CN201287472Y - Automatic numerical control peat briquetting machine - Google Patents

Automatic numerical control peat briquetting machine Download PDF

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Publication number
CN201287472Y
CN201287472Y CNU2008201359295U CN200820135929U CN201287472Y CN 201287472 Y CN201287472 Y CN 201287472Y CN U2008201359295 U CNU2008201359295 U CN U2008201359295U CN 200820135929 U CN200820135929 U CN 200820135929U CN 201287472 Y CN201287472 Y CN 201287472Y
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CN
China
Prior art keywords
hydraulic press
resistant plate
pressure
oil cylinder
mould
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CNU2008201359295U
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Chinese (zh)
Inventor
于民强
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Individual
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Individual
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Publication date
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Priority to CNU2008201359295U priority Critical patent/CN201287472Y/en
Application granted granted Critical
Publication of CN201287472Y publication Critical patent/CN201287472Y/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B11/00Presses specially adapted for forming shaped articles from material in particulate or plastic state, e.g. briquetting presses, tabletting presses
    • B30B11/005Control arrangements

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Presses And Accessory Devices Thereof (AREA)

Abstract

Disclosed is an automatic numerical-control peat block making machine, which is mainly composed of a feed barrel (1), a hydraulic worktable (2), a hydraulic press (3), a mold (4) and a hydraulic station (5), wherein the feed barrel (1), a large hydraulic cylinder (31) and a small hydraulic cylinder (32) are arranged on an upper pressure plate (21), a large hydraulic press mold (41), a small hydraulic press mold (42) and a mold mother-disc (45) are arranged between the upper pressure plate (21) and a lower pressure plate (22), a discharge outlet (25) is arranged under the lower pressure plate (22), and the automatic numerical-control peat block making machine can be monitored or set up by a monitor box (24). The utility model has simple structure, reliable operation, high efficiency without pollution and easy usage, maintenance and repairing.

Description

Automation numerical control peat cuber
Technical field
The utility model relates to a kind of briquetting machinery, the peat cuber of especially dynamo-electric combination.
Background technology
The peat raise seedling nutritive cube is mainly used in produces various cultivation matrixes, gardening material, feed, soil conditioner and fertilizer.Owing to the fast development of green agriculture, the peat product demand first mate who is used to grow seedlings improves in recent years, if use artificial manually operated old-fashioned machine to go to produce, not only production efficiency is low, and output does not reach requirement, and old-fashioned machine is seriously polluted, the cost height.Therefore, the peat cuber that designs a kind of whole automation control is very necessary.
Summary of the invention
According to background technology, the purpose of this utility model is to avoid above-mentioned deficiency, provide a kind of big or small hydraulic press mould that adopts the automatic feed mode and handle to carry out the binder discharging by mold carrier plate by big or small hydraulic press, adopt hydraulic power, working stability is reliable, product specification is unified, but high efficiency, the automation numerical control peat cuber of CR production.
To achieve these goals, the utility model is achieved through the following technical solutions:
A kind of automation numerical control peat cuber, mainly by head tank (1), hydraulic table (2), hydraulic press (3), mould (4) and Hydraulic Station (5) are formed, wherein: by last pressure-resistant plate (21), down pressure-resistant plate (22), support member (23) and control case (24) and form hydraulic table (2) by being spirally connected, it controls the side that case (24) is connected pressure-resistant plate (21) and following pressure-resistant plate (22); Go up and be reverse taper, interconnect down for the combine last pressure-resistant plate (21) of head tank (1) and hydraulic table (2) of type of cylinder, down reach at a distance of mold carrier plate (45) certain distance, and stirring motor (11), shaft (12) and paddle (13) are set at its top, at the following rear portion of head tank (1) observation window is set; On last pressure-resistant plate (21), row is provided with the big hydraulic press oil cylinder (31) and the little hydraulic press oil cylinder (32) of hydraulic press (3) behind the front side of head tank (1), between last pressure-resistant plate (21) and following pressure-resistant plate (22), by being fixed on the following guide rod (44) of pressure-resistant plate (21) big hydraulic press mould (41) and little hydraulic press mould (42) are set, and be connected with the piston rod (33) of big hydraulic press oil cylinder (31) and little hydraulic press oil cylinder (32) respectively, and the adjusting nut (34) of big hydraulic press oil cylinder (31) stroke and the adjusting nut (35) of little hydraulic press oil cylinder (32) stroke be set respectively, the discharging binder mould (43) of big hydraulic press mould (41) and little hydraulic press mould (42) is corresponding with the binder discharge opening (46) of the last corresponding size of mold carrier plate (45) respectively, and position by light sensation locator (49), above the pressure-resistant plate (22) mold carrier plate (45) is being set down, be connected with progressive motor (47) and decelerator (48) thereof in its lower section, and the rotating shaft of decelerator (48) is passed down pressure-resistant plate (22) and is connected with mold carrier plate (45), below the pressure-resistant plate (22) discharging opening (25) is being set down; By motor (56), small oil tank magnetic valve (51), large tank magnetic valve (52), oil filler (53), drain oil (54), water cooler (55) is formed Hydraulic Station (5), and is connected with little hydraulic press oil cylinder (32) with big hydraulic press oil cylinder (31) by pipeline (57).
Owing to adopted technique scheme, the utlity model has following advantage and effect:
1, but briquetting is finished in the utility model automation, goes out piece, and it is little to consume energy, environmental protection, and no dust, pollution-free, safe and reliable, the daily output can reach 20,000.
2, the utility model adopts standardized designs, and the mould precision is simple in structure, cheap, and working service and repairing are simple and easy.
Description of drawings
Fig. 1 a is the utility model structure collectivity schematic diagram
Fig. 1 b is the local enlarged diagram of the utility model
Fig. 2 is the utility model numerical control principle schematic
The specific embodiment
Illustrate by Fig. 1 a, Fig. 1 b and Fig. 2, a kind of automation numerical control peat cuber, mainly by head tank 1, hydraulic table 2, hydraulic press 3, mould 4 and Hydraulic Station 5 formed, and wherein: by last pressure-resistant plate 21, pressure-resistant plate 22, support member 23 and control case 24 and forms hydraulic table 2 by being spirally connected down, it controls the side that case 24 is connected pressure-resistant plate 21 and following pressure-resistant plate 22; Go up and be reverse taper, interconnect down for the combine last pressure-resistant plate 21 of head tank 1 and hydraulic table 2 of type of cylinder, down reach at a distance of mold carrier plate 45 certain distances, and stirring motor 11, shaft 12 and paddle 13 are set, observation window is set at the following rear portion of head tank 1 at its top; On last pressure-resistant plate 21, row is provided with the big hydraulic press oil cylinder 31 and the little hydraulic press oil cylinder 32 of hydraulic press 3 behind the front side of head tank 1, between last pressure-resistant plate 21 and following pressure-resistant plate 22, by being fixed on pressure-resistant plate 21 following guide rods 44 big hydraulic press mould 41 and little hydraulic press mould 42 are set, and be connected with the piston rod 33 of big hydraulic press oil cylinder 31 and little hydraulic press oil cylinder 32 respectively, and the adjusting nut 34 of big hydraulic press oil cylinder 31 strokes and the adjusting nut 35 of little hydraulic press oil cylinder 32 strokes be set respectively, the discharging binder mould 43 of big hydraulic press mould 41 and little hydraulic press mould 42 is corresponding with the binder discharge opening 46 of corresponding size on the mold carrier plate 45 respectively, and position by light sensation locator 49, above the pressure-resistant plate 22 mold carrier plate 45 is being set down, be connected with progressive motor 47 and decelerator 48 thereof in its lower section, and the rotating shaft of decelerator 48 is passed down pressure-resistant plate 22 and is connected with mold carrier plate 45, below the pressure-resistant plate 22 discharging opening 25 is being set down; By motor 56, small oil tank magnetic valve 51, large tank magnetic valve 52, oil filler 53, drain oil 54, water cooler 55 is formed Hydraulic Station 5, and is connected with little hydraulic press oil cylinder 32 with big hydraulic press oil cylinder 31 by pipeline 57.
Other knows, during production the peat material is put into head tank 1, stirs in bucket, and the feeding of feeding bucket has three groups of compacting holes to mold carrier plate 45 on the dish, suppress, and connects material from discharging opening 25, and pack gets final product.

Claims (1)

1, a kind of automation numerical control peat cuber, mainly by head tank (1), hydraulic table (2), hydraulic press (3), mould (4) and Hydraulic Station (5) are formed, it is characterized in that: by last pressure-resistant plate (21), down pressure-resistant plate (22), support member (23) and control case (24) and form hydraulic table (2) by being spirally connected, it controls the side that case (24) is connected pressure-resistant plate (21) and following pressure-resistant plate (22); Go up and be reverse taper, interconnect down for the combine last pressure-resistant plate (21) of head tank (1) and hydraulic table (2) of type of cylinder, down reach at a distance of mold carrier plate (45) certain distance, and stirring motor (11), shaft (12) and paddle (13) are set at its top, at the following rear portion of head tank (1) observation window is set; On last pressure-resistant plate (21), row is provided with the big hydraulic press oil cylinder (31) and the little hydraulic press oil cylinder (32) of hydraulic press (3) behind the front side of head tank (1), between last pressure-resistant plate (21) and following pressure-resistant plate (22), by being fixed on the following guide rod (44) of pressure-resistant plate (21) big hydraulic press mould (41) and little hydraulic press mould (42) are set, and be connected with the piston rod (33) of big hydraulic press oil cylinder (31) and little hydraulic press oil cylinder (32) respectively, and the adjusting nut (34) of big hydraulic press oil cylinder (31) stroke and the adjusting nut (35) of little hydraulic press oil cylinder (32) stroke be set respectively, the discharging binder mould (43) of big hydraulic press mould (41) and little hydraulic press mould (42) is corresponding with the binder discharge opening (46) of the last corresponding size of mold carrier plate (45) respectively, and position by light sensation locator (49), above the pressure-resistant plate (22) mold carrier plate (45) is being set down, be connected with progressive motor (47) and decelerator (48) thereof in its lower section, and the rotating shaft of decelerator (48) is passed down pressure-resistant plate (22) and is connected with mold carrier plate (45), below the pressure-resistant plate (22) discharging opening (25) is being set down; By motor (56), small oil tank magnetic valve (51), large tank magnetic valve (52), oil filler (53), drain oil (54), water cooler (55) is formed Hydraulic Station (5), and is connected with little hydraulic press oil cylinder (32) with big hydraulic press oil cylinder (31) by pipeline (57).
CNU2008201359295U 2008-09-26 2008-09-26 Automatic numerical control peat briquetting machine Expired - Fee Related CN201287472Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNU2008201359295U CN201287472Y (en) 2008-09-26 2008-09-26 Automatic numerical control peat briquetting machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CNU2008201359295U CN201287472Y (en) 2008-09-26 2008-09-26 Automatic numerical control peat briquetting machine

Publications (1)

Publication Number Publication Date
CN201287472Y true CN201287472Y (en) 2009-08-12

Family

ID=40979144

Family Applications (1)

Application Number Title Priority Date Filing Date
CNU2008201359295U Expired - Fee Related CN201287472Y (en) 2008-09-26 2008-09-26 Automatic numerical control peat briquetting machine

Country Status (1)

Country Link
CN (1) CN201287472Y (en)

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Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20090812

Termination date: 20130926