CN111165848B - Bitter gourd pulp digging device for manufacturing bitter gourd tea - Google Patents

Abstract

The invention discloses a bitter gourd pulp digging device for manufacturing bitter gourd tea, relates to the technical field of bitter gourd tea production equipment, and solves the problems that the conventional bitter gourd pulp digging device has various manual operation steps, needs to pull and pull a digging rod repeatedly by hand to dig pulp, is high in labor intensity and inconvenient to use, and causes low pulp digging operation efficiency. A bitter gourd pulp digging device for manufacturing bitter gourd tea comprises a circular base plate, a push switch, an L-shaped inserted link, an upper frame, a synchronous mounting ring and an arc-shaped blocking piece, wherein a round hole penetrates through the center of the circular base plate, and a sleeve is concentrically welded and supported at the top end of the round hole; the synchronous mounting ring sliding sleeve is mounted on the periphery of the sleeve; the two arc-shaped baffle plates are symmetrically inserted and blocked on the top end opening of the sleeve in a sliding way. According to the invention, through the corresponding insertion of the L-shaped inserted bar and the rack plate, the synchronous mounting ring can be positioned, so that the three top frames are kept in the top clamp positioning posture.

Description

Bitter gourd pulp digging device for manufacturing bitter gourd tea

Technical Field

The invention relates to the technical field of bitter gourd tea production equipment, in particular to a bitter gourd pulp digging device for preparing bitter gourd tea.

Background

The bitter gourd tea is a healthy drink which is pure in quality, easy to brew, fragrant and good in taste, is a good summer drink for diabetics, and is prepared by taking high-quality fresh bitter gourd and lotus plumule as main raw materials and scientifically processing the raw materials by using a low-temperature new technology.

At present, before bitter gourd tea is prepared, bitter gourd with the same length generally needs to be screened, the head of the bitter gourd is cut flat, then bitter gourd pulp is dug out of the bitter gourd manually by workers, and then the workers can put a proper amount of Pu' er tea, black tea, white tea and other tea into the bitter gourd, so that a bitter gourd pulp digging device is urgently needed to be developed for the preparation and production of the bitter gourd tea so as to meet the requirement of actual production; however, the existing bitter melon pulp digging device generally has the problems that the manual operation steps are various, the manual pulling and pulling digging rod needs to be repeatedly pulled to dig out the pulp, the labor intensity is hard, the use is inconvenient, and the pulp digging operation efficiency is low.

Disclosure of Invention

The invention aims to provide a bitter gourd pulp digging device for manufacturing bitter gourd tea, and aims to solve the problems that manual operation steps are multiple, a digging rod needs to be pulled and pulled repeatedly manually to dig pulp, labor intensity is high, use is inconvenient, and pulp digging operation efficiency is low.

In order to achieve the purpose, the invention provides the following technical scheme: a bitter gourd pulp digging device for manufacturing bitter gourd tea comprises a circular base plate, a push switch, an L-shaped inserted rod, an upper frame, a synchronous mounting ring and an arc-shaped blocking piece, wherein a round hole penetrates through the center of the circular base plate, and a sleeve is concentrically welded and supported at the top end of the round hole; the push switch is electrically connected with the motor, and the bottom position of the end face of the front side of the motor is downwards locked and supported with an L-shaped ejector rod; the top end section of the vertical square rod at the rear side of the L-shaped inserted rod is obliquely sliced; the three top frames are all arranged in a zigzag turning support shape and penetrate through the circumferential outer wall of the sleeve in an annular array; the synchronous mounting ring sliding sleeve is mounted on the periphery of the sleeve; the two arc-shaped baffle plates are symmetrically inserted and blocked on the top end opening of the sleeve in a sliding way.

Preferably, the circular base plate comprises sliding columns and positioning shafts, the top end of the circular base plate symmetrically supports two sliding columns and two positioning shafts, a synchronous mounting ring slides on the two positioning shafts through spring pushing sleeves, and a motor is arranged on each of the two sliding columns through the spring pushing sleeves in a sliding manner.

Preferably, the synchronous mounting ring comprises top wheels, connecting rods and a rack plate, the bottom of the synchronous mounting ring is provided with three top wheels which are supported downwards in an annular array, two supporting plates are symmetrically welded inside the synchronous mounting ring, and the tail ends of the two connecting rods are rotatably connected to the two supporting plates; the bottom of the sleeved lug plate right in front of the synchronous mounting ring is downwards supported and welded with a rack plate.

Preferably, the sleeve comprises track plates and a positioning sleeve, two track plates are symmetrically welded on the circumferential outer wall of the opening position at the top end of the sleeve, and a cross-shaped sliding groove is formed in each of the two track plates in a penetrating manner; a positioning sleeve is welded and supported on the circumferential outer wall of the top end of the sleeve to the right front, and the ejector rod can be inserted through the positioning sleeve.

Preferably, the arc-shaped blocking piece comprises a T-shaped sliding block, the back parts of the two arc-shaped blocking pieces are respectively supported and welded with one T-shaped sliding block, the two T-shaped sliding blocks are correspondingly arranged in the cross-shaped sliding grooves in the two track plates in a sliding mode, and the head ends of the two connecting rods are correspondingly connected with the two T-shaped sliding blocks in a rotating mode.

Preferably, a drilling flood dragon is coupled to a rotating shaft at the bottom of the motor, and a drill bit is welded at the tail end of the rotating shaft of the drilling flood dragon; the bottom section of ejector pin is for the slope planing setting, and this slope planing section can with the top slope planing section top sliding contact of the vertical square bar of L form inserted bar rear side.

Preferably, the top frame comprises idler wheels, a sliding shaft and a rubber strip, one idler wheel is rotatably arranged in each of the concave frames in the middle of the three top frames, and the three top wheels can be in top-rotating contact with the three idler wheels; the upper end and the lower end of the top frame are symmetrically supported with two sliding shafts, and the two sliding shafts are inserted on the circumferential outer wall of the sleeve in a penetrating manner through a spring; three rubber strips with friction bulges are adhered and fixed on the inner side extrusion plates of the three top frames.

Preferably, a mounting support plate is welded on the surface of the substrate at the position right in front of the sleeve and adjacent to the sleeve, and the L-shaped inserted rod penetrates through the top end of the mounting support plate through the spring; the front end of the L-shaped inserted bar is provided with three inserted plates which are obliquely sliced, and the three inserted plates can be correspondingly inserted and meshed with the rack plate.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, all the drilling and digging processes of bitter melon pulp can be completed only by performing two-step manual operation, namely inserting and positioning the bitter melon in the sleeve and performing downward pressing operation on the motor, so that the automation is realized to a certain degree, the operation process of manually and repeatedly digging and taking the bitter melon pulp is omitted, the labor is saved, and the working efficiency is greatly improved.

2. Through the ingenious and reasonable design of the linkage mechanism, the motor can link, push and release the synchronous mounting ring after finishing the operation of drilling and digging bitter melon pulp by gliding, so that three top frames automatically release bitter gourds, and simultaneously can link, push and push the arc-shaped separation blade to plug and insert the baffle, thereby avoiding the troubles of manually releasing bitter gourds and manually pushing the arc-shaped separation blade, simplifying the integral manual operation and use steps of the device, reducing the operation intensity of workers, being convenient to use and having good practicability.

3. The synchronous mounting ring, two connecting rods, two T-shaped sliding blocks and two arc-shaped separation blades jointly form an up-and-down driving slider-crank mechanism, after the synchronous mounting ring is reset by downward top sliding through the mechanism, the synchronous mounting ring can be linked with the two arc-shaped separation blades to slide towards the inner side in a butt joint mode, the two arc-shaped separation blades are plugged on the top end opening of the sleeve, the bitter gourds inside the sleeve are blocked, the bitter gourds are stripped from the drilling flood dragon, the bitter gourds are prevented from sliding along the drilling flood dragon and being taken out, and smooth implementation of bitter gourd stripping operation can be facilitated.

4. Following the upward sliding of the synchronous mounting ring, the three top wheels can push the three idler wheels and the three top frames to the inner side, so that the bitter gourds are clamped and positioned in the sleeves by the three top frames, and the three top frames can be synchronously adjusted in a forward-backward sliding manner, so that the bitter gourds are suitable for clamping different bitter gourds in different thicknesses and are wide in application.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the sleeve installation position of the present invention;

FIG. 3 is a schematic view of the three-dimensional structure of the sleeve mounting of the present invention;

FIG. 4 is a bottom view of a circular substrate according to the present invention;

FIG. 5 is a schematic view of the synchronous mounting ring installation position of the present invention;

FIG. 6 is a schematic three-dimensional view of the sleeve of the present invention;

FIG. 7 is a schematic three-dimensional structure of the synchronizer ring according to the present invention;

FIG. 8 is a schematic view of the inside of the sleeve cut away in the present invention;

FIG. 9 is a schematic three-dimensional structure of the top frame of the present invention;

FIG. 10 is a schematic view of the L-shaped insertion rod of the present invention.

In the figure: 1. a circular substrate; 101. a traveler; 102. positioning the shaft; 2. a sleeve; 201. a track plate; 202. a positioning sleeve; 3. a motor; 301. drilling holes with dragon; 4. pressing a switch; 5. a top rod; 6. an L-shaped insert rod; 7. a top frame; 701. a idler wheel; 702. a slide shaft; 703. a rubber strip; 8. a synchronous mounting ring; 801. a top wheel; 802. a connecting rod; 803. a rack plate; 9. an arc-shaped baffle plate; 901. t-shaped sliding blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1

Referring to fig. 1 to 4, fig. 6 to 8, and fig. 10, an embodiment of the present invention: a bitter gourd pulp digging device for manufacturing bitter gourd tea comprises a circular base plate 1, a press switch 4, an L-shaped inserted rod 6, an upper frame 7, a synchronous mounting ring 8 and an arc-shaped blocking piece 9, wherein a round hole penetrates through the center of the circular base plate 1, and a sleeve 2 is concentrically welded and supported at the top end of the round hole; the circular substrate 1 comprises sliding columns 101 and positioning shafts 102, the top end of the circular substrate 1 symmetrically supports two sliding columns 101 and two positioning shafts 102, wherein the two positioning shafts 102 are provided with one synchronous mounting ring 8 in a sliding mode through spring pushing sleeves, the two sliding columns 101 are provided with one motor 3 in a sliding mode through the spring pushing sleeves, springs on the two sliding columns 101 can automatically push the motor 3 to rise and reset, and springs on the two positioning shafts 102 can push the synchronous mounting ring 8 to slide downwards and reset; the sleeve 2 comprises a track plate 201 and a positioning sleeve 202, two track plates 201 are symmetrically welded on the circumferential outer wall of the opening position at the top end of the sleeve 2, and a cross-shaped sliding groove is formed in each of the two track plates 201 in a penetrating mode; a positioning sleeve 202 is welded and supported on the circumferential outer wall of the top end of the sleeve 2 towards the right front, the ejector rod 5 can be inserted downwards through the positioning sleeve 202, and the two track plates 201 provide convenience for the sliding insertion of the two arc-shaped retaining sheets 9; the push switch 4 is electrically connected with the motor 3, and an L-shaped ejector rod 5 is downwards locked and supported at the bottom of the front end face of the motor 3; the top end section of the vertical square rod at the rear side of the L-shaped inserted rod 6 is obliquely planed and cut; the three top frames 7 are in a shape like a Chinese character 'ji' and are arranged in a bent supporting shape, and the three top frames 7 are in an annular array and penetrate through and are inserted on the circumferential outer wall of the sleeve 2.

Further, a drilling dragon 301 is coupled to a rotating shaft at the bottom of the motor 3, and a drill bit is welded at the tail end of the rotating shaft of the drilling dragon 301; the bottom section of ejector pin 5 is the slope and digs and cut the setting, and this slope digs the dissection and can be with the top slope digs the dissection top sliding contact of the vertical square rod in L form inserted bar 6 rear sides, follows motor 3's gliding ejector pin 5 can with the smooth cooperation in L form inserted bar 6 inclined plane top, with L form inserted bar 6 backward top smooth with rack plate 803 separation, make synchronous collar 8 lose the location slide that resets downwards and make roof-rack 7 kick-back reset loosen the balsam pear.

Example 2

Referring to fig. 8 and 9 on the basis of embodiment 1, an embodiment of the present invention is: a bitter gourd pulp digging device for manufacturing bitter gourd tea is characterized in that an upper frame 7 comprises idler wheels 701, a sliding shaft 702 and rubber strips 703, one idler wheel 701 is rotatably arranged in concave frames in the middle of three upper frames 7, and three upper wheels 801 can be in rotating contact with the three idler wheels 701; two sliding shafts 702 are symmetrically supported at the upper end and the lower end of the three top frames 7, and the two sliding shafts 702 are inserted on the circumferential outer wall of the sleeve 2 in a penetrating manner through a spring jacking; three rubber strips 703 with friction bulges are adhered and fixed on the inner side leaning plates of the three top frames 7, and the three top wheels 801 can slide the three leaning wheels 701 and the three top frames 7 inwards along with the upward sliding of the synchronous mounting ring 8, so that the three top frames 7 clamp and position the bitter gourds in the sleeve 2, and the three top frames 7 can be synchronously adjusted in a front-back sliding manner, thereby being suitable for clamping bitter gourds with different thicknesses and being widely applied.

Example 3

On the basis of the embodiments 1 and 2, please refer to fig. 5, an embodiment of the present invention: a bitter melon pulp digging device for manufacturing bitter melon tea further comprises a synchronous mounting ring 8, wherein the synchronous mounting ring 8 is installed on the periphery of the circumference of a sleeve 2 in a sliding manner, the synchronous mounting ring 8 comprises a top wheel 801, a connecting rod 802 and a rack plate 803, the bottom of the synchronous mounting ring 8 is downwards supported with three top wheels 801 in an annular array manner, two supporting plates are symmetrically welded inside the synchronous mounting ring 8, and the tail ends of the two connecting rods 802 are rotatably connected to the two supporting plates; the bottom of the sheathing lug plate right in front of the synchronous mounting ring 8 is downwards supported and welded with a rack plate 803; two arc-shaped blocking pieces 9 are symmetrically and slidably inserted and blocked on the top end opening of the sleeve 2.

Further, the arc-shaped separation blade 9 includes a T-shaped slider 901, the back of two arc-shaped separation blades 9 is supported and welded with a T-shaped slider 901, the two T-shaped sliders 901 are correspondingly arranged in the cross-shaped chutes on the two track plates 201 in a sliding manner, the head ends of the two connecting rods 802 are correspondingly connected with the two T-shaped sliders 901 in a rotating manner, the synchronous mounting ring 8, the two connecting rods 802, the two T-shaped sliders 901 and the two arc-shaped separation blades 9 jointly form an up-and-down driving crank slider mechanism, and the mechanism can facilitate smooth implementation of the bitter gourd sliding stripping operation.

Further, a mounting support plate is welded on the surface of the substrate at the adjacent position right in front of the sleeve 2, and the L-shaped inserted rod 6 penetrates through and is inserted at the top end of the mounting support plate through the pushing of a spring; three inserting plates are arranged at the front end of the L-shaped inserting rod 6 in an inclined slicing mode and can be correspondingly inserted and meshed with the rack plate 803, and the synchronous mounting ring 8 can be positioned through the corresponding insertion of the L-shaped inserting rod 6 and the rack plate 803, so that the three top frames 7 are kept in the top clamping positioning posture.

The working principle is as follows: during use, firstly, the bitter gourd is inserted into the sleeve 2 from a circular hole in the bottom of the circular base plate 1, then the synchronous mounting ring 8 slides upwards to enable the three top frames 7 to slide inwards to clamp and position the bitter gourd in the sleeve 2, then the motor 3 is started and the sliding motor 3 is pressed downwards through the press switch 4, the pulp in the bitter gourd can be drilled and dug out through the drilling auger 301 in the downward sliding process, after drilling and digging operations are completed, the ejector rod 5 can be in top sliding contact with the inclined plane of the L-shaped insertion rod 6 to separate the L-shaped insertion rod 6 from the rack plate 803, at the moment, the synchronous mounting ring 8 is reset through downward top sliding, the synchronous mounting ring 8 can be linked with the three top frames 7 to loosen the bitter gourd, meanwhile, the pushing arc-shaped blocking plate 9 is linked to block and block the top end opening of the sleeve 2, finally, the motor 3 is loosened, springs on the two sliding columns 101 can push the drilling auger 301 upwards to reset and enable the bitter gourd to be peeled off from the drilling auger 301 and fall, and the drilling process of the bitter gourd pulp is completed.

Claims (1)

1. The utility model provides a preparation balsam pear tea is with digging bitter melon pulp device which characterized in that: the device comprises a circular base plate (1), a push switch (4), an L-shaped inserted bar (6), an upper frame (7), a synchronous mounting ring (8) and an arc-shaped blocking piece (9), wherein a round hole penetrates through the center of the circular base plate (1), and a sleeve (2) is concentrically welded and supported at the top end of the round hole; the push switch (4) is electrically connected with the motor (3), and the bottom position of the front end face of the motor (3) is downwards locked and supported with an L-shaped ejector rod (5); the top end section of the vertical square rod at the rear side of the L-shaped inserted rod (6) is obliquely planed and cut; the three top frames (7) are arranged in a zigzag folding supporting shape, and the three top frames (7) are inserted in the circumferential outer wall of the sleeve (2) in an annular array; the synchronous mounting ring (8) is arranged on the periphery of the sleeve (2) in a sliding manner; the two arc-shaped retaining pieces (9) are symmetrically inserted and blocked on the top end opening of the sleeve (2) in a sliding way;

the circular substrate (1) comprises sliding columns (101) and positioning shafts (102), the top end of the circular substrate (1) symmetrically supports the two sliding columns (101) and the two positioning shafts (102), the two positioning shafts (102) are provided with a synchronous mounting ring (8) in a sliding mode through spring pushing sleeves, and the two sliding columns (101) are provided with a motor (3) in a sliding mode through spring pushing sleeves;

the synchronous mounting ring (8) comprises top wheels (801), connecting rods (802) and rack plates (803), the bottom of the synchronous mounting ring (8) is downwards supported with three top wheels (801) in an annular array, two supporting plates are symmetrically welded inside the synchronous mounting ring (8), and the tail ends of the two connecting rods (802) are rotatably connected to the two supporting plates; the bottom of the sleeving lug plate right in front of the synchronous mounting ring (8) is downwards supported and welded with a rack plate (803);

the sleeve (2) comprises track plates (201) and a positioning sleeve (202), two track plates (201) are symmetrically welded on the circumferential outer wall of the opening position at the top end of the sleeve (2), and a cross-shaped sliding groove is formed in each of the two track plates (201) in a penetrating mode; a positioning sleeve (202) is welded and supported on the circumferential outer wall of the top end of the sleeve (2) towards the right front, and a top rod (5) can be inserted through the positioning sleeve (202) downwards;

the arc-shaped blocking plate (9) comprises T-shaped sliding blocks (901), the back parts of the two arc-shaped blocking plates (9) are respectively supported and welded with one T-shaped sliding block (901), the two T-shaped sliding blocks (901) are correspondingly arranged in the cross sliding grooves in the two track plates (201) in a sliding mode, and the head ends of the two connecting rods (802) are correspondingly connected with the two T-shaped sliding blocks (901) in a rotating mode;

a drilling flood dragon (301) is axially connected to a rotating shaft at the bottom of the motor (3), and a drill bit is welded at the tail end of the rotating shaft of the drilling flood dragon (301); the bottom section of the ejector rod (5) is obliquely planed and cut, and the obliquely planed and cut section can be in top sliding contact with the obliquely planed and cut section at the top end of the vertical square rod at the rear side of the L-shaped inserted rod (6);

the top frame (7) comprises idler wheels (701), a sliding shaft (702) and rubber strips (703), one idler wheel (701) is rotatably arranged in the concave frame in the middle of the three top frames (7), and the three top wheels (801) can be in top rotating contact with the three idler wheels (701); the upper end and the lower end of the third top frame (7) are symmetrically supported with two sliding shafts (702), and the two sliding shafts (702) are pushed by a spring to penetrate and be inserted on the circumferential outer wall of the sleeve (2); three rubber strips (703) with friction bulges are adhered and fixed on the inner side extrusion plates of the three top frames (7);

a mounting support plate is welded on the surface of the substrate at the adjacent position right ahead of the sleeve (2), and the L-shaped inserted rod (6) penetrates through the top end of the mounting support plate through the pushing of the spring; the front end of the L-shaped inserted bar (6) is provided with three inserted plates which are obliquely sliced, and the three inserted plates can be correspondingly inserted and meshed with the rack plate (803).

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