CN217236336U - Split type hot air baking device - Google Patents

Abstract

The utility model discloses a split type hot-blast baking equipment, including cabinet body dustcoat, cabinet door, stoving cabinet, chassis translation mechanism, stoving mechanism and stoving complementary unit. The split type hot air baking device can be used for drying large workpieces by utilizing the auxiliary drying mechanism, then the drying mechanism conveys hot air to the auxiliary drying mechanism through the air inlet butt joint structure, and the hot air is circularly blown for drying, so that the large workpieces are efficiently and uniformly dried; the window is used for facilitating the chassis and the drying auxiliary mechanism to move out of the drying cabinet horizontally for loading and unloading; the window is sealed by the cabinet door, so that the drying effect is prevented from being influenced by the escape of hot air in the drying cabinet; the chassis is driven by the chassis translation mechanism to move out of the drying cabinet, so that the auxiliary drying mechanism can conveniently load or unload materials.

Description

Split type hot air baking device

Technical Field

The utility model relates to a baking equipment, especially a split type hot-blast baking equipment.

Background

The stoving case adopts shaped steel and sheet metal formation back welding to form, and the box is handsome in appearance, and is sturdy and durable, but stoving case structure is complicated on the existing market, and the function singleness, and even hot-blast drying can't be carried out to great work piece to traditional stoving case to the stoving effect is less obvious, and the time of stoving used is longer.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the split type hot air baking device can meet the requirement for efficiently and uniformly drying large workpieces.

The technical scheme is as follows: the utility model provides a split type hot air baking device, which comprises a cabinet body outer cover, a cabinet door, a drying cabinet, a chassis translation mechanism, a drying mechanism, an air inlet butt joint structure and a drying auxiliary mechanism;

the drying cabinet is arranged in the cabinet body outer cover, and the front side and the lower side of the drying cabinet are both open; a window extending to the lower edge of the cabinet body outer cover is arranged on the front side wall of the cabinet body outer cover; the cabinet door is hinged on the cabinet body outer cover and used for sealing the window; a support leg is arranged at each of four top corners of the lower side surface of the cabinet body outer cover; the chassis is longitudinally and slidably arranged at an opening at the lower side of the cabinet body outer cover; the drying auxiliary mechanism is arranged on the chassis and used for placing a workpiece to be dried; the chassis translation mechanism is arranged below the cabinet body outer cover and used for driving the chassis to drive the drying auxiliary mechanism to move longitudinally for loading and unloading; the drying mechanism is installed in the cabinet body outer cover, and conveys hot air to the drying auxiliary mechanism through the air inlet butt joint structure, and blows hot air to uniformly dry the workpiece by the drying auxiliary mechanism.

Furthermore, heat-insulating layers are arranged on the cabinet body outer cover and the cabinet door.

Furthermore, a locking plate is fixed on the edge of the cabinet door; a locking screw is hinged on the outer cover of the cabinet body; the locking plate is provided with an arc-shaped notch for clamping the locking screw; an internal thread sleeve is screwed on the locking screw; a pressing ring for pressing the locking plate is fixed on one end of the internal thread sleeve, and a screwing handle is fixed on the other end of the internal thread sleeve.

Furthermore, a slide bar is longitudinally arranged at the left edge and the right edge of the lower opening of the cabinet body outer cover; the left side surface and the right side surface of the chassis are respectively provided with a sliding chute matched with the corresponding side sliding strip.

Furthermore, a fixed barrier strip is longitudinally arranged on the lower side of the inner walls of the left side and the right side of the drying cabinet; a movable barrier strip is longitudinally hinged at the left edge and the right edge of the upper side surface of the chassis; the chassis is provided with a compression spring which tightly presses the movable barrier strip on the fixed barrier strip.

Further, the chassis translation mechanism comprises a translation driving motor, a bottom plate, two chain wheels and two slide rails;

the bottom plate is arranged below the cabinet body outer cover; two sliding seats are arranged on the lower side surface of the chassis; two translation driving screw rods are rotatably and longitudinally arranged on the upper side surface of the bottom plate, and the two translation driving screw rods are respectively screwed on the two sliding seats; the two chain wheels are respectively arranged at the front ends of the two translation driving screw rods; the two chain wheels are in chain transmission through chains; the translation driving motor is used for driving one of the translation driving screw rods to rotate; the two sliding rails are respectively and longitudinally arranged on the left side and the right side of the bottom plate; a plurality of rollers which respectively walk on the corresponding side slide rails are arranged on the lower side surface of the chassis.

Further, the drying mechanism comprises a circulating fan, an electric heater, a return air pipe and an air outlet pipe;

the circulating fan is arranged in the outer cover of the cabinet body, and one end of the return air pipe and one end of the air outlet pipe are respectively butted on an air inlet and an air outlet of the circulating fan; the electric heater is connected in series with the return air pipe; the other end of the air outlet pipe extends into the drying cabinet and is inserted into one end of the air inlet butt joint structure; the other end of the return air pipe penetrates through the upper side wall of the drying cabinet and then extends into the drying cabinet, and a return air inlet is formed in the extending end of the return air pipe.

Furthermore, the drying auxiliary mechanism comprises a central pipe, an air inlet pipe and a plurality of placing plates;

the lower end of the central tube is fixed at the center of the upper side surface of the chassis; a plurality of placing plates are fixed on the center aligning pipe at intervals; the central pipe above each placing plate is provided with an air blowing hole; the front end of the air inlet pipe is installed on the central pipe in a communicating mode, and the rear end of the air inlet pipe is inserted into the other end of the air inlet butt joint structure.

Further, the air inlet butt joint structure comprises a butt joint sleeve and a sealing spring; the extending end of the air outlet pipe is inserted on one end of the butt joint sleeve pipe, and the rear end of the air inlet pipe is inserted on the other end of the butt joint sleeve pipe; a sliding groove is longitudinally arranged on the inner wall of the butt joint sleeve; a sliding block matched with the sliding groove is arranged at the inserting end of the air outlet pipe; the stretching end of the air outlet pipe is coaxially provided with a ring piece; a convex ring is coaxially arranged on the inner side wall of the butt joint sleeve; the extending end of the air outlet pipe is sleeved with a sealing spring which is elastically supported between the ring sheet and the butt joint sleeve and is used for driving the butt joint sleeve to move so that the convex ring is tightly attached to the pipe opening of the air inlet pipe.

Compared with the prior art, the utility model, its beneficial effect is: the large-sized workpiece can be placed by the aid of the drying auxiliary mechanism, hot air is conveyed to the drying auxiliary mechanism through the air inlet butt joint structure by the drying mechanism, and the hot air is circularly blown for drying, so that the large-sized workpiece is efficiently and uniformly dried; the base plate and the drying auxiliary mechanism are convenient to move out of the drying cabinet horizontally by using the window for loading and unloading; the window is sealed by the cabinet door, so that the drying effect is prevented from being influenced by the escape of hot air in the drying cabinet; utilize chassis translation mechanism drive chassis to shift out the stoving cabinet, the stoving complementary unit of being convenient for carries out material loading or unloading.

Drawings

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

FIG. 2 is a schematic structural view of the drying auxiliary mechanism of the present invention;

fig. 3 is a sectional view of the butt sleeve of the present invention;

fig. 4 is a partial sectional view of the left side view of the present invention.

Detailed Description

The technical solution of the present invention is described in detail below with reference to the accompanying drawings, but the scope of protection of the present invention is not limited to the embodiments.

Example 1:

as shown in fig. 1-4, the utility model provides a split type hot air baking device includes: the cabinet comprises a cabinet body outer cover 1, a cabinet door 2, a drying cabinet 35, a chassis 39, a chassis translation mechanism, a drying mechanism, an air inlet butt joint structure and a drying auxiliary mechanism;

the drying cabinet 35 is arranged in the cabinet body outer cover 1, and the front side and the lower side of the drying cabinet 35 are both open; a window 9 extending to the lower edge of the cabinet body outer cover 1 is arranged on the front side wall of the cabinet body outer cover 1; the cabinet door 2 is hinged on the cabinet body outer cover 1 and used for sealing the window 9; four top corners of the lower side surface of the cabinet body outer cover 1 are respectively provided with a support leg 10; the chassis 39 is longitudinally and slidably arranged at the lower opening of the cabinet body outer cover 1; the drying auxiliary mechanism is arranged on the chassis 39 and used for placing workpieces to be dried; the chassis translation mechanism is arranged below the cabinet body outer cover 1 and is used for driving the chassis 39 to drive the drying auxiliary mechanism to move longitudinally for loading and unloading; the drying mechanism is installed in the cabinet body outer cover 1, hot air is conveyed to the drying auxiliary mechanism through the air inlet butt joint structure, and hot air is blown by the drying auxiliary mechanism to uniformly dry the workpiece.

The large-sized workpiece can be placed by the aid of the drying auxiliary mechanism, hot air is conveyed to the drying auxiliary mechanism through the air inlet butt joint structure by the drying mechanism, and the hot air is circularly blown for drying, so that the large-sized workpiece is efficiently and uniformly dried; the window 9 is used for facilitating the chassis 39 and the drying auxiliary mechanism to be translated out of the drying cabinet 35 for loading and unloading; the window 9 is sealed by the cabinet door 2, so that the drying effect is prevented from being influenced by the escape of hot air in the drying cabinet 35; the chassis translation mechanism is used for driving the chassis 39 to move out of the drying cabinet 35, so that the drying auxiliary mechanism can conveniently carry out feeding or discharging.

Further, heat preservation layers 3 are arranged on the cabinet body outer cover 1 and the cabinet door 2. Utilize heat preservation 3 to keep warm, prevent the temperature reduction in the cabinet body dustcoat 1, further strengthen the stoving effect.

Furthermore, a locking plate 4 is fixed on the edge of the cabinet door 2; a locking screw 5 is hinged on the cabinet body outer cover 1; the locking plate 4 is provided with an arc notch 38 for buckling the locking screw 5; an internal thread sleeve 7 is screwed on the locking screw 5; a pressing ring 6 for pressing the locking plate 4 is fixed to one end of the internally threaded sleeve 7, and a screw knob 8 is fixed to the other end.

By utilizing the matching among the internal thread sleeve 7, the locking screw 5 and the locking plate 4, when closing the cabinet door 2, the locking screw 5 swings and buckles on the arc notch 38 of the locking plate 4, and the internal thread sleeve 7 is screwed up to press the pressing ring 6 to be tightly pressed on the locking plate 4, so that the cabinet door 2 is locked to realize sealing.

Furthermore, a slide bar 15 is longitudinally arranged at the left edge and the right edge of the lower opening of the cabinet body outer cover 1; the left and right sides of the chassis 39 are provided with a sliding groove 14 which is matched with the corresponding side sliding strip 15. The sliding front-back installation of the chassis 39 is realized by the cooperation between the slide bar 15 and the sliding groove 14.

Further, a fixed barrier strip 16 is longitudinally arranged on the lower side of the inner walls of the left side and the right side of the drying cabinet 35; a movable barrier strip 18 is longitudinally hinged at the left edge and the right edge of the upper side surface of the chassis 39; a pressure spring 17 is provided on the base plate 39 to press the movable barrier 18 against the fixed barrier 16. The movable barrier strip 18 is pressed tightly on the fixed barrier strip 16 by the hold-down spring 17, so that the sealing between the chassis 39 and the drying cabinet 35 is realized, the hot air is prevented from escaping from the gap between the chassis 39 and the drying cabinet 35, and the drying effect is further enhanced.

Further, the chassis translation mechanism comprises a translation driving motor 19, a bottom plate 22, two chain wheels 20 and two slide rails 25;

the bottom plate 22 is arranged below the cabinet body outer cover 1; two sliding seats 23 are arranged on the lower side surface of the chassis 39; two translation driving screw rods are rotatably and longitudinally arranged on the upper side surface of the bottom plate 22, and the two translation driving screw rods are respectively screwed on the two sliding seats 23; the two chain wheels 20 are respectively arranged on the front ends of the two translation driving screw rods; the two chain wheels 20 are in chain transmission through a chain 21; the translation driving motor 19 is used for driving one of the translation driving screw rods to rotate; the two slide rails 25 are respectively longitudinally installed at the left and right sides of the bottom plate 22; a plurality of rollers 24 each running on a corresponding side slide rail 25 are mounted on the lower side surface of the chassis 39.

The two translation driving screw rods synchronously rotate by utilizing the chain 21 and the two chain wheels 20, so that the moving stability of the chassis 39 is enhanced; the translation driving motor 19 is used for driving the two translation driving screw rods to rotate, so that the sliding seat 23 drives the chassis 39 to move longitudinally, the position of the chassis 39 is adjusted, and loading and unloading are facilitated; the friction is reduced by the matching between the slide rail 25 and the roller 24, and the moving stability of the chassis 39 is improved.

Further, the drying mechanism comprises a circulating fan 36, an electric heater 33, a return air pipe 34 and an air outlet pipe 30; the circulating fan 36 is arranged in the cabinet body outer cover 1, and one end of the air return pipe 34 and one end of the air outlet pipe 30 are respectively connected to an air inlet and an air outlet of the circulating fan 36 in a butt joint mode; the electric heater 33 is connected in series with the return air pipe 34; the other end of the air outlet pipe 30 extends into the drying cabinet 35 and then is inserted into one end of the air inlet butt joint structure; the other end of the return air duct 34 penetrates through the upper side wall of the drying cabinet 35 and then extends into the drying cabinet 35, and a return air inlet 37 is arranged at the extending end of the return air duct 34.

The air blown out by the circulating fan 36 is heated by the electric heater 33, so that hot air drying is realized; by utilizing the cooperation among the circulating fan 36, the air return pipe 34 and the air outlet pipe 30, hot air circulation is realized, the drying efficiency is improved, the energy consumption for heating air is reduced, and the cost is saved.

Further, the drying auxiliary mechanism comprises a central pipe 13, an air inlet pipe 26 and a plurality of placing plates 11; the lower end of the central tube 13 is fixed at the center of the upper side of the base plate 39; a plurality of placing plates 11 are fixed on the center aligning pipe 13 at intervals; the central tube 13 above each standing board 11 is provided with blowholes 12; the front end of the air inlet pipe 26 is mounted on the central pipe 13 in a communicating manner, and the rear end of the air inlet pipe 26 is inserted into the other end of the air inlet butt joint structure.

The placing plate 11 is used for conveniently placing large-scale workpieces, the universality is enhanced, and the drying efficiency is improved; by the matching among the butt joint sleeve 27, the air inlet pipe 26 and the air outlet pipe 30, hot air is blown out from the air blowing holes 12 on the central pipe 13, and the workpieces on each layer of placing plates 11 can be efficiently and uniformly dried.

Further, the air inlet docking structure includes a docking sleeve 27 and a sealing spring 28; the extending end of the air outlet pipe 30 is inserted on one end of the butt joint sleeve 27, and the rear end of the air inlet pipe 26 is inserted on the other end of the butt joint sleeve 27; a sliding groove 32 is longitudinally arranged on the inner wall of the butt joint sleeve 27; a sliding block 31 matched with the sliding groove 32 is arranged at the plug-in end of the air outlet pipe 30; a ring plate 29 is coaxially arranged on the extending end of the air outlet pipe 30; a convex ring 40 is coaxially arranged on the inner side wall of the butt joint sleeve 27; a sealing spring 28 elastically supported between the ring plate 29 and the abutting sleeve 27 is sleeved on the extending end of the air outlet pipe 30 for driving the abutting sleeve 27 to move, so that the convex ring 40 is tightly attached to the opening of the air inlet pipe 26.

The air outlet pipe 30 is movably clamped by the matching of the sliding block 31 and the sliding groove 32, so that the butt joint sleeve 27 is prevented from being separated from the air outlet pipe 30; by utilizing the matching among the convex ring 40, the sealing spring 28 and the air inlet pipe 26, when the air inlet pipe 26 is inserted on the butt joint sleeve 27 again, the sealing spring 28 presses the butt joint sleeve 27 to make the convex ring 40 fit with the pipe orifice of the air inlet pipe 26, thereby enhancing the air tightness between the air inlet pipe 26 and the butt joint sleeve 27 and enhancing the drying effect.

The utility model provides an among the split type hot-blast baking equipment, translation driving motor 19 adopts current step motor.

When the split type hot air baking device provided by the utility model is installed and used, firstly, a large workpiece is placed on each placing plate 11, then the translation driving motor 19 rotates, the two translation driving screw rods synchronously rotate under the driving of the two chain wheels 20 and the chain 21, the driving chassis 39 seals the lower side of the drying cabinet 35, each workpiece enters the drying cabinet 35, and the air inlet pipe 26 is inserted on the butt-joint sleeve 27 again; then the cabinet door 2 is closed, the internal thread sleeve 7 is screwed to enable the pressing ring 6 to be tightly pressed on the locking plate 4, the cabinet door 2 is locked, finally the electric heater 33 and the circulating fan 36 start working, hot air enters the air inlet pipe 26 through the air outlet pipe 30, and then the hot air is blown out of the drying workpiece through the air blowing hole 12 on the central pipe 13.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. The utility model provides a split type hot-blast baking equipment which characterized in that: comprises a cabinet body outer cover (1), a cabinet door (2), a drying cabinet (35), a chassis (39), a chassis translation mechanism, a drying mechanism, an air inlet butt joint structure and a drying auxiliary mechanism;

the drying cabinet (35) is arranged in the cabinet body outer cover (1), and the front side and the lower side of the drying cabinet (35) are both open; a window (9) extending to the lower edge of the cabinet body outer cover (1) is arranged on the front side wall of the cabinet body outer cover (1); the cabinet door (2) is hinged on the cabinet body outer cover (1) and is used for sealing the window (9); four top corners of the lower side surface of the cabinet body outer cover (1) are respectively provided with a support leg (10); the chassis (39) is longitudinally and slidably arranged at an opening at the lower side of the cabinet body outer cover (1); the drying auxiliary mechanism is arranged on the chassis (39) and is used for placing workpieces to be dried; the chassis translation mechanism is arranged below the cabinet body outer cover (1) and is used for driving a chassis (39) to drive the drying auxiliary mechanism to longitudinally move for loading and unloading; the drying mechanism is installed in the cabinet body outer cover (1), hot air is conveyed to the drying auxiliary mechanism through the air inlet butt joint structure, and hot air is blown by the drying auxiliary mechanism to uniformly dry the workpiece.

2. The split type hot air roasting apparatus according to claim 1, wherein: the cabinet body outer cover (1) and the cabinet door (2) are both provided with a heat preservation layer (3).

3. The split type hot air roasting apparatus according to claim 1, wherein: a locking plate (4) is fixed on the edge of the cabinet door (2); a locking screw (5) is hinged on the cabinet body outer cover (1); the locking plate (4) is provided with an arc notch (38) for clamping the locking screw (5); an internal thread sleeve (7) is screwed on the locking screw rod (5) in a thread way; a pressing ring (6) used for pressing the locking plate (4) is fixed on one end of the internal thread sleeve (7), and a screwing handle (8) is fixed on the other end.

4. The split hot air roasting apparatus of claim 1, wherein: a sliding strip (15) is longitudinally arranged at the left edge and the right edge of the lower opening of the cabinet body outer cover (1); the left side and the right side of the chassis (39) are both provided with a sliding chute (14) matched with the corresponding side sliding strip (15).

5. The split hot air roasting apparatus of claim 1, wherein: the lower sides of the inner walls at the left side and the right side of the drying cabinet (35) are longitudinally provided with a fixed barrier strip (16); a movable barrier strip (18) is longitudinally hinged at the left edge and the right edge of the upper side surface of the chassis (39); a pressing spring (17) which presses the movable barrier strip (18) on the fixed barrier strip (16) is arranged on the chassis (39).

6. The split type hot air roasting apparatus according to claim 1, wherein: the chassis translation mechanism comprises a translation driving motor (19), a bottom plate (22), two chain wheels (20) and two slide rails (25);

the bottom plate (22) is arranged below the cabinet body outer cover (1); two sliding seats (23) are arranged on the lower side surface of the chassis (39); two translation driving screw rods are rotatably and longitudinally arranged on the upper side surface of the bottom plate (22), and the two translation driving screw rods are respectively screwed on the two sliding seats (23) in a threaded manner; two chain wheels (20) are respectively arranged at the front ends of the two translation driving screw rods; the two chain wheels (20) are in linkage transmission through a chain (21); the translation driving motor (19) is used for driving one of the translation driving screw rods to rotate; the two slide rails (25) are respectively and longitudinally arranged at the left side and the right side of the bottom plate (22); a plurality of rollers (24) which respectively run on the corresponding side sliding rails (25) are arranged on the lower side surface of the chassis (39).

7. The split hot air roasting apparatus of claim 1, wherein: the drying mechanism comprises a circulating fan (36), an electric heater (33), a return air pipe (34) and an air outlet pipe (30);

the circulating fan (36) is arranged in the cabinet body outer cover (1), and one end of the return air pipe (34) and one end of the air outlet pipe (30) are respectively connected to an air inlet and an air outlet of the circulating fan (36) in an abutting mode; the electric heater (33) is connected in series with the return air pipe (34); the other end of the air outlet pipe (30) extends into the drying cabinet (35) and then is inserted into one end of the air inlet butt joint structure; the other end of the return air pipe (34) penetrates through the upper side wall of the drying cabinet (35) and then extends into the drying cabinet (35), and an air return opening (37) is formed in the extending end of the return air pipe (34).

8. The split hot air roasting apparatus of claim 7, wherein: the drying auxiliary mechanism comprises a central pipe (13), an air inlet pipe (26) and a plurality of placing plates (11);

the lower end of the central tube (13) is fixed at the center of the upper side surface of the chassis (39); a plurality of placing plates (11) are fixed on the center tube (13) at intervals; the central pipe (13) above each placing plate (11) is provided with an air blowing hole (12); the front end of the air inlet pipe (26) is installed on the central pipe (13) in a communicating mode, and the rear end of the air inlet pipe (26) is inserted into the other end of the air inlet butt joint structure.

9. The split hot air roasting apparatus of claim 8, wherein: the air inlet butt joint structure comprises a butt joint sleeve (27) and a sealing spring (28); the extending end of the air outlet pipe (30) is inserted and arranged on one end of the butt joint sleeve (27), and the rear end of the air inlet pipe (26) is inserted and arranged on the other end of the butt joint sleeve (27); a sliding groove (32) is longitudinally arranged on the inner wall of the butt joint sleeve (27); a sliding block (31) matched with the sliding groove (32) is arranged at the inserting end of the air outlet pipe (30); an annular sheet (29) is coaxially arranged on the extending end of the air outlet pipe (30); a convex ring (40) is coaxially arranged on the inner side wall of the butt joint sleeve (27); the extending end of the air outlet pipe (30) is sleeved with a sealing spring (28) which is elastically supported between the ring sheet (29) and the butt joint sleeve (27) and is used for driving the butt joint sleeve (27) to move so that the convex ring (40) is tightly attached to the nozzle of the air inlet pipe (26).

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