CN218902091U - Synthetic resin blanking mechanism - Google Patents

Abstract

The utility model discloses a synthetic resin blanking mechanism, and relates to the technical field of resin blanking. The utility model comprises a base plate, a conveying assembly and two side plates are arranged on the upper side of the base plate, a fixing assembly is movably matched with the upper part of the conveying assembly, an electric push rod and a telescopic rod are respectively arranged on the opposite inner sides of the two side plates, a fixing block is arranged between the output ends of the electric push rod and the telescopic rod, a motor is arranged on one side of the fixing block, a cutting plate is arranged at the output end of the motor, two extension plates are arranged at one end of the motor, and a clamping plate which is in sliding fit in the fixing block is arranged on one side of the extension plates. According to the utility model, the rod body is convenient to pull through the circular plate, so that the inserting rod is driven to slide out of the clamping plate through the plate body, the motor is convenient to disassemble and maintain, the plate body elastically slides in the fixed block, the plate body is convenient to quickly reset to drive the inserting rod to be inserted into the clamping plate when the motor is installed, and meanwhile, the probability that the inserting rod slides out of the clamping plate due to the working vibration of the motor is reduced.

Description

Synthetic resin blanking mechanism

Technical Field

The utility model belongs to the technical field of resin blanking, and particularly relates to a synthetic resin blanking mechanism.

Background

The resin is a normal metabolite or secretion of plant tissues, is often mixed with volatile oil and is stored in secretory cells, resin channels or ducts of plants, especially ducts of perennial woody plant heartwood parts, and in the process of producing the resin, each batch of products can produce about 15 kg of strip-shaped resin, and if the strip-shaped resin is not chopped and then dried, the quality of the final product is reduced and the color is changed yellow.

The patent application with the publication number of CN209682746U discloses a synthetic resin tile trimming device, which comprises a frame, a cutting platform fixed on the frame, a stop mechanism arranged on the cutting platform and a cutting device arranged below the cutting platform; the cutting platform is transversely provided with a chute; the material blocking mechanism comprises a material blocking plate, a sliding block fixed at the bottom of the material blocking plate and in sliding fit with the sliding groove, and a first screw rod rotatably connected with the frame; the sliding block is provided with a first threaded hole matched with the first screw rod; the cutting device comprises a guide rail transversely arranged below the cutting platform, a sliding seat in sliding fit with the guide rail, a second screw rod in threaded fit with the sliding seat and used for driving the sliding seat to slide, and a cutting machine fixed on the sliding seat; the cutter comprises a gear motor and a cutter disc fixed on the rotating shaft of the gear motor, and the cutter disc extends out of the upper portion of the cutting platform through a through groove on the cutting platform.

The cutting machine disclosed in the application is fixed on the sliding seat, various machine faults can be inevitably caused by daily use of the cutting machine, and when abnormal conditions of the cutting machine can not continue to work normally, the cutting machine is inconvenient to detach conveniently, so that the working efficiency is affected.

Disclosure of Invention

The utility model aims to provide a synthetic resin blanking mechanism, which solves the technical problems that the conventional cutting machine is fixed on a sliding seat, various machine faults can not be avoided when the cutting machine is used in daily life, and the cutting machine is inconvenient to detach conveniently and fast when abnormal conditions of the cutting machine occur and can not work normally, so that the working efficiency is affected.

In order to achieve the purpose, the utility model is realized by the following technical scheme:

the utility model provides a synthetic resin blank mechanism, which comprises a substrate, the conveying assembly has been installed to the base plate upside, two curb plates, conveying assembly upper portion movable fit has fixed subassembly, electric putter has been installed respectively to two curb plates relative inboard, the telescopic link, the fixed block has been installed between the output of electric putter, the telescopic link, fixed block one side is equipped with the motor, the cutting piece has been installed to the motor output, the cutting piece is located between motor and the conveying assembly, two extension boards have been installed to motor one end, the cardboard has been installed to one side that the motor was kept away from to the extension board, cardboard sliding fit is in the fixed block, elastic sliding has the plate body in the fixed block, four inserted bars have been installed to plate body one side, inserted bar sliding fit is in the cardboard, the body of rod has been installed to one side that the inserted bar was kept away from to the plate body, the body of rod runs through the fixed block, the plectane has been installed to the one end that the plate body was kept away from to the rod body, the fixed block is located between plectane and the motor.

Optionally, two notches have been seted up to fixed block one side, and the notch runs through the upside of fixed block, and the draw-in groove corresponding with the notch has been seted up to the fixed block upside, draw-in groove and notch intercommunication, extension board sliding fit in the notch, cardboard sliding fit in the draw-in groove.

Optionally, a slot is formed on one side of the fixed block, a chute is formed at one end of the inner wall of the slot, the plate body is slidably matched in the chute, four first springs are arranged between one side of the plate body and one side of the inner wall of the chute, the first springs are located on the side of the rod body, and the rod body penetrates through the slot.

Optionally, two through grooves are formed between the sliding groove and the clamping groove, the through grooves are communicated with the sliding groove and the clamping groove, insertion holes corresponding to the through grooves are formed in one side of the clamping plate, and one end of the inserting rod penetrates through the through grooves to be in sliding fit with the insertion holes.

Optionally, the conveying assembly comprises two supports arranged on the upper side of the substrate, a conveyor belt is movably matched between the two supports, a second channel is arranged on the upper side of each support, and a first channel is arranged on the outer side of each support.

Optionally, the fixed subassembly includes two backup pads, and the support is located between two backup pads, and the roof has been installed to two backup pads upside, and support one side normal running fit has two first gyro wheels corresponding with first channel, and first gyro wheel movable fit is in first channel, and the axostylus axostyle has been installed to support one side, and axostylus axostyle week side normal running fit has the second gyro wheel corresponding with the second channel, and second gyro wheel movable fit is in the second channel.

Optionally, the fixed subassembly still includes the clamp plate, and the clamp plate is located between roof and the conveyer belt, and pull rod, two slide bars have been installed to the clamp plate upside, and the pull rod is located between two slide bars, and pull rod and slide bar upper end all run through the roof, and the handle has been installed to the pull rod upper end, and the baffle has been installed to the slide bar upper end, and handle, baffle are located the top of roof, and slide bar week side cover is equipped with the second spring, and the second spring is located between clamp plate and the roof.

The embodiment of the utility model has the following beneficial effects:

according to the embodiment of the utility model, the rod body is conveniently pulled through the circular plate, so that the inserting rod is driven to slide out of the clamping plate through the plate body, the motor is conveniently detached and maintained, the plate body is elastically slid in the fixed block, the plate body is conveniently quickly reset to drive the inserting rod to be inserted into the clamping plate when the motor is installed, meanwhile, the probability that the inserting rod slides out of the clamping plate due to the working vibration of the motor is reduced, the displacement direction of the motor is limited through the clamping plate, and the displacement direction of the clamping plate is limited through the inserting rod, so that the firmness of the motor in fixing is improved.

Of course, it is not necessary for any one product to practice the utility model to achieve all of the advantages set forth above at the same time.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

FIG. 1 is a schematic perspective view of an embodiment of the present utility model;

FIG. 2 is a schematic diagram of the structure of FIG. 1 at A;

fig. 3 is a schematic cross-sectional structure of an embodiment of the present utility model.

Wherein the above figures include the following reference numerals:

the base plate 1, the side plate 2, the electric push rod 3, the telescopic rod 4, the fixed block 5, the notch 501, the clamping groove 502, the through groove 503, the sliding groove 504, the slotted hole 505, the plate body 6, the rod body 601, the circular plate 602, the inserting rod 603, the first spring 604, the motor 7, the cutting blade 701, the extension plate 702, the clamping plate 703, the inserting hole 704, the bracket 8, the first channel 801, the second channel 802, the support plate 9, the first roller 901, the shaft rod 902, the second roller 903, the top plate 904, the pressing plate 10, the pull rod 1001, the handle 1002, the sliding rod 1003, the baffle 1004, the second spring 1005 and the conveyor belt 11.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. The following description of at least one exemplary embodiment is merely exemplary in nature and is in no way intended to limit the utility model, its application, or uses.

In order to keep the following description of the embodiments of the present utility model clear and concise, the detailed description of known functions and known components thereof have been omitted.

Referring to fig. 1-3, in this embodiment, a synthetic resin blanking mechanism is provided, which includes: the substrate 1, conveying component has been installed to substrate 1 upside, conveying component upper portion clearance fit has fixed subassembly, electric putter 3 is installed respectively to two curb plates 2 relative inboard, telescopic link 4, electric putter 3, fixed block 5 has been installed between the output of telescopic link 4, fixed block 5 one side is equipped with motor 7, the cutting piece 701 has been installed to motor 7 output, the cutting piece 701 is located between motor 7 and the conveying component, two extension boards 702 have been installed to motor 7 one end, the cardboard 703 has been installed to one side that the motor 7 was kept away from to extension board 702, cardboard 703 sliding fit is in fixed block 5, elastic sliding has plate body 6 in the fixed block 5, four inserted bars 603 have been installed to plate body 6 one side, inserted bar 603 sliding fit is in cardboard 703, the body 601 has been installed to one side that the inserted bar 603 was kept away from to plate body 6, body 601 runs through fixed block 5, disc 602 has been installed to one end that plate body 601 kept away from plate body 6, fixed block 5 is located between plectane 602 and motor 7.

The application of one aspect of the embodiment is: during the use, place strip synthetic resin material on conveying assembly, then fix the material through fixed subassembly, conveying assembly work transports the material to cutting blade 701 direction, electric putter 3 flexible drive fixed block 5 simultaneously, motor 7, cutting blade 701 reciprocating motion, then motor 7 work drives cutting blade 701 and rotates the cutting to the material, when need dismantle motor 7, the pulling plectane 602 drives the body of rod 601, plate body 6, inserted bar 603 displacement, inserted bar 603 roll-off cardboard 703 this moment, then upwards lift motor 7, make extension board 702 and cardboard 703 roll-off fixed block 5 upwards, after unclamping plectane 602, plate body 6 receives the elasticity effect and drives body of rod 601, plectane 602, inserted bar 603 slip reset, accomplish the dismantlement to motor 7 fast, the same reason, can install fixedly fast motor 7 with reference to above-mentioned operation. It should be noted that the electric equipment in the present application can be powered by a storage battery or an external power supply.

The rod body 601 is convenient to pull through the circular plate 602, thereby drive inserted link 603 roll-off cardboard 703 through plate body 6, be convenient for dismantle the maintenance to motor 7, through plate body 6 elastic sliding in fixed block 5, be convenient for when installing motor 7, plate body 6 quick reset drives inserted link 603 insert cardboard 703 in, reduce simultaneously because of motor 7 operational shock makes the probability of inserted link 603 roll-off cardboard 703, through the displacement direction of cardboard 703 restriction motor 7, and the displacement direction of inserted link 603 restriction cardboard 703, thereby improve the fastness when motor 7 is fixed.

As shown in fig. 3, two notches 501 are formed on one side of the fixing block 5 in this embodiment, the notches 501 penetrate through the upper side of the fixing block 5, a clamping groove 502 corresponding to the notches 501 is formed on the upper side of the fixing block 5, the clamping groove 502 is communicated with the notches 501, the extension plate 702 is slidably matched in the notches 501, the clamping plate 703 is slidably matched in the clamping groove 502, the width of the clamping plate 703 is larger than that of the extension plate 702, and the clamping plate 703 is matched with the clamping groove 502, so that the displacement direction of the motor 7 is limited. The fixed block 5 is provided with a slotted hole 505 on one side, one end of the inner wall of the slotted hole 505 is provided with a chute 504, the plate body 6 is in sliding fit in the chute 504, four first springs 604 are arranged between one side of the plate body 6 and one side of the inner wall of the chute 504, the first springs 604 are positioned on the side part of the rod body 601, the rod body 601 penetrates through the slotted hole 505, when the circular plate 602 is pulled, the plate body 6 displaces to squeeze the first springs 604, and when the circular plate 602 is loosened, the first springs 604 rebound to push the plate body 6 to reset. Two through grooves 503 are formed between the sliding groove 504 and the clamping groove 502, the through grooves 503 are communicated with the sliding groove 504 and the clamping groove 502, insertion holes 704 corresponding to the through grooves 503 are formed in one side of the clamping plate 703, one end of the inserting rod 603 penetrates through the through grooves 503 to be in sliding fit with the insertion holes 704, the inserting rod 603 is matched with the insertion holes 704, and therefore displacement of the clamping plate 703 is limited, and fixing firmness of the motor 7 is improved.

As shown in fig. 1-2, the conveying assembly of the present embodiment includes two brackets 8 mounted on the upper side of the substrate 1, a conveyor belt 11 movably fitted between the two brackets 8, a second channel 802 provided on the upper side of the brackets 8, and a first channel 801 provided on the opposite outer sides of the two brackets 8, and the strip-shaped synthetic resin material placed on the upper side of the brackets is transported by the conveyor belt 11.

As shown in fig. 1-2, the fixing assembly of the present embodiment includes two support plates 9, a bracket 8 is located between the two support plates 9, a top plate 904 is installed on the upper sides of the two support plates 9, two first rollers 901 corresponding to the first channels 801 are rotatably fitted on one side of the bracket 8, the first rollers 901 are movably fitted in the first channels 801, friction force between the support plates 9 and the bracket 8 when the support plates 9 are displaced is reduced by the first rollers 901 being fitted with the first channels 801, a shaft lever 902 is installed on one side of the bracket 8, a second roller 903 corresponding to the second channels 802 is rotatably fitted on the peripheral side of the shaft lever 902, the second roller 903 is movably fitted in the second channels 802, friction force between the support plates 9 and the bracket 8 is reduced by the second rollers 903 being fitted with the second channels 802, displacement distance of the fixing assembly is limited by the first channels 801 and the second channels 802, and probability of contact between the fixing assembly and the cutting blade 701 is reduced. The fixed assembly further comprises a pressing plate 10, the pressing plate 10 is located between the top plate 904 and the conveying belt 11, a pull rod 1001 and two sliding rods 1003 are arranged on the upper side of the pressing plate 10, the pull rod 1001 is located between the two sliding rods 1003, the pull rod 1001 and the upper ends of the sliding rods 1003 penetrate through the top plate 904, a pull handle 1002 is arranged at the upper end of the pull rod 1001, the pull rod 1001 is conveniently lifted through the pull handle 1002, a baffle 1004 is arranged at the upper end of the sliding rods 1003, the displacement distance of the sliding rods 1003 is limited through the baffle 1004, the pull handle 1002 and the baffle 1004 are located above the top plate 904, a second spring 1005 is sleeved on the periphery of the sliding rods 1003, the second spring 1005 is located between the pressing plate 10 and the top plate 904, in operation, the pull handle 1002 is lifted upwards, the pull rod 1001, the pressing plate 10 and the sliding rods 1003 are driven to move upwards, the pressing plate 10 moves upwards to squeeze the second spring 1005, then materials are placed on the conveying belt 11, then the pull handle 1002 is loosened, the second spring 1005 is pushed to rebound, the pressing plate 10 is pushed downwards, the materials are fixed, the materials are driven, the conveying belt 11 is driven to move, and the materials and the fixed assembly are displaced.

The above embodiments may be combined with each other.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be implemented in sequences other than those illustrated or described herein.

In the description of the present utility model, it should be understood that the azimuth or positional relationships indicated by the azimuth terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal", and "top, bottom", etc., are generally based on the azimuth or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and these azimuth terms do not indicate and imply that the apparatus or elements referred to must have a specific azimuth or be constructed and operated in a specific azimuth, and thus should not be construed as limiting the scope of protection of the present utility model; the orientation word "inner and outer" refers to inner and outer relative to the contour of the respective component itself.

Claims (7)

1. A synthetic resin blanking mechanism, characterized by comprising: the base plate (1), conveying assembly has been installed to base plate (1) upside, two curb plates (2), conveying assembly upper portion movable fit has fixed subassembly, electric putter (3) has been installed respectively to two curb plates (2) relative inboard, telescopic link (4), fixed block (5) have been installed between the output of electric putter (3), telescopic link (4), fixed block (5) one side is equipped with motor (7), cutting blade (701) have been installed to motor (7) output, two extension board (702) have been installed to motor (7) one end, cardboard (703) of sliding fit in fixed block (5) have been installed to extension board (702) one side, four inserted bars (603) have been installed to elastic sliding in fixed block (5) plate body (6), inserted bar (603) sliding fit is in cardboard (703), body (601) have been installed on the other side of plate body (6), plectane (601) one end has been installed plectane (602).

2. A synthetic resin blanking mechanism as claimed in claim 1, characterized in that two notches (501) are formed in one side of the fixed block (5), a clamping groove (502) corresponding to the notches (501) is formed in the upper side of the fixed block (5), the extension plate (702) is slidably fitted in the notches (501), and the clamping plate (703) is slidably fitted in the clamping groove (502).

3. A synthetic resin blanking mechanism as claimed in claim 2, characterized in that a slot (505) is provided on one side of the fixed block (5), a chute (504) is provided on one end of the inner wall of the slot (505), four first springs (604) are provided between the plate body (6) and one side of the inner wall of the chute (504), and the rod body (601) penetrates the slot (505).

4. A synthetic resin blanking mechanism as claimed in claim 3, characterized in that two through grooves (503) are provided between the chute (504) and the clamping groove (502), a jack (704) corresponding to the through groove (503) is provided on one side of the clamping plate (703), and one end of the inserting rod (603) penetrates through the through groove (503) and is in sliding fit with the jack (704).

5. A synthetic resin blanking mechanism as claimed in claim 1, characterized in that the conveying assembly comprises two brackets (8) arranged on the upper side of the base plate (1), a conveyor belt (11) is movably matched between the two brackets (8), a second channel (802) is arranged on the upper side of the brackets (8), and a first channel (801) is arranged on the opposite outer sides of the two brackets (8).

6. A synthetic resin blanking mechanism according to claim 5, characterized in that the fixing assembly comprises two supporting plates (9), a top plate (904) is arranged on the upper sides of the two supporting plates (9), two first rollers (901) corresponding to the first channels (801) are rotatably matched on one side of the support (8), a shaft lever (902) is arranged on one side of the support (8), and a second roller (903) corresponding to the second channels (802) is rotatably matched on the peripheral side of the shaft lever (902).

7. The synthetic resin blanking mechanism as claimed in claim 6, wherein the fixing assembly further comprises a pressing plate (10), a pull rod (1001) and two sliding rods (1003) are arranged on the upper side of the pressing plate (10), the pull rod (1001) and the upper ends of the sliding rods (1003) penetrate through the top plate (904), a handle (1002) is arranged on the upper end of the pull rod (1001), a baffle (1004) is arranged on the upper end of the sliding rod (1003), a second spring (1005) is sleeved on the periphery of the sliding rod (1003), and the second spring (1005) is located between the pressing plate (10) and the top plate (904).

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