CN210435246U - Fermentation cylinder cooling band pressing machine - Google Patents

Abstract

A cooling belt pressing machine for a fermentation tank comprises a frame body, a feeding device, a pressing die device, a plate rolling device and a transmission device; the top of the frame body is provided with a workbench, and a feeding device, a die pressing device and a plate rolling device are fixedly arranged on the workbench along the length direction in sequence; the beneficial effects are that: the bending groove of the cooling belt can be pressed and bent in one-time continuous operation, the radian shape and the integral bending diameter of the bending groove can be adjusted according to the pressing die, and the method is simple, quick and high in efficiency; the regular parallel and level in curved groove both sides border of cooling zone that the suppression was gone out is very easily combined with the fermentation cylinder outer wall to the regular and coincidence of fermentation cylinder outer wall of the curved diameter of book has reduced the degree of difficulty of welding operation on the cooling zone toward the fermentation cylinder outer wall, has not only improved welding quality, has improved welding efficiency moreover.

Description

Fermentation cylinder cooling band pressing machine

Technical Field

The utility model particularly relates to a fermentation cylinder cooling band pressing machine.

Background

The cooling zone is the common cooling technology structure on the fermentation tank body, and in the production process of fermentation tank, the processing degree of difficulty of cooling zone is high, and is extremely expensive with high costs, and the reason lies in, and the cooling zone is the welding on the fermentation tank outer wall, and the fermentation tank outer wall is circular cambered surface, and the cooling zone is the curved arc board groove of prefabricated, and current course of working is with the welding of the curved arc board groove of prefabricated on the fermentation tank outer wall. The arc-shaped plate groove is formed by rolling a strip-shaped steel plate into a bent groove through a plate rolling machine, then horizontally pressing the bent groove into a circle, and finally attaching the bent groove to the outer wall of a fermentation tank for welding operation.

The fermentation cylinder is not only cylindrical, but also has a conical tank body, the radian of the cooling belt plate groove on the cylindrical tank body is a standard arc with bilateral symmetry, the upper diameter of the cooling belt on the conical tank body is smaller than the lower diameter, the two sides of the plate groove radian are asymmetric, and the difficulty is higher during welding.

Disclosure of Invention

The utility model aims at providing a briquetting machine suitable for producing the cooling belt of the fermentation tank in order to solve the problem that the welding degree of difficulty of the cooling belt of the fermentation tank is high and the production cost is high.

In order to realize the above-mentioned purpose, the utility model discloses the technical scheme who adopts mechanical type transmission structure to set up the cooling zone hold-down mechanism that contains pan feeding device, die assembly and roll up the board device, disposable continuous operation processing presses the accessory of making standard specification with cooling zone processing board through the drive mechanism cooperation, and the radian can set up according to fermentation cylinder outer wall dimension specification adjustment, and the cooling zone both sides border levels, and the radian is always, can closely laminate with the fermentation cylinder outer wall to improve welding jobs's quality and efficiency.

The cooling belt pressing machine of the fermentation tank comprises a frame body, a feeding device, a die assembly, a plate rolling device and a transmission device; the top of the frame body is provided with a workbench, and a feeding device, a die pressing device and a plate rolling device are fixedly arranged on the workbench along the length direction in sequence; the feeding device comprises a bottom plate, supporting side plates, deviation adjusting screw rods, sliding seats and guide wheels, wherein the bottom plate is fixedly arranged on a workbench, the supporting side plates are fixedly arranged on two sides of the bottom plate respectively, the two parallel deviation adjusting screw rods are arranged on the supporting side plates on the two sides of the bottom plate, the two parallel sliding seats are arranged on the deviation adjusting screw rods, and the guide wheels are arranged at the tops of the sliding seats; the die assembly comprises a base, a support, a lower die sliding bearing seat, an upper die sliding bearing seat, a lower die wheel shaft, an upper die wheel shaft, a lower die and an upper die, wherein the base is fixedly arranged on a workbench; the plate rolling device comprises a fixed frame, sliding bearing seats, a plate rolling shaft, a rolling wheel and a diameter adjusting rod, wherein the fixed frame is fixedly arranged on a workbench, the sliding bearing seats are respectively arranged at two sides of the fixed frame, two ends of the plate rolling shaft are respectively arranged on the two sliding bearing seats, the rolling wheel is arranged on the plate rolling shaft, the diameter adjusting rod is arranged at the rear end of the fixed frame, and the diameter adjusting rod is connected with the sliding bearing seats; the guide wheel of the feeding device, the lower pressing die and the upper pressing die of the pressing die device and the rolling wheel of the plate rolling device are arranged along the same axis; the transmission device is fixedly arranged on the workbench and is in transmission connection with the lower die wheel shaft.

The feeding devices on the workbench are two or more groups and are arranged in sequence.

And a V-shaped wheel groove is formed in the guide wheel.

An adjusting rod is arranged at the top of the support and is connected with an upper pressing die sliding bearing seat 34.

The lower die wheel shaft and the upper die wheel shaft are connected in a gear transmission fit mode.

The lower pressing die is of a roller structure with an arc-shaped groove, the upper pressing die is of a roller structure with an arc-shaped bulge, and the bulge structure of the upper pressing die and the groove structure of the lower pressing die are installed together in a matched mode.

The fixing frame is arranged from front to back in a downward inclined mode.

The rolling wheel is of a roller structure with an arc-shaped groove, and the specification of the rolling wheel is matched with that of a lower pressing die of the pressing die device.

A feeder is fixedly arranged in front of the frame body, and the feeder, the feeding device, the die pressing device and the plate rolling device are arranged along the same axis.

The feeder is provided with a counterweight base at the bottom and a charging stand 62 at the top, the charging stand being provided with a tensioning device.

The utility model has the advantages that: the bending groove of the cooling belt can be pressed and bent in one-time continuous operation, the radian shape and the integral bending diameter of the bending groove can be adjusted according to the pressing die, and the method is simple, quick and high in efficiency; the edges of two sides of the pressed cooling belt bent groove are regular and level, the pressed cooling belt bent groove is very easy to combine with the outer wall of the fermentation tank, and the bending diameter is regular to be matched with the outer wall of the fermentation tank, so that the difficulty of welding operation of the cooling belt to the outer wall of the fermentation tank is reduced, the welding quality is improved, and the welding efficiency is improved; in addition, aiming at the cooling belt of the conical fermentation tank, the improvement of the processing efficiency and the quality is particularly obvious.

Drawings

FIG. 1 is a front view of the overall structure of the present invention;

FIG. 2 is a schematic top view of the overall structure of the present invention;

FIG. 3 is a front view of the structure of the feeding device of the present invention;

FIG. 4 is a schematic structural view of a feeding device according to the present invention;

FIG. 5 is a schematic structural diagram of a molding device according to the present invention;

FIG. 6 is a schematic structural view of a die assembly according to the present invention;

FIG. 7 is a schematic diagram of a feeder structure of the present invention;

FIG. 8 is a schematic view of the working process of the present invention;

in the drawings: the device comprises a frame body 1, a workbench 11, a feeding device 2, a bottom plate 21, a supporting side plate 22, an offset screw rod 23, a sliding seat 24, a guide wheel 25, a die device 3, a base 31, a support 32, a lower die sliding bearing seat 33, an upper die sliding bearing seat 34, a lower die wheel shaft 35, an upper die wheel shaft 36, a lower die 37, an upper die 38, a plate rolling device 4, a fixed frame 41, a sliding bearing seat 42, a plate rolling shaft 43, a rolling wheel 44, a diameter adjusting rod 45, a transmission device 5, a feeder 6, a counterweight base 61, a charging frame 62, a tensioning device 63, a plate strip roll 7 and a cooling belt 8.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail with reference to the embodiments.

As shown in attached figures 1-7, the cooling belt pressing machine of the fermentation tank of the utility model comprises a frame body 1, a feeding device 2, a die assembly 3, a plate rolling device 4 and a transmission device 5; a workbench 11 is arranged at the top of the frame body 1, and a feeding device 2, a die device 3 and a plate rolling device 4 are fixedly arranged on the workbench 11 in sequence along the length direction; the feeding device 2 comprises a bottom plate 21, supporting side plates 22, a deviation adjusting screw rod 23, sliding seats 24 and guide wheels 25, wherein the bottom plate 21 is fixedly arranged on the workbench 11, the supporting side plates 22 are fixedly arranged on two sides of the bottom plate 21 respectively, the two parallel deviation adjusting screw rods 23 are arranged on the supporting side plates 22 on two sides of the bottom plate 21, the two parallel sliding seats 24 are arranged on the deviation adjusting screw rods 23, and the guide wheels 25 are arranged at the tops of the sliding seats 24; the die assembly 3 comprises a base 31, a support 32, a lower die sliding bearing seat 33, an upper die sliding bearing seat 34, a lower die wheel shaft 35, an upper die wheel shaft 36, a lower die 37 and an upper die 38, wherein the base 31 is fixedly arranged on the workbench 11, the supports 32 are respectively arranged on two sides of the base 31, the lower die sliding bearing seat 33 and the upper die sliding bearing seat 34 are sequentially arranged along the vertical direction of the supports 32 from bottom to top, the lower die wheel shaft 35 and the upper die wheel shaft 36 are respectively arranged on the lower die sliding bearing seat 33 and the upper die sliding bearing seat 34, the lower die wheel shaft 35 and the upper die wheel shaft 36 are arranged in a transmission fit manner, and the lower die wheel shaft 35 and the upper die wheel shaft 36 are respectively provided with a lower die 37 and an upper die 38; the plate rolling device 4 consists of a fixed frame 41, sliding bearing seats 42, a plate rolling shaft 43, a rolling wheel 44 and a diameter adjusting rod 45, wherein the fixed frame 41 is fixedly arranged on the workbench 11, the sliding bearing seats 42 are respectively arranged at two sides of the fixed frame 41, two ends of the plate rolling shaft 43 are respectively arranged on the two sliding bearing seats 42, the rolling wheel 44 is arranged on the plate rolling shaft 43, the diameter adjusting rod 45 is arranged at the rear end of the fixed frame 41, and the diameter adjusting rod 45 is connected with the sliding bearing seats 42; the guide wheel 25 of the feeding device 2, the lower pressing die 37 and the upper pressing die 38 of the pressing die device 3 and the rolling wheel 44 of the rolling device 4 are arranged along the same axis; the transmission device 5 is fixedly arranged on the workbench 11, and the transmission device 5 is in transmission connection with a lower die wheel shaft 35.

The feeding devices 2 on the workbench 11 are two or more groups and are arranged in sequence.

The guide wheel 25 is provided with a V-shaped wheel groove.

The top of the bracket 32 is provided with an adjusting rod which is connected with an upper pressing die sliding bearing seat 34.

The lower die wheel shaft 35 and the upper die wheel shaft 36 are connected in a gear transmission fit mode.

The lower pressing die 37 is of a roller structure with an arc-shaped groove, the upper pressing die 38 is of a roller structure with an arc-shaped bulge, and the bulge structure of the upper pressing die 38 is matched and installed with the groove structure of the lower pressing die 37.

The fixing frame 41 is arranged to be inclined downwards from front to back.

The winding wheel 44 is a roller structure with an arc-shaped groove, and the specification of the winding wheel is matched with that of the lower pressing die 37 of the pressing die device 3.

A feeder 6 is fixedly arranged in front of the frame body 1, and the feeder 6, the feeding device 2, the die device 3 and the plate rolling device 4 are arranged along the same axis.

The feeder 6 is provided with a counterweight base 61 at the bottom and a charging frame 62 at the top, and the charging frame 62 is provided with a tensioning device 63.

Example 1

Utilize the utility model discloses the working process and the principle of the press machine production fermentation cylinder cooling zone are pressed to the fermentation cylinder cooling zone.

As shown in the attached figure 8, the working process of the cooling belt pressing machine of the fermentation tank of the utility model is as follows: and (3) mounting the cut stainless steel strip coil 7 on a feeder 6, penetrating the stainless steel strip coil from the feeding device 2, positioning the stainless steel strip coil, stably conveying the stainless steel strip coil to the die assembly 3, pressing the stainless steel strip coil into a standard notch by using the die assembly 3, and finally bending the stainless steel strip coil by using the plate bending device 4.

The specific principle of the above process is as follows:

1) the feeding process comprises the following steps: the feeder 6 is provided with a charging frame 62 which can be used for mounting the stainless steel strip coil 7, after the strip coil 7 is mounted on the charging frame 62, the charging frame 62 is opened by a tensioning device 63 to tighten and fix the strip coil 7, and the charging frame 62 rotates to feed stably along with the feeding of subsequent operation;

2) feeding: the two sides of the lath with processing are respectively clamped between the V-shaped grooves 25 of the two pairs of guide wheels at the position of the feeding device 2, 4-5 groups of feeding devices 2 are sequentially arranged on the worktable 11, the lath is stably conveyed to the die assembly 3, and the sliding seat 24 of the feeding device 2 can adjust the distance and the position of the lath by the deviation adjusting screw rod 23, so that the direction and the angle of the lath entering the die assembly 3 are regulated, and the lath and the die of the die assembly 3 are matched for feeding according to the processing requirements;

3) and (3) die pressing process: the lath is arranged between a lower pressing die 37 and an upper pressing die 38 at a die assembly 3, the lower pressing die 37 and the upper pressing die 38 bring the lath under the transmission matching operation of a lower pressing die wheel shaft 35 and an upper pressing die wheel shaft 36, and the lath is pressed into an arc-shaped groove-shaped structure with flanging edges at two sides by utilizing the mutual matching of an arc-shaped groove structure of the lower pressing die 37 and an arc-shaped bulge structure of the upper pressing die 38, the lower pressing die wheel shaft 35 and the upper pressing die wheel shaft 36 are in power transmission by utilizing a transmission device 5, the matching distance between the lower pressing die 37 and the upper pressing die 38 can be adjusted by adjusting the positions of upper pressing die sliding bearing seats 34 and a bracket 32 at two sides of the upper pressing die wheel shaft 36, the top of the bracket 32 is provided with an adjusting rod, and the positions;

4) plate rolling process: the straight cooling belt 8 pressed by the die assembly 3 is lapped on a rolling wheel 44 at the rolling plate device 4, a certain fall is formed between the rolling wheel 44 and the forming parts of the lower pressing die 37 and the upper pressing die 38 of the die assembly 3, and the cooling belt 8 is bent and formed according to a certain radian under the extrusion of the rolling wheel 44; the rolling wheel 44 can move back and forth on the fixing frame 41 through the diameter adjusting rod 45 to adjust the position, so as to adjust the distance and the angle between the rolling wheel and the forming part of the lower pressing die 37 and the upper pressing die 38, thereby adjusting and changing the rolling diameter of the cooling belt 8 and adjusting according to the requirement of the bending diameter of the cooling belt 8.

5) Pressing a conical tank cooling belt: the cooling belt 8 used on the conical tank has the arc groove structure, one side of the arc groove structure has a larger arc, and the other side of the arc groove structure has a smaller arc, and a lower pressing die 37 and an upper pressing die 38 which have corresponding structures can be arranged according to the structural requirements, so that the conical tank can be formed by pressing.

Claims (10)

1. The utility model provides a fermentation cylinder cooling band is pressed which characterized in that: comprises a frame body (1), a feeding device (2), a die assembly (3), a plate rolling device (4) and a transmission device (5); a workbench (11) is arranged at the top of the frame body (1), and a feeding device (2), a die pressing device (3) and a plate rolling device (4) are fixedly arranged on the workbench (11) in sequence along the length direction; the feeding device (2) comprises a bottom plate (21), supporting side plates (22), a deviation adjusting screw rod (23), sliding seats (24) and guide wheels (25), the bottom plate (21) is fixedly installed on the workbench (11), the supporting side plates (22) are fixedly arranged on two sides of the bottom plate (21) respectively, the two deviation adjusting screw rods (23) which are arranged in parallel are installed on the supporting side plates (22) on two sides of the bottom plate (21), the two sliding seats (24) which are arranged in parallel are installed on the deviation adjusting screw rod (23), and the guide wheels (25) are installed at the tops of the sliding seats (24); the die assembly (3) consists of a base (31), a bracket (32), a lower die sliding bearing seat (33), an upper die sliding bearing seat (34), a lower die wheel shaft (35), an upper die wheel shaft (36), a lower die (37) and an upper die (38), the base (31) is fixedly arranged on the workbench (11), two sides of the base (31) are respectively provided with a support (32), a lower pressing die sliding bearing seat (33) and an upper pressing die sliding bearing seat (34) are sequentially arranged along the vertical direction of the support (32) from bottom to top, a lower pressing die wheel shaft (35) and an upper pressing die wheel shaft (36) are respectively arranged on the lower pressing die sliding bearing seat (33) and the upper pressing die sliding bearing seat (34), the lower pressing die wheel shaft (35) and the upper pressing die wheel shaft (36) are arranged in a transmission fit mode, and a lower pressing die (37) and an upper pressing die (38) are respectively arranged on the lower pressing die wheel shaft (35) and the upper pressing die wheel shaft (36; the plate rolling device (4) is composed of a fixed frame (41), sliding bearing seats (42), a plate rolling shaft (43), a rolling wheel (44) and a diameter adjusting rod (45), the fixed frame (41) is fixedly installed on the workbench (11), the sliding bearing seats (42) are respectively installed on two sides of the fixed frame (41), two ends of the plate rolling shaft (43) are respectively installed on the two sliding bearing seats (42), the rolling wheel (44) is installed on the plate rolling shaft (43), the diameter adjusting rod (45) is installed at the rear end of the fixed frame (41), and the diameter adjusting rod (45) is connected with the sliding bearing seats (42); the guide wheel (25) of the feeding device (2), the lower pressing die (37) and the upper pressing die (38) of the pressing die device (3) and the rolling wheel (44) of the plate rolling device (4) are arranged along the same axis; the transmission device (5) is fixedly arranged on the workbench (11), and the transmission device (5) is in transmission connection with a lower die wheel shaft (35).

2. The fermenter cooling belt press of claim 1, wherein: the feeding devices (2) on the workbench (11) are two or more groups and are arranged in sequence.

3. The fermenter cooling belt press of claim 1, wherein: and a V-shaped wheel groove is formed in the guide wheel (25).

4. The fermenter cooling belt press of claim 1, wherein: an adjusting rod is installed at the top of the support (32), and the adjusting rod is connected with an upper pressing die sliding bearing seat (34).

5. The fermenter cooling belt press of claim 1, wherein: the lower die wheel shaft (35) and the upper die wheel shaft (36) are connected in a gear transmission fit manner.

6. The fermenter cooling belt press of claim 1, wherein: the lower pressing die (37) is of a roller structure with an arc-shaped groove, the upper pressing die (38) is of a roller structure with an arc-shaped bulge, and the bulge structure of the upper pressing die (38) is matched and installed with the groove structure of the lower pressing die (37).

7. The fermenter cooling belt press of claim 1, wherein: the fixing frame (41) is arranged in a manner of inclining downwards from front to back.

8. The fermenter cooling belt press of claim 1, wherein: the winding wheel (44) is of a roller structure with an arc-shaped groove, and the specification of the winding wheel is matched with that of a lower pressing die (37) of the pressing die device (3).

9. The fermenter cooling belt press of claim 1, wherein: a feeder (6) is fixedly arranged in front of the frame body (1), and the feeder (6), the feeding device (2), the die pressing device (3) and the plate rolling device (4) are arranged along the same axis.

10. The fermenter cooling belt press of claim 9, wherein: the feeder (6) bottom is provided with counter weight base (61), and the charging frame (62) is installed at the top, and charging frame (62) is provided with overspeed device tensioner (63).

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