CN216826113U - Feeding device for preparing (R) -glycidyl butyrate - Google Patents

Abstract

The utility model discloses a feeding device for preparing (R) -glycidyl butyrate, including the reation kettle who receives the material, be equipped with the inlet pipe on the reation kettle, still include: a support; the supporting frame consists of a first supporting frame and a frame type supporting part fixed with the first supporting frame, the first supporting frame is fixed with the support, and at least one part of the frame type supporting part extends to the outer side of the support; the first electric feeding auger is supported by the first support frame and is fixed with the first support frame; one end of the first electric feeding auger is provided with a first feed hopper, and the other end of the first electric feeding auger is provided with a first discharge pipe; transition hopper, transition hopper are embraced by the frame supporting part, are equipped with the second discharging pipe on the transition hopper, are equipped with the motorised valve on the second discharging pipe, the one end and the inlet pipe cooperation of second discharging pipe. The utility model discloses can conveniently control the volume of material loading.

Description

Feeding device for preparing (R) -glycidyl butyrate

Technical Field

The utility model relates to a feeding device for preparing (R) -glycidyl butyrate.

Background

In the field of chemical product processing, the carrying of a lot of materials (such as chemical raw materials) is completed manually, the efficiency is low, and safety problems cannot be controlled due to toxicity of some chemical materials.

Aiming at the problems, the existing chemical material feeding device mostly adopts an old-fashioned swinging feeding machine, and comprises a motor and a slider-crank mechanism, wherein a swinging rod is driven to swing left and right through the reciprocating sliding of the slider-crank mechanism, a plurality of metering covers corresponding to a plurality of rows of strips are arranged on the swinging rod, and the metering covers are driven to open or close through the left and right swinging of the swinging rod to realize the opening or closing of the bin. The disadvantage of this kind of loading device is that it is not convenient to adjust the loading.

SUMMERY OF THE UTILITY MODEL

The utility model provides a feeding device for preparing (R) -glycidyl butyrate, the utility model discloses can conveniently control the volume of material loading.

The technical scheme for solving the technical problems is as follows:

a feeding device for preparing (R) -glycidyl butyrate, including the reation kettle who receives the material, be equipped with the inlet pipe on the reation kettle, still include:

a support;

the support frame consists of a first support frame and a frame type support part fixed with the first support frame, the first support frame is fixed with the support, and at least one part of the frame type support part extends to the outer side of the support;

the first electric feeding auger is supported by the first support frame and is fixed with the first support frame; one end of the first electric feeding auger is provided with a first feeding hopper, and the other end of the first electric feeding auger is provided with a first discharging pipe;

transition hopper, transition hopper are embraced by the frame supporting part, are equipped with the second discharging pipe on the transition hopper, are equipped with the motorised valve on the second discharging pipe, the one end and the inlet pipe cooperation of second discharging pipe.

The utility model discloses the during operation, first feeder hopper is input to the material, and first electronic pay-off auger during operation makes the material propelling movement that enters into in the electronic pay-off auger from first feeder hopper to first discharging pipe, finally exports from first discharging pipe. The material output from the first discharge pipe enters the transition hopper, then enters the feed pipe through the second discharge pipe, and finally falls into the kettle body. Because the feeding of the reaction kettle is determined by the first electric feeding auger and the electric valve, the feeding amount can be adjusted by controlling the first electric feeding auger and the electric valve, so that the feeding is convenient, and the feeding amount can be conveniently controlled.

Drawings

FIG. 1 is a schematic view of a first embodiment of a feed apparatus for the production of glycidyl (R) -butyrate;

FIG. 2 is a top view of the first electric feeding auger;

FIG. 3 is a schematic view of a feed tube;

FIG. 4 is a schematic view of a second embodiment of a feed apparatus for preparing glycidyl (R) -butyrate;

FIG. 5 is a top view of the automatic feeding device;

reference numbers in the drawings:

reaction kettle 1, kettle body 1a, press from both sides cover 1b, motor 1c, reduction gear 1d, transmission shaft 1e, frame stirring part 1f, spiral stirring part 1g, inlet pipe 2, inlet pipe body 2a, transition pipe 2b, stock guide 2c, output tube 2d, support 3, wheel 3a, first support frame 4, frame supporting part 5, first electronic pay-off auger 6, first feeder hopper 7, first discharging pipe 8, transition hopper 9, second discharging pipe 10, motorised valve 11, second support frame 12, walking wheel 12a, second hopper 13, promotion pay-off auger 14, third discharging pipe 15.

Detailed Description

As shown in fig. 1 and fig. 2, the feeding device for preparing (R) -glycidyl butyrate comprises a reaction kettle 1 for receiving materials, a support 3, a support frame, a first electric feeding auger 6 and a transition hopper 9, and the structure of each part and each part is described in detail below:

the reaction kettle 1 comprises a kettle body 1a, a jacket 1b and a stirring device, wherein the jacket 1b is arranged on the peripheral surface of the kettle body 1a, the stirring device comprises a motor 1c, a speed reducer 1d, a transmission shaft 1e, a frame type stirring component 1f and a spiral stirring component 1g, the motor 1c is connected with the input end of the speed reducer 1d, the output end of the speed reducer 1d is connected with the transmission shaft 1e, the frame type stirring component 1f and the spiral stirring component 1g are respectively arranged on the transmission shaft 1e, the frame type stirring component 1f is U-shaped, the spiral stirring component 1g is positioned above the frame type stirring component 1f, the frame type stirring component 1f is positioned at the tail end of the transmission shaft 1e, the frame type stirring component 1f and the spiral stirring component 1g are mutually matched for use, the frame type stirring component 1f stirs materials positioned at the lower part of the kettle to mix the materials with the materials at the middle upper part in the kettle, the materials are uniformly mixed under the lifting and stirring action of 1g of the spiral stirring component.

The reaction kettle 1 is provided with a feeding pipe 2, materials are input into the kettle body 1a through the feeding pipe 2, and generally, the feeding pipe 2 is arranged on an end cover of the kettle body 1 a.

In this embodiment, the support frame comprises first support frame 4 and frame supporting part 5 fixed with first support frame 4, generally in the mill, there are a plurality of reation kettle 1, and these reation kettle 1 all need reinforced back can produce, in order to save the cost, need not make every reation kettle 1 all dispose one set of feeding device, consequently, in this embodiment, be provided with wheel 3a in the bottom of support 3, can be convenient for remove the support frame through wheel 3a, conveniently feed in raw material for arbitrary one reation kettle 1 that needs to feed in raw material like this.

The first support frame 4 is fixed with the support 3, and at least one part of the frame type support part 5 extends to the outer side of the support 3; first support frame 4 is fixed with support 3 through welding or bolt, and after the part of frame supporting part 5 extended to the outside of support 3, can avoid receiving support 3's interference when transition hopper 9 exports the material.

The first electric feeding auger 6 is supported by the first support frame 4 and fixed with the first support frame 4, one end of the first electric feeding auger 6 is provided with a first feed hopper 7, and the other end of the first electric feeding auger 6 is provided with a first discharge pipe 8; the material is input into the first feed hopper 7, and when the first electric feeding auger 6 works, the material entering the first electric feeding auger 6 from the first feed hopper 7 is pushed to the first discharge pipe 8 and finally is output from the first discharge pipe 8.

The first electric feeding auger 6 is composed of a first shell, a first pushing screw rod and a first motor, the first pushing screw rod is located in the first shell, two ends of the first pushing screw rod are respectively and rotatably arranged on the first shell, one end of the first pushing screw rod is connected with the first motor, the first motor drives the first pushing screw rod to rotate when working, and therefore the first pushing screw rod pushes materials to the first discharging pipe 8.

Transition hopper 9 is embraced by frame support portion 5, and transition hopper 9 passes behind frame support portion 5 and is embraced by frame support portion 5 to frame support portion 5 forms the supporting role to transition hopper 9. Transition hopper 9 is unsettled state, and transition hopper 9 supports the back through frame supporting part 5, forms the action of gravity to the one end of support frame, however, the utility model discloses in, because born first electronic pay-off auger 6 on first support frame 4, and first electronic pay-off auger 6 is at the other end of support frame, consequently, the weight of transition hopper 9 has been balanced to the weight of first electronic pay-off auger 6 for the holistic atress of support frame is even.

A second discharge pipe 10 is arranged on the transition hopper 9, an electric valve 11 is arranged on the second discharge pipe 10, and one end of the second discharge pipe 10 is matched with the feed pipe 2. The material output from the first discharge pipe 8 enters the transition hopper 9, then enters the feed pipe 2 through the second discharge pipe 10, and finally falls into the kettle body 1 a. At least one part of the inner bottom surface of the transition hopper 9 is an inclined surface, and under the action of the inclined surface, after materials enter the transition hopper 9, the materials automatically slide to the second discharge pipe 10, so that one part of the materials are prevented from being accumulated in the transition hopper 9. The electric valve 11 can control the on-off of the transition hopper 9 when inputting materials into the kettle body 1a, for example, in an emergency or when the materials do not need to be continuously fed, the electric valve 11 is closed, and at the moment, the corresponding materials still exist in the transition hopper 9.

The present invention is not limited to the structure of the above embodiment, for example:

as shown in fig. 3 and 4, in order to disperse the material entering the kettle 1a, the feeding pipe 2 includes a feeding pipe body 2a, a transition pipe 2b, a material guiding plate 2c and an output pipe 2d, the feeding pipe body 2a is fixed to the reaction kettle 1, one end of the feeding pipe body 2a extends into the reaction kettle 1 and is connected to the transition pipe 2b, the material guiding plate 2c is located in the transition pipe 2b, two ends of the material guiding plate 2c are respectively fixed to the transition pipe 2b, a middle portion of the material guiding plate 2c is higher and two ends are lower, preferably, the material guiding plate 2c is curved in an arc shape, an output port located on an upper side of an end portion of the material guiding plate 2c is arranged on a circumferential surface of the transition pipe 2b, and the output pipe 2d is connected to the transition pipe 2 b.

Through above-mentioned structure, entering into inlet pipe body 2a when the material and necessarily can falling on stock guide 2c, because stock guide 2c is the form that the high both ends in middle part are low, consequently, the material can the both ends of automatic smooth guide 2c on stock guide 2c, because the delivery outlet on the transition pipe 2b just is in stock guide 2c tip upside, consequently, the material passes through the delivery outlet, in output tube 2d automatic row cauldron body 1 a. Because can set up a plurality of delivery outlets on transition pipe 2b, just so, just can connect a plurality of output tubes 2d, consequently, the material is exported from each output tube 2d, just makes the material homodisperse come, not only helps alleviating agitating unit's burden, but also can make the stirring become even.

As shown in fig. 4 and 5, the automatic feeding device further comprises an automatic feeding device, the automatic feeding device comprises a second support frame 12, a second hopper 13, a lifting feeding auger 14 and a third discharging pipe 15, the second hopper 13 is fixed with the second support frame 12, one end of the lifting feeding auger 14 is matched with the second hopper 13, the lifting feeding auger 14 is in an inclined state with one end lower and the other end higher, one end of the third discharging pipe 15 is connected with the other end of the lifting feeding auger 14, and the other end of the third discharging pipe 15 is matched with the first feeding hopper 7.

Since the height of the kettle body 1a is usually higher than the height of the worker, the feeding becomes convenient by the transmission function of the automatic feeding device in order to supply the material to the first feeding hopper 7. When feeding, the material is poured into the second hopper 13, the lifting feeding auger 14 works, the material is lifted by the lifting feeding auger 14 and is output from the third discharge pipe 15 to reach the first feed hopper 7, and thus, no stairs are needed to be arranged for feeding the first feed hopper 7.

Because support 3 bottom is provided with wheel 3a, can be convenient for remove the support frame through wheel 3a, conveniently feed in raw material for arbitrary one reation kettle 1 that needs to feed in raw material like this, and automatic feed device is the equipment of using with support 3 is supporting, consequently, also sets up walking wheel 12a on second support frame 12 to be convenient for feed in raw material for needs reinforced reation kettle 1.

Finally, it should be noted that: the above embodiments are only preferred embodiments of the present invention to illustrate the technical solution of the present invention, not to limit the same, and not to limit the scope of the present invention; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention; in addition, will the technical scheme of the utility model direct or indirect application is in other relevant technical field, all including on the same reason the utility model discloses an in the patent protection scope.

Claims (5)

1. A feeding device for preparing (R) -glycidyl butyrate, including reation kettle (1) of receiving the material, be equipped with inlet pipe (2) on reation kettle (1), its characterized in that still includes:

a support (3);

the support frame consists of a first support frame (4) and a frame type support part (5) fixed with the first support frame (4), the first support frame (4) is fixed with the support (3), and at least one part of the frame type support part (5) extends to the outer side of the support (3);

the first electric feeding auger (6) is supported by the first support frame (4) and fixed with the first support frame (4); one end of the first electric feeding auger (6) is provided with a first feeding hopper (7), and the other end of the first electric feeding auger (6) is provided with a first discharging pipe (8);

transition hopper (9), transition hopper (9) are embraced by frame supporting part (5), are equipped with second discharging pipe (10) on transition hopper (9), are equipped with motorised valve (11) on second discharging pipe (10), and the one end and the inlet pipe (2) cooperation of second discharging pipe (10).

2. The charging installation for the preparation of glycidyl (R) -butyrate according to claim 1, characterized in that at least a part of the inner bottom surface of the transition hopper (9) is beveled.

3. The feeding device for preparing (R) -glycidyl butyrate according to claim 1, wherein the feeding tube (2) comprises a feeding tube body (2a), a transition tube (2b), a material guiding plate (2c) and an output tube (2d), the feeding tube body (2a) is fixed to the reaction kettle (1), one end of the feeding tube body (2a) extends into the reaction kettle (1) and is connected to the transition tube (2b), the material guiding plate (2c) is located in the transition tube (2b), two ends of the material guiding plate (2c) are respectively fixed to the transition tube (2b), the middle of the material guiding plate (2c) is high and two ends are low, an output port located on the upper side of the end of the material guiding plate (2c) is arranged on the circumferential surface of the transition tube (2b), and the output tube (2d) is connected to the transition tube (2 b).

4. The feeding apparatus for preparing glycidyl (R) -butyrate according to claim 3, wherein the guide plate (2c) is curved in an arc shape.

5. The charging device for preparing (R) -glycidyl butyrate according to claim 1, characterized by further comprising an automatic feeding device comprising:

a second support frame (12);

a second hopper (13), the second hopper (13) is fixed with a second supporting frame (12),

one end of the lifting feeding auger (14) is matched with the second hopper (13), and the lifting feeding auger (14) is in an inclined state with one lower end and the other higher end;

one end of the third discharging pipe (15) is connected with the other end of the lifting feeding auger (14), and the other end of the third discharging pipe (15) is matched with the first feeding hopper (7).

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