CN213493611U - Draw reation kettle rapid heating device for heparin sodium - Google Patents

Abstract

The utility model discloses an extract reation kettle rapid heating up device for heparin sodium, comprising a base plate, the top rigid coupling of bottom plate has the barrel, reciprocal lead screw passes through the bearing and rotates with the inner wall top of barrel and the top of bottom plate respectively and links to each other, the top and the bottom of slide bar rigid coupling respectively in the inner wall top and the bottom that lead to the groove, the right side rigid coupling of second sliding sleeve has the loop type framework, the inner wall of loop type framework and reation kettle's outer wall clearance fit, the inside processing of loop type framework has a plurality of heating pipes. This draw reation kettle rapid heating up device for heparin sodium for, when making reciprocal lead screw rotate, make the loop type framework drive the heating pipe and carry out reciprocating motion in reation kettle's outer wall, and then heat up the inside interbedded hot water of reation kettle, make according to the position of first friction pulley in second friction pulley department, drive reciprocal lead screw and carry out different rotational speeds, make the loop type framework can carry out the reciprocating motion of different rates according to user's heating demand.

Description

Draw reation kettle rapid heating device for heparin sodium

Technical Field

The utility model relates to a chemical industry technical field specifically is a draw reation kettle rapid heating up device for heparin sodium.

Background

The broad understanding of the reaction kettle is that there is a container for physical or chemical reaction, and the structural design and parameter configuration of the container realize the heating, evaporation, cooling and low and high speed blending functions required by the process, although the existing reaction kettle can realize the heating of the internal solution, the problem that when the existing reaction kettle is heated, the interlayer of the reaction kettle needs to be continuously injected with hot water to heat the internal liquid, the heating efficiency is slow, and the processing efficiency is affected exists.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a draw reation kettle rapid heating up device for heparin sodium to when solving the reation kettle that the existence that provides among the above-mentioned background art is current usually and heating, need carry out and continuously pour into the reation kettle intermediate layer into hot water, heat the liquid of inside, the intensification efficiency is slower, influences machining efficiency's problem.

In order to achieve the above object, the utility model provides a following technical scheme: a reaction kettle rapid heating device for extracting heparin sodium comprises a bottom plate, wherein a barrel is fixedly connected to the top of the bottom plate, a through hole is formed in the left side of the inner wall of the barrel, a through groove is formed in the right side of the inner wall of the barrel, a reaction kettle is arranged on the right side of the barrel, and a reinforcing mechanism is arranged on the inner wall of the barrel;

the reinforcing mechanism comprises a reciprocating screw rod, a first sliding sleeve, a second sliding sleeve, a sliding rod, an annular frame body and a heating pipe;

reciprocating screw passes through the bearing and rotates with the inner wall top of barrel and the top of bottom plate respectively and links to each other, reciprocating screw's outer wall slides and links to each other there is first sliding sleeve, the right side rigid coupling of first sliding sleeve has the second sliding sleeve, the outer wall of second sliding sleeve and the inner wall clearance fit who leads to the groove, the inner wall of second sliding sleeve slides and links to each other there is the slide bar, the top and the bottom of slide bar rigid coupling respectively in the inner wall top and the bottom that lead to the groove, the right side rigid coupling of second sliding sleeve has the loop type framework, the inner wall of loop type framework and reation kettle's outer wall clearance fit, the inside processing of loop type framework has a plurality of heating.

Preferably, the second sliding sleeve and the sliding rod form a sliding limiting structure.

Preferably, the left side of the top of the bottom plate is provided with an adjusting mechanism;

the adjusting mechanism comprises a supporting seat, a first rod body, a sliding chute, a sliding block, a second rod body, a screw rod, a rotating disc, a first friction wheel and a second friction wheel;

the supporting seat is fixedly connected to the top of the bottom plate, the supporting seat is connected with a first rod body through a bearing in a rotating mode, sliding grooves are machined in the top and the bottom of the inner wall of the first rod body, the inner walls of the two sliding grooves are connected with sliding blocks in a sliding mode, a second rod body is fixedly connected to the inner sides of the two sliding blocks, the outer wall of the second rod body is in clearance fit with the inner wall of the first rod body, a screw is connected to the inner wall of the second rod body in a threaded mode, the outer wall of the screw is connected with the first rod body through a bearing in a rotating mode, a rotary disc is fixedly connected to the left side of the outer wall of the screw, the outer wall of the second rod body is in clearance fit with the inner wall of the through hole, a first friction wheel is fixedly connected to the right side of the second rod body, the outer wall of the first friction wheel is in clearance fit with the inner wall of the barrel, a second, the outer wall of the second friction wheel is in clearance fit with the inner wall of the cylinder body.

Preferably, the surface of the rotating disc is processed with grinding lines.

Preferably, a driving mechanism is arranged on the left side of the outer wall of the cylinder body;

the driving mechanism comprises a motor, a round rod, a first bevel gear and a second bevel gear;

the motor rigid coupling is in the outer wall left side of barrel, the output rigid coupling of motor has the pole, the bottom rigid coupling of pole has first umbrella type gear, the outer wall bottom meshing of first umbrella type gear links to each other there is second umbrella type gear, the inner wall of second umbrella type gear is in the same place with the outer wall rigid coupling of the first body of rod.

Preferably, the transmission ratio of the first bevel gear to the second bevel gear is 2 to 1.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization.

This draw reation kettle rapid heating up device for heparin sodium through the cooperation between loop type framework, heating pipe, reciprocal lead screw, slide bar, first sliding sleeve and the second sliding sleeve for when reciprocal lead screw rotates, make the loop type framework drive the heating pipe and carry out reciprocating motion at reation kettle's outer wall, and then heat up the inside interbedded hot water of reation kettle, improve reation kettle's temperature rise.

This draw reation kettle rapid heating up device for heparin sodium, through the slider, the spout, first friction pulley, the second friction pulley, the cooperation between screw rod and the carousel, make when the screw rod rotates, can drive the second body of rod and remove about, and then adjust the position of first friction pulley in second friction pulley department, make according to the position of first friction pulley in second friction pulley department, drive reciprocal lead screw and carry out different rotational speeds, make the ring type framework can be according to user's heating demand, carry out the reciprocating motion of not same speed.

Drawings

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

FIG. 2 is a schematic structural view of the annular frame, the heating pipe and the cylinder in FIG. 1;

FIG. 3 is a schematic structural view of the support seat, the slide block and the screw rod in FIG. 1;

fig. 4 is a schematic structural view of the motor, the first bevel gear and the cylinder in fig. 1.

In the figure: 1. the device comprises a bottom plate, 2, a cylinder, 3, a through opening, 4, a through groove, 5, a reaction kettle, 6, a reinforcing mechanism, 601, a reciprocating screw rod, 602, a first sliding sleeve, 603, a second sliding sleeve, 604, a sliding rod, 605, an annular frame body, 606, a heating pipe, 7, an adjusting mechanism, 701, a supporting seat, 702, a first rod body, 703, a sliding groove, 704, a sliding block, 705, a second rod body, 706, a screw rod, 707, a rotating disc, 708, a first friction wheel, 709, a second friction wheel, 8, a driving mechanism, 801, a motor, 802, a round rod, 803, a first umbrella-shaped gear, 804 and a second umbrella-shaped gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a reaction kettle rapid heating device for extracting heparin sodium comprises a bottom plate 1, wherein a cylinder body 2 is fixedly connected to the top of the bottom plate 1, a through hole 3 is formed in the left side of the inner wall of the cylinder body 2, a through groove 4 is formed in the right side of the inner wall of the cylinder body 2, a reaction kettle 5 is arranged on the right side of the cylinder body 2, a reinforcing mechanism 6 is arranged on the inner wall of the cylinder body 2, the reinforcing mechanism 6 comprises a reciprocating lead screw 601, a first sliding sleeve 602, a second sliding sleeve 603, a sliding rod 604, an annular frame body 605 and a heating pipe 606, the reciprocating lead screw 601 is respectively and rotatably connected with the top of the inner wall of the cylinder body 2 and the top of the bottom plate 1 through bearings, so that the reciprocating lead screw 601 can rotate on the inner wall of the cylinder body 2, the outer wall of the reciprocating lead screw 601 is slidably connected with the first sliding sleeve 602, the right side of the first sliding sleeve 602 is fixedly connected, so that the second sliding sleeve 603 can perform lifting movement on the outer wall of the sliding rod 604, the top and the bottom of the sliding rod 604 are respectively and fixedly connected with the top and the bottom of the inner wall of the through groove 4, the right side of the second sliding sleeve 603 is fixedly connected with a ring-shaped frame body 605, the inner wall of the ring-shaped frame body 605 is in clearance fit with the outer wall of the reaction kettle 5, so that the annular frame 605 can move up and down on the outer wall of the reaction kettle 5, a plurality of heating pipes 606 are processed inside the annular frame 605, the heating pipes 606 are used for heating hot water sandwiched in the reaction kettle 5, the second sliding sleeve 603 and the sliding rod 604 form a sliding limit structure, so that when the reciprocating screw 601 rotates, through the sliding connection between the second sliding barrel 603 and the sliding rod 604, the first sliding sleeve 602 performs a stable lifting motion on the outer wall of the reciprocating lead screw 601, so that the annular frame 605 drives the heating pipe 606 to move up and down on the outer wall of the reaction kettle 5.

An adjusting mechanism 7 is arranged on the left side of the top of the bottom plate 1, the adjusting mechanism 7 comprises a supporting seat 701, a first rod body 702, a sliding groove 703, a sliding block 704, a second rod body 705, a screw rod 706, a rotating disc 707, a first friction wheel 708 and a second friction wheel 709, the supporting seat 701 is fixedly connected to the top of the bottom plate 1, the supporting seat 701 is rotatably connected with the first rod body 702 through a bearing, so that the first rod body 702 can rotate on the inner wall of the supporting seat 701, the sliding grooves 703 are respectively processed on the top and the bottom of the inner wall of the first rod body 702, the inner walls of the two sliding grooves 703 are respectively connected with the sliding block 704 in a sliding manner, so that the sliding block 704 can move left and right on the inner wall of the sliding groove 703, the second rod body 705 is fixedly connected to the inner sides of the two sliding blocks 704, the outer wall of the second rod body is in clearance fit with the inner wall of the first rod body, the screw rod 706 is used for driving the second rod body 705 to move left and right, the outer wall of the screw rod 706 is rotatably connected with the first rod body 702 through a bearing, the left side of the outer wall of the screw rod 706 is fixedly connected with a turntable 707, the turntable 707 is used for driving the screw rod 706 to rotate, the outer wall of the second rod body 705 is in clearance fit with the inner wall of the through opening 3, the right side of the second rod body 705 is fixedly connected with a first friction wheel 708, so that the second rod 705 can drive the first friction wheel 708 to rotate, the outer wall of the first friction wheel 708 is in clearance fit with the inner wall of the cylinder 2, the bottom of the outer wall of the first friction wheel 708 is attached with the second friction wheel 709, and when the first friction wheel 708 rotates, the second friction wheel 709 can be driven to rotate, the inner wall of the second friction wheel 709 is fixedly connected with the outer wall of the reciprocating lead screw 601, the outer wall of the second friction wheel 709 is in clearance fit with the inner wall of the cylinder body 2, and the surface of the rotating disc 707 is provided with abrasive grains which are used for increasing the contact friction force between the rotating disc 707 and the hand.

The left side of the outer wall of the cylinder body 2 is provided with a driving mechanism 8, the driving mechanism 8 comprises a motor 801, a round rod 802, a first bevel gear 803 and a second bevel gear 804, the motor 801 is fixedly connected to the left side of the outer wall of the cylinder body 2, the model of the motor 801 is selected according to actual working requirements, the output end of the motor 801 is fixedly connected with the round rod 802, the bottom of the round rod 802 is fixedly connected with the first bevel gear 803, so that the round rod 802 can drive the first bevel gear 803 to rotate, the bottom of the outer wall of the first bevel gear 803 is meshed and connected with the second bevel gear 804, the first bevel gear 803 can drive the second bevel gear 804 to rotate, the inner wall of the second bevel gear 804 is fixedly connected with the outer wall of the first rod body 702, so that the second bevel gear 804 can drive the first rod body 702 to rotate, the transmission ratio of the first bevel gear 803 to the second bevel gear 804 is 1: 2, so that the torsion rotation stability of the motor 801 is enhanced, thereby enabling the first rod 702 to rotate stably.

When the reaction kettle rapid heating device for extracting heparin sodium is used, when the reaction kettle 5 needs to be rapidly heated, a user connects the motor 801 and the heating pipe 606 with an external power supply, so that the motor 801 drives the first rod 702 to rotate through the meshing drive of the first bevel gear 803 and the second bevel gear 804, the first rod 702 is connected with the sliding groove 703 through the sliding of the sliding block 704 to drive the second rod 705 to rotate, the second rod 705 drives the first friction wheel 708 to rotate when rotating, the first friction wheel 708 drives the second friction wheel 709 to rotate, so that the reciprocating lead screw 601 rotates, when the reciprocating lead screw 601 rotates, the first sliding sleeve 602 is connected with the sliding rod 604 through the sliding connection of the second sliding barrel 603, so that the first sliding sleeve 602 performs stable lifting motion on the outer wall of the reciprocating lead screw 601, and the annular frame 605 drives the heating pipe 606 to perform lifting motion on the outer wall of the reaction kettle 5, and further the heating pipe 606 heats hot water in an inner interlayer of the reaction kettle 5, when the heating requirement of the reaction kettle 5 needs to be increased and the reciprocating lifting speed of the annular frame body 605 is changed, a user rotates the rotary disc 707 to rotate the screw rod 706, and when the screw rod 706 rotates, the screw rod 706 is connected with the sliding groove 703 in a sliding manner through the sliding block 704 to drive the second rod body 705 to move left and right, so that the first friction wheel 708 is adjusted to be attached to the second friction wheel 709, and the rotating speed of the reciprocating lead screw 601 is changed.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an extract reation kettle rapid heating up device for heparin sodium, includes bottom plate (1), the top rigid coupling of bottom plate (1) has barrel (2), the inner wall left side processing of barrel (2) has opening (3), the inner wall right side processing of barrel (2) has logical groove (4), the right side of barrel (2) is equipped with reation kettle (5), its characterized in that: the inner wall of the cylinder body (2) is provided with a reinforcing mechanism (6);

the reinforcing mechanism (6) comprises a reciprocating screw rod (601), a first sliding sleeve (602), a second sliding sleeve (603), a sliding rod (604), an annular frame body (605) and a heating pipe (606);

reciprocating screw rod (601) rotates with the top of the inner wall top of barrel (2) and bottom plate (1) respectively through the bearing and links to each other, reciprocating screw rod (601)'s outer wall slides and links to each other and has first sliding sleeve (602), the right side rigid coupling of first sliding sleeve (602) has second sliding sleeve (603), the outer wall and the inner wall clearance fit who leads to groove (4) of second sliding sleeve (603), the inner wall of second sliding sleeve (603) slides and links to each other has slide bar (604), the top and the bottom of slide bar (604) rigid coupling respectively in the inner wall top and the bottom that lead to groove (4), the right side rigid coupling of second sliding sleeve (603) has loop type framework (605), the inner wall and the outer wall clearance fit of reation kettle (5) of loop type framework (605), the inside processing of loop type framework (605) has a plurality of heating pipes (606).

2. The fast heating device of the reaction kettle for extracting heparin sodium according to claim 1, which is characterized in that: the second sliding sleeve (603) and the sliding rod (604) form a sliding limiting structure.

3. The fast heating device of the reaction kettle for extracting heparin sodium according to claim 1, which is characterized in that: an adjusting mechanism (7) is arranged on the left side of the top of the bottom plate (1);

the adjusting mechanism (7) comprises a supporting seat (701), a first rod body (702), a sliding groove (703), a sliding block (704), a second rod body (705), a screw (706), a rotating disc (707), a first friction wheel (708) and a second friction wheel (709);

the supporting seat (701) is fixedly connected to the top of the bottom plate (1), the supporting seat (701) is connected with a first rod body (702) through a bearing in a rotating mode, sliding grooves (703) are machined in the top and the bottom of the inner wall of the first rod body (702), sliding blocks (704) are connected with the inner walls of the two sliding grooves (703) in a sliding mode, a second rod body (705) is fixedly connected to the inner sides of the two sliding blocks (704), the outer wall of the second rod body (705) is in clearance fit with the inner wall of the first rod body (702), a screw rod (706) is connected with the inner wall of the second rod body (705) in a threaded mode, the outer wall of the screw rod (706) is connected with the first rod body (702) through a bearing in a rotating mode, a rotating disc (707) is fixedly connected to the left side of the outer wall of the screw rod (706), the outer wall of the second rod body (705) is in clearance fit with the inner wall of the, the outer wall of first friction pulley (708) and the inner wall clearance fit of barrel (2), the laminating of the outer wall bottom of first friction pulley (708) has second friction pulley (709), the inner wall of second friction pulley (709) is in the same place with the outer wall rigid coupling of reciprocal lead screw (601), the outer wall of second friction pulley (709) and the inner wall clearance fit of barrel (2).

4. The fast heating device of the reaction kettle for extracting heparin sodium according to claim 3, which is characterized in that: the surface of the rotary table (707) is processed with grinding lines.

5. The fast heating device of the reaction kettle for extracting heparin sodium according to claim 1, which is characterized in that: a driving mechanism (8) is arranged on the left side of the outer wall of the barrel body (2);

the driving mechanism (8) comprises a motor (801), a round rod (802), a first bevel gear (803) and a second bevel gear (804);

motor (801) rigid coupling is on the left of the outer wall of barrel (2), the output rigid coupling of motor (801) has round bar (802), the bottom rigid coupling of round bar (802) has first umbrella gear (803), the outer wall bottom meshing of first umbrella gear (803) links to each other has second umbrella gear (804), the inner wall of second umbrella gear (804) is in the same place with the outer wall rigid coupling of the first body of rod (702).

6. The fast heating device of the reaction kettle for extracting heparin sodium according to claim 5, which is characterized in that: the transmission ratio of the first bevel gear (803) to the second bevel gear (804) is 1 to 2.

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