CN110736299A

CN110736299A - reversible translation mechanism and cooling tower

Info

Publication number: CN110736299A
Application number: CN201911003562.0A
Authority: CN
Inventors: 邱木圳
Original assignee: GUANGZHOU HAWSHENG FOOD MACHINERY CO Ltd
Current assignee: GUANGZHOU HAWSHENG FOOD MACHINERY CO Ltd
Priority date: 2019-10-21
Filing date: 2019-10-21
Publication date: 2020-01-31

Abstract

The invention relates to reversible translation mechanisms and cooling towers, wherein each translation mechanism comprises a driving gear, a driven gear, an annular chain and a bracket device, wherein the end of the annular chain is wound on the driving gear, the other 0 end is wound on the driven gear, at least 1 bracket devices connected with the annular chain are arranged on the annular chain, each bracket device comprises a 2 th connecting rod, a second connecting rod, a supporting plate and at least bracket pieces fixedly arranged on the supporting plate, each bracket piece is horizontally arranged, the ends of the connecting rod and the second connecting rod are connected with the supporting plate through a connecting shaft, the th connecting rod and the other end of the second connecting rod are connected with the annular chain through second connecting shafts, the connecting rod and the second connecting rod can rotate relative to the second connecting shafts, and an included angle is arranged between the th connecting rod and the second connecting rods.

Description

reversible translation mechanism and cooling tower

Technical Field

The invention relates to the technical field of cooling towers, in particular to reversible translation mechanisms and a cooling tower.

Background

The conventional cooling tower for cooling the food is provided with a dial device so as to dial the food from directions to directions, but in the dial process, the phenomenon of a chuck is easy to bleed, namely the tray for holding the food is clamped, the food cannot be smoothly and translationally moved in a reversible manner to complete cooling, the food production efficiency and the food safety are affected, and if a conventional horizontal cooling mode is adopted, a large amount of space is occupied by the corresponding cooling device, so that the economic cost is high.

Disclosure of Invention

In view of the deficiencies of the prior art, it is an object of the present invention to provide reversible translation mechanisms that can solve the problem of reversible translation to accomplish cooling;

the second purpose of the present invention is to provide kinds of cooling, which can solve the problem of reversible translation to complete cooling.

The technical solution for achieving the object of the present invention is that reversible translation mechanisms comprise a driving gear, a driven gear, a circular chain and a bracket device, wherein end of the circular chain is wound on the driving gear, and end is wound on the driven gear, so that the circular chain is meshed with the driving gear and the driven gear respectively,

the annular chain is provided with at least bracket devices connected with the annular chain, each bracket device comprises a connecting rod, a second connecting rod, a supporting plate and at least bracket pieces fixedly arranged on the supporting plate, each bracket piece is horizontally fixed on the supporting plate in parallel,

the ends of the th connecting rod and the second connecting rod are connected with the supporting plate through a connecting shaft, the other ends of the th connecting rod and the second connecting rod are connected with the annular chain through a second connecting shaft, the th connecting rod and the second connecting rod can rotate relative to the second connecting shaft, and an included angle is formed between the th connecting rod and the second connecting rod.

, the bracket device further comprises a third connecting rod and a fourth connecting rod, wherein the ends of the third connecting rod and the fourth connecting rod are fixedly connected with the supporting plate through a connecting shaft, an included angle is formed between the third connecting rod and the fourth connecting rod, pulleys are connected to the ends of the third connecting rod and the fourth connecting rod respectively, and the two pulleys are located on the same horizontal lines.

the pulley is connected with the third connecting rod and the fourth connecting rod through a fixed shaft, and the pulley can rotate 360 degrees relative to the fixed shaft.

, the third connecting rod and the fourth connecting rod are body structure.

, the third, fourth, and second connecting rods are connected to the supporting plate through connecting shafts .

, the second connecting rods of the front bracket devices and the connecting rods of the rear bracket devices are connected with the annular chain through the same second connecting shafts.

, the connecting rod comprises a connecting piece and a second connecting piece which are arranged in parallel, the ends of the connecting piece and the second connecting piece are connected with the second connecting shaft, the end of the connecting piece is connected with the connecting shaft, and the connecting piece is connected with the second connecting piece through a pin shaft.

cooling towers comprise a cooling rack, a driving device and at least two reversible translation mechanisms, wherein the two reversible translation mechanisms are respectively marked as a translation mechanism and a second translation mechanism, the translation mechanism is arranged on inner walls of the cooling rack, the second translation mechanism is arranged on the other inner walls of the cooling rack, so that the translation mechanism and the second translation mechanism are oppositely arranged in a clearance way, and the driving device is connected with the translation mechanism and the second translation mechanism and is used for driving the translation mechanism and the second translation mechanism to synchronously transmit.

, the translation mechanism is connected with the second translation mechanism through a linkage shaft, and the driving device is connected with any driving gears in the translation mechanism and the second translation mechanism, so that the driving device drives the translation mechanism and the second translation mechanism to synchronously drive.

, a curved track and a second curved track which are the same in size and shape are further arranged on the inner wall of the cooling rack, the curved track and the second curved track are arranged in a crossed mode, the bottom end of the curved track and the bottom end of the second curved track are on the same horizontal line, pulleys of the translation mechanism and the second translation mechanism in the reversing translation compound motion move along the curved track, and the pulleys move along the second curved track.

, the cooling rack is also provided with a vertical track on the inner wall, and the th translation mechanism and the th translation mechanism in vertical ascending and vertical descending move along the vertical track.

, the inner wall of the cooling rack is further provided with a fixing plate which is fixedly arranged on the inner wall of the cooling rack, and the fixing plate is located on the inner side of the endless chain and is in contact with the endless chain to support the endless chain in a vertical state.

The invention has the beneficial effects that: the food or workpiece can be stably reversed and translated effectively, the phenomenon of clamping is avoided, and the cooling effect is good.

Drawings

FIG. 1 is a schematic front view of a translation mechanism;

FIG. 2 is a schematic view of the rear structure of the translation mechanism;

FIG. 3 is a schematic view of another -degree angle of the translation mechanism;

FIG. 4 is a partial schematic view of the connection of the carriage assembly to the endless chain;

FIG. 5 is a schematic view of a cooling tower;

FIG. 6 is a schematic view of the mounting of the translation mechanism to the cooling tower;

FIG. 7 is a schematic view of the hidden portion of the bracket assembly shown in FIG. 6;

the device comprises a 1-driving gear, a 2-bracket device, a 21- th connecting rod, a 211- th connecting rod, a 212-second connecting rod, a 22-supporting plate, a 23-bracket piece, a 24-second connecting rod, a 25-third connecting rod, a 26-fourth connecting rod, a 27-pulley, a 3-annular chain, a 4-driven gear, a 5- th connecting shaft, a 6-second connecting shaft, a 7-driving device, an 8-linkage shaft, a 9-cooling frame, a 10-fan, an 11- bent track, a 12-second bent track, a 13-fixing plate and a 14-vertical track.

Detailed Description

The invention is described in further with reference to the figures and the embodiments.

As shown in fig. 1 to 7, reversible translation mechanisms include a driving gear 1, a driven gear 4, an annular chain 3 and a bracket device 2, wherein a end of the annular chain 3 is wound on the driving gear 1, and another end is wound on the driven gear 4, so that the annular chain 3 is engaged with the driving gear 1 and the driven gear 4 respectively, a center of the driving gear 1 and a center of the driven gear 4 are located on the same vertical lines, so that the driving gear 1 and the driven gear 4 are located on the same vertical lines, and the driving gear 1 drives the driven gear 4 to rotate through the annular chain 3, so that the annular chain 3 can be driven on the driving gear 1 and the driven gear 4.

The annular chain 3 is provided with at least bracket devices 2 connected with the annular chain 3, each bracket device 2 is used for supporting a tray for containing food or other workpieces to be cooled, each bracket device 2 comprises a connecting rod 21, a second connecting rod 24, a third connecting rod 25, a fourth connecting rod 26, a pulley 27, a support plate 22 and at least 0 bracket pieces 23 fixedly arranged on the support plate 22, each bracket piece 23 is horizontally and parallelly fixed on the front side of the support plate 22, ends of the connecting rods 21, the second connecting rods 24, the third connecting rods 25 and the fourth connecting rods 26 are connected with the support plate 22 through connecting shafts 5, connecting shafts 5 are arranged on the back side of the support plate 22, and the third connecting rods 25 and the fourth connecting rods 26 are all arranged between the connecting rods 21, the second connecting rods 24 and the support plate 22, or the connecting rods 21 and the second connecting rods 24 are arranged between the third connecting rods 25, the fourth connecting rods 26 and the support plate 22, so that the third connecting rods 25, the fourth connecting rods 26 and the do not interfere with each other connecting rods 3621 and the second connecting rods 24.

the other ends of the connecting

rods

21 and 24 are connected to the endless chain 3 through the second connecting shaft 6, 0 the connecting

rods

21 and 24 are both rotatable relative to the second connecting shaft 6, i.e. the second connecting shaft 6 remains fixed, and the 1

th connecting rod

21 and 24 are rotatable about the second connecting shaft 6. the connecting point where the 2 th connecting rod 21 and the endless chain 3 are connected is the th connecting point, the connecting point where the second connecting rod 24 and the endless chain 3 are connected is the second connecting point, th connecting point and the second connecting point are not coincident, so that an included angle α is formed between the th connecting rod 21 and the second connecting

rod

24, 0 ° < α <90 °, when the th connecting rod 21 and the second connecting rod 24 are rotated relative to the second connecting shaft 6, the size of the included angle between the th connecting rod 21 and the second connecting rod 24 is accordingly changed, the distance between the th connecting point and the second connecting point can be adjusted as needed, so that the endless chain 3 can more smoothly drive the carrier chain 2.

pulleys 27 are respectively connected to the other ends of the third connecting rod 25 and the fourth connecting rod 26, the pulleys 27 are fixedly arranged on the third connecting rod 25 and the fourth connecting rod 26, the pulleys 27 are connected with the third connecting rod 25 and the fourth connecting rod 26 through a fixed shaft (not shown in the figure), so that the pulleys 27 can rotate 360 degrees relative to the fixed shaft, the included angle between the third connecting rod 25 and the fourth connecting rod 26 is larger than 90 degrees, and the included angle between the third connecting rod 25 and the vertical line is equal to the included angle between the fourth connecting rod 26 and the vertical line, so that the two pulleys 27 are located on the same horizontal lines.

The two front and rear adjacent bracket devices 2 arranged on the endless chain 3 are connected with the endless chain 3 through common connecting points, and the second connecting rod 24 of the front bracket device 2 and the connecting rod 21 of the rear bracket device 2 are connected with the endless chain 3 through second connecting shafts 6. of course, in actual use, the front and rear adjacent bracket devices 2 may not share second connecting shafts 6 (i.e. connecting points), for example, the second connecting rod 24 of the front bracket device 2 is connected with the endless chain 3 through second connecting shafts 6, and the connecting rod 21 of the rear bracket device 2 is connected with the endless chain 3 through another second connecting shafts 6.

The th connecting rod 21 comprises a th connecting piece 211 and a second connecting piece 212 which are arranged in parallel, the ends of the th connecting piece 211 and the second connecting piece 212 are connected with the second connecting shaft 6, the th connecting piece 211 and the th ends of the second connecting piece 212 are connected with the th connecting shaft 5, the th connecting piece 211 and the second connecting piece 212 are connected with through a pin shaft (not shown in the figure), and the th connecting rod 21 is more stably fixed on the circular chain 3 through the arrangement of the th connecting piece 211 and the second connecting piece 212, so that the bracket device 2 can be more stably arranged on the circular chain 3.

As shown in FIG. 2, the arrows in FIG. 2 indicate the moving direction of the carrier device 2, the carrier device 2 is driven by the endless chain 3, and includes a vertically ascending linear motion, a compound motion of reversing translation and a vertically descending linear motion, and constitutes a circular motion, so that the carrier device 2 can circularly and circularly move along the endless chain 3. in the compound motion phase of reversing translation, the carrier device 2 is synchronously ascending and descending while keeping horizontal motion, i.e. the carrier device 2 has a motion in the Y-axis direction and a motion in the X-axis direction, so that the carrier device 2 is reversed from the side of the endless chain 3 to the side of the endless chain 3. by the reversing, the carrier device 2 can move from the side to the side of the endless chain 3 along with the transmission of the endless chain 3, i.e. the carrier device 2 is located on the side of the circle center of the driving gear 1 and the driven gear 4 during ascending, and the carrier device 2 moves to the side of the line during descending, so that the reversing translation of the carrier device 2 is realized.

The invention also provides cooling towers based on the reversible translation mechanism, which can be used in food processing and production processes, and can also be applied to other processing and production processes.

The cooling tower comprises a cooling frame 9, a driving device 7, a fan 10 and at least two reversible translation mechanisms, wherein the two reversible translation mechanisms are respectively marked as an th translation mechanism and a second translation mechanism, the th translation mechanism is arranged on inner walls of the cooling frame 9, the second translation mechanism is arranged on the other inner walls of the cooling frame 9, so that the th translation mechanism and the second translation mechanism are oppositely arranged in a clearance manner, the size of the clearance can be adjusted according to the space size of the cooling frame 9, and a driving gear 1 of the th translation mechanism is connected with a driving gear 1 of the second translation mechanism through a linkage shaft 8, so that the th translation mechanism and the second translation mechanism can realize synchronous transmission, namely the driving gear 1 of the th translation mechanism and the driving gear 1 of the second translation mechanism can synchronously rotate.

The fan 10 and the driving device 7 are both arranged on the cooling rack 9, the fan 10 is used for conveying airflow to the inside of the cooling rack 9, and cooling is facilitated, the driving device 7 is connected with any driving gears 1 in the th translation mechanism and the second translation mechanism to drive the corresponding driving gears 1 to rotate, so as to drive the corresponding annular chain 3, namely the bracket device 2 on the annular chain 3 to transmit, of course, the driving device 7 can be simultaneously connected with the two driving gears 1 of the th translation mechanism and the second translation mechanism to synchronously drive the two driving gears 1 to rotate, for example, the driving device 7 is connected with the driving gear 1 of the th translation mechanism, the driving device 7 drives the driving gear 1 of the th translation mechanism to rotate, so that the bracket device 2 on the th translation mechanism moves up and down under the driving of the annular chain 3 and realizes reversing, and the th translation mechanism drives the second translation mechanism to realize synchronous transmission through the linkage shaft 8.

The inner wall of the cooling rack 9 is also provided with a vertical rail 14, a th bent rail 11 and a second bent rail 12 which are identical in size and shape, the outlet at the upper end of the vertical rail 14 is just positioned at the inlet of the second bent rail 12 and at the outlet of the th bent rail 11, pulleys 27 of the bracket device 2 in the process of vertical ascending or vertical descending are just positioned at the vertical rail 14, the bracket device 2 can ascend or descend more smoothly through the vertical rail 14, and for example, the bracket device 2 can still ascend or descend vertically under the condition of external force (hand touch or slight vibration or shaking).

The curved track 11 and the second curved track 12 are arranged in a crossed manner, the bottom end of the curved track 11 and the bottom end of the second curved track 12 are on the same horizontal lines, the pulleys 27 of the 1 translation mechanism and/or the second translation mechanism move along the curved track 11 during the compound movement of the reversing translation, the pulleys 27 of the translation mechanism and/or the second translation mechanism move along the second curved track 12, and since the two pulleys 27 of the bracket device 2 are respectively limited on the curved track 11 and the second curved track 12, the bracket device 2 is driven by the endless chain 3 to move in a matching manner, the bracket sheet 23 on the bracket device 2 is always in a horizontal state, the tray on the bracket sheet 23 is prevented from toppling, after the compound movement of the reversing translation is completed, the pulleys 27 of the translation mechanism and/or the second translation mechanism just enter the vertical track 14, the second translation mechanism and/or the second translation mechanism smoothly enters the vertical track to move vertically and the second curved track 12, and the second translation mechanism can move vertically and the linearly through the reversing translation mechanism.

Preferably, the inner wall of the cooling rack 9 is further provided with a fixing plate 13, the fixing plate 13 is fixed on the inner wall of the cooling rack 9 through a supporting plate 22 (not shown in the figure), the fixing plate 13 is located inside the endless chain 3 and contacts with the endless chain 3, the fixing plate 13 contacts with the endless chain 3 through a flexible strip, and the fixing plate 13 is used for supporting the endless chain 3 in a vertical state, that is, enabling the endless chain 3 not wound around the driving gear 1 and the driven gear 4 to be in a vertical state. Because 3 transmission in-process of endless chain, if bracket device 2 is under the effect of external force, can produce the effort to the annular chain through bracket device 2, for example cause the extrusion to endless chain 3, through being located the inside fixed plate 13 of endless chain 3, just in time can offset this effort for endless chain 3 can be in vertical state all the time, maintains the steady transmission of endless chain 3.

To further the cooling rack 9 has a better cooling effect, a plurality of ventilation holes are arranged in an array on the cooling rack 9.

In the actual use of the cooling rack 9, the conveying means for conveying the food or other work pieces are passed through the hollow of the cooling rack 9 so that the two inner walls of the cooling rack 9 are located at exactly opposite sides of the conveying means, i.e. so that the translation means and the second translation means are located at exactly opposite sides of the conveying means, and the translation means and the second translation means are both perpendicular to the axial direction of the conveying means (i.e. the conveying direction). since the lowest point of the combined movement out of the reversing translation into the vertically ascending tray means 2 is exactly flush with the surface of the conveying means, since the endless chain 3 is a "jogging" transmission process, i.e. there are very short time intervals between the transmissions of the endless chain 3 before and after which the endless chain 3 is at rest, when the tray means 2 reaches the lowest point of the vertical ascending from the combined translation out of the reversing translation, the tray means 2 is exactly at rest so that the tray means for holding the food or work pieces on the conveying means can be held by the tray means 23 on the tray means on the two side just being supported by the tray means 2 on the reversing translation means, so that the tray means can be moved down into the vertically descending tray means and subsequently moved from the conveyor means (when the tray means 2 is moved down into the conveying means, the vertical translation means for conveying means and the tray means or the tray means 2 is moved into the tray means, which, so that the tray means for conveying the tray 2 is moved vertically descending movement into the tray means is moved vertically descending movement into the tray means, so that the tray means is moved vertically descending along the tray means, so.

The embodiments disclosed in this specification are only illustrations of single-sided features of the invention, and the scope of protection of the invention is not limited to this embodiment, and any other functionally equivalent embodiments are within the scope of the invention.

Claims

reversible translation mechanism, which is characterized in that it comprises a driving gear, a driven gear, a ring chain and a bracket device, wherein end of the ring chain is wound on the driving gear, and end is wound on the driven gear, so that the ring chain is meshed with the driving gear and the driven gear respectively,

the annular chain is provided with at least bracket devices connected with the annular chain, each bracket device comprises a connecting rod, a second connecting rod, a supporting plate and at least bracket pieces fixedly arranged on the supporting plate, each bracket piece is horizontally fixed on the supporting plate in parallel,

the ends of the th connecting rod and the second connecting rod are connected with the supporting plate through a connecting shaft, the other ends of the th connecting rod and the second connecting rod are connected with the annular chain through a second connecting shaft, the th connecting rod and the second connecting rod can rotate relative to the second connecting shaft, and an included angle is formed between the th connecting rod and the second connecting rod.
2. The reversible translation mechanism according to claim 1, wherein the connection rod comprises a connection piece and a second connection piece which are arranged in parallel, the end of the connection piece and the second connection piece is connected with the second connection shaft, the end is connected with the connection shaft, and the connection piece and the second connection piece are connected through a pin shaft.
3. The reversible translation mechanism according to claim 1, wherein said bracket device further comprises a third connecting rod and a fourth connecting rod, the ends of the third connecting rod and the fourth connecting rod are fixedly connected to the support plate through a connecting shaft, an included angle is formed between the third connecting rod and the fourth connecting rod, another ends are respectively connected to pulleys, and the two pulleys are located on the same horizontal lines.
4. The reversible translation mechanism according to claim 3, wherein the third, fourth, and second connecting rods are connected to the support plate by the same connecting shafts.
5. A switchable translation mechanism according to , wherein the second connecting rods of the front carriage means and the connecting rods of the rear carriage means are connected to the endless chain by the same second connecting shafts.
cooling tower, characterized in that, it includes cooling rack, drive device and at least two reversible translation mechanism as stated in any of claims 1-5, two reversible translation mechanism are respectively named as translation mechanism and second translation mechanism, the translation mechanism is set up on inner walls of cooling rack, the second translation mechanism is set up on another inner walls of cooling rack, so that the translation mechanism and the second translation mechanism are set up opposite to each other with a gap, the drive device is connected with both translation mechanism and second translation mechanism, used for driving the translation mechanism and second translation mechanism to transmit synchronously.
7. The cooling tower of claim 6, wherein the inner wall of the cooling rack is further provided with a fixing plate, the fixing plate is fixedly arranged on the inner wall of the cooling rack, and the fixing plate is located on the inner side of the endless chain and is in contact with the endless chain for supporting the endless chain in a vertical state.
Cooling tower of the type 8, , characterized in that it comprises a cooling frame, driving means and at least two reversible translation mechanisms according to claims 3 or 4, respectively identified as translation mechanism and second translation mechanism, the translation mechanism being arranged on of the inner walls of the cooling frame, the second translation mechanism being arranged on another of the inner walls of the cooling frame, so that the translation mechanism and the second translation mechanism are arranged opposite to each other with an interval, the driving means being connected to both the translation mechanism and the second translation mechanism for driving the translation mechanism and the second translation mechanism in synchronism, said cooling frame being further provided on its inner walls with a curved track and a second curved track of the same size and shape, the curved track and the second curved track being arranged crosswise, the curved track and the second curved track being in the same horizontal line, the second curved track 733 and the second curved track being in the combined translation movement of the direction and the second translation mechanism being arranged along another 3884 pulley.
cooling tower, characterized in that, it includes cooling rack, drive device and at least two reversible translation mechanism as stated in claim 3 or 4, two reversible translation mechanism are respectively marked as translation mechanism and second translation mechanism, translation mechanism is set up on inner walls of cooling rack, second translation mechanism is set up on another inner walls of cooling rack, so that second translation mechanism and second translation mechanism are set up opposite to each other with a gap, drive device is connected with second translation mechanism and second translation mechanism for driving translation mechanism and second translation mechanism to synchronous transmission, vertical track is also set up on the inner wall of cooling rack, pulleys of translation mechanism and second translation mechanism in vertical rising and vertical falling move along vertical track.
10. The cooling tower according to , wherein the translational mechanism is connected to the second translational mechanism through a linkage shaft, and the driving device is connected to any driving gears of the translational mechanism and the second translational mechanism, so that the driving device drives the translational mechanism and the second translational mechanism to synchronously drive.