CN111844402B - Curing device - Google Patents

Abstract

The invention discloses a maintenance device, which comprises: the maintenance bin is provided with a maintenance cavity, an inlet communicated with the maintenance cavity is formed in the maintenance bin, the maintenance bin is provided with a front-back direction and a vertical direction, and the maintenance cavity longitudinally extends along the front-back direction; the baffle mechanism, the baffle mechanism is established at the maintenance intracavity, baffle mechanism includes drive assembly and a plurality of sub-baffle, a plurality of sub-baffles include a stator baffle and a plurality of activity sub-baffles that vertical consecutive, the stator baffle is located the top of baffle mechanism, the activity sub-baffle is connected in the lower extreme of stator baffle, each activity sub-baffle can be along the vertical direction straight line back and forth movement, drive assembly links to each other with arbitrary activity sub-baffle, pack up or release along vertical direction in proper order with driving a plurality of activity sub-baffles or partial activity sub-baffle. The invention can divide the curing bins along the length direction thereof, is easier to control, increases the volume ratio of the target curing part to the actually required curing cavity after the bins are divided, and can obviously reduce the heat loss of curing.

Description

Curing device

Technical Field

The invention relates to the technical field of maintenance cellars, in particular to a maintenance device.

Background

The current vertical curing kiln bin is mostly integral, and the depth direction can not be adjusted, no matter mould platform and component size specification are big or little all must heat whole curing kiln, and this is very low with regard to the space utilization who makes mould platform and component in curing kiln, and heats the extravagant heat energy of whole curing kiln many, leads to the maintenance cost to increase. Although the partition plates are additionally arranged in some curing kilns, the partition plates cannot be adjusted up and down, so that the curing kilns cannot simultaneously cure components and die tables in different sizes, and target curing parts cannot cross the partition plates to enter the space behind the partition plates due to the fact that the partition plates cannot be adjusted up and down, waste of the space behind the partition plates is caused, and the problem of low space utilization rate also exists.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides a maintenance device to solve the problems that the space utilization rate of the mold table and the components in the existing maintenance kiln is low, the heat energy damage is large, the cost is high, and the components and the mold table with different sizes cannot be maintained at the same time.

A maintenance device according to an embodiment of the present invention includes: the maintenance bin is provided with a maintenance cavity, an inlet communicated with the maintenance cavity is formed in the maintenance bin, the maintenance bin is provided with a front-back direction and a vertical direction, and the maintenance cavity longitudinally extends along the front-back direction; the partition plate mechanism is used for dividing the maintenance cavity into at least two maintenance areas, the partition plate mechanism is arranged in the maintenance cavity and comprises a driving assembly and a plurality of sub partition plates, the sub partition plates comprise a fixed sub partition plate and a plurality of vertically sequentially connected movable sub partition plates, the fixed sub partition plate is positioned at the top end of the partition plate mechanism, the movable sub partition plates are connected to the lower ends of the fixed sub partition plates, each movable sub partition plate can linearly reciprocate along the vertical direction, the driving assembly is connected with any movable sub partition plate to drive the movable sub partition plates or part of the movable sub partition plates to be sequentially folded or released along the vertical direction.

According to the maintenance device provided by the embodiment of the invention, the driving assembly and the plurality of sequentially connected sub-partition plates form a folding partition plate mechanism, the maintenance bin can be divided into the bins along the front and back direction through the partition plate mechanism, and the plurality of sub-partition plates can be folded and vertically moved, so that the area of a single sub-partition plate is reduced, and the bin division is easier to control. And the volume ratio of the target maintenance part to the actually required maintenance cavity is increased after the bin division, so that the heat loss of maintenance can be obviously reduced, the maintenance cost is reduced, the maintenance bin division is flexible through a partition plate mechanism capable of being adjusted up and down, the target maintenance part with longer or shorter size can be maintained at the same time, and the adaptability is stronger. Simultaneously, with the in-process of target maintenance spare transportation to maintenance storehouse, the baffle mechanism that rolls up can allow target maintenance spare to transport in the space of baffle mechanism rear for maintenance storehouse's space utilization is more heightened.

In some embodiments, when the driving assembly retracts a part of the movable sub-partition, the partition mechanism divides the maintenance cavity into three maintenance zones, wherein the three maintenance zones comprise: the second maintenance area, be located the first maintenance area and the third maintenance area of the both sides of partition mechanism, the second maintenance area is located the vertical below of first maintenance area, partition mechanism and the third maintenance area, wherein, the length of first maintenance area, the length of second maintenance area and the length of third maintenance area are not the same and are set up.

In some embodiments, the movable sub-partition may adjust a length of the partition mechanism in a vertical direction, and the depth of the first curing zone and the depth of the third curing zone gradually increase as the length of the partition mechanism increases, and the depth of the second curing zone gradually decreases as the length of the partition mechanism increases.

In some embodiments, the diaphragm mechanism further comprises: the two guide seats are respectively matched with the two ends of the sub-partition board in the left and right directions, and the two guide seats are respectively connected to the left and right side walls of the maintenance bin.

Optionally, the driving assembly is disposed at least one end of the sub-partition in the left-right direction, and the driving assembly includes: the first driving motor is arranged on the corresponding guide seat; the driving wheel is connected to an output shaft of the first driving motor; the flexible piece is sleeved on the driving wheel and connected to the movable sub-partition plate at the bottommost part.

In some embodiments, two ends of each sub-partition board in the left-right direction are provided with a guide groove or a guide hole, and in two adjacent sub-partition boards, a connecting column matched with the guide groove or the guide hole of the next sub-partition board is arranged on the previous sub-partition board.

In some embodiments, the maintenance device further comprises: the transverse moving mechanism is arranged on the curing bin and connected with the partition plate mechanism so as to drive the partition plate mechanism to move along the front and back directions of the curing cavity.

Optionally, the traversing mechanism comprises: the rack is arranged on the curing bin; the gear is meshed with the rack; and an output shaft of the second driving motor is connected with the gear, and the second driving motor is arranged on the partition plate mechanism.

In some embodiments, a plurality of partition mechanisms are disposed in the curing chamber, the plurality of partition mechanisms are spaced apart in the front-rear direction, the plurality of partition mechanisms can partition the curing chamber into a plurality of curing zones, the plurality of curing zones and the plurality of partition mechanisms are alternately disposed in the front-rear direction, and each partition mechanism can perform linear displacement motion in the front-rear direction.

In some embodiments, a first folding cover plate and a second folding cover plate are respectively connected to two sides of the partition mechanism, and the first folding cover plate and the second folding cover plate can be folded, folded or unfolded along the front-back direction of the maintenance bin to open or close the opening at the top of the maintenance bin.

In some embodiments, the fixed sub-partition extends vertically upward out of the curing chamber, when all the movable sub-partitions are retracted, all the movable sub-partitions are stacked on the fixed sub-partition along the front-rear direction of the curing chamber, and all the movable sub-partitions are located outside the curing chamber.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a first schematic perspective view of a maintenance device according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a spacer mechanism in an open state according to an embodiment of the present invention;

FIG. 3 is a schematic perspective view of a barrier mechanism in a closed state according to an embodiment of the present invention;

FIG. 4 is a schematic perspective view of the spacer mechanism of the embodiment of the present invention with the left guide seat removed;

FIG. 5 is a schematic perspective view of a spacer mechanism of an embodiment of the present invention without a guide block;

FIG. 6 is an enlarged view of a portion of FIG. 5 at I;

FIG. 7 is a schematic perspective view of a second embodiment of a spacer mechanism according to the present invention;

FIG. 8 is a first schematic perspective view of a curing apparatus according to an embodiment of the present invention;

FIG. 9 is a schematic perspective view of a second maintenance apparatus according to an embodiment of the present invention;

FIG. 10 is an enlarged view of a portion of FIG. 9 at II;

FIG. 11 is a schematic view of the internal structure of the maintenance device in the embodiment of the present invention.

Reference numerals:

100. a maintenance device;

10. maintaining a bin;

101. a maintenance cavity; 1011. a first curing zone; 1012. a second curing zone; 1013. a third curing zone;

20. a partition mechanism;

21. a drive assembly; 211. a first drive motor; 212. a driving wheel; 213. a flexible member;

22. a stator spacer; 24. a movable sub-partition; 221. a guide hole; 222. connecting columns;

23. a guide seat;

30. a traversing mechanism;

31. a rack; 32. a gear; 33. a second drive motor;

40. a column;

1000. maintaining equipment; 200. a stacker; 001. a long mold table; 002. a short die table; 003. a first folding cover plate; 004. a second folding flap.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, are used in an orientation or positional relationship indicated in the drawings for convenience in describing the present invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be construed as limiting the present invention. Furthermore, features defined as "first" and "second" may explicitly or implicitly include one or more of the features for distinguishing between descriptive features, non-sequential, non-trivial and non-trivial. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The curing device 100 according to the embodiment of the present invention will be described below with reference to the drawings.

As shown in fig. 1 and 2, a health-care apparatus 100 according to an embodiment of the present invention includes: a curing barn 10 and a partition mechanism 20.

Maintenance storehouse 10 has maintenance chamber 101, is equipped with the entry (not shown in the figure) that communicates maintenance chamber 101 on the maintenance storehouse 10, and maintenance storehouse 10 has fore-and-aft direction and vertical direction, and maintenance chamber 101 extends along fore-and-aft direction lengthwise, and the maintenance chamber 101 is put into through the entry to the target maintenance spare, seals the entry after, realizes the maintenance to the target maintenance spare through heating whole maintenance storehouse 10.

The partition mechanism 20 is used for dividing the curing cavity 101 into at least two curing areas, the partition mechanism 20 is arranged in the curing cavity 101, the partition mechanism 20 comprises a driving assembly 21 and a plurality of sub-partitions, the sub-partitions comprise a fixed sub-partition 22 and a plurality of movable sub-partitions 24 which are vertically connected in sequence, the fixed sub-partition 22 is located at the top end of the partition mechanism 20, the movable sub-partitions 24 are connected to the lower ends of the fixed sub-partitions 22, each movable sub-partition 24 can do linear reciprocating motion along the vertical direction, and the driving assembly 21 is connected with any movable sub-partition 24 so as to drive the movable sub-partitions 24 or part of the movable sub-partitions 24 to be sequentially retracted or released along the vertical direction. That is, the partition mechanism 20 has a plurality of working states, and can be flexibly controlled to divide the curing chamber 10, for example, when the driving assembly 21 drives the plurality of movable sub-partitions 24 to be sequentially retracted, the partition mechanism 20 is in a closed state, and the curing chamber 101 is not divided; when the driving assembly 21 drives the plurality of movable sub-partition plates 24 to be sequentially released, the partition plate mechanism 20 is in an open state, so that the maintenance bin 10 can be divided along the front and rear direction of the maintenance bin 10, namely, the maintenance cavity 101 is divided into a front maintenance area and a rear maintenance area; when the driving assembly 21 drives part of the movable sub-partition 24 to release, the upper space of the curing chamber 101 can be divided into a front curing area and a rear curing area, and the lower space is not divided to form a curing area, so that the curing chamber 101 is divided into a plurality of curing areas.

It should be noted that the target maintenance part may be a standard mold table or a special mold table, when the size of the target maintenance part is long, the driving assembly 21 drives the plurality of movable sub-partitions 24 to retract, the partition mechanism 20 is in a closed state (as shown in fig. 3), as shown in fig. 7 and 11, the fixed sub-partitions 22 vertically extend upwards out of the maintenance bin 10, when all the movable sub-partitions 24 are retracted, all the movable sub-partitions 24 are stacked on the fixed sub-partitions 22 along the front-back direction of the maintenance bin 10, and all the movable sub-partitions 24 are located outside the maintenance bin 10, so that the partition mechanism 20 does not have a blocking effect, and at this time, the target maintenance part can be maintained by fully utilizing the whole space of the maintenance cavity 101. And when the size of target maintenance piece is shorter, drive assembly 21 drives a plurality of activity sub-baffles 24 release, baffle mechanism 20 is in the on-state (as shown in fig. 2), baffle mechanism 20 possesses the separation effect and separates into two maintenance districts with maintenance chamber 101, the target maintenance piece of shorter size just can be placed in less maintenance district, just can realize the maintenance to this target maintenance piece of shorter size through heating this less maintenance district alone, avoid leading to the more problem of heat waste because of heating whole maintenance chamber 101, and also can the reasonable space that utilizes maintenance chamber 101. When the target maintenance parts with longer size and shorter size need to be maintained simultaneously, the driving assembly 21 drives part of the movable sub-partition plates 24 to release, at the moment, the lower space of the maintenance cavity 101 is not blocked, the target maintenance parts with longer size can be maintained, the upper space of the maintenance cavity 101 is separated by the part of the released movable sub-partition plates 24 and is separated into two maintenance areas along the front-back direction, and maintenance of the target maintenance parts with shorter size can be realized.

It can be seen that, with the partition mechanism 20, the space utilization rate of the short target maintenance part can be improved in the open state, and the longer target maintenance part can be compatible in the closed state, so that the adaptability of the maintenance device 100 is strong.

According to the curing device 100 of the embodiment of the invention, the driving assembly 21 and the plurality of sub-partitions form a folding partition mechanism 20, the curing bin 10 can be divided into the front and the back direction through the partition mechanism 20, and the plurality of movable sub-partitions 24 can be folded and vertically moved, so that the area of each sub-partition is reduced, and the division of the bin is easier to control. And the volume ratio of the target maintenance part to the actually required maintenance cavity is increased after the bin division, so that the heat loss of maintenance can be obviously reduced, the maintenance cost is reduced, the maintenance bin 10 is flexible in bin division through the partition plate mechanism 20 which can be adjusted up and down, the target maintenance part with longer or shorter size can be maintained at the same time, and the adaptability is stronger. Simultaneously, with the in-process of target maintenance spare transportation to maintenance storehouse, the baffle mechanism that rolls up can allow target maintenance spare to transport in the space of baffle mechanism rear for maintenance storehouse's space utilization is more heightened.

In some embodiments, as shown in fig. 1 and 11, when the driving assembly 21 retracts the partial movable sub-partitions 24, the partition mechanism 20 divides the curing chamber 101 into three curing zones, which include: a second maintenance area 1011, a first maintenance area 1012 and a third maintenance area 1013 on both sides of the barrier means 20, the second maintenance area 1011 being located vertically below the first maintenance area 1012, the barrier means 20 and the third maintenance area 1013; wherein the length of the first maintenance area 1012, the length of the second maintenance area 1011 and the length of the third maintenance area 1013 are not arranged identically. That is, under the driving of the driving assembly 21, the lower part of the movable sub-partition 24 is retracted, and the upper part of the movable sub-partition 24 is not retracted, at this time, the partition mechanism 20 plays a part of the blocking role, and partitions the curing barn 10 into a plurality of curing depths. The lower portion of the curing chamber 101 is not partitioned by the movable sub-partition 24 to form a second curing zone 1011 having a length equal to that of the curing chamber 101 (the length of the curing chamber 101 refers to the dimension of the curing chamber 101 in the front-rear direction), and the upper portion of the curing chamber 101 is partitioned by the movable sub-partition 24 to form a first curing zone 1012 and a third curing zone 1013 having a shorter length. For longer-sized target curing members, such as the long mold table 001, may be placed in the second curing zone 1011 below for curing. And the target curing member having a shorter size, such as the short mold table 002, can be placed above the first curing zone 1012 and the third curing zone 1013 for curing. By the aid of the method, maintenance of target maintenance parts with different length and size can be achieved, the utilization rate of the maintenance device 100 is improved, and the maintenance device is particularly suitable for a multi-class and few-batch production mode.

Optionally, the second maintenance area 1011 and the first maintenance area 1012, and the second maintenance area 1011 and the third maintenance area 1013 may be blocked by heat insulation plates (not shown) horizontally disposed to better separate the second maintenance area 1011 with a longer bottom, the first maintenance area 1012 with a shorter top, and the third maintenance area 1013.

In some embodiments, the movable sub-bulkhead 24 may adjust the length of the bulkhead mechanism 20 in the vertical direction, the depth of the first maintenance zone 1012 and the depth of the third maintenance zone 1013 gradually increase as the length of the bulkhead mechanism 20 increases, and the depth of the second maintenance zone 1011 gradually decreases as the length of the bulkhead mechanism 20 increases.

In some embodiments, as shown in fig. 2, the spacer mechanism 20 further comprises: two guide seats 23, two guide members 23 are respectively matched at two ends of the sub-partition board in the left and right direction, and the two guide seats 23 are respectively connected on the left and right side walls of the curing bin 10. The two guide members 23 provide a guide for the vertical movement of the plurality of movable sub-barriers 24 so that the movement of the plurality of movable sub-barriers 24 is stable and reliable.

Alternatively, as shown in fig. 2, the driving assembly 21 is disposed at least one end of the sub-partition in the left-right direction, for example, the driving assembly 21 is disposed at one end of the sub-partition in the left-right direction (i.e., the length direction), and one driving assembly 21 can drive a plurality of movable sub-partitions 24 to be sequentially retracted or released, so that the cost can be saved. Or, the driving assemblies 21 are arranged at the two ends of the sub-partition plates in the front-back direction, and the two driving assemblies 21 can drive the plurality of movable sub-partition plates 24 to be sequentially folded or released, so that the driving process is more stable and reliable.

As shown in fig. 4, the driving assembly 21 includes: the first driving motor 211, the first driving motor 211 is set up on the correspondent guide holder 23; the transmission wheel 212 is connected to the output shaft of the first driving motor 211; the flexible part 213, the flexible part 213 is set on the driving wheel 212, the flexible part 213 is connected to the movable sub-partition 24 at the bottom. It can be understood that when the partition mechanism 20 is closed, the first driving motor 211 drives the transmission wheel 212 to rotate, the transmission wheel 212 drives the flexible member 213 to rotate, and the bottommost movable sub-partition 24 moves upwards under the drive of the flexible member 213, and since every two adjacent sub-partitions are vertically movably connected, the rest movable sub-partitions 24 are sequentially retracted as the bottommost movable sub-partition 24 moves. Similarly, when the partition mechanism 20 is turned on, the first driving motor 211 drives the driving wheel 212 to rotate, the flexible member 213 drives the bottommost movable sub-partition 24 to move downward, and the rest movable sub-partitions 24 are sequentially released. In this way the opening and closing of the diaphragm mechanism 20 is simple and easy to control.

In some embodiments, the flexible member 213 may also be selectively attached to the non-bottom movable sub-partition 24, as long as the effect that the partition mechanism can be rolled up and released in the vertical direction is achieved.

Alternatively, the transmission wheel 212 may be any one of a sheave, a sprocket, and a pulley, and the flexible member 213 may be any one of a corresponding traction rope, a transmission chain, and a transmission belt.

In some embodiments, as shown in fig. 5 and 6, both ends of each sub-partition in the left-right direction are provided with guide grooves (not shown) or guide holes 221, and in two adjacent sub-partitions, the upper sub-partition is provided with a connection column 222 which is matched with the guide groove or guide hole 221 of the lower sub-partition. For example, a guide hole 221 is formed on the next-segment partition plate, a connection column 222 is fixed on the previous-segment partition plate, and the connection column 222 is in sliding fit with the guide hole 221. When the partition mechanism 20 is closed, the plurality of sub-partitions are sequentially retracted, the next sub-partition (the movable sub-partition 24 at the lowest part at this time) moves upward relative to the previous sub-partition to the bottom of the guide hole 221 to contact the connection column 222, the previous sub-partition is lifted up along with the continuous upward movement of the next sub-partition, and the rest sub-partitions are lifted up by analogy, so that the retraction of the plurality of sub-partitions is realized. When the partition mechanism 20 is opened, the plurality of sub-partitions are sequentially released, the sub-partitions move downwards until the connecting column 222 abuts against the top of the guide hole 221, the next sub-partition is released, and so on, and finally the sub-partition at the lowest part is positioned below the previous sub-partition. Through the mode, the folding of a plurality of sub-separators is realized, and the structure is simple. The length of the guide hole 221 of the previous section of the sub-partition board extending along the vertical direction is the vertical displacement of the connecting column 222 of the corresponding next section of the sub-partition board, and is also the vertical displacement of the next section of the sub-partition board.

In some embodiments, as shown in fig. 9 and 10, the maintenance device 100 further includes: and the transverse moving mechanism 30 is arranged on the curing bin 10, and the transverse moving mechanism 30 is connected with the partition plate mechanism 20 so as to drive the partition plate mechanism 20 to move along the front and back directions of the curing cavity 101. That is, the transverse moving mechanism 30 drives the partition mechanism 20 to move to adjust the length of the divided curing zones in the front-back direction. Specifically, according to the length of the target maintenance part, the traverse mechanism 30 drives the partition mechanism 20 to move back and forth to flexibly adjust the space of the maintenance area (i.e. the space of the maintenance cavity actually required by the target maintenance part), so that the effects of saving energy and reducing cost can be achieved after heating.

Alternatively, as shown in fig. 10, the traverse mechanism 30 includes: the rack 31, the rack 31 is set up on the curing barn 10; a gear 32, wherein the gear 32 is meshed with the rack 31; a second driving motor 33, an output shaft of the second driving motor 33 is connected with the gear 32, and the second driving motor 33 is arranged on the partition mechanism 20. When the transverse moving mechanism 30 is operated, the second driving motor 33 drives the gear 32 to rotate, and the gear 32 is engaged with the rack 31 and receives a reaction force from the rack 31, so that the partition mechanism 20 realizes the back and forth movement. By adopting the mode, the structure is simple, and the transverse movement is convenient.

Optionally, the rack 31 and the gear 32 may be engaged in a synchronous belt mechanism, for example, the top of the curing barn 10 is provided with a synchronous belt mechanism, the second driving motor 33 is connected with a synchronous wheel, and the synchronous wheel drives the partition mechanism 20 to move under the friction action of the synchronous belt. Of course, the traversing mechanism 30 can be other mechanisms, which are not described in detail herein.

In some embodiments, as shown in fig. 1, a plurality of partition mechanisms 20 are disposed in the curing chamber 101, the plurality of partition mechanisms 20 are disposed at intervals along the front-rear direction, the plurality of partition mechanisms 20 can divide the inside of the curing chamber 101 into a plurality of curing zones, the plurality of curing zones and the plurality of partition mechanisms 20 are alternately disposed along the front-rear direction, and each partition mechanism 20 can perform linear displacement motion along the front-rear direction. For example, the partition means 20 is two, so that two partition means 20 are divided into at least three curing zones in the front-rear direction, and it can be seen that the curing chamber 101 can simultaneously perform curing of more targeted curing members by providing a plurality of partition means 20.

In some embodiments, as shown in fig. 7, the partition mechanism 20 is connected to the first folding cover 003 and the second folding cover 004 at two sides, and the first folding cover 003 and the second folding cover 004 can be folded and unfolded along the front-back direction of the curing chamber 10 for closing the opening (not shown) at the top of the curing chamber 10, and the structure of the first folding cover 003 and the second folding cover 004 can refer to the folding window or the folding partition mechanism 20, and will not be described herein again. The spacer mechanism presses one of the folding cover panels and pulls the other folding cover panel while the spacer mechanism moves back and forth in the front-rear direction. The length of the first folding cover 003 and the length of the second folding cover 004 can be varied in the front-rear direction so as to be adapted to the position of the partition mechanism 20 in the front-rear direction, and the opening of the top of the curing barn 10 can be closed while the partition mechanism 20 is moved in the front-rear direction.

In some embodiments, as shown in fig. 7, the curing barn 10 has a plurality of independent curing chambers 101, each curing chamber 101 has a partition plate mechanism 20, and at least some of the curing zones 101 are divided into different lengths. That is to say, when the overall size of the curing barn 10 is large, the curing barn 10 can be arranged into a plurality of curing cavities 101 along the left-right direction, so that the curing cavities 101 can respectively accommodate target curing parts with different lengths, the curing effect of different target curing parts is realized, the overall utilization rate of the curing device 100 is obviously improved, and the curing device is particularly suitable for a production mode with multiple types and less batches.

In some embodiments, as shown in fig. 1, a plurality of columns 40 are provided in the curing chamber 101 at intervals in the front-rear direction of the curing chamber 101, and the partition mechanism 20 is provided on the columns 40. That is, the number and placement positions of the partition mechanisms 20 are set as required according to the length and kind of the target maintenance member with the distance between the adjacent two columns 40 as the minimum unit.

An embodiment of the maintenance device 100 according to the present invention will be described below with reference to the accompanying drawings.

As shown in fig. 1 to 10, a health preserving apparatus 100 includes: a curing bin 10, a clapboard mechanism 20,

The curing bin 10 is provided with a curing cavity 101, an inlet communicated with the curing cavity 101 is formed in the curing bin 10, and the inlet is formed in the side portion of the curing bin 10, so that the stacker 200 can move in the front-back direction conveniently to place a target curing part in the curing cavity 101. The target maintenance part is a standard die table, a special die table or other components and is placed into the maintenance cavity 101 through an inlet.

The partition means 20 is provided in the curing chamber 101.

The partition plate mechanism 20 comprises a driving assembly 21, a plurality of sub-partition plates, two guide seats 23 and a plurality of sub-partition plates, wherein the sub-partition plates comprise a fixed sub-partition plate 22 and a plurality of movable sub-partition plates 24 which are vertically connected in sequence, the driving assembly 21 is connected with the movable sub-partition plate 24 at the bottommost part to drive the plurality of movable sub-partition plates 24 or partial movable sub-partition plates 24 to be sequentially packed or released along the vertical direction, the two guide parts 23 are respectively matched at two ends of the movable sub-partition plate 24 in the length direction, and the two guide seats 23 are all connected to the curing bin 10.

The driving assembly 21 can drive a part of the movable sub-partition 24 to retract so as to divide the curing chamber 101 into a first curing area 1012, a second curing area 1011 and a third curing area 1013.

The driving unit 21 is provided at one end of the sub-barrier in the longitudinal direction.

The driving assembly 21 comprises a first driving motor 211, and the first driving motor 211 is arranged on the corresponding guide seat 23; the transmission wheel 212 is connected to the output shaft of the first driving motor 211; the flexible part 213, the flexible part 213 is set on the driving wheel 212, the flexible part 213 is connected to the movable sub-partition 24 at the bottom.

The drive wheel 212 is a sheave and the flexible member 213 is a traction rope.

The two ends of each sub-partition board in the length direction are respectively provided with a guide hole 221, and in the two adjacent sub-partition boards, the upper sub-partition board is provided with a connecting column 222 matched with the guide groove or the guide hole 221 of the lower sub-partition board.

The transverse moving mechanism 30 is arranged on the curing chamber 10, and the transverse moving mechanism 30 is connected with the partition plate mechanism 20 so as to drive the partition plate mechanism 20 to move along the front and back directions of the curing chamber 101. The traverse mechanism 30 includes: the rack 31, the rack 31 is set up on the curing barn 10; a gear 32, wherein the gear 32 is meshed with the rack 31; a second driving motor 33, an output shaft of the second driving motor 33 is connected with the gear 32, and the second driving motor 33 is arranged on the partition mechanism 20.

The first folding cover plate 003 and the second folding cover plate 004 are respectively connected to two sides of the partition mechanism 20, and the first folding cover plate 003 and the second folding cover plate 004 can be folded, folded or unfolded along the front-back direction of the curing bin 10 to open or close the opening at the top of the curing bin 10.

A plurality of upright posts 40 are arranged in the curing chamber 101 at intervals along the front-rear direction of the curing chamber 101, and the partition plate mechanisms 20 are arranged on the upright posts 40.

In summary, based on the problem of low space utilization rate of the mold table and the components in the existing curing kiln, the partition plate mechanism 20 is additionally arranged, the chamber space of the curing bin 10 can be flexibly adjusted in the depth direction, the curing requirements of the standard mold table and the special mold table can be met, the size of the curing space can be adjusted according to the size of the mold table, the volume ratio of the components in the curing bin 10 is improved to the maximum extent, and the curing cost is reduced. In addition, the curing bin 10 is divided into bins in the front and rear directions through a folding type partition plate mechanism 20, and small sub-partition plates are adopted to move in a folding and vertical mode, so that the area of each sub-partition plate is reduced, and the bin division is easier to control. The volume ratio of the components after the bin division to the maintenance bin 10 is increased, and the maintenance heat loss is effectively reduced.

As shown in fig. 8 and 9, a maintenance apparatus 1000 according to an embodiment of the present invention includes: a curing device 100 and a stacker 200.

The curing device 100 is a curing device 100 according to any one of the preceding paragraphs; the stacker 200 is used to place the target maintenance part in the maintenance cavity 101.

According to the curing equipment 1000 of the embodiment of the invention, the curing device 100 is provided with the folding type partition plate mechanism 20, the curing bin 10 can be divided into the front and the back direction through the partition plate mechanism 20, and the area of a single sub-partition plate is reduced through the folding vertical movement of a plurality of sub-partition plates, so that the division of the bin is easier to control. And the volume ratio of the target maintenance part to the actually required maintenance cavity is increased after the bin division, so that the heat loss of maintenance can be obviously reduced, and the maintenance bin 10 can adapt to target maintenance parts with longer or shorter sizes through the partition plate mechanism 20, so that the adaptability is strong.

Other configurations and operations of the curing device 100 according to the embodiment of the present invention are known to those skilled in the art and will not be described in detail herein.

In the description herein, references to the description of the terms "embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A support device, comprising:

the maintenance bin is provided with a maintenance cavity, an inlet communicated with the maintenance cavity is formed in the maintenance bin, the maintenance bin is provided with a front-back direction and a vertical direction, and the maintenance cavity longitudinally extends along the front-back direction;

the partition plate mechanism is used for dividing the maintenance cavity into at least two maintenance areas, the partition plate mechanism is arranged in the maintenance cavity and comprises a driving assembly and a plurality of sub partition plates, the sub partition plates comprise a fixed sub partition plate and a plurality of movable sub partition plates which are vertically and sequentially connected, the fixed sub partition plate is positioned at the top end of the partition plate mechanism, the movable sub partition plates are connected to the lower ends of the fixed sub partition plates, each movable sub partition plate can do linear reciprocating motion along the vertical direction, and the driving assembly is connected with any movable sub partition plate so as to drive the movable sub partition plates or part of the movable sub partition plates to be sequentially folded or released along the vertical direction;

the transverse moving mechanism is arranged on the curing bin and connected with the partition plate mechanism so as to drive the partition plate mechanism to move along the front and back directions of the curing cavity.

2. A maintenance device according to claim 1, wherein when the driving assembly retracts a part of the movable sub-partition, the partition mechanism divides the maintenance cavity into three maintenance zones, and the three maintenance zones comprise: the second maintenance area is positioned vertically below the first maintenance area, the partition plate mechanism and the third maintenance area; wherein the length of the first curing area, the length of the second curing area and the length of the third curing area are not arranged identically.

3. The curing device of claim 2, wherein said movable sub-diaphragm can adjust the length of said diaphragm mechanism in the vertical direction, the depth of said first curing zone and the depth of said third curing zone gradually increase as the length of said diaphragm mechanism increases, and the depth of said second curing zone gradually decreases as the length of said diaphragm mechanism increases.

4. A maintenance device according to claim 1, characterized in that the partition means further comprises:

the two guide seats are respectively matched with the two ends of the sub-partition board in the left and right directions, and the two guide seats are respectively connected to the left and right side walls of the maintenance bin.

5. A maintenance device according to claim 4, wherein the driving unit is provided at least one end of the sub-partition in the left-right direction, and the driving unit includes:

the first driving motor is arranged on the corresponding guide seat;

the driving wheel is connected to an output shaft of the first driving motor;

the flexible piece is sleeved on the driving wheel and connected to the movable sub-partition plate at the bottommost part.

6. The maintenance device according to claim 1, wherein both ends of each sub-partition in the left-right direction are provided with a guide groove or a guide hole, and a connecting column fitted on the guide groove or the guide hole of the next sub-partition is provided on the previous sub-partition in two adjacent sub-partitions.

7. Curing device according to claim 1,

the traversing mechanism comprises:

the rack is arranged on the curing bin;

the gear is meshed with the rack;

and an output shaft of the second driving motor is connected with the gear, and the second driving motor is arranged on the partition plate mechanism.

8. A maintenance device according to claim 1, wherein a plurality of partition means are provided in said maintenance chamber, a plurality of said partition means are provided at intervals in the front-rear direction, a plurality of said partition means divide said maintenance chamber into a plurality of said maintenance zones, a plurality of said maintenance zones and a plurality of said partition means are provided alternately in the front-rear direction, and each of said partition means is linearly displaceable in the front-rear direction.

9. The curing device of claim 1, wherein the two sides of the partition mechanism are respectively connected with a first folding cover plate and a second folding cover plate, the first folding cover plate and the second folding cover plate are used for closing the top opening of the curing chamber, and the first folding cover plate and the second folding cover plate can be folded, folded and unfolded along the front-back direction of the curing chamber.

10. The curing device of claim 1, wherein said fixed sub-partition extends vertically upward from said curing chamber, and when all of said movable sub-partitions are retracted, all of said movable sub-partitions are stacked on said fixed sub-partition in a front-rear direction of said curing chamber, and all of said movable sub-partitions are located outside said curing chamber.

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