder 31 is arranged outside the side wall of the machine body 10, and the longitudinal hydraulic cylinder 31 is fixed in the longitudinal installation groove 32. A concave resisting plate 70 is also arranged on one side of the longitudinal installation groove 32 far away from the machine body 10, and one end of the longitudinal hydraulic cylinder 31 far away from the machine body 10 is fixed in the concave part of the resisting plate 70. With the structure, the longitudinal pressing block 30 can longitudinally press the scraps in the machine body 10 under the driving of the longitudinal hydraulic cylinder 31. The abutting plate 70 can reinforce the fixing strength of the longitudinal hydraulic cylinder 31 so that it does not deviate.

Referring to the attached drawings 1 and 2, a vertical pressing block 40 for vertically extruding scraps is further arranged at the side opening, one end of the vertical pressing block 40 is rotatably connected to two side walls of the side opening, when the vertical pressing block 40 rotates to a horizontal position, the side wall of the vertical pressing block 40 is just abutted to the edge of the upper opening, the lower surface of the side wall of the vertical pressing block is abutted to the upper surface of the transverse pressing block 20, a reinforcing wall 60 is arranged on one surface of the vertical pressing block 40, which is back to the machine body 10, and square grid-shaped weight reduction grooves are uniformly distributed in the reinforcing wall. A vertical mounting rack 42 is further fixed on the transverse mounting groove 22, a vertical hydraulic cylinder 41 is rotatably connected to the top end of the vertical mounting rack 42, and the end part of a piston rod of the vertical hydraulic cylinder 41 is rotatably connected to a reinforcing wall 60 on the vertical pressing block 40. With the above structure, the vertical pressing block 40 can rotate around the rotation joint under the driving of the vertical hydraulic cylinder 41, and vertically extrude the scraps in the machine body 10, and the reinforcing wall 60 can enhance the mechanical strength of the vertical pressing block.

Referring to fig. 1 and 2, a reinforcing wall 60 is also provided at the outside of the sidewall of the body 10. The reinforcing wall 60 of the vertical pressing block 40 is provided with a limit buckle 43 for ensuring that the vertical pressing block can be limited after rotating to a horizontal position. A gasket 44 is arranged on one side of the vertical mounting rack 42, which faces the vertical pressing block 40, the gasket 44 is made of flexible material, and when the vertical pressing block 40 is driven by the vertical hydraulic cylinder 41 to rotate to the highest point, the gasket 44 is abutted against the vertical pressing block 40. A safety chain 45 is arranged on the vertical mounting rack 42 on the side facing the vertical press block 40, and a hook 46 for hooking the safety chain 45 is arranged on the reinforcing wall 60 of the vertical press block 40. A standard line 80 for prompting the maximum feeding amount is provided on the inner wall of the body 10.

With the above structure, the spacer 44 is used to reduce the vibration generated by the vertical pressing block 40 and the vertical hydraulic cylinder 41 when the vertical pressing block 40 rotates to the highest position and stops moving. When the apparatus is not used for a long time or is overhauled, the safety chain 45 can be hung on the hook 46, and the vertical pressing block 40 can be prevented from freely falling due to the aging of the joint between the vertical pressing block 40 and the vertical hydraulic cylinder 41. The standard line 80 is used to indicate the maximum charge. The reinforcing wall 60 serves to reinforce the mechanical strength of the outer wall of the body 10 and the vertical pressing block 40.

Referring to fig. 4 and 5, a material lifting mechanism 50 is arranged on the inner wall opposite to the position of the longitudinal pressing block 30, the material lifting mechanism 50 comprises an L-shaped material lifting plate 51, the material lifting plate 51 is vertically embedded in the side wall of the machine body 10, the surface of the material lifting plate 51 and the side wall are in the same plane, the bottom of the material lifting plate 51 is horizontally embedded in the bottom plate of the machine body 10, and the surface of the material lifting plate 51 and the bottom surface of the machine body 10 are in the same plane. The bottom of the material lifting plate 51 is provided with a rotating part 52, the top of the sidewall of the machine body 10 is provided with two lugs 53, two sides of the rotating part 52 are fixed with rotating shafts 54, and the rotating shafts 54 are rotatably connected with the lugs 53. A rotating assembly 55 for driving the rotating shaft 54 to rotate is further connected to one side of the rotating shaft 54, and the rotating assembly 55 comprises a transmission rod 551, a material lifting hydraulic cylinder 552, a shaft bracket 553 and a hydraulic cylinder bracket 554. The end of the rotating shaft 54 away from the lug 53 is rotatably connected to a shaft bracket 553, the shaft bracket 553 is fixed to the reinforcing wall 60, one end of the transmission rod 551 is fixed to the rotating shaft 54, the other end is rotatably connected to a push rod of the material lifting hydraulic cylinder 552, one end of the material lifting hydraulic cylinder 552 away from the transmission rod 551 is rotatably connected to a hydraulic cylinder bracket 554, and the hydraulic cylinder bracket 554 is fixed to the reinforcing wall 60. The end surface of the horizontal portion of the material lifting plate 51 is inclined to form a guide surface for preventing the material lifting plate 51 from interfering with the bottom surface of the machine body 10 when rotating.

Above-mentioned structure, when the sweeps were squeezed into the sweeps piece and stopped in lifting flitch 51 position, through the drive of lifting material pneumatic cylinder 552 and the transmission of transfer line 551 and axis of rotation 54, lift flitch 51 and will upwards rotate, and the sweeps piece will be upwards lifted under the drive of lifting flitch 51 this moment, is lifted to the high department of organism 10 upper shed, makes things convenient for the ejection of compact transport. After the discharging is completed, the lifting plate 51 can be reset under the driving of the lifting hydraulic cylinder 552. Of course, the rotating assembly 55 may also be a motor directly coaxially connected to the rotating shaft 54.

The implementation principle of the embodiment is as follows:

1. dumping the scraps into the body 10 from the upper opening so that the amount of the scraps added does not exceed the maximum treatment amount;

2. starting the instrument, rotating the vertical pressing block 40 around a rotating point towards the machine body 10 under the driving of the vertical hydraulic cylinder 41, gradually extruding the scraps in the machine body 10 downwards in the rotating process, when the vertical pressing block 40 rotates to a horizontal position, just covering the upper opening by the vertical pressing block 40 under the action of the limiting buckle 43, finishing the vertical extruding step, and extruding the scraps in the machine body 10 into plate-shaped scraps with the same vertical thickness as that of the transverse pressing block 20;

3. after the vertical extrusion is completed, the transverse pressing block 20 is driven by the transverse hydraulic cylinder 21 to move towards the inner direction of the machine body 10, the waste chips are extruded in a transverse line, the waste chips are gradually extruded to one side close to the longitudinal pressing block 30 under the extrusion of the transverse pressing block 20 and the limitation of the inner walls of the vertical pressing block 40 and the machine body 10, the transverse pressing block 20 reaches the maximum extrusion distance after moving to the edge of the vertical pressing block 40 and stops moving, the transverse extrusion step is completed, and at the moment, the waste chips in the machine body 10 are extruded into columnar waste chip blocks with the same cross-sectional area as that of the longitudinal pressing block 30;

4. after the transverse extrusion is completed, the longitudinal pressing block 30 is driven by the longitudinal hydraulic cylinder 31 to move towards the inner direction of the machine body 10, the longitudinal extrusion is performed on the scraps, the scraps are gradually extruded to the position of the material lifting mechanism 50 under the extrusion of the longitudinal pressing block 30 and the limitation of the vertical pressing block 40, the transverse pressing block 20 and the inner wall of the machine body 10, after the longitudinal pressing block 30 reaches the maximum extrusion distance, the longitudinal extrusion step is completed, and the scraps are subjected to the pressing block operation and become cubic scraps;

5. after the extrusion operation is completed, the longitudinal pressing block 30, the transverse pressing block 20 and the vertical pressing block 40 are sequentially reset under the drive of respective drive sources, at the moment, the scrap blocks are left at the position of the material lifting plate 51, then the material lifting hydraulic cylinder 552 is started, the material lifting plate 51 is driven to rotate upwards through the drive rod 551 and the rotation shaft 54, the scrap blocks are lifted under the drive of the material lifting plate 51, after the scrap blocks are recovered from the material lifting plate 51 by an operator, the material lifting plate 51 is reset under the drive of the material lifting hydraulic cylinder 552, and the whole pressing block recovery operation is completed.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a horizontal sweeps briquetting machine which characterized in that: including organism (10), a side and the upper surface of organism (10) all are the opening setting, be side opening and upper shed respectively, be equipped with horizontal briquetting (20) that are used for inside horizontal extrusion sweeps along its width direction on the side opening, horizontal briquetting (20) both ends butt respectively in organism (10) lateral wall, one side that organism (10) was kept away from in horizontal briquetting (20) is connected with horizontal pneumatic cylinder (21) that is used for driving its relative organism (10) motion, still there is horizontal mounting groove (22) at the side opening department of organism (10), horizontal pneumatic cylinder (21) are fixed in horizontal mounting groove (22), square through-hole has been seted up on organism (10) and one of them lateral wall that the side opening is adjacent, one of them side and organism (10) bottom of through-hole offset, the lateral wall that horizontal briquetting (20) was kept away from in another side of through-hole and organism (10) offsets, the height of the through hole is the same as that of the transverse pressing block (20), a longitudinal pressing block (30) used for longitudinally extruding scraps is arranged in the through hole, the shape and the size of the longitudinal pressing block (30) are the same as those of the through hole, one side, far away from the machine body (10), of the longitudinal pressing block (30) is connected with a longitudinal hydraulic cylinder (31) used for driving the longitudinal pressing block to move, a longitudinal mounting groove (32) used for placing the longitudinal hydraulic cylinder (31) is formed in the side wall of the machine body (10), the longitudinal hydraulic cylinder (31) is fixed in the longitudinal mounting groove (32), a vertical pressing block (40) used for vertically extruding scraps is further arranged at the side opening, one end of the vertical pressing block (40) is rotatably connected to two side walls at the side opening, when the vertical pressing block (40) rotates to the horizontal position, the side wall of the vertical pressing block (40) is abutted to the edge of the upper opening, the top end of the vertical mounting frame (42) is rotatably connected with a vertical hydraulic cylinder (41), and the end part of a piston rod of the vertical hydraulic cylinder (41) is rotatably connected with one surface of the vertical pressing block (40) back to the machine body (10).

2. The horizontal scrap briquetting machine of claim 1, wherein: the inner wall of the machine body (10) opposite to the longitudinal pressing block (30) is provided with a material lifting mechanism (50), the material lifting mechanism (50) comprises an L-shaped material lifting plate (51), the vertical part of the material lifting plate (51) is embedded in the side wall of the machine body (10), the surface of the material lifting plate (51) and the side wall of the machine body (10) keep the same plane, the horizontal part of the bottom of the material lifting plate (51) is embedded in the bottom plate of the machine body (10), the surface of the material lifting plate (51) and the bottom surface of the machine body (10) keep the same plane, one end of the vertical part of the material lifting plate (51) far away from the horizontal part is provided with a rotating part (52), the top of the side wall of the machine body (10) is provided with two lug plates (53), the rotating part (52) is rotatably connected to the lug plates (53), the rotating part (52) is also connected with a rotating assembly (55, a guide surface for preventing interference between the material lifting plate (51) and the bottom surface of the machine body (10) when rotating is formed.

3. The horizontal scrap briquetting machine of claim 1, wherein: and one surface of the vertical pressing block (40) back to the machine body (10) is provided with a limiting buckle (43) for limiting the vertical pressing block after the vertical pressing block rotates to a horizontal position, and when the vertical pressing block (40) rotates to the horizontal position, the limiting buckle (43) is abutted against the upper surface of the machine body (10).

4. The horizontal scrap briquetting machine of claim 1, wherein: the side wall outside of organism (10) and the one side of vertical briquetting (40) dorsad organism (10) all are equipped with reinforced wall (60), evenly distributed has the latticed heavy groove that subtracts on reinforced wall (60), and vertical hydraulic cylinder (41) piston rod end portion rotates and connects reinforced wall (60) on vertical briquetting (40).

5. The horizontal scrap briquetting machine of claim 1, wherein: a gasket (44) is arranged on one side, facing the vertical pressing block (40), of the vertical mounting rack (42), the gasket (44) is made of flexible materials, and when the vertical pressing block (40) is driven by the vertical hydraulic cylinder (41) to rotate to the highest point, the gasket (44) is abutted to the vertical pressing block (40).

6. The horizontal scrap briquetting machine of claim 1, wherein: one side of the transverse mounting groove (22) and one side of the longitudinal mounting groove (32) far away from the machine body (10) are both provided with a resisting plate (70), the resisting plate (70) is arranged in a concave shape, and one ends of the transverse hydraulic cylinder (21) and the longitudinal hydraulic cylinder (31) far away from the machine body (10) are both fixed in the concave part of the resisting plate (70).

7. The horizontal scrap briquetting machine of claim 1, wherein: one side of the vertical mounting rack (42) facing the vertical pressing block (40) is provided with a safety chain (45), and one side of the vertical pressing block (40) facing the vertical mounting rack (42) is provided with a hook (46) used for hooking the safety chain (45).

8. The horizontal scrap briquetting machine of claim 1, wherein: the inner wall of the machine body (10) is provided with a standard line (80) for prompting the maximum feeding amount.

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