CN217459356U - Hand-pressing-free tea cake pressing die assembly for rapeseed oil production - Google Patents

Abstract

The utility model relates to a rapeseed oil field of relevance specifically relates to a hand pressure's tea biscuit moulding-die subassembly is exempted from to rapeseed oil production, including workstation, pneumatic cylinder, clamp plate and pressure disk, the top shaping of workstation has roof and one side shaping to have the extension board, still including setting up the vibration refining subassembly on the extension board, the vibration refining subassembly is including vibration chassis, stop gear, cam vibration mechanism and actuating mechanism, and cam vibration mechanism is used for driving the vibration chassis and makes a round trip to vibrate on the extension board. Firstly, the utility model adopts the driving mechanism, the cam vibration mechanism and the limiting mechanism to cooperate to realize the back-and-forth vibration of the vibration chassis, so that the powdery raw material on the pressure plate is uniformly shaken, the labor and the time are saved, and the uniformity and the integrity of the tea cake are ensured; and secondly, the utility model discloses add and established vibration refining subassembly, can set up a set of pressure disk and shake even raw materials on one side during the production tea biscuit, the another side is a set of raw materials that shakes even another and is pressed into the tea biscuit, and output is higher in the same time.

Description

Hand-pressing-free tea cake pressing die assembly for rapeseed oil production

Technical Field

The utility model relates to a rapeseed oil field of being correlated with specifically relates to a hand-free tea biscuit moulding-die subassembly is used in rapeseed oil production.

Background

Extract tea oil from the tea seed, adopt the squeezing method basically, then need through smashing before squeezing and evaporate the stir-fry processing, smash the raw materials and evaporate the stir-fry processing back and obtain similar powdered finished product, traditional squeezing process uses pads such as straw on the pressure disk, places the ring form baffle of placing the powder material and spilling over on the pressure disk, pours this kind of powder material again on the straw and the manual work is screeded it, pushes away to the preliminary presscake form in pneumatic cylinder below afterwards, other machines of follow-up reuse suppression tea oil.

The traditional pressed tea cake still has the following defects: after having emptyd powdered raw materials, must earlier artifically smooth the compaction with the raw materials to it is inhomogeneous when preventing follow-up pneumatic cylinder suppression, withdraw ring form baffle and drop easily, bring a lot of inconvenience for subsequent pressure oil, it is long when this intangible extension preparation, brought inconvenience for the presswork tea cake, consequently necessary design a novel tea cake moulding-die subassembly in order to solve this type of problem.

SUMMERY OF THE UTILITY MODEL

Therefore, the tea cake pressing die assembly for producing the rapeseed oil is needed to solve the problems in the prior art and is free from hand pressing.

For solving the prior art problem, the utility model discloses a technical scheme be:

the utility model provides a hand pressure-free tea biscuit die assembly for rapeseed oil production, includes workstation, pneumatic cylinder, clamp plate and sets up the pressure disk that is used for holding the raw materials on the workstation, and the top shaping of workstation has roof and one side shaping to have the extension board, and the pneumatic cylinder is vertical to be set up on the roof down, and the clamp plate is coaxial to be set up on the output shaft of pneumatic cylinder, still including setting up the vibration refining subassembly on the extension board, the vibration refining subassembly includes:

the vibrating chassis is horizontally arranged on the lengthened plate in a sliding mode and used for containing the pressure plate;

the limiting mechanism is horizontally arranged on the lengthened plate and is in sliding connection with the vibration chassis;

the cam vibration mechanism is arranged on the lengthened plate and is used for driving the vibration chassis to vibrate back and forth on the lengthened plate;

and the driving mechanism is arranged on the lengthened plate and used for driving the cam vibration mechanism.

Preferably, the bottom shaping on vibration chassis has two rectangle risers that are the symmetric state, set up two parallel intervals on the extension plate and set up the logical groove that is used for dodging the rectangle riser.

Preferably, the cam oscillating mechanism includes:

the vertical cam is in transmission connection with the driving mechanism;

the connecting rod, the one end shaping that actuating mechanism was kept away from to vertical cam have the cross axle, and the one end coupling of connecting rod is on the cross axle, and fixedly connected with a linking bridge between two rectangle risers, the one end shaping that linking bridge is close to actuating mechanism has two coupling lugs, the other end and two coupling lug couplings of connecting rod.

Preferably, the driving mechanism is a motor which is fixedly arranged at the bottom of the lengthened plate through a fixing support, the vertical cam is fixedly connected with an output shaft of the motor, and the output shaft of the motor and the transverse shaft are not coaxial.

Preferably, stop gear includes that two sets of slide mechanism that are the symmetric state and set up in the linking bridge both ends, and every slide mechanism of group includes:

the two sliding blocks are fixedly arranged on one side, far away from the connecting support, of the corresponding rectangular vertical plate in a symmetrical state;

the rectangular slide rail that is the horizontality, it sets up in the bottom of extension board, two through the length direction that a rectangular support is on a parallel with the rectangle riser the slider slides and sets up on rectangular slide rail.

Preferably, the coaxial cover in top of pressure disk is equipped with the ring baffle that is used for preventing the raw materials and spills over, and the bottom of pressure disk is connected with handheld base, and the both ends shaping respectively of handheld base has a handheld handle, and the pressure disk is coaxial to be inserted and to be established on handheld base, and the top shaping on vibration chassis has the bulge loop, the inner wall of bulge loop is hugged closely to the coaxial placing of handheld base on handheld base and handheld base bottom outer cylinder, and the top shaping of workstation has and is used for the spacing sand grip of handheld base.

Compared with the prior art, the utility model beneficial effect who has is:

firstly, the utility model adopts the driving mechanism, the cam vibration mechanism and the limiting mechanism to cooperate to realize the back-and-forth vibration of the vibration chassis, so that the powdery raw material on the pressure plate is uniformly shaken, the labor and the time are saved, and the uniformity and the integrity of the tea cake are ensured;

and secondly, the utility model discloses add and established vibration refining subassembly, can set up a set of pressure disk and shake even raw materials on one side during the production tea biscuit, the another side is a set of raw materials that shakes even another and is pressed into the tea biscuit, and output is higher in the same time.

Drawings

FIG. 1 is a schematic perspective view of the embodiment;

FIG. 2 is a partial perspective view of the first embodiment;

FIG. 3 is an enlarged schematic view at A in FIG. 2;

FIG. 4 is a partial perspective view of the second embodiment;

FIG. 5 is a schematic view of a partial perspective structure of the third embodiment;

FIG. 6 is a schematic view of a partial perspective structure of the fourth embodiment;

the reference numbers in the figures are:

1-a workbench; 2-a hydraulic cylinder; 3, pressing a plate; 4-pressing a plate; 5-a top plate; 6-lengthening a plate; 7-vibrating the refining assembly; 8-vibrating the chassis; 9-a limiting mechanism; 10-a rectangular vertical plate; 11-a through slot; 12-a vertical cam; 13-a connecting rod; 14-horizontal axis; 15-connecting the stent; 16-a shaft connecting lug; 17-a motor; 18-a fixed support; 19-a slide block; 20-a long slide rail; 21-a strip support; 22-a circular ring baffle; 23-a handheld base; 24-a convex ring; 25-limiting convex strips.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Referring to fig. 1 to 6, shown tea biscuit moulding-die subassembly of exempting from hand pressure for rapeseed oil production, including workstation 1, pneumatic cylinder 2, clamp plate 3 and setting up the pressure disk 4 that is used for holding the raw materials on workstation 1, the top shaping of workstation 1 has roof 5 and one side shaping to have extension board 6, and pneumatic cylinder 2 sets up on roof 5 vertically down, and clamp plate 3 coaxial setting is on the output shaft of pneumatic cylinder 2, still including setting up vibration refining subassembly 7 on extension board 6, vibration refining subassembly 7 includes:

the vibrating chassis 8 is horizontally arranged on the lengthened plate 6 in a sliding mode and is used for containing the pressure plate 4;

the limiting mechanism 9 is horizontally arranged on the lengthened plate 6 and is connected with the vibrating chassis 8 in a sliding manner;

the cam vibration mechanism is arranged on the lengthened plate 6 and is used for driving the vibration chassis 8 to vibrate back and forth on the lengthened plate 6;

and the driving mechanism is arranged on the lengthened plate 6 and is used for driving the cam vibration mechanism.

The staff collects the raw materials on pressure disk 4, places on vibration chassis 8 after, through actuating mechanism drive cam vibration mechanism to realize vibrating chassis 8 reciprocating vibration, wait to vibrate after the suitable time, stop the vibration and the manual work moves pressure disk 4 to workstation 1, move pressure disk 4 to 2 bottoms of pneumatic cylinder and use pneumatic cylinder 2 cooperation clamp plate 3 to compress tightly the raw materials on pressure disk 4 after taking one's place afterwards, take out pressure disk 4 and move to next process and produce oil after lifting clamp plate 3.

The bottom shaping of vibration chassis 8 has two rectangle risers 10 that are the symmetric state, set up two parallel intervals on the extension plate 6 and set up the logical groove 11 that is used for dodging rectangle riser 10. The vibration bottom plate is arranged on the lengthened plate 6 in a sliding mode through two rectangular vertical plates 10, and the limiting mechanism 9, the cam vibration mechanism and the driving mechanism are located at the bottom of the lengthened plate 6.

The cam vibration mechanism includes:

the vertical cam 12 is in transmission connection with the driving mechanism;

the connecting rod 13 and one end of the vertical cam 12 far away from the driving mechanism are formed with a transverse shaft 14, one end of the connecting rod 13 is coupled to the transverse shaft 14, a connecting support 15 is fixedly connected between the two rectangular vertical plates 10, one end of the connecting support 15 near the driving mechanism is formed with two coupling convex blocks 16, and the other end of the connecting rod 13 is coupled to the two coupling convex blocks 16.

The corresponding end of the connecting rod 13 is driven to do circular motion by the rotation of the vertical cam 12, and the other end of the connecting rod 13 is connected to the two coupling convex blocks 16 in a shaft coupling mode, so that the other end of the connecting rod 13 is matched with the connecting support 15 and the limiting mechanism 9 to drive the vibrating chassis 8 to vibrate in a reciprocating mode.

The driving mechanism is a motor 17 which is fixedly arranged at the bottom of the lengthened plate 6 through a fixing bracket 18, the vertical cam 12 is fixedly connected with an output shaft of the motor 17, and the output shaft of the motor 17 is not coaxial with the transverse shaft 14. The motor 17 rotates the cam by rotation of the output shaft, which in turn rotates the corresponding end of the link 13 by the transverse shaft 14.

Stop gear 9 includes that two sets of slide mechanism that are the symmetric state and set up in linking bridge 15 both ends, and every slide mechanism of group includes:

the two sliding blocks 19 are fixedly arranged on one side of the corresponding rectangular vertical plate 10 far away from the connecting support 15 in a symmetrical state;

the long slide rail 20 in a horizontal state is arranged at the bottom of the elongated plate 6 in a manner that a long support 21 is parallel to the length direction of the rectangular vertical plate 10, and the two slide blocks 19 are arranged on the long slide rail 20 in a sliding manner.

The two sliding blocks 19 are fixed on the connecting support 15 and are arranged on the long sliding rails 20 in a sliding manner, so that the vibration chassis 8 can only reciprocate along the length direction of the rectangular vertical plate 10 due to the action of the connecting support 15, and the reciprocating vibration is realized by matching with the cam vibration mechanism and the driving mechanism.

The coaxial cover in top of pressure disk 4 is equipped with the ring baffle 22 that is used for preventing the raw materials to spill over, and pressure disk 4's bottom is connected with handheld base 23, and the both ends shaping respectively of handheld base 23 has a handheld handle, and pressure disk 4 is coaxial to be inserted and to be established on handheld base 23, and the top shaping on vibration chassis 8 has bulge loop 24, handheld base 23 is coaxial to be placed on handheld base 23 and handheld base 23 bottom outer cylinder hugs closely the inner wall of bulge loop 24, and the top shaping of workstation 1 has and is used for the spacing limit protruding strip 25 of handheld base 23. At first can directly place handheld base 23 on vibration chassis 8, place pressure disk 4 and ring baffle 22 afterwards, place the raw materials again on the baffle, can drive vibration chassis 8 vibration back and forth through actuating mechanism and cam vibration mechanism afterwards, treat to close motor 17 after the full vibration, will hand handheld base 23 through two handheld handles afterwards and remove to workstation 1 on, will hand handheld base 23 through spacing sand grip 25 and remove to suitable position rethread pneumatic cylinder 2 suppression tea biscuit.

The above examples are merely illustrative of one or more embodiments of the present invention, and the description thereof is more specific and detailed, but not intended to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (6)

1. The utility model provides a hand-free tea biscuit moulding-die subassembly for rapeseed oil production, including workstation (1), pneumatic cylinder (2), clamp plate (3) and set up pressure disk (4) that are used for holding the raw materials on workstation (1), the top shaping of workstation (1) has roof (5) and one side shaping to have extension board (6), pneumatic cylinder (2) are vertical to be set up down on roof (5), clamp plate (3) coaxial setting is on the output shaft of pneumatic cylinder (2), a serial communication port, still including setting up vibration refining subassembly (7) on extension board (6), vibration refining subassembly (7) include:

the vibrating chassis (8) is horizontally arranged on the lengthened plate (6) in a sliding mode and is used for containing the pressure plate (4);

the limiting mechanism (9) is horizontally arranged on the lengthened plate (6) and is connected with the vibration chassis (8) in a sliding way;

the cam vibration mechanism is arranged on the lengthened plate (6) and is used for driving the vibration chassis (8) to vibrate back and forth on the lengthened plate (6);

and the driving mechanism is arranged on the lengthened plate (6) and is used for driving the cam vibration mechanism.

2. The hand-pressing-free tea cake die assembly for rapeseed oil production according to claim 1, wherein the bottom of the vibration chassis (8) is formed with two symmetrical rectangular vertical plates (10), and the extension plate (6) is provided with two parallel through grooves (11) which are arranged at intervals and used for avoiding the rectangular vertical plates (10).

3. The hand-pressing-free tea cake die assembly for rapeseed oil production as claimed in claim 2, wherein the cam vibration mechanism comprises:

the vertical cam (12) is in transmission connection with the driving mechanism;

connecting rod (13), the one end shaping that actuating mechanism was kept away from to vertical cam (12) has cross axle (14), and the one end coupling of connecting rod (13) is on cross axle (14), and a linking bridge (15) of fixedly connected with between two rectangle risers (10), and the one end shaping that linking bridge (15) are close to actuating mechanism has two coupling lug (16), and the other end and two coupling lug (16) coupling of connecting rod (13).

4. The hand-pressing-free tea cake die assembly for rapeseed oil production as claimed in claim 3, wherein the driving mechanism is a motor (17) which is fixedly arranged at the bottom of the elongated plate (6) through a fixing bracket (18), the vertical cam (12) is fixedly connected with the output shaft of the motor (17), and the output shaft of the motor (17) is not coaxial with the transverse shaft (14).

5. The hand-pressing-free tea cake die assembly for rapeseed oil production as claimed in claim 3, wherein the limiting mechanism (9) comprises two sets of sliding mechanisms which are symmetrically arranged at two ends of the connecting bracket (15), and each set of sliding mechanisms comprises:

the two sliding blocks (19) are fixedly arranged on one side, far away from the connecting support (15), of the corresponding rectangular vertical plate (10) in a symmetrical state;

the long strip sliding rail (20) is in a horizontal state and is arranged at the bottom of the lengthened plate (6) in a way that a long strip support (21) is parallel to the length direction of the rectangular vertical plate (10), and the sliding blocks (19) are arranged on the long strip sliding rail (20) in a sliding way.

6. The hand-pressing-free tea cake pressing die assembly for producing rapeseed oil according to claim 1, characterized in that a circular ring baffle (22) for preventing raw materials from overflowing is coaxially sleeved on the top of the pressing plate (4), a handheld base (23) is connected to the bottom of the pressing plate (4), a handheld handle is respectively formed at two ends of the handheld base (23), the pressing plate (4) is coaxially inserted into the handheld base (23), a convex ring (24) is formed at the top of the vibration chassis (8), the handheld base (23) is coaxially placed on the handheld base (23), an outer cylinder at the bottom of the handheld base (23) is tightly attached to an inner wall of the convex ring (24), and a limiting convex strip (25) for limiting the handheld base (23) is formed at the top of the workbench (1).

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