CN105384131A

CN105384131A - Filling equipment for energy-storing secondary refrigerants

Info

Publication number: CN105384131A
Application number: CN201510896829.9A
Authority: CN
Inventors: 徐�明
Original assignee: Tianjin Kebang Chemical Products Co Ltd
Current assignee: Kebang (Tianjin) High Tech Co.,Ltd.
Priority date: 2015-12-07
Filing date: 2015-12-07
Publication date: 2016-03-09
Anticipated expiration: 2035-12-07
Also published as: CN105384131B

Abstract

The invention belongs to the technical field of packaging equipment, and particularly relates to filling equipment for energy-storing secondary refrigerants. The filling equipment comprises a rack (1) and a horizontally-arranged conveying belt (2) which is mounted in the middle of the rack (1). According to the flowing direction of packaging bottles (9) on the conveying belt (2), filling devices (8), a capping device (7), cap screwing devices (5) and sealing devices (3) are sequentially arranged on the rack (1); the filling devices (8) are used for filling the multiple packaging bottles (9) at the same time and located at multiple stations, the capping device (7) is used for buckling bottle caps to mouths of the packaging bottles (9) when the packaging bottles (9) pass through the capping device (7), the cap screwing devices (5) are used for screwing the bottle caps of the packaging bottles (9) at the same time, and the sealing devices (3) are used for fixing the bottle caps and bottle bodies in a sealing mode. The filling equipment further comprises a material distributing and metering device (4) which is fixedly mounted on the top of the rack (1) and used for storing and metering the energy-storing secondary refrigerants and supplying the energy-storing secondary refrigerants to the filling devices (8).

Description

A kind of filling apparatus of energy storage secondary refrigerant

Technical field

The invention belongs to packaging facilities technical field, particularly relate to a kind of filling apparatus of energy storage secondary refrigerant.

Background technology

Energy storage secondary refrigerant is a kind of conventional cold and hot energy interchange agent, is widely used in the systems such as modern central air-conditioning.The production process of energy storage secondary refrigerant comprises the weighing of composition, mixing and the operation such as filling.Above-mentioned filling apparatus not rational in infrastructure in prior art, usual needs are by manually carrying out filling processing on S. A. canning line, reduce filling efficiency so undoubtedly, continous way cannot be realized and produce, and above-mentioned pouring process can not ensure the conformability of filling quality.

Summary of the invention

The present invention provides the filling apparatus of the energy storage secondary refrigerant that high, the filling conformability of high, the filling efficiency of a kind of degree of automation is good for solving in known technology the technical matters that exists.

The technical scheme that the present invention takes for the technical matters existed in solution known technology is: a kind of filling apparatus of energy storage secondary refrigerant comprises frame and is arranged on central rack, horizontally disposed load-transfer device, according to the Packaging Bottle flow direction on the conveyor belt, frame is disposed with for carrying out filling to multiple Packaging Bottle simultaneously, the filling apparatus of multistation, for each Packaging Bottle by time bottle cap is located in the capping device of bottleneck, for the tight lid arrangement that screws the bottle cap of multiple Packaging Bottle simultaneously and for by bottle cap and the fixing closing device of body sealing, also to comprise and be fixedly mounted on frame top, energy storage secondary refrigerant is stored and measured and the sub-material gauging device supplied to filling apparatus.

Advantage of the present invention and good effect are: the filling apparatus that the invention provides a kind of energy storage secondary refrigerant of reasonable in design, compared with existing semi-automation or manually-operated mode, the filling apparatus degree of automation of the technical program is high, except placing Packaging Bottle at the head end of load-transfer device, collecting operation by except manually carrying out at the tail end of load-transfer device, whole pouring process is without the need to artificial participation, Packaging Bottle completes filling, upper cover, tight lid and sealing successively, and filling efficiency is high.Because filling amount is by the unified regulation and control of sub-material gauging device, therefore filling conformability is good.

Preferably: filling apparatus comprises the installation transverse slat be fixedly mounted in frame, cylinder transverse slat being provided with along its length side by side multiple equidistant distribution is being installed, lifting base is installed with in the lower end of each cylinder piston rod, each lifting base is installed with vertical lifting material pipe by pressing plate, be installed with ring baffle in the lower end of each lifting material pipe, the upper end of each lifting material pipe is connected with sub-material gauging device by flexible pipe.

Preferably: be also provided with the crossbeam fixing with frame in the below of installing transverse slat, crossbeam is provided with the detection probe that multiple transverse direction is set up in parallel, each detection probe divides the below being positioned at each lifting material pipe.

Preferably: sub-material gauging device comprises barrel, multiple discharge pipe is provided with side by side in the bottom of barrel sidewall, be equipped with calibrate valve at the middle part of each discharge pipe, end is equipped with discharging and connects mouth, each discharging connects mouth is connected to each lifting material pipe upper end respectively by blanking flexible pipe.

Preferably: sub-material gauging device also comprises material pump, its import is connected to feeding box, its outlet is connected to by material loading pipeline the inlet point be opened on barrel.

Preferably: capping device comprises inclined guide groove that lifted by lifting plate, U-shaped cross section, is provided with vertical bar hole at the middle part of lifting plate and is fixedly mounted in frame by the binding bolt being positioned at this bar hole; Be installed with spacing side plate in the both sides of inclined guide groove front bottom end, be all installed with the leading support forwards extended in the front portion of two spacing side plates, be installed with the crimping reed forwards extended in the front end of inclined guide groove.

Preferably: tight lid arrangement comprises the installation transverse slat be fixedly mounted in frame, cylinder transverse slat being provided with along its length side by side multiple equidistant distribution is being installed, lifting base is installed with in the lower end of each cylinder piston rod, each lifting base is installed with motor, in the lower end of the motor shaft of each motor, gland termination is all installed.

Preferably: be also included in the process of bottle cap screwing and laterally fixing pinch device is carried out to Packaging Bottle, pinch device comprises and holds out against cylinder, be installed with vertical push pedal in the inner of top cylinder piston rod, the length direction of push pedal is parallel to the direction of load-transfer device operation.

Preferably: closing device comprises the installation transverse slat be fixedly mounted in frame, cylinder transverse slat being provided with along its length side by side multiple equidistant distribution is being installed, be installed with vortex generator in the lower end of each cylinder piston rod, be all installed with button cover in the bottom of each vortex generator.

Preferably: also comprise the air pump be fixedly mounted in frame, be each cylinders providing power compressed gas.

Accompanying drawing explanation

Fig. 1 is main TV structure schematic diagram of the present invention;

Fig. 2 is the main TV structure schematic diagram of closing device in Fig. 1;

Fig. 3 is the main TV structure schematic diagram of sub-material gauging device in Fig. 1;

Fig. 4 is the main TV structure schematic diagram of tight lid arrangement in Fig. 1;

Fig. 5 is the main TV structure schematic diagram of capping device in Fig. 1;

Fig. 6 is the main TV structure schematic diagram of filling apparatus in Fig. 1;

In figure: 1, frame; 2, load-transfer device; 3, closing device; 3-1, installation transverse slat; 3-2, cylinder; 3-3, vortex generator; 3-4, button cover; 4, sub-material gauging device; 4-1, barrel; 4-2, material pump; 4-3, material loading pipeline; 4-4, calibrate valve; 4-5, discharge pipe; 4-6, discharging connect mouth; 4-7, blanking flexible pipe; 5, tight lid arrangement; 5-1, installation transverse slat; 5-2, motor; 5-3, gland termination; 5-4, cylinder; 5-5, lifting base; 6, pinch device; 7, capping device; 7-1, lifting plate; 7-2, inclined guide groove; 7-3, binding bolt; 7-4, crimping reed; 7-5, leading support; 7-6, spacing side plate; 8, filling apparatus; 8-1, installation transverse slat; 8-2, pressing plate; 8-3, lifting material pipe; 8-4, cylinder; 8-5, lifting base; 8-6, ring baffle; 9, Packaging Bottle; 10, air pump.

Detailed description of the invention

For summary of the invention of the present invention, Characteristic can be understood further, hereby lift following examples and be described in detail as follows:

Refer to Fig. 1, the present invention includes frame 1 and be arranged in the middle part of frame 1, horizontally disposed load-transfer device 2, Packaging Bottle 9 is put into by the head end of load-transfer device 2, complete filling upper cover and collected by the end of load-transfer device after sealing.

According to the flow direction of Packaging Bottle 9 on load-transfer device 2, frame 1 is disposed with lower device:

For carrying out filling apparatus 8 that is filling, multistation to multiple Packaging Bottle 9 simultaneously; For each Packaging Bottle 9 by time bottle cap is located in the capping device 7 of bottleneck; For the tight lid arrangement 5 that screws the bottle cap of multiple Packaging Bottle 9 simultaneously and for by bottle cap and the fixing closing device 3 of body sealing; Also comprise be fixedly mounted on frame 1 top, energy storage secondary refrigerant is stored and is measured, and to filling apparatus supply sub-material gauging device 4.

Fig. 6 is the concrete structure figure of filling apparatus 8, can find out: filling apparatus 8 comprises the installation transverse slat 8-1 be fixedly mounted in frame 1, cylinder 8-4 transverse slat 8-1 being provided with along its length side by side multiple equidistant distribution is being installed, lifting base 8-5 is installed with in the lower end of each cylinder 8-4 piston rod, each lifting base 8-5 is installed with vertical lifting material pipe 8-3 by pressing plate 8-2, be installed with ring baffle 8-6 in the lower end of each lifting material pipe 8-3, the upper end of each lifting material pipe 8-3 is connected with sub-material gauging device 4 by flexible pipe.

Each lifting material pipe 8-3 is flowed to by multiple pipe passage after energy storage secondary refrigerant measures by sub-material gauging device 4, under the driving effect of cylinder 8-4, lifting material pipe 8-3 vertical lifting, when falling, its lower end is inserted in the bottleneck of Packaging Bottle 9, and ring baffle 8-6 is pressed on bottleneck upper limb and prevents content from spilling.The fill operations of above-mentioned each Packaging Bottle 9 is synchronously carried out, i.e. each cylinder 8-4 synchronization action.

In the present embodiment, in order to bottleneck is accurately inserted without barrier in the lower end of accurately locating, making lifting material pipe 8-3 to each Packaging Bottle 9, the crossbeam fixing with frame 1 is also provided with in the below of installing transverse slat 8-1, crossbeam is provided with the detection probe that multiple transverse direction is set up in parallel, each detection probe divides the below being positioned at each lifting material pipe 8-3, just can start fill operations when controller only receives the signal in place of the Packaging Bottle 9 that all detection probe send.

Fig. 3 is the structural representation of sub-material gauging device 4, can find out: sub-material gauging device 4 comprises barrel 4-1, multiple discharge pipe 4-5 is provided with side by side in the bottom of barrel 4-1 sidewall, be equipped with calibrate valve 4-4 at the middle part of each discharge pipe 4-5, end is equipped with discharging and meets mouth 4-6, each discharging connects mouth 4-6 is connected to each lifting material pipe 8-3 upper end respectively by blanking flexible pipe 4-7.

In the present embodiment, sub-material gauging device 4 also comprises material pump 4-2, and its import is connected to feeding box, its outlet is connected to by material loading pipeline 4-3 the inlet point be opened on barrel 4-1.Material pump 4-2 stores carrying out a high position in energy storage coolant pump feeding cylinder 4-1, and each high-precision calibrate valve 4-4 carries out accurate measurement to the single flow in respective discharge pipe 4-5, and this single flow is the filling flow of single.

Fig. 5 is the structural representation of capping device 7, can find out: capping device 7 comprises inclined guide groove 7-2 that lifted by lifting plate 7-1, U-shaped cross section, is provided with vertical bar hole at the middle part of lifting plate 7-1 and is fixedly mounted in frame 1 by the binding bolt 7-3 being positioned at this bar hole; Be installed with spacing side plate 7-6 in the both sides of inclined guide groove 7-2 front bottom end, be all installed with the leading support 7-5 forwards extended in the front portion of two spacing side plate 7-6, be installed with the crimping reed 7-4 forwards extended in the front end of inclined guide groove 7-2.

In working process, bottle cap continues by external device for feeding caps the inclined guide groove 7-2 being supplied to capping device 7, namely bottle cap slides between crimping reed 7-4 and leading support 7-5 along inclined guide groove 7-2, when Packaging Bottle 9 bottleneck by inclined guide groove 7-2 two spacing side plate 7-6 between through out-of-date, bottle cap overlap joint to be connected on bottleneck and to move forward into tight lid arrangement 5 with Packaging Bottle 9 and completes screwing of bottle cap.

Fig. 4 is the structural representation of tight lid arrangement 5, can find out: tight lid arrangement 5 comprises the installation transverse slat 5-1 be fixedly mounted in frame 1, cylinder 5-4 transverse slat 5-1 being provided with along its length side by side multiple equidistant distribution is being installed, lifting base 5-5 is installed with in the lower end of each cylinder 5-4 piston rod, each lifting base 5-5 is installed with motor 5-2, in the lower end of the motor shaft of each motor 5-2, gland termination 5-3 is all installed.Cylinder 5-4 controls motor 5-2 lifting, and when falling, gland termination 5-3 is crimped on the bottle cap at each Packaging Bottle 9 top, and motor 5-2 drives gland termination 5-3 to rotate, and bottle cap screws at bottleneck thereupon.

In the present embodiment, fixing to prevent Packaging Bottle 9 from rotating thereupon to carry out transverse direction to Packaging Bottle 9 in the process of bottle cap screwing, pinch device 6 can also be set in the below of tight lid arrangement 5.Pinch device 6 comprises and holds out against cylinder, is installed with vertical push pedal in the inner of top cylinder piston rod, and the length direction of push pedal is parallel to the direction that load-transfer device 2 runs.In the process of spiral cover, hold out against cylinder and by push pedal, each Packaging Bottle 9 is held out against fixing, decontrol again after spiral cover completes.

Fig. 2 is the structural representation of closing device 3, can find out: closing device 3 comprises the installation transverse slat 3-1 be fixedly mounted in frame 1, cylinder 3-2 transverse slat 3-1 being provided with along its length side by side multiple equidistant distribution is being installed, be installed with vortex generator 3-3 in the lower end of each cylinder 3-2 piston rod, be all installed with button cover 3-4 in the bottom of each vortex generator 3-3.

Cylinder 3-2 controlled vortex flow producer 3-3 and button cover 3-4 lifting, when falling, button cover 3-4 be located on bottle cap, and vortex generator 3-3 loading current, is cooled after being made the linings melt in bottle cap again, complete sealing by electromagnetic induction principle.

The compressed gas of each cylinder can be supplied by compressed gas pipeline.In order to promote the alerting ability of final assembly and operation, in the present embodiment, also comprise the air pump 10 be fixedly mounted in frame 1, air pump 10 is each cylinders providing power compressed gas.

Claims

1. the filling apparatus of an energy storage secondary refrigerant, it is characterized in that: comprise frame (1) and be arranged in the middle part of frame (1), horizontally disposed load-transfer device (2), according to the flow direction of Packaging Bottle (9) on load-transfer device (2), frame (1) is disposed with for carrying out filling to multiple Packaging Bottle (9) simultaneously, the filling apparatus (8) of multistation, for each Packaging Bottle (9) by time bottle cap is located in the capping device (7) of bottleneck, for the tight lid arrangement (5) that screws the bottle cap of multiple Packaging Bottle (9) simultaneously and for by bottle cap and the fixing closing device (3) of body sealing, also comprise and be fixedly mounted on frame (1) top, energy storage secondary refrigerant is stored and measured and the sub-material gauging device (4) supplied to filling apparatus (8).

2. the filling apparatus of energy storage secondary refrigerant as claimed in claim 1, it is characterized in that: filling apparatus (8) comprises the installation transverse slat (8-1) be fixedly mounted in frame (1), the cylinder (8-4) transverse slat (8-1) being provided with along its length side by side multiple equidistant distribution is being installed, lifting base (8-5) is installed with in the lower end of each cylinder (8-4) piston rod, each lifting base (8-5) is installed with vertical lifting material pipe (8-3) by pressing plate (8-2), ring baffle (8-6) is installed with in the lower end of each lifting material pipe (8-3), the upper end of each lifting material pipe (8-3) is connected with sub-material gauging device (4) by flexible pipe.

3. the filling apparatus of energy storage secondary refrigerant as claimed in claim 2, it is characterized in that: be also provided with the crossbeam fixing with frame (1) in the below of installing transverse slat (8-1), crossbeam is provided with the detection probe that multiple transverse direction is set up in parallel, and each detection probe divides the below being positioned at each lifting material pipe (8-3).

4. the filling apparatus of energy storage secondary refrigerant as claimed in claim 2, it is characterized in that: sub-material gauging device (4) comprises barrel (4-1), multiple discharge pipe (4-5) is provided with side by side in the bottom of barrel (4-1) sidewall, be equipped with calibrate valve (4-4) at the middle part of each discharge pipe (4-5), end is equipped with discharging and connects mouth (4-6), each discharging connects mouth (4-6) is connected to each lifting material pipe (8-3) upper end respectively by blanking flexible pipe (4-7).

5. the filling apparatus of energy storage secondary refrigerant as claimed in claim 4, it is characterized in that: sub-material gauging device (4) also comprises material pump (4-2), and its import is connected to feeding box, its outlet is connected to by material loading pipeline (4-3) inlet point be opened on barrel (4-1).

6. the filling apparatus of energy storage secondary refrigerant as claimed in claim 1, it is characterized in that: capping device (7) comprises inclined guide groove (7-2) that lifted by lifting plate (7-1), U-shaped cross section, is provided with vertical bar hole at the middle part of lifting plate (7-1) and is fixedly mounted in frame (1) by the binding bolt (7-3) being positioned at this bar hole; Spacing side plate (7-6) is installed with in the both sides of inclined guide groove (7-2) front bottom end, all be installed with the leading support (7-5) forwards extended in the front portion of two spacing side plates (7-6), be installed with the crimping reed (7-4) forwards extended in the front end of inclined guide groove (7-2).

7. the filling apparatus of energy storage secondary refrigerant as claimed in claim 1, it is characterized in that: tight lid arrangement (5) comprises the installation transverse slat (5-1) be fixedly mounted in frame (1), the cylinder (5-4) transverse slat (5-1) being provided with along its length side by side multiple equidistant distribution is being installed, lifting base (5-5) is installed with in the lower end of each cylinder (5-4) piston rod, each lifting base (5-5) is installed with motor (5-2), in the lower end of each motor (5-2) motor shaft, gland termination (5-3) is all installed.

8. the filling apparatus of energy storage secondary refrigerant as claimed in claim 7, it is characterized in that: be also included in the process of bottle cap screwing and laterally fixing pinch device (6) is carried out to Packaging Bottle (9), pinch device (6) comprises and holds out against cylinder, be installed with vertical push pedal in the inner of top cylinder piston rod, the length direction of push pedal is parallel to the direction of load-transfer device operation.

9. the filling apparatus of energy storage secondary refrigerant as claimed in claim 1, it is characterized in that: closing device (3) comprises the installation transverse slat (3-1) be fixedly mounted in frame (1), the cylinder (3-2) transverse slat (3-1) being provided with along its length side by side multiple equidistant distribution is being installed, be installed with vortex generator (3-3) in the lower end of each cylinder (3-2) piston rod, be all installed with button cover (3-4) in the bottom of each vortex generator (3-3).

10. the filling apparatus of the energy storage secondary refrigerant as described in any one of claim 2 to 9, is characterized in that: also comprise the air pump (10) be fixedly mounted in frame (1), is each cylinders providing power compressed gas.