CN115636123A - Ice taking metering control device for ice slurry conveying system - Google Patents

Abstract

The invention discloses an ice taking metering control device for an ice slurry conveying system, which comprises an equipment frame and an ice making mechanism, wherein a shell cover is fixedly arranged on the outer side of the equipment frame, an annular frame is fixedly arranged on the inner side of the shell cover, a discharge opening and a feeding opening are formed in the side end of the annular frame, an opening matched with ice slurry output is formed in the side wall of a sliding connection pipe, and a part for controlling the vertical movement of the sliding connection pipe is arranged above the annular frame. According to the invention, firstly, the elastic sheet provides outward compression force for the arc-shaped frame to measure the weight of ice slurry in the metering chamber, the ice slurry is quantitatively received and taken by matching with the rotatable baffle disc, the food fresh-keeping effect and fresh-keeping time of the obtained ice slurry are kept uniform, secondly, the metering chamber is automatically switched after the bracket shields the outside of the distance sensor, and by the design of the linkage structure, the quantitative ice slurry is automatically received and taken in batches, so that the ice slurry receiving and taking efficiency is ensured, and meanwhile, the operation and use of workers are facilitated.

Description

Ice taking metering control device for ice slurry conveying system

Technical Field

The invention relates to the technical field of ice slurry taking, in particular to an ice taking metering control device for an ice slurry conveying system.

Background

The ice slurry machine is to make flowing water into flowing ice-water mixture, and the prepared ice slurry is widely applied to the fields of aquatic product preservation, central air-conditioning cold accumulation, industrial cooling and the like.

After the ice making operation of the ice slurry machine is completed, if a worker needs to take quantitative ice slurry in batches for packaging along with fresh-keeping products, the taking of the ice slurry is generally realized by adopting a pumping and discharging mode, and in order to realize the quantitative taking of the ice slurry, the worker often selects to set the opening and closing time of a valve of a control output channel, and the quantitative metering control mode has the following problems: firstly, the fluffy degree of freedom of water after the ice slurry is formed is large, so that the components of the ice slurry taken out in a pumping mode in unit time are difficult to keep uniform, and the food fresh-keeping effect and the fresh-keeping time of the ice slurry put into use are difficult to keep uniform; secondly, in order to improve the efficiency of quantitatively receiving the ice slurry in batches, two adjacent batches of ice slurry are received, a mode of directly replacing the container can be adopted, when the container is switched by adopting the electric control conveying equipment, the opening and closing time of the conveying equipment and the channel valve needs to be adjusted by a worker, so that after the container is used for receiving the ice slurry, the next group of containers are quickly switched to the outlet of the ice slurry under the conveying of the conveying equipment, if the opening and closing time of the channel valve is used for determining the quantitative receiving of the ice slurry, the switching and conveying time of the container needs to be adjusted again after the worker adjusts the quantitative blanking time of the ice slurry at each time, and the operation inconvenience is brought to the worker.

In view of the above-mentioned shortcomings, it is desirable to provide an ice pick-up metering control device for an ice slurry delivery system.

Disclosure of Invention

The invention aims to: in order to solve the problems, the invention provides an ice taking metering control device for an ice slurry conveying system.

In order to achieve the purpose, the invention adopts the following technical scheme: an ice taking metering control device for an ice slurry conveying system comprises an equipment frame and an ice making mechanism arranged on the equipment frame, wherein a shell cover is fixedly arranged on the outer side of the equipment frame through a support column, an annular frame is fixedly arranged on the inner side of the shell cover, and a discharge opening and a feeding opening matched with ice slurry to flow in and out are formed in the side end of the annular frame;

the inner side of the annular frame is rotatably connected with a baffle disc, a shaft sleeve penetrating into the annular frame is fixedly arranged at the side end of the baffle disc, three partition plates distributed in an annular shape are fixedly arranged at the outer end of the shaft sleeve, three metering chambers are formed in the annular frame under the partition of the partition plates, and a part for quantitatively rotating the metering chambers is arranged on the equipment frame;

three axially distributed rotating rings are rotatably embedded in the shaft sleeve, a baffle is fixedly arranged at the side end of each rotating ring through a connecting frame penetrating through the shaft sleeve, and a groove matched with the connecting frame to move is formed in the shaft sleeve;

the inner side of the baffle plate is connected with three arc-shaped frames corresponding to the baffle plates in a sliding manner, the inner end of the baffle plate is fixedly provided with a boss, the side end of the boss is abutted with a spring plate acting on the arc-shaped frame, the baffle plates control the arc-shaped frame to move along the radial direction of the baffle plate through a transmission part, and the equipment frame is provided with a part for limiting the moving range of the arc-shaped frame;

the ice making machine is characterized in that a discharging pipe is installed at the bottom of the ice making mechanism, a sliding connection pipe capable of extending into the feeding port is embedded in the discharging pipe in a sliding mode, an opening matched with ice slurry output is formed in the side wall of the sliding connection pipe, and a part for controlling the sliding connection pipe to move vertically is arranged above the annular frame.

Preferably, the transmission component comprises a butt joint block fixedly arranged at the outer end of the arc-shaped frame, a supporting rod penetrating through the baffle plate and acting on the butt joint block is fixedly arranged at the side end of the baffle plate, an arc-shaped groove matched with the supporting rod to slide is formed in the baffle plate in a penetrating mode, and a fan-shaped sheet shielded by the arc-shaped groove is fixedly arranged on the baffle plate.

Preferably, the part that rotates measurement cavity ration is including setting firmly the support that deviates from butt joint piece one end at the arc frame, the inner of fender dish sets firmly the boss, be provided with the distance sensor of response support position on the boss.

Preferably, the inner end of the support is fixedly provided with a cross rod, the outer end of the equipment rack is fixedly provided with a baffle ring for limiting the radial movement of the cross rod through a tripod, and the inner end of the baffle ring is provided with a strip-shaped support opening matched with the cross rod to slide and separate.

Preferably, the part for limiting the range of motion of the arc-shaped frame comprises a shell cover which is rotatably connected to the inner side of the catch plate, the inner wall of the shell cover is fixedly provided with three abutting blocks for abutting the abutting blocks, a circular groove which is matched with the three cross rods to penetrate through is formed in the shell cover, and the equipment frame is provided with an assembly for controlling the shell cover to rotate.

Preferably, the component for controlling the rotation of the housing cover is a gear rotatably connected to the outer end of the equipment rack, and a toothed ring meshed with the gear is fixedly arranged at the inner end of the housing cover.

Preferably, two motors are installed at the outer end of the equipment frame, one of the motors controls the gear to rotate, and the other motor controls the baffle disc to rotate through the rotating shaft.

Preferably, the part for controlling the sliding connection pipe to vertically move comprises a frame plate fixedly arranged at the side end of the sliding connection pipe, a transverse plate is slidably sleeved on the outer side of the discharging pipe, a vertical rod is fixedly arranged between the transverse plate and the frame plate, a triangular block is fixedly arranged at the bottom of the transverse plate, and a notch matched with the triangular block to be buckled into is formed in the outer edge of the blocking disc.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. in this application, after the baffle received the pressure of ice thick liquid weight, branch will be through the butt joint piece of effect for the arc frame slides to the axle center department that keeps off the dish, and the shell fragment provides outside oppression power for the arc frame, realizes its measurement to ice thick liquid weight in the measurement cavity, shields the back when the support to distance sensor's outside, accomplishes the ration of ice thick liquid and connects and get, thereby makes its effect and fresh-keeping time to food fresh-keeping keep unified.

2. In this application, the support shields the back in the outside to distance sensor, the controller that meets with the distance sensor electrical property will two motor synchronous operation of simultaneous control, realize the automatic switch-over to measurement cavity position, when next notch is up along with the rotation that keeps off the dish, the measurement cavity also rotates and targets in place, continue to accept the ice thick liquid, design through this interlock structure, the realization is accepted the automatic batch of ration ice thick liquid and is got, when guaranteeing that the ice thick liquid is accepted and is got efficiency, the staff's of being convenient for operation is used.

Drawings

FIG. 1 illustrates a perspective view of a metering control apparatus provided in accordance with an embodiment of the present invention;

FIG. 2 is a schematic view showing an internal structure of an annular frame provided according to an embodiment of the present invention;

FIG. 3 is a schematic diagram illustrating a back structure of a housing provided in accordance with an embodiment of the present invention;

FIG. 4 illustrates an exploded front view of a configuration of a metering control device provided in accordance with an embodiment of the present invention;

fig. 5 shows an exploded side view of a configuration of a metering control device provided in accordance with an embodiment of the present invention.

Illustration of the drawings:

1. an equipment rack; 2. a shell cover; 3. an annular frame; 301. a feeding port; 302. a discharge opening; 4. a shaft sleeve; 401. a groove; 5. rotating a ring; 501. a linking frame; 6. a partition plate; 7. a baffle plate; 8. a fan-shaped sheet; 9. a catch tray; 901. a recess; 902. an arc-shaped slot; 10. a strut; 11. a boss; 1101. a distance sensor; 12. an arc-shaped frame; 13. a support; 14. a cross bar; 15. a spring plate; 16. a butt joint block; 17. a rotating shaft; 18. a housing; 1801. a circular groove; 19. a butting block; 20. a toothed ring; 21. a gear; 22. a motor; 23. a tripod; 24. a baffle ring; 2401. a strip-shaped branch port; 25. an ice making mechanism; 26. a discharging pipe; 27. a transverse plate; 28. a triangular block; 29. sliding the connecting pipe; 30. a frame plate; 31. a vertical rod.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an ice taking metering control device for an ice slurry conveying system comprises an equipment frame 1 and an ice making mechanism 25 arranged on the equipment frame 1, wherein a shell cover 2 is fixedly arranged on the outer side of the equipment frame 1 through a strut, an annular frame 3 is fixedly arranged on the inner side of the shell cover 2, and a discharge opening 302 and a feeding opening 301 matched with the ice slurry to flow in and out are formed in the side end of the annular frame 3; the prepared ice slurry enters the inside of the annular frame 3 through the feeding port 301, and is discharged outwards through the discharging port 302 after being quantitatively measured.

The inner side of the annular frame 3 is rotatably connected with a baffle disc 9, the side end of the baffle disc 9 is fixedly provided with a shaft sleeve 4 penetrating into the annular frame 3, the outer end of the shaft sleeve 4 is fixedly provided with three baffle plates 6 distributed annularly, three metering chambers are formed in the annular frame 3 under the partition of the baffle plates 6, and a part for quantitatively rotating the metering chambers is arranged on the equipment frame 1; when the ice slurry in the metering chamber reaches the rated weight, the position of the metering chamber for loading the ice slurry is switched along with the rotation of the baffle disc 9, so that the opening of the metering chamber is opposite to the discharge opening 302, and the quantitative ice slurry is discharged and collected.

Three axially distributed rotating rings 5 are rotatably embedded in the shaft sleeve 4, a baffle 7 is fixedly arranged at the side end of each rotating ring 5 through a connecting frame 501 penetrating through the shaft sleeve 4, and a groove 401 matched with the connecting frame 501 for movement is formed in the shaft sleeve 4; as the ice slurry passes into the metering chamber, the weight carried by the baffle 7 increases and it will have a tendency to deflect downwards as the swivel 5 rotates along the hub 4.

The inner side of the baffle plate 9 is connected with three arc-shaped frames 12 corresponding to the baffle plate 7 in a sliding manner, the inner end of the baffle plate 9 is fixedly provided with a boss 11, the side end of the boss 11 is abutted against a spring sheet 15 acting on the arc-shaped frames 12, the baffle plate 7 controls the arc-shaped frames 12 to move along the radial direction of the baffle plate 9 through a transmission part, and the equipment frame 1 is provided with a part for limiting the moving range of the arc-shaped frames 12; when the baffle 7 deflects downwards and rotates, the baffle presses the arc-shaped frame 12 to slide towards the axis direction of the baffle disc 9 through the transmission part; the elastic sheet 15 provides outward pressing force for the arc-shaped frame 12 all the time to measure the weight of ice slurry in the metering chamber, and after the arc-shaped frame 12 slides to a corresponding position, the baffle disc 9 rotates to switch the position of the metering chamber.

A blanking pipe 26 is arranged at the bottom of the ice making mechanism 25, a main valve is arranged in the blanking pipe 26, and when the valve is closed, the blanking function cannot be realized; a sliding connection pipe 29 which can extend into the feeding port 301 is slidably embedded in the discharging pipe 26, an opening matched with ice slurry output is formed in the side wall of the sliding connection pipe 29, and a part for controlling the sliding connection pipe 29 to vertically move is arranged above the annular frame 3; the ice making mechanism 25 sends the ice slurry to the slip connection pipe 29 through the discharging pipe 26, and finally the ice slurry is input into the metering chamber through the feeding port 301, and when the feeding port 301 moves upwards, the opening of the ice making mechanism is covered by the inner wall of the discharging pipe 26, so that the ice slurry channel is cut off.

Specifically, as shown in fig. 5, the transmission component includes a butt-joint block 16 fixed at the outer end of the arc frame 12, a supporting rod 10 penetrating through the baffle disc 9 and acting on the butt-joint block 16 is fixed at the side end of the baffle plate 7, an arc groove 902 matching with the supporting rod 10 to slide is formed in the baffle disc 9 in a penetrating manner, and a fan-shaped sheet 8 shielding the arc groove 902 is fixed on the baffle plate 7;

when the baffle 7 is pressed by the weight of ice slurry, the supporting rod 10 fixed with the baffle 7 can butt against the connecting block 16 through action, so that the arc-shaped frame 12 slides to the axis of the baffle disc 9; the butt-joint block 16 is a prism, and the end face of the butt-joint block 16, which is attached to the support rod 10, is of an arc-shaped structure and extends in the direction away from the axis of the baffle disc 9.

Specifically, as shown in fig. 3-5, the component for rotating the metering chamber quantitatively includes a bracket 13 fixedly disposed at an end of the arc frame 12 away from the butt-joint block 16, a boss 11 is fixedly disposed at an inner end of the catch plate 9, and a distance sensor 1101 for sensing a position of the bracket 13 is disposed on the boss 11; the bracket 13 moves along with the arc-shaped frame 12 until the bracket shields the outer side of the distance sensor 1101, at the moment, a controller electrically connected with the distance sensor 1101 controls the two motors 22 to synchronously operate, and the rotating shaft 17 drives the blocking disc 9 to rotate, so that the position of the metering chamber is switched; the distance sensor 1101 is an existing photosensor; when the bracket 13 shields any one of the light sensors, the controller is triggered to send a command.

A cross bar 14 is fixedly arranged at the inner end of the bracket 13, a baffle ring 24 for limiting the radial movement of the cross bar 14 is fixedly arranged at the outer end of the equipment frame 1 through a tripod 23, and a strip-shaped branch port 2401 matched with the cross bar 14 to slide and separate is formed at the inner end of the baffle ring 24;

along with the rotation of the metering chamber that is equipped with the ice slurry, its uncovered will be to discharge opening 302, the ice slurry by the accurate measurement will be outwards exported through discharge opening 302, the weight that it bore of corresponding baffle 7 will reduce, but at this moment because the restriction of fender ring 24 to horizontal pole 14, the position of arc frame 12 will not change, support 13 also shields the induction port of distance sensor 1101 all the time, until horizontal pole 14 when the strip props up mouth 2401, arc frame 12 just can drive support 13 under the effect of shell fragment 15 and relieve shielding to distance sensor 1101, the controller will control motor 22 stall, horizontal pole 14 imbeds in the strip props up mouth 2401 simultaneously, realize the quick braking to fender dish 9, prevent that its turned angle is too big, be unfavorable for receiving of next group of ice slurry and get.

Specifically, as shown in fig. 3-5, the part for limiting the moving range of the arc frame 12 includes a housing 18 rotatably connected to the inner side of the catch plate 9, three abutting blocks 19 acting as abutting blocks 16 are fixedly arranged on the inner wall of the housing 18, a circular groove 1801 penetrating through the three cross bars 14 is formed inside the housing 18, and an assembly for controlling the rotation of the housing 18 is arranged on the equipment frame 1; the component for controlling the rotation of the shell cover 18 is a gear 21 which is rotatably connected with the outer end of the equipment frame 1, and a toothed ring 20 which is meshed with the gear 21 is fixedly arranged at the inner end of the shell cover 18; two motors 22 are arranged at the outer end of the equipment frame 1, wherein one motor 22 controls the gear 21 to rotate, and the other motor 22 controls the baffle disc 9 to rotate through the rotating shaft 17; a motor 22 is started to control the gear 21 to rotate, so that the gear ring 20 meshed with the gear 21 drives the shell cover 18 to rotate, and the shell cover 18 acts on the butt-joint block 16 through the butt-joint block 19 in the rotating process to adjust the distance between the bracket 13 and the induction port of the distance sensor 1101, so that the purpose of adjusting the metering chamber to take quantitative ice slurry is achieved; when the stop plate 9 rotates to switch the position of the metering chamber, the two motors 22 should be kept in synchronous operation, so that the shell cover 18 and the stop plate 9 keep rotating synchronously, and the influence between the abutting block 19 and the abutting block 16 is eliminated.

Specifically, as shown in fig. 1 to 4, the component for controlling the sliding connection pipe 29 to move vertically includes a frame plate 30 fixedly arranged at the side end of the sliding connection pipe 29, a transverse plate 27 is slidably sleeved outside the blanking pipe 26, a vertical rod 31 is fixedly arranged between the transverse plate 27 and the frame plate 30, a triangular block 28 is fixedly arranged at the bottom of the transverse plate 27, and a notch 901 matched with the triangular block 28 to be buckled into is formed at the outer edge of the blocking disc 9; when the slip connection pipe 29 feeds ice slurry into the metering chamber, the triangular block 28 is embedded in the notch 901, and after the metering chamber is filled with a certain amount of ice slurry, the notch 901 presses the triangular block 28 upwards through the inclined wall end of the notch along with the rotation of the baffle disc 9, so that the transverse plate 27 drives the slip connection pipe 29 to move upwards, and the opening of the slip connection pipe 29 is closed, so that the ice slurry is prevented from continuously flowing out to cause the waste of the ice slurry in the process of switching the chambers; when the next notch 901 is upward along with the rotation of the baffle disc 9, the triangular block 28 falls into the notch 901 again, at the moment, the metering chamber also rotates in place to receive the ice slurry, and by the design of the linkage structure, the quantitative ice slurry is quickly received in batches, so that the efficiency of receiving the ice slurry in a metering mode is improved.

The previous description of the embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. An ice taking metering control device for an ice slurry conveying system comprises an equipment frame (1) and an ice making mechanism (25) arranged on the equipment frame (1), and is characterized in that a shell cover (2) is fixedly arranged on the outer side of the equipment frame (1) through a support column, an annular frame (3) is fixedly arranged on the inner side of the shell cover (2), and a discharge opening (302) and a feeding opening (301) matched with ice slurry to flow in and out are formed in the side end of the annular frame (3);

the inner side of the annular frame (3) is rotatably connected with a baffle disc (9), a shaft sleeve (4) penetrating into the annular frame (3) is fixedly arranged at the side end of the baffle disc (9), three partition plates (6) distributed annularly are fixedly arranged at the outer end of the shaft sleeve (4), three metering chambers are formed in the annular frame (3) under the partition of the partition plates (6), and a part for quantitatively rotating the metering chambers is arranged on the equipment frame (1);

three axially distributed rotating rings (5) are rotatably embedded in the shaft sleeve (4), a baffle (7) is fixedly arranged at the side end of each rotating ring (5) through a connecting frame (501) penetrating through the shaft sleeve (4), and a groove (401) matched with the connecting frame (501) to move is formed in the shaft sleeve (4);

the inner side of the baffle plate (9) is connected with three arc-shaped frames (12) corresponding to the baffle plates (7) in a sliding mode, the inner end of the baffle plate (9) is fixedly provided with a boss (11), the side end of the boss (11) is abutted to a spring plate (15) acting on the arc-shaped frames (12), the baffle plates (7) control the arc-shaped frames (12) to move along the radial direction of the baffle plate (9) through a transmission part, and a part for limiting the moving range of the arc-shaped frames (12) is arranged on the equipment frame (1);

the ice making machine is characterized in that a discharging pipe (26) is installed at the bottom of the ice making mechanism (25), a sliding connection pipe (29) capable of extending into the feeding port (301) is embedded in the discharging pipe (26) in a sliding mode, an opening matched with ice slurry output is formed in the side wall of the sliding connection pipe (29), and a part for controlling the sliding connection pipe (29) to move vertically is arranged above the annular frame (3).

2. The ice-picking metering control device for the ice slurry conveying system according to claim 1, wherein the transmission component comprises a butt joint block (16) fixedly arranged at the outer end of the arc-shaped frame (12), a supporting rod (10) penetrating through the baffle disc (9) and acting on the butt joint block (16) is fixedly arranged at the side end of the baffle plate (7), an arc-shaped groove (902) matched with the supporting rod (10) to slide is formed in the baffle disc (9) in a penetrating manner, and a fan-shaped sheet (8) shielding the arc-shaped groove (902) is fixedly arranged on the baffle plate (7).

3. The ice-taking metering control device for the ice slurry conveying system according to claim 1, wherein the component for quantitatively rotating the metering chamber comprises a bracket (13) fixedly arranged at one end of the arc-shaped frame (12) away from the butt-joint block (16), a boss (11) is fixedly arranged at the inner end of the baffle disc (9), and a distance sensor (1101) for sensing the position of the bracket (13) is arranged on the boss (11).

4. The ice-taking metering control device for the ice slurry conveying system according to claim 3, characterized in that a cross rod (14) is fixedly arranged at the inner end of the support (13), a baffle ring (24) for limiting the radial movement of the cross rod (14) is fixedly arranged at the outer end of the equipment frame (1) through a tripod (23), and a strip-shaped branch opening (2401) matched with the sliding separation of the cross rod (14) is formed at the inner end of the baffle ring (24).

5. The ice-picking metering control device for the ice slurry conveying system according to claim 1, characterized in that the part for limiting the moving range of the arc-shaped frame (12) comprises a housing (18) rotatably connected to the inner side of the baffle disc (9), three abutting blocks (19) for acting on the abutting blocks (16) are fixedly arranged on the inner wall of the housing (18), a circular groove (1801) for the three cross rods (14) to penetrate is formed in the housing (18), and an assembly for controlling the rotation of the housing (18) is arranged on the equipment frame (1).

6. The ice-fetching metering control device for an ice slurry conveying system according to claim 5, wherein the component for controlling the rotation of the housing (18) is a gear (21) rotatably connected to the outer end of the equipment frame (1), and a toothed ring (20) engaged with the gear (21) is fixedly arranged at the inner end of the housing (18).

7. The ice-fetching metering control device for an ice slurry conveying system according to claim 6, wherein two motors (22) are mounted at the outer ends of the equipment frame (1), one of the motors (22) controls the gear (21) to rotate, and the other motor (22) controls the catch plate (9) to rotate through the rotating shaft (17).

8. The ice-taking metering control device for the ice slurry conveying system according to claim 1, wherein the part for controlling the sliding connection pipe (29) to move vertically comprises a frame plate (30) fixedly arranged at the side end of the sliding connection pipe (29), a transverse plate (27) is slidably sleeved on the outer side of the discharging pipe (26), a vertical rod (31) is fixedly arranged between the transverse plate (27) and the frame plate (30), a triangular block (28) is fixedly arranged at the bottom of the transverse plate (27), and a notch (901) matched with the triangular block (28) to be buckled into is formed in the outer edge of the blocking disc (9).

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