Horizontal hydraulic non-metallic baling press

By utilizing the pretreatment and contact mechanisms of the horizontal hydraulic non-metallic baler, the problem of low baling efficiency caused by loose materials and high moisture content is solved. This achieves effective material compression and moisture absorption, improving baling efficiency and ease of discharge.

CN121848734BActive Publication Date: 2026-06-09JIANGSU DONGFANG HYDRAULIC

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
JIANGSU DONGFANG HYDRAULIC
Filing Date
2026-03-16
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

In the process of packaging non-metallic materials, packaging efficiency is affected by the materials being too fluffy or having a high moisture content.

Method used

A horizontal hydraulic non-metallic baler was designed, comprising a pretreatment mechanism, a contact mechanism, and a replacement component. It processes materials by squeezing and absorbing water, and adjusts the angle of the replacement component in conjunction with a motor and connecting components to achieve material conveying and cleaning of the baler platform.

Benefits of technology

It improves packaging efficiency, reduces material size and moisture content, ensures smooth packaging of materials, and simplifies the unloading process.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN121848734B_ABST
    Figure CN121848734B_ABST
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Abstract

The application discloses a horizontal hydraulic nonmetal packing machine and relates to the technical field of nonmetal hydraulic packing. The horizontal hydraulic nonmetal packing machine comprises a machine body, a feeding conveyor, a door opening cylinder, a packing platform, a clamping seat and a contact mechanism. The feeding conveyor is installed outside the machine body. The door opening cylinder is installed outside the machine body. The packing platform is connected with the machine body and is internally provided with a motor. The clamping seat is installed outside the feeding conveyor. The contact mechanism is installed outside the packing platform and comprises a round plate which is externally provided with a replacement assembly. The contact mechanism further comprises a pretreatment mechanism which comprises a fourth push rod. The bottom of the fourth push rod is provided with a connecting rod. The lower portion of the connecting rod is provided with a cylinder. The outer portion of the cylinder is provided with a sponge shell. The fourth push rod is used for controlling the lifting of the cylinder and the sponge shell. The horizontal hydraulic nonmetal packing machine can improve the use efficiency of the equipment.
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Description

Technical Field

[0001] This invention relates to the field of non-metallic hydraulic packaging technology, specifically a horizontal hydraulic non-metallic packaging machine. Background Technology

[0002] Non-metallic hydraulic balers are mainly used in the recycling and processing industry. They can compress various non-metallic scraps into cuboids for baling, which not only tidies up the messy work site but also reduces transportation costs.

[0003] A utility model patent with publication number CN209683001U discloses a double-box non-metallic hydraulic baler. A servo motor drives a movable plate to move left and right, allowing for separate baling of the two baling chambers. However, during the baling of non-metallic materials, excessively loose materials or high moisture content can easily affect baling efficiency. Summary of the Invention

[0004] To overcome the problem that excessively loose materials or high moisture content can affect packaging efficiency during the non-metallic packaging process, this invention provides a horizontal hydraulic non-metallic packaging machine, including a machine body;

[0005] A feeding conveyor, which is installed outside the machine body;

[0006] A door opening cylinder, which is installed on the outside of the machine body;

[0007] A packaging platform is connected to the machine body, and a motor is installed inside the packaging platform;

[0008] A mounting bracket, which is installed outside the feeding conveyor;

[0009] A contact mechanism is installed outside the packaging platform. The contact mechanism includes a circular plate, and a replacement component is installed on the outside of the circular plate.

[0010] A pretreatment mechanism is connected to a card holder. The pretreatment mechanism includes a fourth push rod, a connecting rod is installed at the bottom of the fourth push rod, a cylinder is provided below the connecting rod, and a sponge shell is sleeved on the outside of the cylinder. The fourth push rod is used to control the lifting and lowering of the cylinder and the sponge shell.

[0011] Preferably, the contact mechanism further includes:

[0012] The mounting frame has two frames, which are respectively installed at both ends of the packaging platform.

[0013] The first push rod is installed inside the mounting frame;

[0014] A sliding plate is slidably connected inside the mounting frame. The sliding plate is connected to the telescopic end of the first push rod, and a connecting component is installed on the outside of the sliding plate.

[0015] Preferably, the contact mechanism further includes:

[0016] An inclined plate, said inclined plate being installed on the outside of the packaging platform;

[0017] The telescopic rod is connected to the output end of the motor, and a locking post is installed on the outside of the telescopic rod.

[0018] Preferably, the connection component includes:

[0019] A through groove, wherein the through groove is formed inside the sliding plate;

[0020] An annular groove, wherein the annular groove is formed inside the sliding plate;

[0021] A circular ring, which is rotatably connected inside an annular groove.

[0022] Preferably, the connection component further includes:

[0023] A first adjusting member is mounted on the outside of the sliding plate;

[0024] An arc-shaped plate, which is connected to the first adjusting member;

[0025] The annulus has internal threads, and multiple threads are provided.

[0026] A locking rod is installed on the outside of the circular ring. Multiple locking rods are provided, and the locking rods are engaged with the circular plate.

[0027] Preferably, the replacement component includes:

[0028] The second adjusting member is installed on the outside of the circular plate;

[0029] A first connecting plate is mounted on the outside of the second adjusting member;

[0030] A railing, wherein the railing is installed on the outside of the first connecting plate, and multiple railings are provided and evenly distributed;

[0031] A third adjusting member is installed on the outside of the first connecting plate;

[0032] A movable component, which is connected to a third adjusting component.

[0033] Preferably, the replacement component further includes:

[0034] The fourth adjusting member is installed on the outside of the circular plate;

[0035] The second connecting plate is installed on the outside of the fourth adjusting member;

[0036] The fifth adjusting member is installed on the outside of the second connecting plate;

[0037] A scraper, which is connected to a fifth adjusting member.

[0038] Preferably, the pretreatment mechanism further includes:

[0039] Mounting rod, which is installed inside the card holder;

[0040] Side plate, which is connected to the mounting rod;

[0041] The second push rod is mounted above the side plate;

[0042] The top plate is connected to the telescopic end of the second push rod.

[0043] Preferably, the pretreatment mechanism further includes:

[0044] The third push rod is installed at the bottom of the top plate;

[0045] Mounting bracket, which is connected to the telescopic end of the third push rod;

[0046] The connecting plate is provided in two parts, and the two connecting plates are respectively installed at both ends of the mounting frame. The fourth push rod is installed at the bottom of the connecting plate.

[0047] The channel is located inside the mounting frame, and multiple channels are provided.

[0048] An adjusting rod is installed at the bottom of a connecting rod and is connected to a cylinder.

[0049] This invention provides a horizontal hydraulic non-metallic baling machine. It has the following beneficial effects:

[0050] 1. This horizontal hydraulic non-metallic baler incorporates a pre-treatment mechanism to compress and absorb moisture from the material before it enters the machine. During the baling process of non-metallic materials, excessively loose material or high moisture content can negatively impact baling efficiency. The pre-treatment mechanism compresses the material before baling to reduce its size, facilitating the baling process. Furthermore, after compression, it absorbs moisture to lower the material's moisture content, thus resolving the aforementioned problems.

[0051] 2. This horizontal hydraulic non-metallic baler uses a contact mechanism to escort the baled material and perform simple cleaning of the discharge platform. The contact mechanism includes a connecting component and a replacement component. Under the control of the motor and the connecting component, the angle of the replacement component can be adjusted, thereby switching between escorting the baled material and simple cleaning of the discharge platform.

[0052] 3. This horizontal hydraulic non-metallic baler, through the setting of a connecting assembly, uses a motor, telescopic rod, and locking pin in conjunction with a ring and threads to control the rotation of the ring within an annular groove, thereby adjusting the angle between the locking rod and the circular plate, and thus switching the angle and working state of the replacement assembly. By symmetrically setting two sets of first adjusting components and arc plates, the position of the ring after the angle is switched is limited, preventing the angle of the ring from changing.

[0053] 4. This horizontal hydraulic non-metallic baler, through the installation of replaceable components, escorts the baled material off the output platform or performs simple cleaning on the surface of the output platform. Multiple railings clamp and escort the material at multiple points on both sides during discharge, reducing the possibility of loose threads. The railings also compress the material, reducing the possibility of some material falling off. After escorting the material, a movable scraper removes impurities from the output platform. The use of switchable angle first and second connecting plates facilitates switching between material escort and platform cleaning operations. Attached Figure Description

[0054] Figure 1 This is a schematic diagram of the overall structure of the present invention;

[0055] Figure 2 This is a schematic diagram of the structure of the present invention from another perspective;

[0056] Figure 3 This is a schematic diagram of the contact mechanism structure of the present invention;

[0057] Figure 4 For the present invention Figure 3 Schematic diagram of the structure at point A;

[0058] Figure 5 This is a schematic diagram of the connection component structure of the present invention;

[0059] Figure 6 This is a schematic diagram of the component replacement structure of the present invention;

[0060] Figure 7 This is a schematic diagram of the pretreatment mechanism of the present invention;

[0061] Figure 8 For the present invention Figure 7 A schematic diagram of the structure at point B.

[0062] In the diagram: 1. Machine body; 2. Feeding conveyor; 3. Door opening cylinder; 4. Outlet platform; 5. Contact mechanism; 501. Mounting frame; 502. First push rod; 503. Sliding plate; 504. Connecting assembly; 5041. Through groove; 5042. Annular groove; 5043. Circular ring; 5044. First adjusting component; 5045. Arc plate; 5046. Thread; 5047. Locking rod; 505. Circular plate; 506. Replacement assembly; 5061. Second adjusting component; 5062. First connecting plate; 5063. Guardrail; 5064. Third... Adjusting component; 5065, Moving component; 5066, Fourth adjusting component; 5067, Second connecting plate; 5068, Fifth adjusting component; 5069, Scraper; 507, Inclined plate; 508, Telescopic rod; 509, Positioning post; 6, Positioning seat; 7, Pre-treatment mechanism; 701, Side plate; 702, Second push rod; 703, Top plate; 704, Third push rod; 705, Mounting bracket; 706, Connecting plate; 707, Fourth push rod; 708, Connecting rod; 709, Adjusting rod; 710, Column; 711, Channel; 712, Mounting rod. Detailed Implementation

[0063] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the invention to the forms disclosed. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described to better illustrate the principles and practical application of the invention, and to enable those skilled in the art to understand the invention and design various embodiments with various modifications suitable for a particular purpose.

[0064] like Figures 1-8 As shown, the present invention provides a technical solution: including a body 1;

[0065] Feeding conveyor 2 is installed outside the machine body 1;

[0066] Door opening cylinder 3 is installed on the outside of the machine body 1;

[0067] The packaging platform 4 is connected to the machine body 1, and a motor is installed inside the packaging platform 4.

[0068] Card holder 6 is installed on the outside of the feeding conveyor 2. There are two sets of card holder 6, with four card holders in each set. The four card holders 6 are symmetrically arranged on the outside of the feeding conveyor 2.

[0069] Contact mechanism 5 is installed outside the packaging platform 4. Contact mechanism 5 includes a circular plate 505, and a replacement component 506 is installed on the outside of the circular plate 505.

[0070] The pretreatment mechanism 7 is connected to the card holder 6. The pretreatment mechanism 7 includes a fourth push rod 707, which is an electric push rod. There are four fourth push rods 707. A connecting rod 708 is installed at the bottom of the fourth push rod 707. A cylinder 710 is installed below the connecting rod 708. A sponge shell is fitted on the outside of the cylinder 710. The fourth push rod 707 is used to control the lifting and lowering of the cylinder 710 and the sponge shell.

[0071] Before using the equipment, workers place the non-metallic materials to be packaged into the feeding conveyor 2. The feeding conveyor 2 gradually moves the materials into the machine body 1. During this process, the pre-processing mechanism 7 is in the open state, performing pre-processing work on the materials before packaging. As the materials enter the machine body 1, the machine body 1 begins to perform multiple compression operations on the materials and package them. The gate cylinder 3 is opened, and the packaged materials are pushed to the unpacking platform 4. The contact mechanism 5 is activated to process the unpacking platform 4 and the packaged materials.

[0072] Contact mechanism 5 also includes:

[0073] There are two mounting frames 501, which are installed at both ends of the packaging platform 4.

[0074] The first push rod 502 is configured as an electric push rod and is installed inside the mounting frame 501.

[0075] The sliding plate 503 is slidably connected inside the mounting frame 501. The sliding plate 503 is connected to the telescopic end of the first push rod 502. A connecting component 504 is installed on the outside of the sliding plate 503.

[0076] Inclined plate 507 is installed on the outside of the package delivery platform 4;

[0077] Telescopic rod 508 is an electric push rod connected to the output end of a motor. A locking post 509 is installed on the outside of the telescopic rod 508.

[0078] Before the material discharge operation, the first push rod 502 is activated. The first push rod 502 drives the sliding plate 503 to move towards the opening cylinder 3, which in turn drives the connecting component 504 and the replacement component 506 to move. The replacement component 506 is adjusted so that it contacts the packaged material. The stroke of the first push rod 502 is adjusted, and the first push rod 502 drives the sliding plate 503 and the replacement component 506 to move, escorting the material away from the unpacking platform 4. The material is discharged through the inclined plate 507.

[0079] After the material discharge operation, the first push rod 502 is activated, which drives the sliding plate 503 to move towards the locking post 509. The telescopic rod 508 is activated, which drives the locking post 509 into the connecting assembly 504. The motor inside the unloading platform 4 is activated, which drives the telescopic rod 508 and the locking post 509 to deflect, thereby driving the connecting assembly 504 and the replacement assembly 506 to deflect. The angle of the replacement assembly 506 is adjusted, and then the first push rod 502 drives the sliding plate 503 and the replacement assembly 506 to move. The replacement assembly 506 is used to process the upper surface of the unloading platform 4.

[0080] By setting up a contact mechanism 5, the packaged materials are conveyed through contact, and the unpacking platform 4 is cleaned after discharge. The contact mechanism 5 is equipped with a connecting component 504 and a replacement component 506. Under the control of the motor and the connecting component 504, the angle of the replacement component 506 is adjusted, thereby switching between conveying the packaged materials or cleaning the unpacking platform 4 after discharge.

[0081] Connection component 504 includes:

[0082] The through groove 5041 is formed inside the sliding plate 503;

[0083] An annular groove 5042 is formed inside the sliding plate 503;

[0084] Ring 5043 is rotatably connected inside annular groove 5042. Both annular groove 5042 and ring 5043 are made of rubber.

[0085] The first adjusting member 5044 is composed of a connecting bent rod and an electric push rod, and the first adjusting member 5044 is installed on the outside of the sliding plate 503;

[0086] Arc-shaped plate 5045, which is connected to the first adjusting member 5044;

[0087] The thread 5046 is made of rubber. The inner part of the ring 5043 is provided with the thread 5046, and multiple threads 5046 are provided.

[0088] The locking rod 5047 is installed on the outside of the ring 5043. Multiple locking rods 5047 are provided, and the locking rods 5047 are engaged with the circular plate 505.

[0089] When it is necessary to switch the angle and working state of the replacement component 506, adjust the electric push rod in the first adjusting member 5044 to the initial state, at which time the arc plate 5045 is in a position away from the ring 5043. Open the telescopic rod 508, which drives the locking post 509 through the through groove 5041 in the sliding plate 503 into the ring 5043, and then the locking post 509 contacts the thread 5046. Turn on the motor, which drives the telescopic rod 508 and the locking post 509 to deflect. The locking post 509 drives the ring 5043, the locking rod 5047 and the replacement component 506 to deflect, thereby adjusting the angle of the replacement component 506. Then, open the electric push rod in the first adjusting member 5044, which drives the arc plate 5045 to contact the fixed ring 5043. Adjust the telescopic rod 508 to the initial state, and the telescopic rod 508 and the locking post 509 return to the inside of the packing platform 4.

[0090] By setting up the connecting component 504, the motor, telescopic rod 508, and locking pin 509 work together with the ring 5043 and thread 5046 to control the rotation of the ring 5043 within the annular groove 5042, thereby adjusting the angle between the locking rod 5047 and the circular plate 505, and thus switching the angle and working state of the replacement component 506. By symmetrically setting two sets of first adjusting members 5044 and arc-shaped plates 5045, the position of the ring 5043 after the angle is switched is limited, preventing the angle of the ring 5043 from changing.

[0091] Replacement component 506 includes:

[0092] The second adjusting component 5061 is composed of a connecting frame and an electric push rod, and is installed on the outside of the circular plate 505.

[0093] The first connecting plate 5062 is installed on the outside of the second adjusting member 5061;

[0094] The railing 5063 is installed on the outside of the first connecting plate 5062. Multiple railings 5063 are provided and are evenly distributed.

[0095] The third adjusting component 5064 is composed of a bent rod and an electric push rod, and is installed on the outside of the first connecting plate 5062.

[0096] The movable component 5065 is composed of several circular rings and connecting rods, and is connected to the third adjusting component 5064.

[0097] The fourth adjusting component 5066 is composed of a connecting frame and an electric push rod, and is installed on the outside of the circular plate 505.

[0098] The second connecting plate 5067 is installed on the outside of the fourth adjusting member 5066;

[0099] The fifth adjusting component 5068 is composed of a connecting frame and an electric push rod, and is installed on the outside of the second connecting plate 5067.

[0100] Scraper 5069 is connected to the fifth adjusting component 5068.

[0101] Initially, the first connecting plate 5062 is in a vertical position. The electric push rod in the second adjusting member 5061 is activated, which drives the first connecting plate 5062 to move towards the packaged material. The railings 5063 at different heights gradually come into contact with the material. As the stroke of the first push rod 502 changes, the railings 5063 move with the material to the inclined plate 507. The electric push rod in the second adjusting member 5061 is adjusted back to the initial position, and the railings 5063 move away from the material. The electric push rod in the third adjusting member 5064 is activated, which drives the moving member 5065 to move away from the first connecting plate 5062. The circular ring in the moving member 5065 scrapes away impurities from the outside of the railings 5063, promoting the removal of impurities from the railings 5063.

[0102] As the motor is turned on, the second connecting plate 5067 gradually becomes vertical. The electric push rod in the fifth adjusting component 5068 is adjusted, and the electric push rods on both sides drive the two scrapers 5069 to move until the two scrapers 5069 come into contact and the bottom of the scrapers 5069 contacts the upper surface of the packaging platform 4. As the stroke of the first push rod 502 changes, the scrapers 5069 drive the impurities to move away from the packaging platform 4.

[0103] By setting the replacement component 506, the packaged material is escorted away from the unloading platform 4 or its upper surface is simply cleaned. Multiple railings 5063 are installed to clamp and escort the packaged material at multiple points on both sides during discharge, reducing the possibility of loose threads. The railings 5063 also act as a compressive force, reducing the likelihood of some material falling off. After escorting the material, a movable scraper 5069 is used to scrape away impurities on the unloading platform 4. The first connecting plate 5062 and the second connecting plate 5067, which can be angled, facilitate switching between escorting the material and cleaning the unloading platform 4.

[0104] The pretreatment unit 7 also includes:

[0105] Mounting rod 712 is installed inside the card holder 6;

[0106] Side plate 701, which is connected to mounting rod 712;

[0107] The second push rod 702 is an electric push rod and is installed above the side plate 701.

[0108] Top plate 703, top plate 703 is connected to the telescopic end of the second push rod 702;

[0109] The third push rod 704 is an electric push rod and is installed at the bottom of the top plate 703.

[0110] Mounting bracket 705 is connected to the telescopic end of the third push rod 704;

[0111] Connecting plate 706, there are two connecting plates 706, which are respectively installed at both ends of the mounting bracket 705, and the fourth push rod 707 is installed at the bottom of the connecting plate 706;

[0112] Channel 711 is provided inside the mounting bracket 705, and multiple channels 711 are provided.

[0113] Adjusting rod 709 is installed at the bottom of connecting rod 708 and connected to cylinder 710. Two fourth push rods 707 are provided at the bottom of each connecting plate 706. Two adjusting rods 709 are provided below each fourth push rod 707. Each adjusting rod 709 is connected to a cylinder 710, and the two cylinders 710 connected to the two adjusting rods 709 below the same fourth push rod 707 are not adjacent.

[0114] As the material moves to the pretreatment mechanism 7 along with the feeding conveyor 2, the third push rod 704 is activated. The third push rod 704 drives the mounting frame 705 to squeeze the material downward. Then, the fourth push rod 707 below each of the two connecting plates 706 is activated to the reciprocating motion mode. The fourth push rod 707 drives the connecting rod 708, the adjusting rod 709 and the cylinder 710 to reciprocate in the vertical direction. The cylinder 710 passes through the channel 711 to squeeze the material, promoting the outflow of water in the material. The sponge shell outside the cylinder 710 absorbs water.

[0115] When squeezing again, replace the fourth push rod 707 below the two connecting plates 706, and use another set of cylinders 710 and sponge shell to squeeze and absorb water.

[0116] By setting up a pre-treatment mechanism 7, the material before entering the machine body 1 is squeezed and dehydrated. During the non-metallic packaging process, excessively loose material or high moisture content can easily affect packaging efficiency. By setting up the pre-treatment mechanism 7, the material is squeezed before packaging to reduce its size, facilitating the packaging process. After squeezing, moisture is absorbed to reduce the moisture content of the material, thereby solving the aforementioned problems.

[0117] Working principle: Before using the equipment, the worker places the non-metallic material to be packaged into the feeding conveyor 2. The feeding conveyor 2 drives the material to gradually move into the machine body 1. During this process, the pre-processing mechanism 7 is in the open state to perform pre-processing work on the material before packaging.

[0118] As the material moves to the pretreatment mechanism 7 along with the feeding conveyor 2, the third push rod 704 is activated. The third push rod 704 drives the mounting frame 705 to squeeze the material downward. Then, the fourth push rod 707 below each of the two connecting plates 706 is activated to the reciprocating motion mode. The fourth push rod 707 drives the connecting rod 708, the adjusting rod 709 and the cylinder 710 to reciprocate in the vertical direction. The cylinder 710 squeezes the material, promoting the outflow of water from the material. The sponge shell outside the cylinder 710 absorbs water.

[0119] When squeezing again, replace the fourth push rod 707 below the two connecting plates 706, and use another set of cylinders 710 and sponge shell to squeeze and absorb water.

[0120] As the material enters the machine body 1, the machine body 1 begins to perform multiple compression operations on the material and package it. The door opening cylinder 3 is opened, and the packaged material is pushed to the unpacking platform 4. The contact mechanism 5 is activated to process the unpacking platform 4 and the packaged material.

[0121] Before the material discharge operation, the first push rod 502 is activated. The first push rod 502 drives the sliding plate 503 to move towards the opening cylinder 3, which in turn drives the connecting component 504 and the replacement component 506 to move. The replacement component 506 is adjusted so that it contacts the packaged material. The stroke of the first push rod 502 is adjusted, and the first push rod 502 drives the sliding plate 503 and the replacement component 506 to move, escorting the material away from the unpacking platform 4. The material is discharged through the inclined plate 507.

[0122] Initially, the first connecting plate 5062 is in a vertical position. The electric push rod in the second adjusting member 5061 is activated, which drives the first connecting plate 5062 to move towards the packaged material. The railings 5063 at different heights gradually come into contact with the material. As the stroke of the first push rod 502 changes, the railings 5063 move with the material to the inclined plate 507. The electric push rod in the second adjusting member 5061 is adjusted back to the initial position, and the railings 5063 move away from the material. The electric push rod in the third adjusting member 5064 is activated, which drives the moving member 5065 to move away from the first connecting plate 5062. The circular ring in the moving member 5065 scrapes away impurities from the outside of the railings 5063, promoting the removal of impurities from the railings 5063.

[0123] After the material discharge operation, the first push rod 502 is activated, causing the sliding plate 503 to move towards the locking post 509. The electric push rod in the first adjusting component 5044 is adjusted to its initial state, at which point the arc plate 5045 is positioned away from the ring 5043. The telescopic rod 508 is activated, causing the locking post 509 to pass through the through groove 5041 in the sliding plate 503 and enter the ring 5043. Subsequently, the locking post 509 contacts the thread 5046. The motor is activated, causing the telescopic rod 508 and the locking post 509 to deflect. The locking post 509 causes the ring 5043, the locking rod 5047, and the replacement component 506 to deflect, thereby switching the angle and working state of the replacement component 506. Then, the electric push rod in the first adjusting component 5044 is activated, causing the arc plate 5045 to contact the fixed ring 5043. Adjust the telescopic rod 508 to its initial state, and the telescopic rod 508 and the locking post 509 return to the inside of the package delivery platform 4.

[0124] The first push rod 502 drives the sliding plate 503 and the replacement component 506 to move, and the replacement component 506 is used to process the upper surface of the packaging platform 4.

[0125] As the motor is turned on, the second connecting plate 5067 gradually becomes vertical. The electric push rod in the fifth adjusting component 5068 is adjusted, and the electric push rods on both sides drive the two scrapers 5069 to move until the two scrapers 5069 come into contact and the bottom of the scrapers 5069 contacts the upper surface of the packaging platform 4. As the stroke of the first push rod 502 changes, the scrapers 5069 drive the impurities to move away from the packaging platform 4.

[0126] Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all of them. All other embodiments obtained by those skilled in the art and related fields based on the embodiments of the present invention without inventive effort should fall within the scope of protection of the present invention. Structures, devices, and operating methods not specifically described and explained in the present invention, unless otherwise specified or limited, shall be implemented according to conventional means in the art.

Claims

1. A horizontal hydraulic non-metallic baling machine, comprising a machine body (1), characterized in that: A feeding conveyor (2) is installed outside the machine body (1); A door opening cylinder (3) is installed on the outside of the machine body (1); The packaging platform (4) is connected to the machine body (1), and a motor is installed inside the packaging platform (4); Card holder (6), said card holder (6) is installed outside the feeding conveyor (2); The contact mechanism (5) is installed outside the packaging platform (4). The contact mechanism (5) includes a circular plate (505) and a connecting component (504). A replacement component (506) is installed outside the circular plate (505). The replacement component (506) and the connecting component (504) are both located on both sides of the packaging platform (4) for squeezing the packaged material. The connecting component (504) includes a ring (5043) and a locking rod (5047). The locking rod (5047) is engaged with the circular plate (505). The ring (5043) and the locking rod (5047) are used to drive the circular plate (505) and the replacement component (506) to deflect, thereby adjusting the replacement component (506) to squeeze or convey the packaged material. A pretreatment mechanism (7) is connected to a card holder (6). The pretreatment mechanism (7) includes a fourth push rod (707). A connecting rod (708) is installed at the bottom of the fourth push rod (707). A cylinder (710) is provided below the connecting rod (708). A sponge shell is fitted on the outside of the cylinder (710). The fourth push rod (707) is used to control the lifting and lowering of the cylinder (710) and the sponge shell. The replacement component (506) includes: The second adjusting member (5061) is mounted on the outside of the circular plate (505); The first connecting plate (5062) is mounted on the outside of the second adjusting member (5061); A railing (5063) is installed on the outside of the first connecting plate (5062), and multiple railings (5063) are provided and evenly distributed; A fourth adjusting member (5066) is mounted on the outside of the circular plate (505); The second connecting plate (5067) is mounted on the outside of the fourth adjusting member (5066); A fifth adjusting member (5068) is installed on the outside of the second connecting plate (5067); Scraper (5069), which is connected to the fifth adjusting member (5068).

2. The horizontal hydraulic non-metallic baler according to claim 1, characterized in that: The contact mechanism (5) further includes: Mounting frames (501), two mounting frames (501) are provided, and the two mounting frames (501) are respectively installed at both ends of the packaging platform (4); The first push rod (502) is installed inside the mounting frame (501); A sliding plate (503) is slidably connected inside the mounting frame (501). The sliding plate (503) is connected to the telescopic end of the first push rod (502). The sliding plate (503) is connected to the connecting assembly (504).

3. The horizontal hydraulic non-metallic baler according to claim 2, characterized in that: The contact mechanism (5) further includes: Inclined plate (507), said inclined plate (507) is installed on the outside of the package delivery platform (4); Telescopic rod (508), the telescopic rod (508) is connected to the output end of the motor, and a locking post (509) is installed on the outside of the telescopic rod (508).

4. The horizontal hydraulic non-metallic baler according to claim 3, characterized in that: The connection component (504) includes: A through groove (5041) is formed inside the sliding plate (503); An annular groove (5042) is formed inside the sliding plate (503). A circular ring (5043) is rotatably connected inside the annular groove (5042). A locking rod (5047) is installed outside the circular ring (5043). Multiple locking rods (5047) are provided.

5. The horizontal hydraulic non-metallic baler according to claim 4, characterized in that: The connection component (504) further includes: The first adjusting member (5044) is mounted on the outside of the sliding plate (503); An arc-shaped plate (5045) is connected to a first adjusting member (5044); The annulus (5043) has a thread (5046) inside, and there are multiple threads (5046).

6. The horizontal hydraulic non-metallic baler according to claim 1, characterized in that: The replacement component (506) also includes: A third adjusting member (5064) is mounted on the outside of the first connecting plate (5062); A movable element (5065) is connected to a third adjusting element (5064).

7. The horizontal hydraulic non-metallic baler according to claim 1, characterized in that: The pretreatment mechanism (7) further includes: Mounting rod (712), which is installed inside the card holder (6); Side plate (701), the side plate (701) is connected to the mounting rod (712); The second push rod (702) is mounted above the side plate (701); Top plate (703), which is connected to the telescopic end of the second push rod (702).

8. The horizontal hydraulic non-metallic baler according to claim 7, characterized in that: The pretreatment mechanism (7) further includes: The third push rod (704) is installed at the bottom of the top plate (703); Mounting bracket (705), which is connected to the telescopic end of the third push rod (704); Connecting plate (706), two connecting plates (706) are provided, and the two connecting plates (706) are respectively installed at both ends of the mounting bracket (705), and the fourth push rod (707) is installed at the bottom of the connecting plate (706); Channel (711), the channel (711) is opened inside the mounting bracket (705), and multiple channels (711) are opened; An adjusting rod (709) is installed at the bottom of a connecting rod (708) and is connected to a cylinder (710).